==>runtrx start: date:  Thu Jun 19 01:22:58 EDT 2025 ( mccune019.pppl.gov )
argv = 2
iarg = 2
cmd_opt  = run
runtrx: tok.yy = D3D.20
==========(runtrx)======================
date:  Thu Jun 19 01:22:58 EDT 2025 ( mccune019.pppl.gov )
args:  198927D05 run
==========(runtrx)======================
==========(runtrx)======================
==========TRANSP link & load============
==========(runtrx)======================
date:  Thu Jun 19 01:22:58 EDT 2025 ( mccune019.pppl.gov )
--> copy_expert_for: standard expert source copied to: 198927D05ex.for
--> copy_expert_for: up-to-date expert object copied to: 198927D05ex.o
 **** uplink 198927D05tr nolib
check_xlibvars: setenv L_NAG (null)
check_xlibvars: setenv L_MDESCR (null)
check_xlibvars: setenv LMPI_FRANTIC(null)
make: `/local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05ex.o' is up to date.
csh -f /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05tr.sh
csh/linkload detected:  C++ libraries requirement with f90 linkage
==>runtrx:  TRANSP link successful
==========(runtrx)======================
==========TRANSP execution==============
date:  Thu Jun 19 01:23:13 EDT 2025 ( mccune019.pppl.gov )
==========(runtrx)======================
runtrx: Check File System
  %trmpi_init.f90: LOG_LEVEL env. var.: 1
  %trmpi_init.f90: logfile_level: warn
  !trmpi_init.f90 (rank 0): MAX_MPI_INT_BLOCK environment variable: undefined. D
 efault value will be used.
  !trmpi_init.f90 (rank 0): MAX_MPI_R8_BLOCK environment variable: undefined. De
 fault value will be used.
 ENTER TRANSP RUN ID, APPEND "R" FOR RESTART:
 %trmpi_openlog: LOGFILE_LEVEL = warn
     DATE:  Thu Jun 19 01:23:13 2025
 
  TRANSP Version: 24.0.1
  TRANSP DOI: 10.11578/dc.20180627.4
  Build Date: 2023/10/21
 
 
  
 namelist element value field(s): decimal point(s) inserted:
   PDELTA                               FOCLRA                                 
   FOCLZA                               DTMINT                                 
   DTMING                               XUSEBPB                                
     %NLIST: open namelist file198927D05TR.ZDA             
 %trcom_static_box: loading static data
  %trgdat: NLBCCW= T  from PH.CDF file
  %trgdat: NLJCCW= T  from PH.CDF file
  %trcom_allocate: reallocate: RLIM_PTS
  %trcom_allocate: reallocate: YLIM_PTS
  %trgdat: NMOM=          16
 %trmpi_set_numprocs: serial TRANSP w/MPI subprocess numprocs=     1.
   from translation of env. var. "TRANSP_NPROCS".
   env. var. character value: " 1".
  
  ************************** 
  **** TRANSP SERIAL MODE: **** 
  ************************** 
  %datchk: time dependent output resolution
  (sedit,stedit vs. time: "DTX") detected.
  %datchk: time dependent geometry timestep (dtmaxg vs. time: "DTG") detected.
  %datchk: time dependent source timestep (dt_sources vs. time: "DTS") detected.
 %datchk:  NLFBM set to .TRUE., no option.
  %DATCHK: full equilibrium input 
 DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC
  %DATCHK: NYXINV incremented to be odd:         101         161
  %DATCKA: ACfile times pre-screen... 
 %DATCKA -- CHECKING NON-DEFAULT SPECIFICATIONS FOR AC FILE I/O
  GIVEN IN NAMELIST CHARACTER DATA ARRAYS "SELOUT" AND "SELAVG"
 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY.
 %LH_ONOFF: LH on/off times (s):   4.2000E+00  4.3047E+00
 %EC_ONOFF: ECH on/off times (s):   1.0005E+00  5.0049E+00
  %ICRF_ONOFF: no ICRF on/off times found.
 %NB_ONOFF: NBI on/off times (s):   1.9980E-01  5.0250E+00
  ps_init_tag: Plasma State v3.000 f90 module initialization.
 AUXVAL-- INITITIALIZE shared data structures.
  %DATCKA: ACfile times pre-screen... 
  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init
 MCINIT: RANDOM NUMBER GEN INITIALIZED -            99876817             99876817
  %tabort_update: no namelist TABORT requests after t=  0.305000000000000     
 AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM
 AUXVAL-- INITIALIZE TEMPERATURE AND DENSITY PROFILES
 AUXVAL-- GEOMETRY INITIALIZATION PART 2.
  GFRAM0: bdy curvature ratio OK at t= 3.1500E-01 seconds:  4.8686E-02
  GFRAM0: bdy curvature ratio OK at t= 3.0500E-01 seconds:  4.8686E-02
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02
 %treqbox_init_tr: clearing eqbox and loading tr attributes
 %treqbox_init_psirz: loading iso attributes for isolver psi(R,Z) analysis

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.8930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
  %get_rygrid: no grids for Psi(R,Y)
  dmg_datbuf_expand call from dmgini_sized: isize=           0
  ...reading TF.PLN header data...
  ----------------------- 
  %frantic_sorce1 -- resolution increased:
   previous:           20 ; now:           50
   minimum resolution = min(50,nzones)
  ----------------------- 
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      0
 TA= 2.05000E-01 CPU TIME= 1.19310E-01 SECONDS.  DT= 1.00000E-03
 %INITAL:  pseudo time advanced to  2.060000E-01
 %INITAL:  pseudo time advanced to  2.072500E-01
 %INITAL:  pseudo time advanced to  2.088125E-01
 %INITAL:  pseudo time advanced to  2.107656E-01
 %INITAL:  pseudo time advanced to  2.132070E-01
 %INITAL:  pseudo time advanced to  2.162588E-01
 %INITAL:  pseudo time advanced to  2.200735E-01
 %INITAL:  pseudo time advanced to  2.248419E-01
 %INITAL:  pseudo time advanced to  2.308023E-01
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  7.9760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      0
 TA= 2.30802E-01 CPU TIME= 1.12884E-01 SECONDS.  DT= 7.45058E-03
 %INITAL:  pseudo time advanced to  2.382529E-01
 %INITAL:  pseudo time advanced to  2.475661E-01
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      0
 TA= 2.47566E-01 CPU TIME= 1.20161E-01 SECONDS.  DT= 9.90000E-03
 %INITAL:  pseudo time advanced to  2.574661E-01
 %INITAL:  pseudo time advanced to  2.673661E-01
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.7980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
% MHDEQ: TG1=     0.305000 ; TG2=     0.315000 ; DTG=  1.000E-02

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      0
 TA= 2.67366E-01 CPU TIME= 1.20024E-01 SECONDS.  DT= 9.90000E-03
 %INITAL:  pseudo time advanced to  2.772661E-01
 %INITAL:  pseudo time advanced to  2.871661E-01
 %INITAL:  pseudo time advanced to  2.970661E-01
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
 sce_equil_init:
    Equilibration feature not active (noption_equil <= 0 in namelist).
  
 cpu time (sec) in nubeam_ctrl_init:   1.3900E-03
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            0
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
 % nbi_alloc2_init: nbi_alloc2 done
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   6.999999996537554E-006
  %neutrals: BOTH beam halo and recombination sources are present.
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      1
 TA= 3.05000E-01 CPU TIME= 1.58594E-01 SECONDS.  DT= 9.90000E-03
  %check_save_state: SLURM_JOB_ID = 6945399
  %check_save_state: QSHARE=
 /p/transpgrid/qshare                                                           
                                          
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =   9.740833332898546E-003
  %check_save_state: izleft hours =    79.9819444444445     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  3.0500000E-01

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.526E+03 MB.

 --> plasma_hash("gframe"): TA= 3.050000E-01 NSTEP=     1 Hash code:  103610383
 ->PRGCHK: bdy curvature ratio at t= 3.1000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.305000 ; TG2=     0.310000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.305000 TO TG2=    0.310000 @ NSTEP        1
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  GASFL called from sbrtn pbal
  GASFL called from sbrtn pbal
  GASFL called from sbrtn pbal
  GASFL called from sbrtn pbal
  %nclass_geometry: Allocating module variables
  %nclass_geometry_mod: replacing geometry module variables in the ncbox
  %nclass_driver: Allocating module variables
  %nclass_driver_mod: replacing geometry module variables in the ncbox
  %nclass_geometry: Deallocating module variables
  %nclass_geometry: Allocating module variables
  %nclass_geometry_mod: replacing geometry module variables in the ncbox
  %nclass_driver: Deallocating module variables
  %nclass_driver: Allocating module variables
  %nclass_driver_mod: replacing geometry module variables in the ncbox
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.00403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.00403E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
  %neutrals: BOTH beam halo and recombination sources are present.
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      3
 TA= 3.10000E-01 CPU TIME= 1.62332E-01 SECONDS.  DT= 2.75209E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   1.866388888856818E-002
  %check_save_state: izleft hours =    79.9727777777778     
 --> plasma_hash("gframe"): TA= 3.100000E-01 NSTEP=     3 Hash code:  113918550
 ->PRGCHK: bdy curvature ratio at t= 3.1500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.310000 ; TG2=     0.315000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.310000 TO TG2=    0.315000 @ NSTEP        3
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
  %neutrals: BOTH beam halo and recombination sources are present.
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=      6
 TA= 3.15000E-01 CPU TIME= 1.80005E-01 SECONDS.  DT= 1.29860E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   2.808444444417546E-002
  %check_save_state: izleft hours =    79.9633333333333     
 --> plasma_hash("gframe"): TA= 3.150000E-01 NSTEP=     6 Hash code:   76036359
 ->PRGCHK: bdy curvature ratio at t= 3.2000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.315000 ; TG2=     0.320000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.315000 TO TG2=    0.320000 @ NSTEP        6
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.21424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.21424E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000020847438E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     10
 TA= 3.20000E-01 CPU TIME= 1.59067E-01 SECONDS.  DT= 6.13792E-05
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   3.705333333300587E-002
  %check_save_state: izleft hours =    79.9544444444444     
 --> plasma_hash("gframe"): TA= 3.200000E-01 NSTEP=    10 Hash code:   11833467
 ->PRGCHK: bdy curvature ratio at t= 3.2500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.320000 ; TG2=     0.325000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.320000 TO TG2=    0.325000 @ NSTEP       10
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     24
 TA= 3.25000E-01 CPU TIME= 1.60343E-01 SECONDS.  DT= 9.74487E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   4.634833333307142E-002
  %check_save_state: izleft hours =    79.9452777777778     
 --> plasma_hash("gframe"): TA= 3.250000E-01 NSTEP=    24 Hash code:   33380677
 ->PRGCHK: bdy curvature ratio at t= 3.3000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.325000 ; TG2=     0.330000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.325000 TO TG2=    0.330000 @ NSTEP       24
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.22242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.22242E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     28
 TA= 3.30000E-01 CPU TIME= 1.61005E-01 SECONDS.  DT= 1.60596E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   5.590944444452361E-002
  %check_save_state: izleft hours =    79.9352777777778     
 --> plasma_hash("gframe"): TA= 3.300000E-01 NSTEP=    28 Hash code:    5023492
 ->PRGCHK: bdy curvature ratio at t= 3.3500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.330000 ; TG2=     0.335000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2040E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.330000 TO TG2=    0.335000 @ NSTEP       28
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000020847438E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     31
 TA= 3.35000E-01 CPU TIME= 1.59848E-01 SECONDS.  DT= 1.73324E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   6.596888888884678E-002
  %check_save_state: izleft hours =    79.9252777777778     
 --> plasma_hash("gframe"): TA= 3.350000E-01 NSTEP=    31 Hash code:   84266218
 ->PRGCHK: bdy curvature ratio at t= 3.4000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.335000 ; TG2=     0.340000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.335000 TO TG2=    0.340000 @ NSTEP       31
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.22242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.22242E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000020847438E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     34
 TA= 3.40000E-01 CPU TIME= 1.61965E-01 SECONDS.  DT= 1.37526E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   7.829638888892987E-002
  %check_save_state: izleft hours =    79.9133333333333     
 --> plasma_hash("gframe"): TA= 3.400000E-01 NSTEP=    34 Hash code:  115430467
 ->PRGCHK: bdy curvature ratio at t= 3.4500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.340000 ; TG2=     0.345000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.340000 TO TG2=    0.345000 @ NSTEP       34
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     37
 TA= 3.45000E-01 CPU TIME= 1.63368E-01 SECONDS.  DT= 2.38208E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   8.738027777781099E-002
  %check_save_state: izleft hours =    79.9041666666667     
 --> plasma_hash("gframe"): TA= 3.450000E-01 NSTEP=    37 Hash code:  119934402
 ->PRGCHK: bdy curvature ratio at t= 3.5000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.345000 ; TG2=     0.350000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.345000 TO TG2=    0.350000 @ NSTEP       37
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.35099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.35099E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     39
 TA= 3.50000E-01 CPU TIME= 1.59772E-01 SECONDS.  DT= 3.27240E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   9.744833333297720E-002
  %check_save_state: izleft hours =    79.8941666666667     
 --> plasma_hash("gframe"): TA= 3.500000E-01 NSTEP=    39 Hash code:    5994341
 ->PRGCHK: bdy curvature ratio at t= 3.5500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.350000 ; TG2=     0.355000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.5805E-02 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.350000 TO TG2=    0.355000 @ NSTEP       39
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     41
 TA= 3.55000E-01 CPU TIME= 1.59306E-01 SECONDS.  DT= 2.15950E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.106966111110751     
  %check_save_state: izleft hours =    79.8847222222222     
 --> plasma_hash("gframe"): TA= 3.550000E-01 NSTEP=    41 Hash code:   66490054
 ->PRGCHK: bdy curvature ratio at t= 3.6000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.355000 ; TG2=     0.360000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.355000 TO TG2=    0.360000 @ NSTEP       41
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.27752E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.27752E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     44
 TA= 3.60000E-01 CPU TIME= 1.58920E-01 SECONDS.  DT= 1.76418E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.115798888888548     
  %check_save_state: izleft hours =    79.8758333333333     
 --> plasma_hash("gframe"): TA= 3.600000E-01 NSTEP=    44 Hash code:   42236238
 ->PRGCHK: bdy curvature ratio at t= 3.6500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.360000 ; TG2=     0.365000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2730E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.360000 TO TG2=    0.365000 @ NSTEP       44
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     54
 TA= 3.65000E-01 CPU TIME= 1.59888E-01 SECONDS.  DT= 5.60005E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.124717222221989     
  %check_save_state: izleft hours =    79.8669444444444     
 --> plasma_hash("gframe"): TA= 3.650000E-01 NSTEP=    54 Hash code:   33740353
 ->PRGCHK: bdy curvature ratio at t= 3.7000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.365000 ; TG2=     0.370000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.365000 TO TG2=    0.370000 @ NSTEP       54
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.11222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.11222E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     60
 TA= 3.70000E-01 CPU TIME= 1.58933E-01 SECONDS.  DT= 5.05028E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.133809166666197     
  %check_save_state: izleft hours =    79.8577777777778     
 --> plasma_hash("gframe"): TA= 3.700000E-01 NSTEP=    60 Hash code:   12909182
 ->PRGCHK: bdy curvature ratio at t= 3.7500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.370000 ; TG2=     0.375000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.370000 TO TG2=    0.375000 @ NSTEP       60
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000049269147E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     66
 TA= 3.75000E-01 CPU TIME= 1.60008E-01 SECONDS.  DT= 1.06902E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.147079722222315     
  %check_save_state: izleft hours =    79.8444444444444     
 --> plasma_hash("gframe"): TA= 3.750000E-01 NSTEP=    66 Hash code:   77237570
 ->PRGCHK: bdy curvature ratio at t= 3.8000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.375000 ; TG2=     0.380000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.375000 TO TG2=    0.380000 @ NSTEP       66
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.08567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.08567E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     70
 TA= 3.80000E-01 CPU TIME= 1.45785E-01 SECONDS.  DT= 1.15545E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.159548888888594     
  %check_save_state: izleft hours =    79.8319444444444     
 --> plasma_hash("gframe"): TA= 3.800000E-01 NSTEP=    70 Hash code:   49244413
 ->PRGCHK: bdy curvature ratio at t= 3.8500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.380000 ; TG2=     0.385000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.380000 TO TG2=    0.385000 @ NSTEP       70
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     74
 TA= 3.85000E-01 CPU TIME= 1.45856E-01 SECONDS.  DT= 7.43541E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.172088055555378     
  %check_save_state: izleft hours =    79.8194444444444     
 --> plasma_hash("gframe"): TA= 3.850000E-01 NSTEP=    74 Hash code:   35566405
 ->PRGCHK: bdy curvature ratio at t= 3.9000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.385000 ; TG2=     0.390000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.385000 TO TG2=    0.390000 @ NSTEP       74
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.86527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.86527E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     79
 TA= 3.90000E-01 CPU TIME= 1.63454E-01 SECONDS.  DT= 8.91275E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.184439999999540     
  %check_save_state: izleft hours =    79.8072222222222     
 --> plasma_hash("gframe"): TA= 3.900000E-01 NSTEP=    79 Hash code:   10787501
 ->PRGCHK: bdy curvature ratio at t= 3.9500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.390000 ; TG2=     0.395000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.390000 TO TG2=    0.395000 @ NSTEP       79
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     83
 TA= 3.95000E-01 CPU TIME= 1.64113E-01 SECONDS.  DT= 2.00252E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.195108333333337     
  %check_save_state: izleft hours =    79.7963888888889     
 --> plasma_hash("gframe"): TA= 3.950000E-01 NSTEP=    83 Hash code:   79033077
 ->PRGCHK: bdy curvature ratio at t= 4.0000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.395000 ; TG2=     0.400000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.395000 TO TG2=    0.400000 @ NSTEP       83
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.86527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.86527E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     86
 TA= 4.00000E-01 CPU TIME= 1.81667E-01 SECONDS.  DT= 6.17926E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.205801111111214     
  %check_save_state: izleft hours =    79.7858333333333     
 --> plasma_hash("gframe"): TA= 4.000000E-01 NSTEP=    86 Hash code:   13775980
 ->PRGCHK: bdy curvature ratio at t= 4.0500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.400000 ; TG2=     0.405000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.400000 TO TG2=    0.405000 @ NSTEP       86
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     91
 TA= 4.05000E-01 CPU TIME= 1.59381E-01 SECONDS.  DT= 1.79659E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.218228333332945     
  %check_save_state: izleft hours =    79.7733333333333     
 --> plasma_hash("gframe"): TA= 4.050000E-01 NSTEP=    91 Hash code:   83010566
 ->PRGCHK: bdy curvature ratio at t= 4.1000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.405000 ; TG2=     0.410000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.405000 TO TG2=    0.410000 @ NSTEP       91
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.47956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.47956E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     94
 TA= 4.10000E-01 CPU TIME= 1.60409E-01 SECONDS.  DT= 1.19709E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.227310277777178     
  %check_save_state: izleft hours =    79.7641666666667     
 --> plasma_hash("gframe"): TA= 4.100000E-01 NSTEP=    94 Hash code:  109963463
 ->PRGCHK: bdy curvature ratio at t= 4.1500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.410000 ; TG2=     0.415000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.410000 TO TG2=    0.415000 @ NSTEP       94
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=     98
 TA= 4.15000E-01 CPU TIME= 1.59393E-01 SECONDS.  DT= 5.45110E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.236384444444184     
  %check_save_state: izleft hours =    79.7552777777778     
 --> plasma_hash("gframe"): TA= 4.150000E-01 NSTEP=    98 Hash code:   24721539
 ->PRGCHK: bdy curvature ratio at t= 4.2000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.415000 ; TG2=     0.420000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.415000 TO TG2=    0.420000 @ NSTEP       98
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.77343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.77343E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    104
 TA= 4.20000E-01 CPU TIME= 1.58632E-01 SECONDS.  DT= 6.57827E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.248581944444595     
  %check_save_state: izleft hours =    79.7430555555556     
 --> plasma_hash("gframe"): TA= 4.200000E-01 NSTEP=   104 Hash code:   39883694
 ->PRGCHK: bdy curvature ratio at t= 4.2500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.420000 ; TG2=     0.425000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.420000 TO TG2=    0.425000 @ NSTEP      104
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    109
 TA= 4.25000E-01 CPU TIME= 1.58393E-01 SECONDS.  DT= 1.50902E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.259297500000002     
  %check_save_state: izleft hours =    79.7322222222222     
 --> plasma_hash("gframe"): TA= 4.250000E-01 NSTEP=   109 Hash code:  114360891
 ->PRGCHK: bdy curvature ratio at t= 4.3000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.425000 ; TG2=     0.430000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0260E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.425000 TO TG2=    0.430000 @ NSTEP      109
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.03057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.03057E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    112
 TA= 4.30000E-01 CPU TIME= 1.61914E-01 SECONDS.  DT= 2.00587E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.270058333333054     
  %check_save_state: izleft hours =    79.7213888888889     
 --> plasma_hash("gframe"): TA= 4.300000E-01 NSTEP=   112 Hash code:  101770139
 ->PRGCHK: bdy curvature ratio at t= 4.3500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.430000 ; TG2=     0.435000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.430000 TO TG2=    0.435000 @ NSTEP      112
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    115
 TA= 4.35000E-01 CPU TIME= 1.47818E-01 SECONDS.  DT= 6.08487E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.280197777777857     
  %check_save_state: izleft hours =    79.7113888888889     
 --> plasma_hash("gframe"): TA= 4.350000E-01 NSTEP=   115 Hash code:    4742176
 ->PRGCHK: bdy curvature ratio at t= 4.4000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.435000 ; TG2=     0.440000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.435000 TO TG2=    0.440000 @ NSTEP      115
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.77343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.77343E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    121
 TA= 4.40000E-01 CPU TIME= 1.59610E-01 SECONDS.  DT= 7.65916E-06
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.290950555555582     
  %check_save_state: izleft hours =    79.7005555555556     
 --> plasma_hash("gframe"): TA= 4.400000E-01 NSTEP=   121 Hash code:   98472546
 ->PRGCHK: bdy curvature ratio at t= 4.4500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.440000 ; TG2=     0.445000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.440000 TO TG2=    0.445000 @ NSTEP      121
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    144
 TA= 4.45000E-01 CPU TIME= 2.00706E-01 SECONDS.  DT= 1.09825E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.300609166666618     
  %check_save_state: izleft hours =    79.6908333333333     
 --> plasma_hash("gframe"): TA= 4.450000E-01 NSTEP=   144 Hash code:   48919191
 ->PRGCHK: bdy curvature ratio at t= 4.5000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.445000 ; TG2=     0.450000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.445000 TO TG2=    0.450000 @ NSTEP      144
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.26934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.26934E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    148
 TA= 4.50000E-01 CPU TIME= 1.47273E-01 SECONDS.  DT= 1.01615E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.311559166666257     
  %check_save_state: izleft hours =    79.6800000000000     
 --> plasma_hash("gframe"): TA= 4.500000E-01 NSTEP=   148 Hash code:   97883967
 ->PRGCHK: bdy curvature ratio at t= 4.5500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.450000 ; TG2=     0.455000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.450000 TO TG2=    0.455000 @ NSTEP      148
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    152
 TA= 4.55000E-01 CPU TIME= 1.63047E-01 SECONDS.  DT= 1.40739E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.322672777777370     
  %check_save_state: izleft hours =    79.6688888888889     
 --> plasma_hash("gframe"): TA= 4.550000E-01 NSTEP=   152 Hash code:   94902187
 ->PRGCHK: bdy curvature ratio at t= 4.6000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.455000 ; TG2=     0.460000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.455000 TO TG2=    0.460000 @ NSTEP      152
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.19588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.19588E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999992425728E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    155
 TA= 4.60000E-01 CPU TIME= 1.60697E-01 SECONDS.  DT= 2.29171E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.333118611110876     
  %check_save_state: izleft hours =    79.6583333333333     
 --> plasma_hash("gframe"): TA= 4.600000E-01 NSTEP=   155 Hash code:   52284115
 ->PRGCHK: bdy curvature ratio at t= 4.6500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.460000 ; TG2=     0.465000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.460000 TO TG2=    0.465000 @ NSTEP      155
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    157
 TA= 4.65000E-01 CPU TIME= 1.58560E-01 SECONDS.  DT= 3.38536E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.342188611110487     
  %check_save_state: izleft hours =    79.6494444444444     
 --> plasma_hash("gframe"): TA= 4.650000E-01 NSTEP=   157 Hash code:  121937533
 ->PRGCHK: bdy curvature ratio at t= 4.7000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.465000 ; TG2=     0.470000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.465000 TO TG2=    0.470000 @ NSTEP      157
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.73670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.73670E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    159
 TA= 4.70000E-01 CPU TIME= 1.59264E-01 SECONDS.  DT= 2.01830E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.353496944444032     
  %check_save_state: izleft hours =    79.6380555555556     
 --> plasma_hash("gframe"): TA= 4.700000E-01 NSTEP=   159 Hash code:   29651357
 ->PRGCHK: bdy curvature ratio at t= 4.7500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.470000 ; TG2=     0.475000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.470000 TO TG2=    0.475000 @ NSTEP      159
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    162
 TA= 4.75000E-01 CPU TIME= 1.59204E-01 SECONDS.  DT= 5.73529E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.362896944444174     
  %check_save_state: izleft hours =    79.6272222222222     
 --> plasma_hash("gframe"): TA= 4.750000E-01 NSTEP=   162 Hash code:   33822898
 ->PRGCHK: bdy curvature ratio at t= 4.8000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.475000 ; TG2=     0.480000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.475000 TO TG2=    0.480000 @ NSTEP      162
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.59995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.59995E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    168
 TA= 4.80000E-01 CPU TIME= 1.58849E-01 SECONDS.  DT= 3.66283E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.373583055555173     
  %check_save_state: izleft hours =    79.6180555555556     
 --> plasma_hash("gframe"): TA= 4.800000E-01 NSTEP=   168 Hash code:   63634860
 ->PRGCHK: bdy curvature ratio at t= 4.8500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.480000 ; TG2=     0.485000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.480000 TO TG2=    0.485000 @ NSTEP      168
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    175
 TA= 4.85000E-01 CPU TIME= 1.64095E-01 SECONDS.  DT= 1.09511E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.384778055555216     
  %check_save_state: izleft hours =    79.6066666666667     
 --> plasma_hash("gframe"): TA= 4.850000E-01 NSTEP=   175 Hash code:   93353624
 ->PRGCHK: bdy curvature ratio at t= 4.9000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.485000 ; TG2=     0.490000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.485000 TO TG2=    0.490000 @ NSTEP      175
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.14077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.14077E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    179
 TA= 4.90000E-01 CPU TIME= 1.59184E-01 SECONDS.  DT= 1.03109E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.393622499999537     
  %check_save_state: izleft hours =    79.5980555555556     
 --> plasma_hash("gframe"): TA= 4.900000E-01 NSTEP=   179 Hash code:   11054148
 ->PRGCHK: bdy curvature ratio at t= 4.9500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.490000 ; TG2=     0.495000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.490000 TO TG2=    0.495000 @ NSTEP      179
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794966286D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    183
 TA= 4.95000E-01 CPU TIME= 1.67695E-01 SECONDS.  DT= 1.33620E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.404570833333310     
  %check_save_state: izleft hours =    79.5869444444444     
 --> plasma_hash("gframe"): TA= 4.950000E-01 NSTEP=   183 Hash code:   69832740
 ->PRGCHK: bdy curvature ratio at t= 5.0000E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.495000 ; TG2=     0.500000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.495000 TO TG2=    0.500000 @ NSTEP      183
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794970260D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.60749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.72960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.88153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -5.04020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  8.11387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.16800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -4.16147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.59520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.32524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.26426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.03057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.03057E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    186
 TA= 5.00000E-01 CPU TIME= 1.59297E-01 SECONDS.  DT= 2.49195E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.415151666666134     
  %check_save_state: izleft hours =    79.5763888888889     
 --> plasma_hash("gframe"): TA= 5.000000E-01 NSTEP=   186 Hash code:   43047592
 ->PRGCHK: bdy curvature ratio at t= 5.0500E-01 seconds is:  4.8686E-02
% MHDEQ: TG1=     0.500000 ; TG2=     0.505000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2200E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.8686E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.500000 TO TG2=    0.505000 @ NSTEP      186
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741794974234D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    188
 TA= 5.05000E-01 CPU TIME= 1.68079E-01 SECONDS.  DT= 3.13507E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.424587777777560     
  %check_save_state: izleft hours =    79.5669444444444     
 --> plasma_hash("gframe"): TA= 5.050000E-01 NSTEP=   188 Hash code:   51070589
 ->PRGCHK: bdy curvature ratio at t= 5.1000E-01 seconds is:  4.9002E-02
% MHDEQ: TG1=     0.505000 ; TG2=     0.510000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7638E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.9002E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.505000 TO TG2=    0.510000 @ NSTEP      188
   GFRAME TG2 MOMENTS CHECKSUM:  2.4750128896163D+04
 %MFRCHK - LABEL "YMC12", #       1=  4.98098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.83982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.00264E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.08818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.23680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -5.66937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.86806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.21510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.54431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -3.73999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.53129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.96445E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.24392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.28174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.68890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -1.61785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.01500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.01500E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    190
 TA= 5.10000E-01 CPU TIME= 1.63526E-01 SECONDS.  DT= 2.33117E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.434268888888710     
  %check_save_state: izleft hours =    79.5566666666667     
 --> plasma_hash("gframe"): TA= 5.100000E-01 NSTEP=   190 Hash code:   12489369
 ->PRGCHK: bdy curvature ratio at t= 5.1500E-01 seconds is:  4.9364E-02
% MHDEQ: TG1=     0.510000 ; TG2=     0.515000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7639E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.9364E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.510000 TO TG2=    0.515000 @ NSTEP      190
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758462818093D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    193
 TA= 5.15000E-01 CPU TIME= 1.59525E-01 SECONDS.  DT= 7.41553E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.445153611110754     
  %check_save_state: izleft hours =    79.5463888888889     
 --> plasma_hash("gframe"): TA= 5.150000E-01 NSTEP=   193 Hash code:   41134233
 ->PRGCHK: bdy curvature ratio at t= 5.2000E-01 seconds is:  4.9450E-02
% MHDEQ: TG1=     0.515000 ; TG2=     0.520000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.9450E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.515000 TO TG2=    0.520000 @ NSTEP      193
   GFRAME TG2 MOMENTS CHECKSUM:  2.4766796740022D+04
 %MFRCHK - LABEL "RMS12", #       1= -1.56649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.72797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.06025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.99753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.26658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.78640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.94733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -4.88190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.52380E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.37804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.29693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.89702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.58856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.05014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.82324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.19473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.36155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -2.32501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.82870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.82870E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    198
 TA= 5.20000E-01 CPU TIME= 1.45967E-01 SECONDS.  DT= 9.05606E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.456429444444211     
  %check_save_state: izleft hours =    79.5352777777778     
 --> plasma_hash("gframe"): TA= 5.200000E-01 NSTEP=   198 Hash code:   76728480
 ->PRGCHK: bdy curvature ratio at t= 5.2500E-01 seconds is:  4.9598E-02
% MHDEQ: TG1=     0.520000 ; TG2=     0.525000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7641E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.9598E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.520000 TO TG2=    0.525000 @ NSTEP      198
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775130661952D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    202
 TA= 5.25000E-01 CPU TIME= 1.59509E-01 SECONDS.  DT= 1.93422E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.465969444443999     
  %check_save_state: izleft hours =    79.5255555555556     
 --> plasma_hash("gframe"): TA= 5.250000E-01 NSTEP=   202 Hash code:   78640101
 ->PRGCHK: bdy curvature ratio at t= 5.3000E-01 seconds is:  4.9811E-02
% MHDEQ: TG1=     0.525000 ; TG2=     0.530000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7643E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  4.9811E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.525000 TO TG2=    0.530000 @ NSTEP      202
   GFRAME TG2 MOMENTS CHECKSUM:  2.4783464583882D+04
 %MFRCHK - LABEL "RMC12", #       2=  8.47769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.96761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.42655E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.26640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.99275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.39355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.50417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.74142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -4.14545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.20184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.53042E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  6.18133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.10868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.64212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -7.06547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  3.03013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.08826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.05541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -2.98636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.68357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.68357E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    205
 TA= 5.30000E-01 CPU TIME= 1.64475E-01 SECONDS.  DT= 8.10007E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.475374444444469     
  %check_save_state: izleft hours =    79.5161111111111     
 --> plasma_hash("gframe"): TA= 5.300000E-01 NSTEP=   205 Hash code:  100797725
 ->PRGCHK: bdy curvature ratio at t= 5.3500E-01 seconds is:  5.0088E-02
% MHDEQ: TG1=     0.530000 ; TG2=     0.535000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0088E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.530000 TO TG2=    0.535000 @ NSTEP      205
   GFRAME TG2 MOMENTS CHECKSUM:  2.4791798505811D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    210
 TA= 5.35000E-01 CPU TIME= 1.60196E-01 SECONDS.  DT= 4.12257E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.485920277777723     
  %check_save_state: izleft hours =    79.5055555555556     
 --> plasma_hash("gframe"): TA= 5.350000E-01 NSTEP=   210 Hash code:   10003721
 ->PRGCHK: bdy curvature ratio at t= 5.4000E-01 seconds is:  5.0340E-02
% MHDEQ: TG1=     0.535000 ; TG2=     0.540000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0340E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.535000 TO TG2=    0.540000 @ NSTEP      210
   GFRAME TG2 MOMENTS CHECKSUM:  2.4800132427741D+04
 %MFRCHK - LABEL "RMC12", #       2=  5.29007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.40894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.19517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.49321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.98750E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.53325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.19365E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -3.41461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -3.33518E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.84761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.69807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  4.36686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -1.24132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.70105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.29222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.37325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.59867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.71858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -3.71400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.49212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.49212E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    217
 TA= 5.40000E-01 CPU TIME= 1.55049E-01 SECONDS.  DT= 4.48102E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.497059722222048     
  %check_save_state: izleft hours =    79.4944444444444     
 --> plasma_hash("gframe"): TA= 5.400000E-01 NSTEP=   217 Hash code:   74942035
 ->PRGCHK: bdy curvature ratio at t= 5.4500E-01 seconds is:  5.0384E-02
% MHDEQ: TG1=     0.540000 ; TG2=     0.545000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0200E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0384E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.540000 TO TG2=    0.545000 @ NSTEP      217
   GFRAME TG2 MOMENTS CHECKSUM:  2.4808466349671D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    223
 TA= 5.45000E-01 CPU TIME= 1.59645E-01 SECONDS.  DT= 1.65302E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.507538055555642     
  %check_save_state: izleft hours =    79.4838888888889     
 --> plasma_hash("gframe"): TA= 5.450000E-01 NSTEP=   223 Hash code:    4260016
 ->PRGCHK: bdy curvature ratio at t= 5.5000E-01 seconds is:  5.0487E-02
% MHDEQ: TG1=     0.545000 ; TG2=     0.550000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0487E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.545000 TO TG2=    0.550000 @ NSTEP      223
   GFRAME TG2 MOMENTS CHECKSUM:  2.4816800271600D+04
 %MFRCHK - LABEL "RMC12", #       2=  2.08109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.85322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.96894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.72154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.98221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.67388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.88105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -2.07892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.51948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.49100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.86685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.44523E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  2.14189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.46983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.56632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.10580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.37949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -4.44652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.09644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.09644E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    226
 TA= 5.50000E-01 CPU TIME= 1.59392E-01 SECONDS.  DT= 1.60089E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.516749444444031     
  %check_save_state: izleft hours =    79.4747222222222     
 --> plasma_hash("gframe"): TA= 5.500000E-01 NSTEP=   226 Hash code:   88558757
 ->PRGCHK: bdy curvature ratio at t= 5.5500E-01 seconds is:  5.0648E-02
% MHDEQ: TG1=     0.550000 ; TG2=     0.555000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7649E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0648E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.550000 TO TG2=    0.555000 @ NSTEP      226
   GFRAME TG2 MOMENTS CHECKSUM:  2.4825134193530D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    229
 TA= 5.55000E-01 CPU TIME= 1.45943E-01 SECONDS.  DT= 1.74749E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.525795555555078     
  %check_save_state: izleft hours =    79.4658333333333     
 --> plasma_hash("gframe"): TA= 5.550000E-01 NSTEP=   229 Hash code:   92351467
 ->PRGCHK: bdy curvature ratio at t= 5.6000E-01 seconds is:  5.0736E-02
% MHDEQ: TG1=     0.555000 ; TG2=     0.560000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7671E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0736E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.555000 TO TG2=    0.560000 @ NSTEP      229
   GFRAME TG2 MOMENTS CHECKSUM:  2.4820040179977D+04
 %MFRCHK - LABEL "RMC12", #       2=  3.39710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.97166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.00704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.78358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.98835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.65134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.86015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -1.83990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.06598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.38318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.06362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -3.36237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.19679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.82751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.51863E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.87366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.97194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.29665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -5.29983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.54433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.54433E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    232
 TA= 5.60000E-01 CPU TIME= 1.59053E-01 SECONDS.  DT= 1.33517E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.534789722222285     
  %check_save_state: izleft hours =    79.4566666666667     
 --> plasma_hash("gframe"): TA= 5.600000E-01 NSTEP=   232 Hash code:   91898025
 ->PRGCHK: bdy curvature ratio at t= 5.6500E-01 seconds is:  5.0824E-02
% MHDEQ: TG1=     0.560000 ; TG2=     0.565000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7693E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0824E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.560000 TO TG2=    0.565000 @ NSTEP      232
   GFRAME TG2 MOMENTS CHECKSUM:  2.4814946166425D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    235
 TA= 5.65000E-01 CPU TIME= 1.65012E-01 SECONDS.  DT= 2.49482E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.545963055555148     
  %check_save_state: izleft hours =    79.4455555555556     
 --> plasma_hash("gframe"): TA= 5.650000E-01 NSTEP=   235 Hash code:   23312207
 ->PRGCHK: bdy curvature ratio at t= 5.7000E-01 seconds is:  5.0913E-02
% MHDEQ: TG1=     0.565000 ; TG2=     0.570000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.0913E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.565000 TO TG2=    0.570000 @ NSTEP      235
   GFRAME TG2 MOMENTS CHECKSUM:  2.4809852143268D+04
 %MFRCHK - LABEL "RMS12", #       1= -2.70138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.06290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.64796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.01283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.39682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.22609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -2.98201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.89776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.56423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.38821E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.47825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -5.56302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.93590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.41470E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.74998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.26484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.52421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.22642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.93836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.93836E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    237
 TA= 5.70000E-01 CPU TIME= 1.59683E-01 SECONDS.  DT= 3.13147E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.557466111111125     
  %check_save_state: izleft hours =    79.4338888888889     
 --> plasma_hash("gframe"): TA= 5.700000E-01 NSTEP=   237 Hash code:   62768587
 ->PRGCHK: bdy curvature ratio at t= 5.7500E-01 seconds is:  5.1003E-02
% MHDEQ: TG1=     0.570000 ; TG2=     0.575000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7737E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1003E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.570000 TO TG2=    0.575000 @ NSTEP      237
   GFRAME TG2 MOMENTS CHECKSUM:  2.4804758120111D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    239
 TA= 5.75000E-01 CPU TIME= 1.59676E-01 SECONDS.  DT= 2.33566E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.567209999999704     
  %check_save_state: izleft hours =    79.4244444444444     
 --> plasma_hash("gframe"): TA= 5.750000E-01 NSTEP=   239 Hash code:  115432826
 ->PRGCHK: bdy curvature ratio at t= 5.8000E-01 seconds is:  5.1093E-02
% MHDEQ: TG1=     0.575000 ; TG2=     0.580000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7759E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1093E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.575000 TO TG2=    0.580000 @ NSTEP      239
   GFRAME TG2 MOMENTS CHECKSUM:  2.4799664096955D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.20765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.45718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.20987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.52543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.03494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.55672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.01390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.74577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.72781E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.68147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.23342E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -1.48554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.03384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.32079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.63823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.52947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.72981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.45884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.12218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.12218E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    241
 TA= 5.80000E-01 CPU TIME= 1.78375E-01 SECONDS.  DT= 3.33043E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.579352222221814     
  %check_save_state: izleft hours =    79.4122222222222     
 --> plasma_hash("gframe"): TA= 5.800000E-01 NSTEP=   241 Hash code:   52830973
 ->PRGCHK: bdy curvature ratio at t= 5.8500E-01 seconds is:  5.1184E-02
% MHDEQ: TG1=     0.580000 ; TG2=     0.585000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7781E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1184E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.580000 TO TG2=    0.585000 @ NSTEP      241
   GFRAME TG2 MOMENTS CHECKSUM:  2.4794570073798D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    243
 TA= 5.85000E-01 CPU TIME= 1.59385E-01 SECONDS.  DT= 2.08697E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =   0.590096944444213     
  %check_save_state: izleft hours =    79.4013888888889     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  5.8500000E-01

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.595E+03 MB.

 --> plasma_hash("gframe"): TA= 5.850000E-01 NSTEP=   243 Hash code:   21303339
 ->PRGCHK: bdy curvature ratio at t= 5.9000E-01 seconds is:  5.1276E-02
% MHDEQ: TG1=     0.585000 ; TG2=     0.590000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7803E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1276E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.585000 TO TG2=    0.590000 @ NSTEP      243
   GFRAME TG2 MOMENTS CHECKSUM:  2.4789476050641D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.66271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.22042E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.38281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.40663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.05638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.87728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.01439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.59840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.88641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.96581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.84968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -2.71997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.12879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.22975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.52988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.78604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.92916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.68419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.32439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.32439E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    246
 TA= 5.90000E-01 CPU TIME= 1.45557E-01 SECONDS.  DT= 3.80410E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.602251111110945     
  %check_save_state: izleft hours =    79.3894444444445     
 --> plasma_hash("gframe"): TA= 5.900000E-01 NSTEP=   246 Hash code:   83037156
 ->PRGCHK: bdy curvature ratio at t= 5.9500E-01 seconds is:  5.1368E-02
% MHDEQ: TG1=     0.590000 ; TG2=     0.595000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.7270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7825E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1368E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.590000 TO TG2=    0.595000 @ NSTEP      246
   GFRAME TG2 MOMENTS CHECKSUM:  2.4784382027484D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    253
 TA= 5.95000E-01 CPU TIME= 1.60102E-01 SECONDS.  DT= 8.96306E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.615400833333069     
  %check_save_state: izleft hours =    79.3761111111111     
 --> plasma_hash("gframe"): TA= 5.950000E-01 NSTEP=   253 Hash code:  117580852
 ->PRGCHK: bdy curvature ratio at t= 6.0000E-01 seconds is:  5.1461E-02
% MHDEQ: TG1=     0.595000 ; TG2=     0.600000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7847E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1461E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.595000 TO TG2=    0.600000 @ NSTEP      253
   GFRAME TG2 MOMENTS CHECKSUM:  2.4779288004327D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.14635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.96879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.50382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.28037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.07917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  8.16990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.21797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.07769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.44179E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.05496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.26800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.50463E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -4.03188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.22970E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -7.17427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.41473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.05872E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.14101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.92368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.41641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.41641E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    257
 TA= 6.00000E-01 CPU TIME= 1.59826E-01 SECONDS.  DT= 1.97854E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.626125833332935     
  %check_save_state: izleft hours =    79.3652777777778     
 --> plasma_hash("gframe"): TA= 6.000000E-01 NSTEP=   257 Hash code:   82687927
 ->PRGCHK: bdy curvature ratio at t= 6.0500E-01 seconds is:  5.1555E-02
% MHDEQ: TG1=     0.600000 ; TG2=     0.605000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7869E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1555E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.600000 TO TG2=    0.605000 @ NSTEP      257
   GFRAME TG2 MOMENTS CHECKSUM:  2.4774193981171D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999878738890E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    260
 TA= 6.05000E-01 CPU TIME= 1.59922E-01 SECONDS.  DT= 6.85346E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.637467222222085     
  %check_save_state: izleft hours =    79.3541666666667     
 --> plasma_hash("gframe"): TA= 6.050000E-01 NSTEP=   260 Hash code:  103897845
 ->PRGCHK: bdy curvature ratio at t= 6.1000E-01 seconds is:  5.1666E-02
% MHDEQ: TG1=     0.605000 ; TG2=     0.610000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.9990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7847E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1666E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.605000 TO TG2=    0.610000 @ NSTEP      260
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763762214696D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.14370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.96896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.47798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.32857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.06600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  7.94915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.18855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.55907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.49447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.14711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.19314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.54379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  2.58206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.22132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -7.22510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.33810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.21271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.18583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.94565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.06853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.06853E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999994950485E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    265
 TA= 6.10000E-01 CPU TIME= 1.59658E-01 SECONDS.  DT= 1.31069E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.648307222222002     
  %check_save_state: izleft hours =    79.3433333333333     
 --> plasma_hash("gframe"): TA= 6.100000E-01 NSTEP=   265 Hash code:   11143399
 ->PRGCHK: bdy curvature ratio at t= 6.1500E-01 seconds is:  5.1777E-02
% MHDEQ: TG1=     0.610000 ; TG2=     0.615000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7825E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1777E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.610000 TO TG2=    0.615000 @ NSTEP      265
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753330448222D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    269
 TA= 6.15000E-01 CPU TIME= 1.62592E-01 SECONDS.  DT= 3.74533E-06
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.660123611110976     
  %check_save_state: izleft hours =    79.3313888888889     
 --> plasma_hash("gframe"): TA= 6.150000E-01 NSTEP=   269 Hash code:  105463203
 ->PRGCHK: bdy curvature ratio at t= 6.2000E-01 seconds is:  5.1889E-02
% MHDEQ: TG1=     0.615000 ; TG2=     0.620000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7803E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1889E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.615000 TO TG2=    0.620000 @ NSTEP      269
   GFRAME TG2 MOMENTS CHECKSUM:  2.4742898671567D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.67183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.21207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.27468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.54622E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.01784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.80136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.49034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.75032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.16770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.75272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.98975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  6.01867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.10727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.25033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.29684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.25582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.07052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.75827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.33359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.33359E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    296
 TA= 6.20000E-01 CPU TIME= 1.87523E-01 SECONDS.  DT= 7.26060E-05
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.671573333333299     
  %check_save_state: izleft hours =    79.3200000000000     
 --> plasma_hash("gframe"): TA= 6.200000E-01 NSTEP=   296 Hash code:   69077395
 ->PRGCHK: bdy curvature ratio at t= 6.2500E-01 seconds is:  5.2001E-02
% MHDEQ: TG1=     0.620000 ; TG2=     0.625000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7781E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2001E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.620000 TO TG2=    0.625000 @ NSTEP      296
   GFRAME TG2 MOMENTS CHECKSUM:  2.4732466894911D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    310
 TA= 6.25000E-01 CPU TIME= 1.45253E-01 SECONDS.  DT= 9.55123E-06
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.682219999999916     
  %check_save_state: izleft hours =    79.3088888888889     
 --> plasma_hash("gframe"): TA= 6.250000E-01 NSTEP=   310 Hash code:    3621089
 ->PRGCHK: bdy curvature ratio at t= 6.3000E-01 seconds is:  5.2115E-02
% MHDEQ: TG1=     0.625000 ; TG2=     0.630000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7759E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2115E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.625000 TO TG2=    0.630000 @ NSTEP      310
   GFRAME TG2 MOMENTS CHECKSUM:  2.4722035118256D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.19444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.45802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.08068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.76642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.96912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.40965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.42081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.00916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.18853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.30716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.42923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -1.63201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.99190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.36093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.25510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.29942E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.95387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.56870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.11605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.11605E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    332
 TA= 6.30000E-01 CPU TIME= 1.58890E-01 SECONDS.  DT= 1.12002E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.696109722221536     
  %check_save_state: izleft hours =    79.2955555555556     
 --> plasma_hash("gframe"): TA= 6.300000E-01 NSTEP=   332 Hash code:   46003476
 ->PRGCHK: bdy curvature ratio at t= 6.3500E-01 seconds is:  5.2228E-02
% MHDEQ: TG1=     0.630000 ; TG2=     0.635000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7737E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2228E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.630000 TO TG2=    0.635000 @ NSTEP      332
   GFRAME TG2 MOMENTS CHECKSUM:  2.4711603341600D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    336
 TA= 6.35000E-01 CPU TIME= 1.60420E-01 SECONDS.  DT= 9.12390E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.706891111110735     
  %check_save_state: izleft hours =    79.2847222222222     
 --> plasma_hash("gframe"): TA= 6.350000E-01 NSTEP=   336 Hash code:   96964028
 ->PRGCHK: bdy curvature ratio at t= 6.4000E-01 seconds is:  5.2343E-02
% MHDEQ: TG1=     0.635000 ; TG2=     0.640000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2343E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.635000 TO TG2=    0.640000 @ NSTEP      336
   GFRAME TG2 MOMENTS CHECKSUM:  2.4701171564945D+04
 %MFRCHK - LABEL "RMS12", #       1= -2.70255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.88203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.98535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.92068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.26311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.02020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.35169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.26651E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.20924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.86417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.07325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.22612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.87719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.47089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.21359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.34278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.83790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.38022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.12385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.12385E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    340
 TA= 6.40000E-01 CPU TIME= 1.45695E-01 SECONDS.  DT= 1.90189E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.716614722221948     
  %check_save_state: izleft hours =    79.2750000000000     
 --> plasma_hash("gframe"): TA= 6.400000E-01 NSTEP=   340 Hash code:   72764297
 ->PRGCHK: bdy curvature ratio at t= 6.4500E-01 seconds is:  5.2458E-02
% MHDEQ: TG1=     0.640000 ; TG2=     0.645000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2458E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.640000 TO TG2=    0.645000 @ NSTEP      340
   GFRAME TG2 MOMENTS CHECKSUM:  2.4690739788290D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    343
 TA= 6.45000E-01 CPU TIME= 1.68405E-01 SECONDS.  DT= 9.00934E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.730499444443922     
  %check_save_state: izleft hours =    79.2611111111111     
 --> plasma_hash("gframe"): TA= 6.450000E-01 NSTEP=   343 Hash code:    8836241
 ->PRGCHK: bdy curvature ratio at t= 6.5000E-01 seconds is:  5.2574E-02
% MHDEQ: TG1=     0.645000 ; TG2=     0.650000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7672E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2574E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.645000 TO TG2=    0.650000 @ NSTEP      343
   GFRAME TG2 MOMENTS CHECKSUM:  2.4680308008917D+04
 %MFRCHK - LABEL "RMC12", #       2=  3.80618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.94708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.68338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.20428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.87224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.65068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.45487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.63074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.28256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.52385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.22995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.42118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.83086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.82022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.58085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -6.11258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.38613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.72192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.19175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.01367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.01367E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000222324161E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    347
 TA= 6.50000E-01 CPU TIME= 1.46023E-01 SECONDS.  DT= 1.95649E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.741941111110918     
  %check_save_state: izleft hours =    79.2497222222222     
 --> plasma_hash("gframe"): TA= 6.500000E-01 NSTEP=   347 Hash code:   79942849
 ->PRGCHK: bdy curvature ratio at t= 6.5500E-01 seconds is:  5.2690E-02
% MHDEQ: TG1=     0.650000 ; TG2=     0.655000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2690E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.650000 TO TG2=    0.655000 @ NSTEP      347
   GFRAME TG2 MOMENTS CHECKSUM:  2.4669876229543D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    350
 TA= 6.55000E-01 CPU TIME= 1.45692E-01 SECONDS.  DT= 7.47378E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.754117777777765     
  %check_save_state: izleft hours =    79.2375000000000     
 --> plasma_hash("gframe"): TA= 6.550000E-01 NSTEP=   350 Hash code:  121623315
 ->PRGCHK: bdy curvature ratio at t= 6.6000E-01 seconds is:  5.2860E-02
% MHDEQ: TG1=     0.655000 ; TG2=     0.660000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2860E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.655000 TO TG2=    0.660000 @ NSTEP      350
   GFRAME TG2 MOMENTS CHECKSUM:  2.4658494508113D+04
 %MFRCHK - LABEL "RMC12", #       3= -1.29746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.89030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.68551E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.98921E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.85358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.66929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.45136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.55124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.57528E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.44170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.14373E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.34281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.80253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.84454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.71959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.53198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.46545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.38936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.65088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       8= -6.34567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.95117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.95117E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    355
 TA= 6.60000E-01 CPU TIME= 1.59829E-01 SECONDS.  DT= 8.63622E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.765769444444231     
  %check_save_state: izleft hours =    79.2258333333333     
 --> plasma_hash("gframe"): TA= 6.600000E-01 NSTEP=   355 Hash code:   44876134
 ->PRGCHK: bdy curvature ratio at t= 6.6500E-01 seconds is:  5.3040E-02
% MHDEQ: TG1=     0.660000 ; TG2=     0.665000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7653E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3040E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.660000 TO TG2=    0.665000 @ NSTEP      355
   GFRAME TG2 MOMENTS CHECKSUM:  2.4647112786683D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    360
 TA= 6.65000E-01 CPU TIME= 1.63215E-01 SECONDS.  DT= 2.58468E-05
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.776740000000018     
  %check_save_state: izleft hours =    79.2147222222222     
 --> plasma_hash("gframe"): TA= 6.650000E-01 NSTEP=   360 Hash code:   11038301
 ->PRGCHK: bdy curvature ratio at t= 6.7000E-01 seconds is:  5.3226E-02
% MHDEQ: TG1=     0.665000 ; TG2=     0.670000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7655E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3226E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.665000 TO TG2=    0.670000 @ NSTEP      360
   GFRAME TG2 MOMENTS CHECKSUM:  2.4635731065253D+04
 %MFRCHK - LABEL "RMC12", #       4=  8.82979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.44608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.69674E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.18405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.86738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2= -1.20478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.83711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.38729E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.91865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.90413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.69788E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.17353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -2.16787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.75546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.27434E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  2.24476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.34359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.61851E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.31652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.44340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.44340E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    378
 TA= 6.70000E-01 CPU TIME= 1.60787E-01 SECONDS.  DT= 6.40100E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.788784444444445     
  %check_save_state: izleft hours =    79.2027777777778     
 --> plasma_hash("gframe"): TA= 6.700000E-01 NSTEP=   378 Hash code:   48399764
 ->PRGCHK: bdy curvature ratio at t= 6.7500E-01 seconds is:  5.3250E-02
% MHDEQ: TG1=     0.670000 ; TG2=     0.675000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4040E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3250E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.670000 TO TG2=    0.675000 @ NSTEP      378
   GFRAME TG2 MOMENTS CHECKSUM:  2.4624349343823D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    383
 TA= 6.75000E-01 CPU TIME= 1.59493E-01 SECONDS.  DT= 1.63678E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.798189444444233     
  %check_save_state: izleft hours =    79.1933333333333     
 --> plasma_hash("gframe"): TA= 6.750000E-01 NSTEP=   383 Hash code:   11657360
 ->PRGCHK: bdy curvature ratio at t= 6.8000E-01 seconds is:  5.3285E-02
% MHDEQ: TG1=     0.675000 ; TG2=     0.680000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3285E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.675000 TO TG2=    0.680000 @ NSTEP      383
   GFRAME TG2 MOMENTS CHECKSUM:  2.4612967622393D+04
 %MFRCHK - LABEL "RMC12", #       4=  6.59845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.03057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.77187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.43092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.88029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.10450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.14682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.42939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.68002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.03002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.14943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6= -1.53493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.78901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.54336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  2.97370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.30078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.58822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.46252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      12=  4.05122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      12=  4.05122E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    386
 TA= 6.80000E-01 CPU TIME= 1.46747E-01 SECONDS.  DT= 1.64655E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.810719722222075     
  %check_save_state: izleft hours =    79.1808333333333     
 --> plasma_hash("gframe"): TA= 6.800000E-01 NSTEP=   386 Hash code:   51880499
 ->PRGCHK: bdy curvature ratio at t= 6.8500E-01 seconds is:  5.3331E-02
% MHDEQ: TG1=     0.680000 ; TG2=     0.685000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.7440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7660E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3331E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.680000 TO TG2=    0.685000 @ NSTEP      386
   GFRAME TG2 MOMENTS CHECKSUM:  2.4601585900963D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    389
 TA= 6.85000E-01 CPU TIME= 1.62781E-01 SECONDS.  DT= 1.61907E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.820826666666107     
  %check_save_state: izleft hours =    79.1708333333333     
 --> plasma_hash("gframe"): TA= 6.850000E-01 NSTEP=   389 Hash code:   38165375
 ->PRGCHK: bdy curvature ratio at t= 6.9000E-01 seconds is:  5.3387E-02
% MHDEQ: TG1=     0.685000 ; TG2=     0.690000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7661E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3387E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.685000 TO TG2=    0.690000 @ NSTEP      389
   GFRAME TG2 MOMENTS CHECKSUM:  2.4590204179533D+04
 %MFRCHK - LABEL "RMC12", #       4=  4.36710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.61506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.84699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.67780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.89319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  8.59231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.37189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.24435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  5.95314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.45590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.36215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.22465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  5.24801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.82256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.01736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  3.70265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.25796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.55793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.60853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.76213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.76213E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    392
 TA= 6.90000E-01 CPU TIME= 1.59180E-01 SECONDS.  DT= 1.69638E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.831270833333065     
  %check_save_state: izleft hours =    79.1597222222222     
 --> plasma_hash("gframe"): TA= 6.900000E-01 NSTEP=   392 Hash code:   39149761
 ->PRGCHK: bdy curvature ratio at t= 6.9500E-01 seconds is:  5.3453E-02
% MHDEQ: TG1=     0.690000 ; TG2=     0.695000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0922E-02 SECONDS
   DATA R*BT AT EDGE:  2.7663E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3453E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.690000 TO TG2=    0.695000 @ NSTEP      392
   GFRAME TG2 MOMENTS CHECKSUM:  2.4578822458103D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    395
 TA= 6.95000E-01 CPU TIME= 1.59917E-01 SECONDS.  DT= 1.47894E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.841605833333233     
  %check_save_state: izleft hours =    79.1497222222222     
 --> plasma_hash("gframe"): TA= 6.950000E-01 NSTEP=   395 Hash code:   53728155
 ->PRGCHK: bdy curvature ratio at t= 7.0000E-01 seconds is:  5.3530E-02
% MHDEQ: TG1=     0.695000 ; TG2=     0.700000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3530E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.695000 TO TG2=    0.700000 @ NSTEP      395
   GFRAME TG2 MOMENTS CHECKSUM:  2.4567440755151D+04
 %MFRCHK - LABEL "RMC12", #       4=  2.13685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.19954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.92212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.92467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.90610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  5.92665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.63928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.35047E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.85511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.23179E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.69428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.56426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  1.56540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.85612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.49136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  4.43159E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.21515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.52765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  1.75453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.48593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.48593E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    398
 TA= 7.00000E-01 CPU TIME= 1.63256E-01 SECONDS.  DT= 2.09049E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.853392777777799     
  %check_save_state: izleft hours =    79.1380555555556     
 --> plasma_hash("gframe"): TA= 7.000000E-01 NSTEP=   398 Hash code:   94643303
 ->PRGCHK: bdy curvature ratio at t= 7.0500E-01 seconds is:  5.3617E-02
% MHDEQ: TG1=     0.700000 ; TG2=     0.705000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0934E-02 SECONDS
   DATA R*BT AT EDGE:  2.7666E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3617E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.700000 TO TG2=    0.705000 @ NSTEP      398
   GFRAME TG2 MOMENTS CHECKSUM:  2.4556059052199D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    401
 TA= 7.05000E-01 CPU TIME= 1.59694E-01 SECONDS.  DT= 3.70495E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.865502499999820     
  %check_save_state: izleft hours =    79.1261111111111     
 --> plasma_hash("gframe"): TA= 7.050000E-01 NSTEP=   401 Hash code:   73797525
 ->PRGCHK: bdy curvature ratio at t= 7.1000E-01 seconds is:  5.3689E-02
% MHDEQ: TG1=     0.705000 ; TG2=     0.710000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3689E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.705000 TO TG2=    0.710000 @ NSTEP      401
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555749177529D+04
 %MFRCHK - LABEL "RMC12", #       2=  6.51436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.61861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.24692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.88071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.22596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  1.31652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.82810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.37976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.83351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.03809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.11678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.87046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.47319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.83736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.99730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  4.31567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.01951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.67541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.02502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.47420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.47420E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    408
 TA= 7.10000E-01 CPU TIME= 1.58817E-01 SECONDS.  DT= 1.03584E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.874791388888525     
  %check_save_state: izleft hours =    79.1166666666667     
 --> plasma_hash("gframe"): TA= 7.100000E-01 NSTEP=   408 Hash code:   65180218
 ->PRGCHK: bdy curvature ratio at t= 7.1500E-01 seconds is:  5.3765E-02
% MHDEQ: TG1=     0.710000 ; TG2=     0.715000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3765E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.710000 TO TG2=    0.715000 @ NSTEP      408
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555439302860D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    412
 TA= 7.15000E-01 CPU TIME= 1.62603E-01 SECONDS.  DT= 1.31358E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.886459166666327     
  %check_save_state: izleft hours =    79.1050000000000     
 --> plasma_hash("gframe"): TA= 7.150000E-01 NSTEP=   412 Hash code:  100247589
 ->PRGCHK: bdy curvature ratio at t= 7.2000E-01 seconds is:  5.3845E-02
% MHDEQ: TG1=     0.715000 ; TG2=     0.720000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7714E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3845E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.715000 TO TG2=    0.720000 @ NSTEP      412
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555129428190D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.25751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.64455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.81701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.23808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.93833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.33221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.30213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.87481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.62963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.14325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.40214E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  3.11378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  3.35488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.67103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.00122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.41999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.70216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.70216E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    415
 TA= 7.20000E-01 CPU TIME= 1.59059E-01 SECONDS.  DT= 2.55556E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.897614166666472     
  %check_save_state: izleft hours =    79.0938888888889     
 --> plasma_hash("gframe"): TA= 7.200000E-01 NSTEP=   415 Hash code:  123313670
 ->PRGCHK: bdy curvature ratio at t= 7.2500E-01 seconds is:  5.3928E-02
% MHDEQ: TG1=     0.720000 ; TG2=     0.725000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7729E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3928E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.720000 TO TG2=    0.725000 @ NSTEP      415
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554819553520D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    417
 TA= 7.25000E-01 CPU TIME= 1.61541E-01 SECONDS.  DT= 3.05555E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.909901111111139     
  %check_save_state: izleft hours =    79.0816666666667     
 --> plasma_hash("gframe"): TA= 7.250000E-01 NSTEP=   417 Hash code:   39977628
 ->PRGCHK: bdy curvature ratio at t= 7.3000E-01 seconds is:  5.3991E-02
% MHDEQ: TG1=     0.725000 ; TG2=     0.730000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7745E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3991E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.725000 TO TG2=    0.730000 @ NSTEP      417
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554509678850D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.09541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  7.73222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.75332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.04856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.28466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.77074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.71153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.14249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.41605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  6.33109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.69525E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -5.39324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  2.39410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.32256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.32703E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.81495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.05144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.05144E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    419
 TA= 7.30000E-01 CPU TIME= 1.63817E-01 SECONDS.  DT= 2.43056E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.920704444444254     
  %check_save_state: izleft hours =    79.0705555555556     
 --> plasma_hash("gframe"): TA= 7.300000E-01 NSTEP=   419 Hash code:   83312750
 ->PRGCHK: bdy curvature ratio at t= 7.3500E-01 seconds is:  5.3948E-02
% MHDEQ: TG1=     0.730000 ; TG2=     0.735000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7761E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3948E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.730000 TO TG2=    0.735000 @ NSTEP      419
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554199804180D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    421
 TA= 7.35000E-01 CPU TIME= 1.64761E-01 SECONDS.  DT= 3.21180E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.932179999999789     
  %check_save_state: izleft hours =    79.0594444444444     
 --> plasma_hash("gframe"): TA= 7.350000E-01 NSTEP=   421 Hash code:   42539674
 ->PRGCHK: bdy curvature ratio at t= 7.4000E-01 seconds is:  5.3909E-02
% MHDEQ: TG1=     0.735000 ; TG2=     0.740000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3909E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.735000 TO TG2=    0.740000 @ NSTEP      421
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553889929511D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.93331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  4.66618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.42783E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -6.82799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.68962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.50474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.58754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.15879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.23711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.23936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.54826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.65535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.68885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.51050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.62419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.38907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.43331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.97408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.65285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.20992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.12498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.12498E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    423
 TA= 7.40000E-01 CPU TIME= 1.59795E-01 SECONDS.  DT= 2.23525E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.942242222221694     
  %check_save_state: izleft hours =    79.0494444444444     
 --> plasma_hash("gframe"): TA= 7.400000E-01 NSTEP=   423 Hash code:   73915704
 ->PRGCHK: bdy curvature ratio at t= 7.4500E-01 seconds is:  5.3874E-02
% MHDEQ: TG1=     0.740000 ; TG2=     0.745000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7792E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3874E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.740000 TO TG2=    0.745000 @ NSTEP      423
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553580054841D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    425
 TA= 7.45000E-01 CPU TIME= 1.59362E-01 SECONDS.  DT= 3.45594E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.952331388888524     
  %check_save_state: izleft hours =    79.0391666666667     
 --> plasma_hash("gframe"): TA= 7.450000E-01 NSTEP=   425 Hash code:   59996163
 ->PRGCHK: bdy curvature ratio at t= 7.5000E-01 seconds is:  5.3843E-02
% MHDEQ: TG1=     0.745000 ; TG2=     0.750000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7808E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3843E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.745000 TO TG2=    0.750000 @ NSTEP      425
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553270175823D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.64184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  2.07356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.85024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.63576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.06712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.25200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.19690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  5.16447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.41019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.08902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.91952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.80878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.56411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.62543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -3.23794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.67941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.92835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.54390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.13180E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.13180E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    427
 TA= 7.50000E-01 CPU TIME= 1.64358E-01 SECONDS.  DT= 1.93007E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.964422777777827     
  %check_save_state: izleft hours =    79.0272222222222     
 --> plasma_hash("gframe"): TA= 7.500000E-01 NSTEP=   427 Hash code:  104630945
 ->PRGCHK: bdy curvature ratio at t= 7.5500E-01 seconds is:  5.3815E-02
% MHDEQ: TG1=     0.750000 ; TG2=     0.755000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7824E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3815E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.750000 TO TG2=    0.755000 @ NSTEP      427
   GFRAME TG2 MOMENTS CHECKSUM:  2.4552960296804D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    430
 TA= 7.55000E-01 CPU TIME= 1.60138E-01 SECONDS.  DT= 8.21670E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.974868055555135     
  %check_save_state: izleft hours =    79.0166666666667     
 --> plasma_hash("gframe"): TA= 7.550000E-01 NSTEP=   430 Hash code:   28717316
 ->PRGCHK: bdy curvature ratio at t= 7.6000E-01 seconds is:  5.3862E-02
% MHDEQ: TG1=     0.755000 ; TG2=     0.760000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7811E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3862E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.755000 TO TG2=    0.760000 @ NSTEP      430
   GFRAME TG2 MOMENTS CHECKSUM:  2.4543530748297D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.06580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       4=  6.06894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.14427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       3= -2.19524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.59004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.66213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.42716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.22889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.23932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.42664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.21243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.48550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.83226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.07297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.48928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11=  2.17248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.52816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.07691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.81513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.01358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.01358E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    435
 TA= 7.60000E-01 CPU TIME= 1.59728E-01 SECONDS.  DT= 3.28196E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.985538611110996     
  %check_save_state: izleft hours =    79.0061111111111     
 --> plasma_hash("gframe"): TA= 7.600000E-01 NSTEP=   435 Hash code:   61830712
 ->PRGCHK: bdy curvature ratio at t= 7.6500E-01 seconds is:  5.3913E-02
% MHDEQ: TG1=     0.760000 ; TG2=     0.765000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0560E-03 SECONDS
   DATA R*BT AT EDGE:  2.7798E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3913E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.760000 TO TG2=    0.765000 @ NSTEP      435
   GFRAME TG2 MOMENTS CHECKSUM:  2.4534101199790D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    443
 TA= 7.65000E-01 CPU TIME= 1.60975E-01 SECONDS.  DT= 6.61824E-05
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =   0.996938055555347     
  %check_save_state: izleft hours =    78.9944444444444     
 --> plasma_hash("gframe"): TA= 7.650000E-01 NSTEP=   443 Hash code:   21839833
 ->PRGCHK: bdy curvature ratio at t= 7.7000E-01 seconds is:  5.3968E-02
% MHDEQ: TG1=     0.765000 ; TG2=     0.770000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7785E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3968E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.765000 TO TG2=    0.770000 @ NSTEP      443
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524671651284D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.80820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       4=  4.74810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.54452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.58167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.69942E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.40414E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.03161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.02249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.14389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.02412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.61156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.28170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.14204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.47940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.29670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11=  4.59278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.68722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.94298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.84156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.31527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.31527E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    457
 TA= 7.70000E-01 CPU TIME= 1.60472E-01 SECONDS.  DT= 5.61658E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.00802555555515     
  %check_save_state: izleft hours =    78.9833333333333     
 --> plasma_hash("gframe"): TA= 7.700000E-01 NSTEP=   457 Hash code:  115056800
 ->PRGCHK: bdy curvature ratio at t= 7.7500E-01 seconds is:  5.4027E-02
% MHDEQ: TG1=     0.770000 ; TG2=     0.775000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7773E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4027E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.770000 TO TG2=    0.775000 @ NSTEP      457
   GFRAME TG2 MOMENTS CHECKSUM:  2.4515242102777D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    463
 TA= 7.75000E-01 CPU TIME= 1.64278E-01 SECONDS.  DT= 4.88068E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.01782861111064     
  %check_save_state: izleft hours =    78.9736111111111     
 --> plasma_hash("gframe"): TA= 7.750000E-01 NSTEP=   463 Hash code:    6371514
 ->PRGCHK: bdy curvature ratio at t= 7.8000E-01 seconds is:  5.4090E-02
% MHDEQ: TG1=     0.775000 ; TG2=     0.780000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7760E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4090E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.775000 TO TG2=    0.780000 @ NSTEP      463
   GFRAME TG2 MOMENTS CHECKSUM:  2.4505812554270D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.53389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       4=  3.34164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.97071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.91891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.57276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.73912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.37962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.82154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.79160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.68237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.82360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.74579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.69545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.21560E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.45196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.09163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.47125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.85659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.80038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.86971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.94016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.94016E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    469
 TA= 7.80000E-01 CPU TIME= 1.47723E-01 SECONDS.  DT= 1.24302E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.02728444444392     
  %check_save_state: izleft hours =    78.9641666666667     
 --> plasma_hash("gframe"): TA= 7.800000E-01 NSTEP=   469 Hash code:   45820855
 ->PRGCHK: bdy curvature ratio at t= 7.8500E-01 seconds is:  5.4156E-02
% MHDEQ: TG1=     0.780000 ; TG2=     0.785000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7747E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4156E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.780000 TO TG2=    0.785000 @ NSTEP      469
   GFRAME TG2 MOMENTS CHECKSUM:  2.4496383005763D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    473
 TA= 7.85000E-01 CPU TIME= 1.59225E-01 SECONDS.  DT= 3.26249E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.03729638888854     
  %check_save_state: izleft hours =    78.9541666666667     
 --> plasma_hash("gframe"): TA= 7.850000E-01 NSTEP=   473 Hash code:   78173164
 ->PRGCHK: bdy curvature ratio at t= 7.9000E-01 seconds is:  5.4226E-02
% MHDEQ: TG1=     0.785000 ; TG2=     0.790000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7734E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4226E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.785000 TO TG2=    0.790000 @ NSTEP      473
   GFRAME TG2 MOMENTS CHECKSUM:  2.4486953457256D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.27355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       4=  2.00674E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -6.37521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.86413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.56431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.77680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.35635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.62215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.57246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  5.14257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.63328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.87319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.62717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.28541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.42592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.89700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.97317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.01735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.66503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.89642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.38887E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.38887E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    481
 TA= 7.90000E-01 CPU TIME= 1.59392E-01 SECONDS.  DT= 1.02866E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.04905833333282     
  %check_save_state: izleft hours =    78.9425000000000     
 --> plasma_hash("gframe"): TA= 7.900000E-01 NSTEP=   481 Hash code:  104254586
 ->PRGCHK: bdy curvature ratio at t= 7.9500E-01 seconds is:  5.4222E-02
% MHDEQ: TG1=     0.790000 ; TG2=     0.795000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4222E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.790000 TO TG2=    0.795000 @ NSTEP      481
   GFRAME TG2 MOMENTS CHECKSUM:  2.4477523908749D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    493
 TA= 7.95000E-01 CPU TIME= 1.59247E-01 SECONDS.  DT= 7.76734E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.06031972222218     
  %check_save_state: izleft hours =    78.9313888888889     
 --> plasma_hash("gframe"): TA= 7.950000E-01 NSTEP=   493 Hash code:   24563887
 ->PRGCHK: bdy curvature ratio at t= 8.0000E-01 seconds is:  5.4202E-02
% MHDEQ: TG1=     0.795000 ; TG2=     0.800000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4202E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.795000 TO TG2=    0.800000 @ NSTEP      493
   GFRAME TG2 MOMENTS CHECKSUM:  2.4468094360242D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.02257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       5= -5.15262E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -6.76515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.77532E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.55615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81312E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.33392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.42995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.36121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.55020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.44982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.99600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.50632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.35271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.40081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.70938E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -2.45702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.17232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.53455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.92217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.38877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.38877E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    498
 TA= 8.00000E-01 CPU TIME= 1.60368E-01 SECONDS.  DT= 6.52052E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.07246972222219     
  %check_save_state: izleft hours =    78.9191666666667     
 --> plasma_hash("gframe"): TA= 8.000000E-01 NSTEP=   498 Hash code:   99931301
 ->PRGCHK: bdy curvature ratio at t= 8.0500E-01 seconds is:  5.4186E-02
% MHDEQ: TG1=     0.800000 ; TG2=     0.805000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7695E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4186E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.800000 TO TG2=    0.805000 @ NSTEP      498
   GFRAME TG2 MOMENTS CHECKSUM:  2.4458664811735D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    503
 TA= 8.05000E-01 CPU TIME= 1.60972E-01 SECONDS.  DT= 1.55064E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.08257777777726     
  %check_save_state: izleft hours =    78.9088888888889     
 --> plasma_hash("gframe"): TA= 8.050000E-01 NSTEP=   503 Hash code:   84900091
 ->PRGCHK: bdy curvature ratio at t= 8.1000E-01 seconds is:  5.4213E-02
% MHDEQ: TG1=     0.805000 ; TG2=     0.810000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7690E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4213E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.805000 TO TG2=    0.810000 @ NSTEP      503
   GFRAME TG2 MOMENTS CHECKSUM:  2.4468945852418D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.13274E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       7=  5.48028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -6.50374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.65149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.52779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.27627E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.34686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.63415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.62817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.34974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.93765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.63300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.36017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.36956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.45149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -2.45704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.00726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.42677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.90814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.61529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.61529E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    506
 TA= 8.10000E-01 CPU TIME= 1.64229E-01 SECONDS.  DT= 1.88883E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.09230138888847     
  %check_save_state: izleft hours =    78.8991666666667     
 --> plasma_hash("gframe"): TA= 8.100000E-01 NSTEP=   506 Hash code:    3458406
 ->PRGCHK: bdy curvature ratio at t= 8.1500E-01 seconds is:  5.4011E-02
% MHDEQ: TG1=     0.810000 ; TG2=     0.815000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4011E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.810000 TO TG2=    0.815000 @ NSTEP      506
   GFRAME TG2 MOMENTS CHECKSUM:  2.4479226893100D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    509
 TA= 8.15000E-01 CPU TIME= 1.59469E-01 SECONDS.  DT= 9.37675E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.10523083333305     
  %check_save_state: izleft hours =    78.8863888888889     
 --> plasma_hash("gframe"): TA= 8.150000E-01 NSTEP=   509 Hash code:   50173307
 ->PRGCHK: bdy curvature ratio at t= 8.2000E-01 seconds is:  5.3851E-02
% MHDEQ: TG1=     0.815000 ; TG2=     0.820000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3851E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.815000 TO TG2=    0.820000 @ NSTEP      509
   GFRAME TG2 MOMENTS CHECKSUM:  2.4489507947880D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.64298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       7=  4.15274E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.53050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.35134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.48047E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.73634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.18686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.40269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.17697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  5.15818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.36152E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.67911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.28753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.29738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.33604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.15245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.89818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.49815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.36192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.85031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.88391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.88391E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000222324161E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    513
 TA= 8.20000E-01 CPU TIME= 1.59388E-01 SECONDS.  DT= 1.78139E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.11510749999957     
  %check_save_state: izleft hours =    78.8758333333333     
 --> plasma_hash("gframe"): TA= 8.200000E-01 NSTEP=   513 Hash code:  120533896
 ->PRGCHK: bdy curvature ratio at t= 8.2500E-01 seconds is:  5.3734E-02
% MHDEQ: TG1=     0.820000 ; TG2=     0.825000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3734E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.820000 TO TG2=    0.825000 @ NSTEP      513
   GFRAME TG2 MOMENTS CHECKSUM:  2.4499789002660D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    516
 TA= 8.25000E-01 CPU TIME= 1.59990E-01 SECONDS.  DT= 1.23984E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.12743499999965     
  %check_save_state: izleft hours =    78.8641666666667     
 --> plasma_hash("gframe"): TA= 8.250000E-01 NSTEP=   516 Hash code:   17440003
 ->PRGCHK: bdy curvature ratio at t= 8.3000E-01 seconds is:  5.3658E-02
% MHDEQ: TG1=     0.825000 ; TG2=     0.830000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7667E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3658E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.825000 TO TG2=    0.830000 @ NSTEP      516
   GFRAME TG2 MOMENTS CHECKSUM:  2.4510070057440D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.13928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       7=  2.86134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.58383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.43445E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.67295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.09990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.45700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.28431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.72833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.37297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.42762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.93254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.23629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.30345E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.86157E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.35459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.00294E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.29884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.79407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.58891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.58891E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    520
 TA= 8.30000E-01 CPU TIME= 1.58911E-01 SECONDS.  DT= 3.41407E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.13705888888853     
  %check_save_state: izleft hours =    78.8544444444444     
 --> plasma_hash("gframe"): TA= 8.300000E-01 NSTEP=   520 Hash code:   55155213
 ->PRGCHK: bdy curvature ratio at t= 8.3500E-01 seconds is:  5.3625E-02
% MHDEQ: TG1=     0.830000 ; TG2=     0.835000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7661E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3625E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.830000 TO TG2=    0.835000 @ NSTEP      520
   GFRAME TG2 MOMENTS CHECKSUM:  2.4520351112220D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    527
 TA= 8.35000E-01 CPU TIME= 1.66305E-01 SECONDS.  DT= 1.44522E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.14768055555555     
  %check_save_state: izleft hours =    78.8438888888889     
 --> plasma_hash("gframe"): TA= 8.350000E-01 NSTEP=   527 Hash code:   77863343
 ->PRGCHK: bdy curvature ratio at t= 8.4000E-01 seconds is:  5.3405E-02
% MHDEQ: TG1=     0.835000 ; TG2=     0.840000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3405E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.835000 TO TG2=    0.840000 @ NSTEP      527
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530632167000D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.66346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       7=  1.49742E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.58401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2=  3.86521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.38585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.60600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.00805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.51435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.39768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.21819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.38506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.16201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.61377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.17178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.26902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.55436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11=  3.80352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.47992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.23222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.73466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.84730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.84730E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    530
 TA= 8.40000E-01 CPU TIME= 1.59132E-01 SECONDS.  DT= 2.18533E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.16317916666617     
  %check_save_state: izleft hours =    78.8283333333333     
 --> plasma_hash("gframe"): TA= 8.400000E-01 NSTEP=   530 Hash code:   95394202
 ->PRGCHK: bdy curvature ratio at t= 8.4500E-01 seconds is:  5.3097E-02
% MHDEQ: TG1=     0.840000 ; TG2=     0.845000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3097E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.840000 TO TG2=    0.845000 @ NSTEP      530
   GFRAME TG2 MOMENTS CHECKSUM:  2.4540913221781D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    533
 TA= 8.45000E-01 CPU TIME= 1.59785E-01 SECONDS.  DT= 1.03764E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.17605305555503     
  %check_save_state: izleft hours =    78.8155555555556     
 --> plasma_hash("gframe"): TA= 8.450000E-01 NSTEP=   533 Hash code:  106505547
 ->PRGCHK: bdy curvature ratio at t= 8.5000E-01 seconds is:  5.2839E-02
% MHDEQ: TG1=     0.845000 ; TG2=     0.850000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2839E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.845000 TO TG2=    0.850000 @ NSTEP      533
   GFRAME TG2 MOMENTS CHECKSUM:  2.4551194276561D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.17370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       9=  4.84121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.61077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.54912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.33853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.54083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.91865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.57018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.50804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.73771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.39683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.90346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.27689E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.10898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.23551E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.25531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12= -5.13282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.97081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.16737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.67684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.04602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.04602E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    545
 TA= 8.50000E-01 CPU TIME= 1.67813E-01 SECONDS.  DT= 7.28967E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.18567472222185     
  %check_save_state: izleft hours =    78.8058333333333     
 --> plasma_hash("gframe"): TA= 8.500000E-01 NSTEP=   545 Hash code:   25044288
 ->PRGCHK: bdy curvature ratio at t= 8.5500E-01 seconds is:  5.2630E-02
% MHDEQ: TG1=     0.850000 ; TG2=     0.855000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7638E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2630E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.850000 TO TG2=    0.855000 @ NSTEP      545
   GFRAME TG2 MOMENTS CHECKSUM:  2.4561475331341D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    550
 TA= 8.55000E-01 CPU TIME= 1.58795E-01 SECONDS.  DT= 9.96314E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.19566972222219     
  %check_save_state: izleft hours =    78.7958333333333     
 --> plasma_hash("gframe"): TA= 8.550000E-01 NSTEP=   550 Hash code:   28298241
 ->PRGCHK: bdy curvature ratio at t= 8.6000E-01 seconds is:  5.2931E-02
% MHDEQ: TG1=     0.855000 ; TG2=     0.860000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2931E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.855000 TO TG2=    0.860000 @ NSTEP      550
   GFRAME TG2 MOMENTS CHECKSUM:  2.4562596293927D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.88594E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       8=  2.45521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.23708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.22602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.29571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.51599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.76284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.47395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.50989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -2.39302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.46952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.78901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.24829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.86595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.26431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.89517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  1.20531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.97044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.12784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.57145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.18726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.18726E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    554
 TA= 8.60000E-01 CPU TIME= 1.58669E-01 SECONDS.  DT= 1.50194E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.20620555555547     
  %check_save_state: izleft hours =    78.7847222222222     
 --> plasma_hash("gframe"): TA= 8.600000E-01 NSTEP=   554 Hash code:   91058110
 ->PRGCHK: bdy curvature ratio at t= 8.6500E-01 seconds is:  5.3288E-02
% MHDEQ: TG1=     0.860000 ; TG2=     0.865000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3288E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.860000 TO TG2=    0.865000 @ NSTEP      554
   GFRAME TG2 MOMENTS CHECKSUM:  2.4563717256513D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    557
 TA= 8.65000E-01 CPU TIME= 1.75331E-01 SECONDS.  DT= 2.02579E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.22001444444436     
  %check_save_state: izleft hours =    78.7716666666667     
 --> plasma_hash("gframe"): TA= 8.650000E-01 NSTEP=   557 Hash code:  118727476
 ->PRGCHK: bdy curvature ratio at t= 8.7000E-01 seconds is:  5.3702E-02
% MHDEQ: TG1=     0.865000 ; TG2=     0.870000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.8320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3702E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.865000 TO TG2=    0.870000 @ NSTEP      557
   GFRAME TG2 MOMENTS CHECKSUM:  2.4564838201628D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.84816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       8=  1.98387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.45298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -9.84772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.25907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.55045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.23662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.40794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -1.88439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.59721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.81735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.55980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.46139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.35138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.49255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -4.41810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.45636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.11426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.42526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.81295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.81295E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    560
 TA= 8.70000E-01 CPU TIME= 1.59691E-01 SECONDS.  DT= 5.52473E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    1.23255694444424     
  %check_save_state: izleft hours =    78.7588888888889     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  8.7000000E-01

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.595E+03 MB.

 --> plasma_hash("gframe"): TA= 8.700000E-01 NSTEP=   560 Hash code:   49150255
 ->PRGCHK: bdy curvature ratio at t= 8.7500E-01 seconds is:  5.4005E-02
% MHDEQ: TG1=     0.870000 ; TG2=     0.875000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4005E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.870000 TO TG2=    0.875000 @ NSTEP      560
   GFRAME TG2 MOMENTS CHECKSUM:  2.4565959146742D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    566
 TA= 8.75000E-01 CPU TIME= 1.60042E-01 SECONDS.  DT= 5.82295E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.24499027777733     
  %check_save_state: izleft hours =    78.7466666666667     
 --> plasma_hash("gframe"): TA= 8.750000E-01 NSTEP=   566 Hash code:   64521589
 ->PRGCHK: bdy curvature ratio at t= 8.8000E-01 seconds is:  5.4147E-02
% MHDEQ: TG1=     0.875000 ; TG2=     0.880000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4147E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.875000 TO TG2=    0.880000 @ NSTEP      566
   GFRAME TG2 MOMENTS CHECKSUM:  2.4567080091857D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.73841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       8=  1.47982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.68384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.62369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.21989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.54663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.98283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.29891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -1.34080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.73377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.84766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.82356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.62574E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.44450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -6.17906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -3.14477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.97597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.09974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.26893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.52012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.52012E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    572
 TA= 8.80000E-01 CPU TIME= 1.61001E-01 SECONDS.  DT= 2.76358E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.25480305555539     
  %check_save_state: izleft hours =    78.7366666666667     
 --> plasma_hash("gframe"): TA= 8.800000E-01 NSTEP=   572 Hash code:   27844238
 ->PRGCHK: bdy curvature ratio at t= 8.8500E-01 seconds is:  5.4337E-02
% MHDEQ: TG1=     0.880000 ; TG2=     0.885000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7757E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4337E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.880000 TO TG2=    0.885000 @ NSTEP      572
   GFRAME TG2 MOMENTS CHECKSUM:  2.4568201036971D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    580
 TA= 8.85000E-01 CPU TIME= 1.66788E-01 SECONDS.  DT= 1.04290E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.26550194444394     
  %check_save_state: izleft hours =    78.7261111111111     
 --> plasma_hash("gframe"): TA= 8.850000E-01 NSTEP=   580 Hash code:   48193981
 ->PRGCHK: bdy curvature ratio at t= 8.9000E-01 seconds is:  5.4575E-02
% MHDEQ: TG1=     0.885000 ; TG2=     0.890000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4575E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.885000 TO TG2=    0.890000 @ NSTEP      580
   GFRAME TG2 MOMENTS CHECKSUM:  2.4569321982086D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.62864E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       9= -5.08870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.91472E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.61309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.56246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.72904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.18989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  4.15744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.87032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.87796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.32628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.25999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.53762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -3.67401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -1.87141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.49559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.08521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.11259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.68247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.68247E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    584
 TA= 8.90000E-01 CPU TIME= 1.47613E-01 SECONDS.  DT= 1.27993E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.27726916666666     
  %check_save_state: izleft hours =    78.7141666666667     
 --> plasma_hash("gframe"): TA= 8.900000E-01 NSTEP=   584 Hash code:  118250018
 ->PRGCHK: bdy curvature ratio at t= 8.9500E-01 seconds is:  5.4860E-02
% MHDEQ: TG1=     0.890000 ; TG2=     0.895000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7797E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4860E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.890000 TO TG2=    0.895000 @ NSTEP      584
   GFRAME TG2 MOMENTS CHECKSUM:  2.4570442927200D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    588
 TA= 8.95000E-01 CPU TIME= 1.59334E-01 SECONDS.  DT= 1.50314E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.28756833333296     
  %check_save_state: izleft hours =    78.7038888888889     
 --> plasma_hash("gframe"): TA= 8.950000E-01 NSTEP=   588 Hash code:  118370369
 ->PRGCHK: bdy curvature ratio at t= 9.0000E-01 seconds is:  5.5194E-02
% MHDEQ: TG1=     0.895000 ; TG2=     0.900000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7817E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5194E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.895000 TO TG2=    0.900000 @ NSTEP      588
   GFRAME TG2 MOMENTS CHECKSUM:  2.4571563858364D+04
 %MFRCHK - LABEL "RMC12", #       2=  8.43074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       9= -5.91579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.14055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.55914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.14238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.57795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.48078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.75317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.38382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.00390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.90761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.13593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -4.93234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.62871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -1.22354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      14=  2.86017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.00390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.07100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.95966E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.35336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.35336E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    599
 TA= 9.00000E-01 CPU TIME= 1.58686E-01 SECONDS.  DT= 2.03011E-06
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.30091333333303     
  %check_save_state: izleft hours =    78.6905555555556     
 --> plasma_hash("gframe"): TA= 9.000000E-01 NSTEP=   599 Hash code:  114198290
 ->PRGCHK: bdy curvature ratio at t= 9.0500E-01 seconds is:  5.5237E-02
% MHDEQ: TG1=     0.900000 ; TG2=     0.905000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7837E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5237E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.900000 TO TG2=    0.905000 @ NSTEP      599
   GFRAME TG2 MOMENTS CHECKSUM:  2.4572684789528D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    628
 TA= 9.05000E-01 CPU TIME= 1.59937E-01 SECONDS.  DT= 1.01243E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.31138972222197     
  %check_save_state: izleft hours =    78.6802777777778     
 --> plasma_hash("gframe"): TA= 9.050000E-01 NSTEP=   628 Hash code:   53415984
 ->PRGCHK: bdy curvature ratio at t= 9.1000E-01 seconds is:  5.5263E-02
% MHDEQ: TG1=     0.905000 ; TG2=     0.910000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7840E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5263E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.905000 TO TG2=    0.910000 @ NSTEP      628
   GFRAME TG2 MOMENTS CHECKSUM:  2.4568929626822D+04
 %MFRCHK - LABEL "RMC12", #       2=  4.23043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  1.58171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.53127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.88898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.15123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.80301E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.40547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.46338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.34996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.17396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.78014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.22649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -4.77206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.68480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       8= -6.29621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16=  2.79358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.28872E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.99119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.83572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.84222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.84222E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    632
 TA= 9.10000E-01 CPU TIME= 1.59343E-01 SECONDS.  DT= 1.42513E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.32310722222155     
  %check_save_state: izleft hours =    78.6683333333333     
 --> plasma_hash("gframe"): TA= 9.100000E-01 NSTEP=   632 Hash code:   23669649
 ->PRGCHK: bdy curvature ratio at t= 9.1500E-01 seconds is:  5.5077E-02
% MHDEQ: TG1=     0.910000 ; TG2=     0.915000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7843E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5077E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.910000 TO TG2=    0.915000 @ NSTEP      632
   GFRAME TG2 MOMENTS CHECKSUM:  2.4565174464115D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999989900971E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    635
 TA= 9.15000E-01 CPU TIME= 1.62364E-01 SECONDS.  DT= 2.24181E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.33423194444435     
  %check_save_state: izleft hours =    78.6569444444444     
 --> plasma_hash("gframe"): TA= 9.150000E-01 NSTEP=   635 Hash code:  100323378
 ->PRGCHK: bdy curvature ratio at t= 9.2000E-01 seconds is:  5.4874E-02
% MHDEQ: TG1=     0.915000 ; TG2=     0.920000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7846E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4874E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.915000 TO TG2=    0.920000 @ NSTEP      635
   GFRAME TG2 MOMENTS CHECKSUM:  2.4561419301408D+04
 %MFRCHK - LABEL "RMS12", #       2=  4.74510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.60168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.20729E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.44375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.77584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.50323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.64749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.75849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.38044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.49555E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.59999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -3.21547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.70586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  3.44958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15= -1.77710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.34982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.84577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.74083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.14280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.14280E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    637
 TA= 9.20000E-01 CPU TIME= 1.68661E-01 SECONDS.  DT= 3.44774E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.34377583333276     
  %check_save_state: izleft hours =    78.6477777777778     
 --> plasma_hash("gframe"): TA= 9.200000E-01 NSTEP=   637 Hash code:   84403407
 ->PRGCHK: bdy curvature ratio at t= 9.2500E-01 seconds is:  5.4702E-02
% MHDEQ: TG1=     0.920000 ; TG2=     0.925000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7849E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4702E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.920000 TO TG2=    0.925000 @ NSTEP      637
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557664138702D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    639
 TA= 9.25000E-01 CPU TIME= 1.59379E-01 SECONDS.  DT= 1.94033E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.35331833333339     
  %check_save_state: izleft hours =    78.6383333333333     
 --> plasma_hash("gframe"): TA= 9.250000E-01 NSTEP=   639 Hash code:  103643280
 ->PRGCHK: bdy curvature ratio at t= 9.3000E-01 seconds is:  5.4562E-02
% MHDEQ: TG1=     0.925000 ; TG2=     0.930000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7852E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4562E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.925000 TO TG2=    0.930000 @ NSTEP      639
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553908975995D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.32794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  7.70784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -4.13176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.39603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.25979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.87724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.59479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.81993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  4.48083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.57382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.22902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.82295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -1.75762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.72558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  5.60200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15= -2.85211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.40704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.70957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.65196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.25139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.25139E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    642
 TA= 9.30000E-01 CPU TIME= 1.59547E-01 SECONDS.  DT= 7.92824E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.36403194444415     
  %check_save_state: izleft hours =    78.6275000000000     
 --> plasma_hash("gframe"): TA= 9.300000E-01 NSTEP=   642 Hash code:   68007006
 ->PRGCHK: bdy curvature ratio at t= 9.3500E-01 seconds is:  5.4453E-02
% MHDEQ: TG1=     0.930000 ; TG2=     0.935000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7856E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4453E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.930000 TO TG2=    0.935000 @ NSTEP      642
   GFRAME TG2 MOMENTS CHECKSUM:  2.4550153813289D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    647
 TA= 9.35000E-01 CPU TIME= 1.59690E-01 SECONDS.  DT= 5.36091E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.37621194444409     
  %check_save_state: izleft hours =    78.6152777777778     
 --> plasma_hash("gframe"): TA= 9.350000E-01 NSTEP=   647 Hash code:   56909970
 ->PRGCHK: bdy curvature ratio at t= 9.4000E-01 seconds is:  5.4377E-02
% MHDEQ: TG1=     0.935000 ; TG2=     0.940000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7859E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4377E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.935000 TO TG2=    0.940000 @ NSTEP      647
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546398650582D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.87479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.71556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.10435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.31603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.26019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.84318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.69288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.00467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  6.32605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.78099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.94347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.41013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -4.53371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.74671E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.35917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15= -4.00383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.46835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.56366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.55675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.96929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.96929E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999651365215E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    653
 TA= 9.40000E-01 CPU TIME= 1.59635E-01 SECONDS.  DT= 7.50352E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.38672333333329     
  %check_save_state: izleft hours =    78.6047222222222     
 --> plasma_hash("gframe"): TA= 9.400000E-01 NSTEP=   653 Hash code:   20135719
 ->PRGCHK: bdy curvature ratio at t= 9.4500E-01 seconds is:  5.4207E-02
% MHDEQ: TG1=     0.940000 ; TG2=     0.945000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7862E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4207E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.940000 TO TG2=    0.945000 @ NSTEP      653
   GFRAME TG2 MOMENTS CHECKSUM:  2.4542643487876D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    658
 TA= 9.45000E-01 CPU TIME= 1.59606E-01 SECONDS.  DT= 8.42188E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.39732055555555     
  %check_save_state: izleft hours =    78.5941666666667     
 --> plasma_hash("gframe"): TA= 9.450000E-01 NSTEP=   658 Hash code:  114450273
 ->PRGCHK: bdy curvature ratio at t= 9.5000E-01 seconds is:  5.3876E-02
% MHDEQ: TG1=     0.945000 ; TG2=     0.950000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7865E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3876E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.945000 TO TG2=    0.950000 @ NSTEP      658
   GFRAME TG2 MOMENTS CHECKSUM:  2.4538888376572D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.44465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.22595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.75834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.37464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4= -2.38948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.79510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.19718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.30269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.99688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.64590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.83667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.43182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.77218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15= -5.18133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.53223E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.41161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.45754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.88504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.88504E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    663
 TA= 9.50000E-01 CPU TIME= 1.62656E-01 SECONDS.  DT= 1.80326E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.40790527777767     
  %check_save_state: izleft hours =    78.5836111111111     
 --> plasma_hash("gframe"): TA= 9.500000E-01 NSTEP=   663 Hash code:   20922965
 ->PRGCHK: bdy curvature ratio at t= 9.5500E-01 seconds is:  5.3584E-02
% MHDEQ: TG1=     0.950000 ; TG2=     0.955000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4260E-03 SECONDS
   DATA R*BT AT EDGE:  2.7868E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3584E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.950000 TO TG2=    0.955000 @ NSTEP      663
   GFRAME TG2 MOMENTS CHECKSUM:  2.4535133265267D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    673
 TA= 9.55000E-01 CPU TIME= 1.59622E-01 SECONDS.  DT= 4.33973E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.41980361111109     
  %check_save_state: izleft hours =    78.5716666666667     
 --> plasma_hash("gframe"): TA= 9.550000E-01 NSTEP=   673 Hash code:   10447991
 ->PRGCHK: bdy curvature ratio at t= 9.6000E-01 seconds is:  5.3772E-02
% MHDEQ: TG1=     0.955000 ; TG2=     0.960000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7841E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3772E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.955000 TO TG2=    0.960000 @ NSTEP      673
   GFRAME TG2 MOMENTS CHECKSUM:  2.4562177793339D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.10069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.25161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.58119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.26519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.74397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.31023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.38600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.33163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.54139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.11570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.47960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  2.10064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.49470E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.39034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.22606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.02545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.82606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.49316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.00422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.00422E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    680
 TA= 9.60000E-01 CPU TIME= 1.59036E-01 SECONDS.  DT= 1.42482E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.43226194444378     
  %check_save_state: izleft hours =    78.5591666666667     
 --> plasma_hash("gframe"): TA= 9.600000E-01 NSTEP=   680 Hash code:   29212780
 ->PRGCHK: bdy curvature ratio at t= 9.6500E-01 seconds is:  5.3967E-02
% MHDEQ: TG1=     0.960000 ; TG2=     0.965000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7814E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3967E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.960000 TO TG2=    0.965000 @ NSTEP      680
   GFRAME TG2 MOMENTS CHECKSUM:  2.4589222321411D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    691
 TA= 9.65000E-01 CPU TIME= 1.59467E-01 SECONDS.  DT= 3.27562E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.44310555555558     
  %check_save_state: izleft hours =    78.5483333333333     
 --> plasma_hash("gframe"): TA= 9.650000E-01 NSTEP=   691 Hash code:   37565748
 ->PRGCHK: bdy curvature ratio at t= 9.7000E-01 seconds is:  5.4170E-02
% MHDEQ: TG1=     0.965000 ; TG2=     0.970000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7786E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4170E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.965000 TO TG2=    0.970000 @ NSTEP      691
   GFRAME TG2 MOMENTS CHECKSUM:  2.4616266849482D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.87353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.73052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.78329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.38910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.98072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.04563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.20931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.85399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  6.86290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.38586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.32614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.82297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.82925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.90870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.24400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.74936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.91823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.77296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.66685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.62639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.62639E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    699
 TA= 9.70000E-01 CPU TIME= 1.59216E-01 SECONDS.  DT= 7.81315E-05
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.45338777777761     
  %check_save_state: izleft hours =    78.5380555555556     
 --> plasma_hash("gframe"): TA= 9.700000E-01 NSTEP=   699 Hash code:   26303029
 ->PRGCHK: bdy curvature ratio at t= 9.7500E-01 seconds is:  5.4380E-02
% MHDEQ: TG1=     0.970000 ; TG2=     0.975000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7759E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4380E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.970000 TO TG2=    0.975000 @ NSTEP      699
   GFRAME TG2 MOMENTS CHECKSUM:  2.4643311377554D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    712
 TA= 9.75000E-01 CPU TIME= 1.59498E-01 SECONDS.  DT= 9.55843E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.46545055555544     
  %check_save_state: izleft hours =    78.5261111111111     
 --> plasma_hash("gframe"): TA= 9.750000E-01 NSTEP=   712 Hash code:   26264930
 ->PRGCHK: bdy curvature ratio at t= 9.8000E-01 seconds is:  5.4597E-02
% MHDEQ: TG1=     0.975000 ; TG2=     0.980000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7732E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4597E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.975000 TO TG2=    0.980000 @ NSTEP      712
   GFRAME TG2 MOMENTS CHECKSUM:  2.4670355905626D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.64722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.20995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.98452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.75780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.24203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.32250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  5.29196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.63954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.53571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.97020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.55756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.32206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.09860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.20332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.80980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -1.47837E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.84073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.51645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.51645E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    716
 TA= 9.80000E-01 CPU TIME= 1.59632E-01 SECONDS.  DT= 1.69481E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.47516777777719     
  %check_save_state: izleft hours =    78.5163888888889     
 --> plasma_hash("gframe"): TA= 9.800000E-01 NSTEP=   716 Hash code:   40335239
 ->PRGCHK: bdy curvature ratio at t= 9.8500E-01 seconds is:  5.4821E-02
% MHDEQ: TG1=     0.980000 ; TG2=     0.985000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7705E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4821E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.980000 TO TG2=    0.985000 @ NSTEP      716
   GFRAME TG2 MOMENTS CHECKSUM:  2.4697400433697D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    719
 TA= 9.85000E-01 CPU TIME= 1.59724E-01 SECONDS.  DT= 1.48334E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.48628472222208     
  %check_save_state: izleft hours =    78.5052777777778     
 --> plasma_hash("gframe"): TA= 9.850000E-01 NSTEP=   719 Hash code:  101913954
 ->PRGCHK: bdy curvature ratio at t= 9.9000E-01 seconds is:  5.5051E-02
% MHDEQ: TG1=     0.985000 ; TG2=     0.990000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.8110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7677E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5051E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.985000 TO TG2=    0.990000 @ NSTEP      719
   GFRAME TG2 MOMENTS CHECKSUM:  2.4724444961769D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.41611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.68640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.19071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.41291E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.78451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4= -1.18759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.78810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  3.73078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.58869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  5.36943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.01455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.28755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.67987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.94789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.68469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.70825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  3.32093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.01354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.11411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.11411E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    722
 TA= 9.90000E-01 CPU TIME= 1.59629E-01 SECONDS.  DT= 2.07811E-03
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.49751777777738     
  %check_save_state: izleft hours =    78.4941666666667     
 --> plasma_hash("gframe"): TA= 9.900000E-01 NSTEP=   722 Hash code:   83653046
 ->PRGCHK: bdy curvature ratio at t= 9.9500E-01 seconds is:  5.5287E-02
% MHDEQ: TG1=     0.990000 ; TG2=     0.995000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5287E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.990000 TO TG2=    0.995000 @ NSTEP      722
   GFRAME TG2 MOMENTS CHECKSUM:  2.4751489489841D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  %get_ech_powers: total power < pech_min W: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    725
 TA= 9.95000E-01 CPU TIME= 1.59034E-01 SECONDS.  DT= 4.05313E-04
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.50807138888854     
  %check_save_state: izleft hours =    78.4836111111111     
 --> plasma_hash("gframe"): TA= 9.950000E-01 NSTEP=   725 Hash code:   85835203
 ->PRGCHK: bdy curvature ratio at t= 1.0000E+00 seconds is:  5.5528E-02
% MHDEQ: TG1=     0.995000 ; TG2=     1.000000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5528E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    0.995000 TO TG2=    1.000000 @ NSTEP      725
   GFRAME TG2 MOMENTS CHECKSUM:  2.4778533999631D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.15141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.14204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -6.70001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.30329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.23336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.23777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.01995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       8=  1.47546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.12419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -5.01635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -6.68766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.76010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.14504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.41488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  6.22575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.17879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.73274E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.73274E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.0000E+00  1.0050E+00 total power(Watts):  2.0038E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.00000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133376E+03   -0.349438E+02    0.334816E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.330707E+02    0.337565E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134023E+03   -0.342031E+02    0.321397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133122E+03   -0.364259E+02    0.323214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.364795E+02    0.342537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133399E+03   -0.343846E+02    0.351526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.325934E+02    0.364463E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.313520E+02    0.352726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.311674E+02    0.335645E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.318867E+02    0.319550E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.333899E+02    0.307754E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133510E+03   -0.354726E+02    0.301616E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132964E+03   -0.373026E+02    0.305699E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132505E+03   -0.385286E+02    0.317622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132182E+03   -0.388251E+02    0.334248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132355E+03   -0.379825E+02    0.352072E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132800E+03   -0.363300E+02    0.365066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133260E+03   -0.343896E+02    0.369247E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.326364E+02    0.393377E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.298009E+02    0.379656E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.284883E+02    0.353487E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.288610E+02    0.323102E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.306958E+02    0.297428E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.337504E+02    0.280188E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133105E+03   -0.372887E+02    0.276645E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132189E+03   -0.402113E+02    0.289922E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131113E+03   -0.419670E+02    0.313842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.130863E+03   -0.416762E+02    0.345535E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131341E+03   -0.395008E+02    0.374811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132300E+03   -0.361812E+02    0.391973E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134026E+03   -0.353546E+02    0.251235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.334928E+02    0.254614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.347658E+02    0.236682E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.368141E+02    0.239366E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133319E+03   -0.369837E+02    0.257408E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.347374E+02    0.268755E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.329727E+02    0.282122E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.318772E+02    0.269510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.316723E+02    0.252577E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.324479E+02    0.235571E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134465E+03   -0.340170E+02    0.222607E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.359217E+02    0.217611E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133499E+03   -0.377504E+02    0.221014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132807E+03   -0.390810E+02    0.231337E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132656E+03   -0.393109E+02    0.248348E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132763E+03   -0.384975E+02    0.266232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133147E+03   -0.368691E+02    0.279613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.347676E+02    0.286035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.329782E+02    0.310579E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.303638E+02    0.296467E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.290175E+02    0.271175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.293549E+02    0.240753E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.311559E+02    0.215105E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.342627E+02    0.196389E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.376988E+02    0.192719E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132363E+03   -0.408130E+02    0.202797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131886E+03   -0.423112E+02    0.227969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131766E+03   -0.419767E+02    0.259744E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132357E+03   -0.397712E+02    0.289709E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133019E+03   -0.365912E+02    0.306694E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.132477E+03   -0.352935E+02    0.388669E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.332370E+02    0.392099E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133111E+03   -0.345635E+02    0.374248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132195E+03   -0.368024E+02    0.377021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132007E+03   -0.368343E+02    0.397024E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.132539E+03   -0.347151E+02    0.405465E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133022E+03   -0.328986E+02    0.417916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.133723E+03   -0.316581E+02    0.405589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134013E+03   -0.314100E+02    0.388843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.322289E+02    0.371617E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.133486E+03   -0.337565E+02    0.359516E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133022E+03   -0.356876E+02    0.355233E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132026E+03   -0.377052E+02    0.358781E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.131572E+03   -0.389278E+02    0.371871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131268E+03   -0.392072E+02    0.389384E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.131033E+03   -0.385248E+02    0.406086E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.131284E+03   -0.369295E+02    0.418151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.132443E+03   -0.347021E+02    0.423334E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.132128E+03   -0.331629E+02    0.445862E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134051E+03   -0.300736E+02    0.432251E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.287738E+02    0.405573E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.289517E+02    0.376602E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.308154E+02    0.350109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.338953E+02    0.333335E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.132571E+03   -0.375412E+02    0.329961E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.131233E+03   -0.406592E+02    0.342940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.129939E+03   -0.424986E+02    0.368707E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.129515E+03   -0.422657E+02    0.401002E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.129387E+03   -0.403210E+02    0.428562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.130842E+03   -0.367523E+02    0.445803E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133865E+03   -0.350117E+02    0.297160E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.331480E+02    0.300182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.344330E+02    0.282354E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133189E+03   -0.366577E+02    0.283782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133165E+03   -0.366378E+02    0.303509E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.345538E+02    0.312469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.326926E+02    0.325930E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.315240E+02    0.314376E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.313287E+02    0.297896E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.321148E+02    0.280766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.336122E+02    0.268327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.355166E+02    0.263378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133091E+03   -0.375208E+02    0.265644E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132601E+03   -0.387531E+02    0.277810E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132468E+03   -0.389715E+02    0.295052E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132630E+03   -0.381461E+02    0.312233E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133061E+03   -0.365061E+02    0.324982E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133507E+03   -0.345713E+02    0.329390E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.328370E+02    0.353601E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.299947E+02    0.340622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.285918E+02    0.316407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.290161E+02    0.285613E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.309137E+02    0.257998E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.339567E+02    0.240447E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133282E+03   -0.374899E+02    0.236336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132368E+03   -0.404163E+02    0.248977E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131661E+03   -0.419897E+02    0.274978E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131164E+03   -0.418282E+02    0.305027E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131617E+03   -0.396835E+02    0.333504E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.362018E+02    0.352718E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.351382E+02    0.193399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.333691E+02    0.196116E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.346241E+02    0.177814E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.366672E+02    0.180250E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.366755E+02    0.199945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.346219E+02    0.209522E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.328760E+02    0.222595E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.316158E+02    0.212797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.313975E+02    0.196451E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.323121E+02    0.177039E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.338644E+02    0.163462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.357597E+02    0.158045E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133817E+03   -0.375829E+02    0.161240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133505E+03   -0.387351E+02    0.173550E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133306E+03   -0.389730E+02    0.190622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.380942E+02    0.208862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133981E+03   -0.364936E+02    0.221869E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.345832E+02    0.226835E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.328209E+02    0.251521E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.300570E+02    0.239786E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.287744E+02    0.214990E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.291557E+02    0.183878E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.310096E+02    0.156306E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.341681E+02    0.135662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.375950E+02    0.131354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.404289E+02    0.144000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132174E+03   -0.421248E+02    0.167528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132190E+03   -0.417266E+02    0.199930E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132975E+03   -0.394706E+02    0.229950E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133816E+03   -0.362404E+02    0.248376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    444068.669452743     
  ps_ts2 prof sum =   443692.583359885     
  trcom prof sum =    443692.583359884     
  ps_ts2 cur sum  =   4934.81406895967     
  trcom cur sum  =    4934.81406895966     
  
  antenna # iant =            2
  powecha_use(iant) =    485303.037221600     
  ps_ts2 prof sum =   484938.293945032     
  trcom prof sum =    484938.293945031     
  ps_ts2 cur sum  =   6573.28525118264     
  trcom cur sum  =    6573.28525118263     
  
  antenna # iant =            3
  powecha_use(iant) =    418900.284996541     
  ps_ts2 prof sum =   418532.374270178     
  trcom prof sum =    418532.374270178     
  ps_ts2 cur sum  =   3994.59202839703     
  trcom cur sum  =    3994.59202839704     
  
  antenna # iant =            4
  powecha_use(iant) =    249267.450282709     
  ps_ts2 prof sum =   249071.591186458     
  trcom prof sum =    249071.591186458     
  ps_ts2 cur sum  =   3057.50151455394     
  trcom cur sum  =    3057.50151455394     
  
  antenna # iant =            5
  powecha_use(iant) =    406240.348622490     
  ps_ts2 prof sum =   405926.139661789     
  trcom prof sum =    405926.139661789     
  ps_ts2 cur sum  =   6095.30554575797     
  trcom cur sum  =    6095.30554575797     
  
  Total ECH heating:      2002160.98242334     
  Total Current Drive:    24655.4984088512     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    732
 TA= 1.00000E+00 CPU TIME= 1.59833E-01 SECONDS.  DT= 5.45832E-04
  
 TEC1=    1.00000000000000     
 TEC2=    1.00500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.52713749999953     
  %check_save_state: izleft hours =    78.4644444444444     
 --> plasma_hash("gframe"): TA= 1.000000E+00 NSTEP=   732 Hash code:   78917650
 ->PRGCHK: bdy curvature ratio at t= 1.0050E+00 seconds is:  5.5775E-02
% MHDEQ: TG1=     1.000000 ; TG2=     1.005000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7596E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5775E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.000000 TO TG2=    1.005000 @ NSTEP      732
   GFRAME TG2 MOMENTS CHECKSUM:  2.4805578509421D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  !adas310/v2bnmod_f: WARNING for input data
  !DENS .lt. DENSP + DENIMP 
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0050E+00  1.0100E+00 total power(Watts):  2.7259E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.00500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133309E+03   -0.349839E+02    0.334012E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.330270E+02    0.337507E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.342430E+02    0.320601E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132827E+03   -0.365574E+02    0.321640E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132835E+03   -0.365219E+02    0.341682E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133336E+03   -0.344258E+02    0.350643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133782E+03   -0.326333E+02    0.363527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.313889E+02    0.351888E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.312059E+02    0.334863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.319243E+02    0.318756E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.335111E+02    0.306090E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133663E+03   -0.354263E+02    0.301517E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132679E+03   -0.374347E+02    0.304034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132432E+03   -0.385760E+02    0.316766E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132119E+03   -0.388686E+02    0.333407E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132295E+03   -0.380260E+02    0.351147E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132742E+03   -0.363729E+02    0.364094E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133200E+03   -0.344301E+02    0.368276E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133519E+03   -0.326761E+02    0.392388E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.298378E+02    0.378703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.285239E+02    0.352660E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.288950E+02    0.322333E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.307335E+02    0.296492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.337895E+02    0.279204E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133040E+03   -0.373307E+02    0.275632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.131911E+03   -0.403504E+02    0.288130E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.130834E+03   -0.421112E+02    0.312243E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.130807E+03   -0.417232E+02    0.344591E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131289E+03   -0.395463E+02    0.373745E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132021E+03   -0.363126E+02    0.390339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.353929E+02    0.250528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.335304E+02    0.253885E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.348054E+02    0.236093E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.368544E+02    0.238757E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133449E+03   -0.369410E+02    0.257428E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.347770E+02    0.267842E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.330117E+02    0.281145E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.319142E+02    0.268623E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.317089E+02    0.251890E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.324857E+02    0.234995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.340560E+02    0.222035E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.359617E+02    0.217023E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133414E+03   -0.377908E+02    0.220436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132724E+03   -0.391230E+02    0.230749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132578E+03   -0.393524E+02    0.247619E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132696E+03   -0.385410E+02    0.265268E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133081E+03   -0.369104E+02    0.278610E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.348071E+02    0.285061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.330208E+02    0.309701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.304011E+02    0.295528E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.289783E+02    0.271190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.293139E+02    0.241133E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.311900E+02    0.214475E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.343823E+02    0.194616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133635E+03   -0.377389E+02    0.191924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132284E+03   -0.408548E+02    0.202137E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131594E+03   -0.424528E+02    0.226479E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131699E+03   -0.420222E+02    0.258813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132078E+03   -0.399093E+02    0.287915E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132952E+03   -0.366324E+02    0.305825E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.132875E+03   -0.351617E+02    0.388845E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.332772E+02    0.391100E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133053E+03   -0.346051E+02    0.373251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132140E+03   -0.368452E+02    0.375985E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.131953E+03   -0.368797E+02    0.395973E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.132485E+03   -0.347566E+02    0.404476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133196E+03   -0.328567E+02    0.417559E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.133666E+03   -0.316974E+02    0.404630E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.313695E+02    0.388482E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.321068E+02    0.371969E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.133424E+03   -0.337973E+02    0.358591E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.132961E+03   -0.357299E+02    0.354314E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.131969E+03   -0.377495E+02    0.357803E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.131519E+03   -0.389725E+02    0.370820E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131219E+03   -0.392528E+02    0.388305E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.130983E+03   -0.385698E+02    0.405054E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.131688E+03   -0.367942E+02    0.418261E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.132389E+03   -0.347441E+02    0.422460E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.132536E+03   -0.330374E+02    0.445977E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.301887E+02    0.430947E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.286632E+02    0.405808E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.289876E+02    0.375668E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.309325E+02    0.348564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.339354E+02    0.332549E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.132502E+03   -0.375863E+02    0.329130E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.131174E+03   -0.407046E+02    0.342024E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.129890E+03   -0.425463E+02    0.367607E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.129694E+03   -0.422136E+02    0.400449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.129790E+03   -0.401758E+02    0.428618E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.130791E+03   -0.367958E+02    0.444938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133798E+03   -0.350512E+02    0.296231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.331856E+02    0.299279E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.344720E+02    0.281367E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.366994E+02    0.282788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133319E+03   -0.365900E+02    0.303411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.345084E+02    0.312419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.327315E+02    0.325153E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.315614E+02    0.313555E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.313662E+02    0.296966E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.321532E+02    0.279795E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.336500E+02    0.267443E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.356440E+02    0.261659E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133022E+03   -0.375629E+02    0.264709E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132538E+03   -0.387974E+02    0.276787E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132405E+03   -0.390144E+02    0.294101E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132565E+03   -0.381885E+02    0.311390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132773E+03   -0.366370E+02    0.323434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.346119E+02    0.328600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.328766E+02    0.352729E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.300314E+02    0.339838E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.286267E+02    0.315599E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.289779E+02    0.285514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.309495E+02    0.257261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.339958E+02    0.239840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133414E+03   -0.374417E+02    0.236642E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132079E+03   -0.405550E+02    0.247343E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131599E+03   -0.420368E+02    0.273934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131103E+03   -0.418732E+02    0.304138E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131554E+03   -0.397269E+02    0.332659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132688E+03   -0.363332E+02    0.351122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.352596E+02    0.191607E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.334055E+02    0.195332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.346588E+02    0.176967E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.367053E+02    0.179397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.367153E+02    0.199213E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.346604E+02    0.208873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.329121E+02    0.222021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.316501E+02    0.212149E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.315861E+02    0.193638E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.323488E+02    0.176174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.339027E+02    0.162555E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.357972E+02    0.157130E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133743E+03   -0.376220E+02    0.160330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133431E+03   -0.387748E+02    0.172678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133225E+03   -0.390167E+02    0.189803E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.382271E+02    0.207240E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.365337E+02    0.221291E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.346222E+02    0.226266E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.329405E+02    0.249926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.302418E+02    0.237325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.288070E+02    0.214344E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.291905E+02    0.183028E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.311191E+02    0.154306E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.341269E+02    0.135781E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133848E+03   -0.376334E+02    0.130374E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132885E+03   -0.405604E+02    0.142026E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132103E+03   -0.421668E+02    0.166638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132112E+03   -0.417689E+02    0.199254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132892E+03   -0.395124E+02    0.229371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.362804E+02    0.247694E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      13.80 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    547353.980080420     
  ps_ts2 prof sum =   546900.068965622     
  trcom prof sum =    546900.068965621     
  ps_ts2 cur sum  =   6207.45288869106     
  trcom cur sum  =    6207.45288869106     
  
  antenna # iant =            2
  powecha_use(iant) =    689347.797095136     
  ps_ts2 prof sum =   688815.360158649     
  trcom prof sum =    688815.360158649     
  ps_ts2 cur sum  =   9477.48709456495     
  trcom cur sum  =    9477.48709456494     
  
  antenna # iant =            3
  powecha_use(iant) =    500393.328700443     
  ps_ts2 prof sum =   499946.602924462     
  trcom prof sum =    499946.602924462     
  ps_ts2 cur sum  =   4889.61724496368     
  trcom cur sum  =    4889.61724496369     
  
  antenna # iant =            4
  powecha_use(iant) =    426936.714430929     
  ps_ts2 prof sum =   426595.245440541     
  trcom prof sum =    426595.245440540     
  ps_ts2 cur sum  =   5328.60134409886     
  trcom cur sum  =    5328.60134409885     
  
  antenna # iant =            5
  powecha_use(iant) =    561859.224887021     
  ps_ts2 prof sum =   561441.956356754     
  trcom prof sum =    561441.956356754     
  ps_ts2 cur sum  =   8534.97289734421     
  trcom cur sum  =    8534.97289734420     
  
  Total ECH heating:      2723699.23384603     
  Total Current Drive:    34438.1314696627     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    738
 TA= 1.00500E+00 CPU TIME= 1.46327E-01 SECONDS.  DT= 6.50427E-04
  
 TEC1=    1.00500000000000     
 TEC2=    1.01000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.54488499999957     
  %check_save_state: izleft hours =    78.4466666666667     
 --> plasma_hash("gframe"): TA= 1.005000E+00 NSTEP=   738 Hash code:   59978219
 ->PRGCHK: bdy curvature ratio at t= 1.0100E+00 seconds is:  5.5817E-02
% MHDEQ: TG1=     1.005000 ; TG2=     1.010000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7606E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5817E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.005000 TO TG2=    1.010000 @ NSTEP      738
   GFRAME TG2 MOMENTS CHECKSUM:  2.4794283404074D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.83448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.43286E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -8.61379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.59075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2=  1.52888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.47522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.58759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.52849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -4.03832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.37951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -3.88690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.21029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.20233E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.11727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10=  3.12485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.39745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.26213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.69824E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.69824E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0100E+00  1.0150E+00 total power(Watts):  2.7599E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.01000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.348306E+02    0.334986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134294E+03   -0.329621E+02    0.337760E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.342607E+02    0.320125E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133043E+03   -0.364878E+02    0.321890E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132827E+03   -0.365425E+02    0.341168E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.342742E+02    0.351554E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.324886E+02    0.364400E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.314062E+02    0.351412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.311446E+02    0.335142E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.319439E+02    0.318261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.334453E+02    0.306419E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133877E+03   -0.353568E+02    0.301841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132893E+03   -0.373635E+02    0.304323E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132436E+03   -0.385920E+02    0.316283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132335E+03   -0.387963E+02    0.333607E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132514E+03   -0.379553E+02    0.351309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132737E+03   -0.363935E+02    0.363589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133195E+03   -0.344503E+02    0.367786E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.326959E+02    0.391946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.298552E+02    0.378262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.285443E+02    0.352175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.288373E+02    0.322661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.307477E+02    0.296048E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.337216E+02    0.279589E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.371681E+02    0.276831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132123E+03   -0.402748E+02    0.288432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131049E+03   -0.420347E+02    0.312448E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131021E+03   -0.416489E+02    0.344718E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131286E+03   -0.395694E+02    0.373227E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132693E+03   -0.360685E+02    0.391667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.353233E+02    0.250887E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.335450E+02    0.253365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.347357E+02    0.236469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133722E+03   -0.368707E+02    0.238189E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.368640E+02    0.257821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.347925E+02    0.267345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.330276E+02    0.280678E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.319287E+02    0.268139E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.317221E+02    0.251368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.324991E+02    0.234454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.339865E+02    0.222439E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134163E+03   -0.358903E+02    0.217424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.377173E+02    0.220814E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133148E+03   -0.389556E+02    0.231994E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133004E+03   -0.391840E+02    0.248823E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.383741E+02    0.266469E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133511E+03   -0.367495E+02    0.279802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.347401E+02    0.285418E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.330329E+02    0.309267E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.303387E+02    0.295920E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.289207E+02    0.271593E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.292520E+02    0.241555E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.312789E+02    0.212983E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.343117E+02    0.195139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.377538E+02    0.191441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132489E+03   -0.407769E+02    0.202536E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131803E+03   -0.423725E+02    0.226777E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131696E+03   -0.420403E+02    0.258268E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132290E+03   -0.398342E+02    0.288222E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.365623E+02    0.306116E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.132869E+03   -0.351829E+02    0.388388E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133425E+03   -0.332973E+02    0.390653E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133273E+03   -0.345390E+02    0.373416E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132584E+03   -0.366875E+02    0.376754E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.131950E+03   -0.369008E+02    0.395525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.132934E+03   -0.346057E+02    0.405187E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133418E+03   -0.327943E+02    0.417702E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.133658E+03   -0.317167E+02    0.404223E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.133948E+03   -0.314665E+02    0.387431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.322068E+02    0.370838E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.133869E+03   -0.336485E+02    0.359467E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.132956E+03   -0.357502E+02    0.353806E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132411E+03   -0.375877E+02    0.358622E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.131516E+03   -0.389958E+02    0.370305E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131438E+03   -0.391816E+02    0.388412E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.131429E+03   -0.384071E+02    0.405716E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.131909E+03   -0.367268E+02    0.418364E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.132382E+03   -0.347654E+02    0.422048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.132760E+03   -0.329768E+02    0.446056E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.301305E+02    0.431082E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.286807E+02    0.405418E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.290046E+02    0.375219E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.308698E+02    0.348816E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.340382E+02    0.331316E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.132722E+03   -0.375138E+02    0.329365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.131612E+03   -0.405340E+02    0.342866E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.130109E+03   -0.424716E+02    0.367674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.129913E+03   -0.421408E+02    0.400510E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.130012E+03   -0.401053E+02    0.428654E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.131247E+03   -0.366388E+02    0.445448E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.349825E+02    0.296571E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.332026E+02    0.298802E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.344040E+02    0.281745E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133555E+03   -0.365389E+02    0.283967E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133094E+03   -0.366975E+02    0.302127E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134023E+03   -0.344411E+02    0.312720E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.326672E+02    0.325441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.315773E+02    0.313090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.313812E+02    0.296511E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.321686E+02    0.279331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.336651E+02    0.266949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.355729E+02    0.262022E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.373994E+02    0.265922E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132750E+03   -0.387224E+02    0.277119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132401E+03   -0.390338E+02    0.293597E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132560E+03   -0.382083E+02    0.310881E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132989E+03   -0.365673E+02    0.323677E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.344596E+02    0.329605E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.327311E+02    0.353637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.300456E+02    0.339386E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.287143E+02    0.314350E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.289188E+02    0.285933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.308088E+02    0.258572E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.339271E+02    0.240217E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.373688E+02    0.236982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132289E+03   -0.404773E+02    0.247661E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131597E+03   -0.420552E+02    0.273414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131533E+03   -0.416981E+02    0.305136E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131990E+03   -0.395589E+02    0.333563E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132907E+03   -0.362648E+02    0.351301E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.351888E+02    0.192133E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.333387E+02    0.195855E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.345088E+02    0.178571E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.367189E+02    0.178955E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.367299E+02    0.198713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.345900E+02    0.209328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.328443E+02    0.222436E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.317401E+02    0.210660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.314444E+02    0.195207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.322040E+02    0.177829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.337537E+02    0.164252E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.358096E+02    0.156727E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.375467E+02    0.160952E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133418E+03   -0.387882E+02    0.172239E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133426E+03   -0.389400E+02    0.190297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133514E+03   -0.381519E+02    0.207657E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133890E+03   -0.365487E+02    0.220737E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.346371E+02    0.225715E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.328733E+02    0.250307E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.301034E+02    0.238686E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.288182E+02    0.213854E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.291296E+02    0.183661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.310539E+02    0.154996E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.340572E+02    0.136485E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.376459E+02    0.129982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133079E+03   -0.404816E+02    0.142662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132508E+03   -0.419901E+02    0.168184E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132106E+03   -0.417859E+02    0.198699E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132675E+03   -0.396230E+02    0.227868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.362094E+02    0.248047E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    582893.525981011     
  ps_ts2 prof sum =   582411.551886430     
  trcom prof sum =    582411.551886430     
  ps_ts2 cur sum  =   6720.10482002716     
  trcom cur sum  =    6720.10482002715     
  
  antenna # iant =            2
  powecha_use(iant) =    675116.778504920     
  ps_ts2 prof sum =   674594.303038527     
  trcom prof sum =    674594.303038526     
  ps_ts2 cur sum  =   9432.73013713824     
  trcom cur sum  =    9432.73013713823     
  
  antenna # iant =            3
  powecha_use(iant) =    511888.767951006     
  ps_ts2 prof sum =   511455.341772859     
  trcom prof sum =    511455.341772859     
  ps_ts2 cur sum  =   5086.03610386955     
  trcom cur sum  =    5086.03610386955     
  
  antenna # iant =            4
  powecha_use(iant) =    414698.431188937     
  ps_ts2 prof sum =   414363.851006087     
  trcom prof sum =    414363.851006087     
  ps_ts2 cur sum  =   5261.66102650412     
  trcom cur sum  =    5261.66102650411     
  
  antenna # iant =            5
  powecha_use(iant) =    575340.693332158     
  ps_ts2 prof sum =   574896.200181338     
  trcom prof sum =    574896.200181338     
  ps_ts2 cur sum  =   8880.13745693677     
  trcom cur sum  =    8880.13745693677     
  
  Total ECH heating:      2757721.24788524     
  Total Current Drive:    35380.6695444758     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    743
 TA= 1.01000E+00 CPU TIME= 1.62378E-01 SECONDS.  DT= 1.56235E-03
  
 TEC1=    1.01000000000000     
 TEC2=    1.01500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.55773222222160     
  %check_save_state: izleft hours =    78.4338888888889     
 --> plasma_hash("gframe"): TA= 1.010000E+00 NSTEP=   743 Hash code:     413724
 ->PRGCHK: bdy curvature ratio at t= 1.0150E+00 seconds is:  5.5809E-02
% MHDEQ: TG1=     1.010000 ; TG2=     1.015000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1610E-03 SECONDS
   DATA R*BT AT EDGE:  2.7616E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5809E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.010000 TO TG2=    1.015000 @ NSTEP      743
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782988298727D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0150E+00  1.0200E+00 total power(Watts):  2.7338E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.01500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.349352E+02    0.333740E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.329801E+02    0.337262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134163E+03   -0.341937E+02    0.320400E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133479E+03   -0.363286E+02    0.322894E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133045E+03   -0.364728E+02    0.341361E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.343787E+02    0.350337E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.324250E+02    0.364604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.313447E+02    0.351633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.311602E+02    0.334665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.318775E+02    0.318598E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.334622E+02    0.305957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.353740E+02    0.301370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133107E+03   -0.372916E+02    0.304620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132651E+03   -0.385189E+02    0.316516E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132332E+03   -0.388175E+02    0.333061E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132510E+03   -0.379763E+02    0.350778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132956E+03   -0.363245E+02    0.363743E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133415E+03   -0.343844E+02    0.367953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.326331E+02    0.392109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.297967E+02    0.378466E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.284053E+02    0.353215E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.287053E+02    0.323781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.306855E+02    0.296442E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.337373E+02    0.279124E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133245E+03   -0.372748E+02    0.275512E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132330E+03   -0.402003E+02    0.288720E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131263E+03   -0.419576E+02    0.312645E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131022E+03   -0.416704E+02    0.344158E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131505E+03   -0.394974E+02    0.373335E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132913E+03   -0.360006E+02    0.391801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.353381E+02    0.250336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.334769E+02    0.253729E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.347495E+02    0.235895E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.367964E+02    0.238525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133667E+03   -0.368796E+02    0.257288E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.347225E+02    0.267726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.329603E+02    0.281077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.318633E+02    0.268540E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.315773E+02    0.252671E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.324314E+02    0.234833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.339993E+02    0.221878E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.359027E+02    0.216865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133618E+03   -0.377318E+02    0.220231E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133358E+03   -0.388785E+02    0.232312E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132787E+03   -0.392937E+02    0.247360E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132901E+03   -0.384826E+02    0.265102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133722E+03   -0.366768E+02    0.280180E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.347551E+02    0.284968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.329668E+02    0.309601E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.303538E+02    0.295480E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.289308E+02    0.271150E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.292637E+02    0.241017E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.311370E+02    0.214434E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.341589E+02    0.196657E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.376778E+02    0.191940E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132904E+03   -0.406027E+02    0.203877E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132013E+03   -0.422920E+02    0.227055E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131906E+03   -0.419601E+02    0.258582E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132285E+03   -0.398530E+02    0.287727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133600E+03   -0.364022E+02    0.307207E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133090E+03   -0.351166E+02    0.388531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.332336E+02    0.390813E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133268E+03   -0.345589E+02    0.372931E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132804E+03   -0.366186E+02    0.376893E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132170E+03   -0.368326E+02    0.395639E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133154E+03   -0.345402E+02    0.405315E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133410E+03   -0.328143E+02    0.417280E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.316552E+02    0.404377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.313268E+02    0.388232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.320625E+02    0.371693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134088E+03   -0.335831E+02    0.359665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133174E+03   -0.356821E+02    0.353983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132629E+03   -0.375171E+02    0.358772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.131733E+03   -0.389254E+02    0.370409E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131434E+03   -0.392043E+02    0.387922E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.131649E+03   -0.383376E+02    0.405793E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.131903E+03   -0.367497E+02    0.417915E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.132604E+03   -0.347010E+02    0.422139E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133214E+03   -0.328322E+02    0.446607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.300725E+02    0.431204E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.286234E+02    0.405602E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.289474E+02    0.375433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.308878E+02    0.348324E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.338878E+02    0.332306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.132718E+03   -0.375341E+02    0.328836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.131829E+03   -0.404594E+02    0.343007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.130769E+03   -0.421971E+02    0.369008E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.130132E+03   -0.420667E+02    0.400571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.130459E+03   -0.399399E+02    0.429153E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.131465E+03   -0.365738E+02    0.445490E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134004E+03   -0.349991E+02    0.296107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.331365E+02    0.299174E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.344201E+02    0.281283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133766E+03   -0.364665E+02    0.284341E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133526E+03   -0.365370E+02    0.303236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.343731E+02    0.313028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.326842E+02    0.324955E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.315147E+02    0.313427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.313177E+02    0.296905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.321030E+02    0.279739E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.335969E+02    0.267339E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.355885E+02    0.261506E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133661E+03   -0.373254E+02    0.266281E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132743E+03   -0.387390E+02    0.276638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132613E+03   -0.389591E+02    0.293906E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132774E+03   -0.381355E+02    0.311137E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.364973E+02    0.323914E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.343922E+02    0.329853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.326668E+02    0.353849E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.299864E+02    0.339645E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.285827E+02    0.315518E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.289316E+02    0.285503E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.308216E+02    0.258054E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.339405E+02    0.239650E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.372979E+02    0.237264E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132501E+03   -0.403997E+02    0.247955E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131808E+03   -0.419763E+02    0.273728E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131746E+03   -0.416205E+02    0.305375E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132207E+03   -0.394856E+02    0.333732E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.361958E+02    0.351477E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.352003E+02    0.191657E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.331870E+02    0.197391E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.346026E+02    0.177112E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.366443E+02    0.179515E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134062E+03   -0.366555E+02    0.199188E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.346028E+02    0.208799E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.328572E+02    0.221887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.315964E+02    0.212120E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.313780E+02    0.195761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.322934E+02    0.176372E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.338452E+02    0.162787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.357361E+02    0.157361E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133925E+03   -0.375589E+02    0.160524E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133616E+03   -0.387103E+02    0.172798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.389540E+02    0.189804E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.380760E+02    0.208065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.364752E+02    0.221109E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.345653E+02    0.226095E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.328864E+02    0.249764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.300401E+02    0.239091E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.287563E+02    0.214349E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.291391E+02    0.183237E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.310639E+02    0.154605E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.340675E+02    0.136104E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.375698E+02    0.130671E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133271E+03   -0.404018E+02    0.143290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132288E+03   -0.420997E+02    0.166725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132310E+03   -0.417052E+02    0.199089E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133098E+03   -0.394520E+02    0.229101E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133942E+03   -0.362243E+02    0.247483E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    579769.059185148     
  ps_ts2 prof sum =   579303.323351598     
  trcom prof sum =    579303.323351599     
  ps_ts2 cur sum  =   6789.14074759356     
  trcom cur sum  =    6789.14074759355     
  
  antenna # iant =            2
  powecha_use(iant) =    689378.352876629     
  ps_ts2 prof sum =   688838.902712199     
  trcom prof sum =    688838.902712199     
  ps_ts2 cur sum  =   9775.54946751562     
  trcom cur sum  =    9775.54946751562     
  
  antenna # iant =            3
  powecha_use(iant) =    510367.015240030     
  ps_ts2 prof sum =   509933.439917793     
  trcom prof sum =    509933.439917793     
  ps_ts2 cur sum  =   5154.38142651251     
  trcom cur sum  =    5154.38142651251     
  
  antenna # iant =            4
  powecha_use(iant) =    375882.012536183     
  ps_ts2 prof sum =   375575.596288024     
  trcom prof sum =    375575.596288024     
  ps_ts2 cur sum  =   4842.14333642046     
  trcom cur sum  =    4842.14333642046     
  
  antenna # iant =            5
  powecha_use(iant) =    578405.911451442     
  ps_ts2 prof sum =   577974.139501255     
  trcom prof sum =    577974.139501255     
  ps_ts2 cur sum  =   9060.51731214516     
  trcom cur sum  =    9060.51731214516     
  
  Total ECH heating:      2731625.40177087     
  Total Current Drive:    35621.7322901873     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    746
 TA= 1.01500E+00 CPU TIME= 1.46607E-01 SECONDS.  DT= 1.85589E-03
  
 TEC1=    1.01500000000000     
 TEC2=    1.02000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.57300888888881     
  %check_save_state: izleft hours =    78.4186111111111     
 --> plasma_hash("gframe"): TA= 1.015000E+00 NSTEP=   746 Hash code:  117386643
 ->PRGCHK: bdy curvature ratio at t= 1.0200E+00 seconds is:  5.5710E-02
% MHDEQ: TG1=     1.015000 ; TG2=     1.020000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7626E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5710E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.015000 TO TG2=    1.020000 @ NSTEP      746
   GFRAME TG2 MOMENTS CHECKSUM:  2.4771693193381D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.32087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.49119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.57305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.57705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2=  1.34141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.45454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  4.78715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.31477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -5.82643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.69041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -3.12702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.85751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.16654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.58604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.22847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.31849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.24265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.28317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.28317E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0200E+00  1.0250E+00 total power(Watts):  2.7532E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.02000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.347819E+02    0.334710E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.329157E+02    0.337510E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.341273E+02    0.320692E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133694E+03   -0.362592E+02    0.323149E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133484E+03   -0.363143E+02    0.342274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.342279E+02    0.351246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.324439E+02    0.364123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.313631E+02    0.351151E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.310986E+02    0.334937E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.318947E+02    0.318130E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.333961E+02    0.306307E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.353053E+02    0.301725E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133539E+03   -0.371298E+02    0.305730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132647E+03   -0.385400E+02    0.315998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132548E+03   -0.387452E+02    0.333249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132728E+03   -0.379058E+02    0.350941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132951E+03   -0.363459E+02    0.363242E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.343190E+02    0.368134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133953E+03   -0.325708E+02    0.392292E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.298146E+02    0.378023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.284996E+02    0.351980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.287942E+02    0.322536E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.307008E+02    0.296020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.336695E+02    0.279544E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.371126E+02    0.276743E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132329E+03   -0.402183E+02    0.288268E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131694E+03   -0.417823E+02    0.313615E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131240E+03   -0.415956E+02    0.344283E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131724E+03   -0.394260E+02    0.373462E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132907E+03   -0.360226E+02    0.391349E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.352672E+02    0.250695E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.334906E+02    0.253199E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.346785E+02    0.236261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.368120E+02    0.237950E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.368065E+02    0.257648E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.347379E+02    0.267248E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.329758E+02    0.280643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.317181E+02    0.269846E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.315121E+02    0.253066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.322849E+02    0.236169E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.339305E+02    0.222286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.358310E+02    0.217272E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.376572E+02    0.220603E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.388948E+02    0.231722E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133212E+03   -0.391241E+02    0.248582E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133112E+03   -0.384086E+02    0.265464E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.366056E+02    0.280571E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.346861E+02    0.285372E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.329846E+02    0.309151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.302923E+02    0.295903E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.288694E+02    0.271596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.292015E+02    0.241429E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.310720E+02    0.214911E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.342544E+02    0.195193E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.376029E+02    0.192454E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132687E+03   -0.407140E+02    0.202375E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132011E+03   -0.423099E+02    0.226443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132111E+03   -0.418829E+02    0.258894E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132496E+03   -0.397779E+02    0.288067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.363323E+02    0.307532E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133309E+03   -0.350506E+02    0.388697E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.330868E+02    0.391608E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133487E+03   -0.344932E+02    0.373113E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.132798E+03   -0.366403E+02    0.376411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132616E+03   -0.366751E+02    0.396361E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133148E+03   -0.345628E+02    0.404880E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133632E+03   -0.327525E+02    0.417424E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.315958E+02    0.404547E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.312652E+02    0.388430E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.320009E+02    0.371892E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.335227E+02    0.359834E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133393E+03   -0.356151E+02    0.354164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132847E+03   -0.374472E+02    0.358930E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.131954E+03   -0.388534E+02    0.370552E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131653E+03   -0.391344E+02    0.388032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.131869E+03   -0.382684E+02    0.405902E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132124E+03   -0.366824E+02    0.418016E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133054E+03   -0.345503E+02    0.422785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133437E+03   -0.327703E+02    0.446714E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.299376E+02    0.431867E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.286407E+02    0.405215E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.289645E+02    0.374994E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.308271E+02    0.348566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.338211E+02    0.332562E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.132934E+03   -0.374628E+02    0.329051E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132045E+03   -0.403853E+02    0.343156E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.130767E+03   -0.422220E+02    0.368476E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.130574E+03   -0.418941E+02    0.401192E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.130680E+03   -0.398697E+02    0.429205E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.131916E+03   -0.364189E+02    0.446017E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.349312E+02    0.296486E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.331481E+02    0.298778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.343496E+02    0.281704E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133759E+03   -0.364848E+02    0.283889E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133739E+03   -0.364668E+02    0.303570E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.343913E+02    0.312558E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.326201E+02    0.325238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.315309E+02    0.312971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.313332E+02    0.296479E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.320377E+02    0.280167E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.336119E+02    0.266860E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.355208E+02    0.261855E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.373421E+02    0.265791E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132954E+03   -0.386661E+02    0.277009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132824E+03   -0.388854E+02    0.294241E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133206E+03   -0.379717E+02    0.312191E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133642E+03   -0.363385E+02    0.324917E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.344114E+02    0.329352E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.326863E+02    0.353360E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.300034E+02    0.339165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.285243E+02    0.315893E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.288719E+02    0.285963E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.307571E+02    0.258464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.338713E+02    0.240026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.373095E+02    0.236736E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132498E+03   -0.404175E+02    0.247390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132016E+03   -0.418973E+02    0.274076E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131958E+03   -0.415437E+02    0.305630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132423E+03   -0.394119E+02    0.333914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133120E+03   -0.362171E+02    0.350962E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.351292E+02    0.192194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.332807E+02    0.195933E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.345323E+02    0.177716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.366579E+02    0.179075E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.365819E+02    0.199674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.345328E+02    0.209253E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.327893E+02    0.222298E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.316879E+02    0.210616E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.313901E+02    0.195326E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.321489E+02    0.178038E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.336950E+02    0.164495E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.357494E+02    0.156963E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.374843E+02    0.161150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133603E+03   -0.387254E+02    0.172363E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133616E+03   -0.388778E+02    0.190313E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.380910E+02    0.207525E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.364897E+02    0.220536E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.345796E+02    0.225530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.328196E+02    0.250143E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.300564E+02    0.238498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.287674E+02    0.213856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.290769E+02    0.183876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.310003E+02    0.155305E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.339981E+02    0.136814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.374951E+02    0.131377E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133256E+03   -0.404157E+02    0.142895E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132483E+03   -0.420191E+02    0.167280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132723E+03   -0.415291E+02    0.200454E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.393750E+02    0.229429E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.361520E+02    0.247832E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    557565.436176659     
  ps_ts2 prof sum =   557127.825986433     
  trcom prof sum =    557127.825986433     
  ps_ts2 cur sum  =   6636.81477919937     
  trcom cur sum  =    6636.81477919936     
  
  antenna # iant =            2
  powecha_use(iant) =    698137.713027771     
  ps_ts2 prof sum =   697590.828817889     
  trcom prof sum =    697590.828817888     
  ps_ts2 cur sum  =   10061.2022944239     
  trcom cur sum  =    10061.2022944239     
  
  antenna # iant =            3
  powecha_use(iant) =    509470.769717779     
  ps_ts2 prof sum =   509038.161491018     
  trcom prof sum =    509038.161491019     
  ps_ts2 cur sum  =   5229.78011865769     
  trcom cur sum  =    5229.78011865769     
  
  antenna # iant =            4
  powecha_use(iant) =    404094.466585013     
  ps_ts2 prof sum =   403774.681671287     
  trcom prof sum =    403774.681671287     
  ps_ts2 cur sum  =   5290.12818720263     
  trcom cur sum  =    5290.12818720263     
  
  antenna # iant =            5
  powecha_use(iant) =    583940.226006114     
  ps_ts2 prof sum =   583519.362194248     
  trcom prof sum =    583519.362194248     
  ps_ts2 cur sum  =   9291.80630568677     
  trcom cur sum  =    9291.80630568677     
  
  Total ECH heating:      2751050.86016088     
  Total Current Drive:    36509.7316851704     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    749
 TA= 1.02000E+00 CPU TIME= 1.68445E-01 SECONDS.  DT= 1.03032E-03
  
 TEC1=    1.02000000000000     
 TEC2=    1.02500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.58769111111064     
  %check_save_state: izleft hours =    78.4038888888889     
 --> plasma_hash("gframe"): TA= 1.020000E+00 NSTEP=   749 Hash code:   78977020
 ->PRGCHK: bdy curvature ratio at t= 1.0250E+00 seconds is:  5.5620E-02
% MHDEQ: TG1=     1.020000 ; TG2=     1.025000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5620E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.020000 TO TG2=    1.025000 @ NSTEP      749
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760398088034D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0250E+00  1.0300E+00 total power(Watts):  2.7817E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.02500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.347150E+02    0.334939E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.328501E+02    0.337766E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.341457E+02    0.320182E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.361896E+02    0.323389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133702E+03   -0.362458E+02    0.342484E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.341614E+02    0.351471E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.323815E+02    0.364344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.313016E+02    0.351391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.311164E+02    0.334442E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.318315E+02    0.318425E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.333302E+02    0.306624E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.352364E+02    0.302036E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.370585E+02    0.306008E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132862E+03   -0.384677E+02    0.316220E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132765E+03   -0.386729E+02    0.333435E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132724E+03   -0.379277E+02    0.350426E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133170E+03   -0.362777E+02    0.363432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.341681E+02    0.369010E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.324266E+02    0.393102E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.297558E+02    0.378259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.284427E+02    0.352249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.286615E+02    0.323647E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.306386E+02    0.296399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.336860E+02    0.279083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.370403E+02    0.277116E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132541E+03   -0.401429E+02    0.288558E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131908E+03   -0.417057E+02    0.313808E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131457E+03   -0.415215E+02    0.344418E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132164E+03   -0.392591E+02    0.374241E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133117E+03   -0.359600E+02    0.391486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.352824E+02    0.250198E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.334233E+02    0.253625E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.346936E+02    0.235751E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.367356E+02    0.238397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134087E+03   -0.367338E+02    0.258047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.346686E+02    0.267656E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.329097E+02    0.281047E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.318121E+02    0.268500E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.316061E+02    0.251665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.323791E+02    0.234719E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.337792E+02    0.223704E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.358461E+02    0.216757E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.375792E+02    0.221059E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.388189E+02    0.232114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133420E+03   -0.390482E+02    0.248959E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133536E+03   -0.382414E+02    0.266712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.366232E+02    0.280091E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.347030E+02    0.284898E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.329195E+02    0.309461E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.301533E+02    0.297132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.288834E+02    0.271144E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.292145E+02    0.240951E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.310835E+02    0.214449E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.341852E+02    0.195739E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.376182E+02    0.191987E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132891E+03   -0.406362E+02    0.202806E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132217E+03   -0.422300E+02    0.226802E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132111E+03   -0.419008E+02    0.258387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132718E+03   -0.396984E+02    0.288397E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.363514E+02    0.307016E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133303E+03   -0.350731E+02    0.388248E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.331909E+02    0.390564E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.133706E+03   -0.344281E+02    0.373304E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133018E+03   -0.365727E+02    0.376586E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.132835E+03   -0.366074E+02    0.396513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133360E+03   -0.345004E+02    0.405033E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.133853E+03   -0.326913E+02    0.417573E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.314556E+02    0.405316E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.312049E+02    0.388646E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.320238E+02    0.371420E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.335342E+02    0.359418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.354592E+02    0.355066E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.132843E+03   -0.374692E+02    0.358434E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132395E+03   -0.386890E+02    0.371343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.131872E+03   -0.390637E+02    0.388174E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132314E+03   -0.381061E+02    0.406588E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132345E+03   -0.366159E+02    0.418129E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133275E+03   -0.344866E+02    0.422913E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133660E+03   -0.327094E+02    0.446824E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.298799E+02    0.432021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.285863E+02    0.405419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.289081E+02    0.375235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.308447E+02    0.348087E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.338402E+02    0.332052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133151E+03   -0.373927E+02    0.329256E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132043E+03   -0.404085E+02    0.342614E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.130984E+03   -0.421471E+02    0.368599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.130793E+03   -0.418208E+02    0.401279E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.130900E+03   -0.397991E+02    0.429272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132138E+03   -0.363524E+02    0.446102E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.348621E+02    0.296816E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.330869E+02    0.299079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.342831E+02    0.282081E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.364135E+02    0.284246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.363963E+02    0.303862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.343242E+02    0.312845E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.326381E+02    0.324739E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.314646E+02    0.313315E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.312700E+02    0.296851E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.320531E+02    0.279716E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.335439E+02    0.267280E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.354466E+02    0.262290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.372690E+02    0.266181E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133380E+03   -0.384991E+02    0.278201E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133253E+03   -0.387179E+02    0.295342E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132984E+03   -0.380843E+02    0.310874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.362692E+02    0.325150E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.343450E+02    0.329597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.326226E+02    0.353588E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.299426E+02    0.339443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.285390E+02    0.315426E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.288114E+02    0.286393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.308488E+02    0.257078E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.338862E+02    0.239520E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.372361E+02    0.237142E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132706E+03   -0.403402E+02    0.247753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132012E+03   -0.419180E+02    0.273559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131956E+03   -0.415664E+02    0.305069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132421E+03   -0.394348E+02    0.333367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133339E+03   -0.361487E+02    0.351156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.93 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.350586E+02    0.192743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.331325E+02    0.197496E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.343800E+02    0.179348E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.365852E+02    0.179651E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.365972E+02    0.199192E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.343797E+02    0.210721E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.326423E+02    0.223738E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.315431E+02    0.212132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.313250E+02    0.195905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.320818E+02    0.178667E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.336265E+02    0.165153E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.356778E+02    0.157618E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.374975E+02    0.160746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.386495E+02    0.172943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.388019E+02    0.190818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.380183E+02    0.207954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.364170E+02    0.220980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.345102E+02    0.225973E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.327531E+02    0.250577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.299896E+02    0.239020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.287075E+02    0.214394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.290875E+02    0.183471E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.309352E+02    0.156011E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.339284E+02    0.137564E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.375087E+02    0.131018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.403385E+02    0.143534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132887E+03   -0.418422E+02    0.168844E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132925E+03   -0.414498E+02    0.200896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133514E+03   -0.392983E+02    0.229821E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.361668E+02    0.247342E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    616277.920381855     
  ps_ts2 prof sum =   615781.915035569     
  trcom prof sum =    615781.915035569     
  ps_ts2 cur sum  =   7460.08187994675     
  trcom cur sum  =    7460.08187994674     
  
  antenna # iant =            2
  powecha_use(iant) =    709610.180980984     
  ps_ts2 prof sum =   709093.961010253     
  trcom prof sum =    709093.961010253     
  ps_ts2 cur sum  =   10397.5708073985     
  trcom cur sum  =    10397.5708073985     
  
  antenna # iant =            3
  powecha_use(iant) =    498147.837483784     
  ps_ts2 prof sum =   497739.159767798     
  trcom prof sum =    497739.159767799     
  ps_ts2 cur sum  =   5199.18319396762     
  trcom cur sum  =    5199.18319396762     
  
  antenna # iant =            4
  powecha_use(iant) =    370533.034942004     
  ps_ts2 prof sum =   370249.162199023     
  trcom prof sum =    370249.162199023     
  ps_ts2 cur sum  =   4932.33650487068     
  trcom cur sum  =    4932.33650487068     
  
  antenna # iant =            5
  powecha_use(iant) =    587108.896820096     
  ps_ts2 prof sum =   586646.350666477     
  trcom prof sum =    586646.350666477     
  ps_ts2 cur sum  =   9497.17598588793     
  trcom cur sum  =    9497.17598588794     
  
  Total ECH heating:      2779510.54867912     
  Total Current Drive:    37486.3483720715     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    753
 TA= 1.02500E+00 CPU TIME= 1.53944E-01 SECONDS.  DT= 1.33988E-03
  
 TEC1=    1.02500000000000     
 TEC2=    1.03000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.60009055555520     
  %check_save_state: izleft hours =    78.3913888888889     
 --> plasma_hash("gframe"): TA= 1.025000E+00 NSTEP=   753 Hash code:   77505864
 ->PRGCHK: bdy curvature ratio at t= 1.0300E+00 seconds is:  5.5539E-02
% MHDEQ: TG1=     1.025000 ; TG2=     1.030000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5539E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.025000 TO TG2=    1.030000 @ NSTEP      753
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749102982688D+04
 %MFRCHK - LABEL "RMS11", #       1=  7.92328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -7.89465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.56000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.77420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.19875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.56089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.43014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  7.38189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.06265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -7.93579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.87750E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -2.23062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -2.62102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.12433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  5.00317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.94376E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.22535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.21967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.63526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.63526E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  1.0300E+00  1.0350E+00 total power(Watts):  2.7998E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.03000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.346466E+02    0.335188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.328698E+02    0.337260E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.340787E+02    0.320435E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.362138E+02    0.322817E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133476E+03   -0.363560E+02    0.341245E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.340963E+02    0.351695E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.324006E+02    0.363903E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.312400E+02    0.351649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.310540E+02    0.334713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.318488E+02    0.317910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.333478E+02    0.306100E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.352547E+02    0.301498E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.370781E+02    0.305448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133078E+03   -0.383949E+02    0.316433E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132762E+03   -0.386950E+02    0.332900E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132942E+03   -0.378574E+02    0.350618E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.362094E+02    0.363633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.341028E+02    0.369227E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.323639E+02    0.393314E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.297747E+02    0.377839E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.283113E+02    0.353268E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.286030E+02    0.323952E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.304983E+02    0.297592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.336203E+02    0.279454E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.369681E+02    0.277479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132753E+03   -0.400676E+02    0.288818E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132124E+03   -0.416294E+02    0.313981E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131893E+03   -0.413466E+02    0.345282E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132383E+03   -0.391876E+02    0.374403E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133132E+03   -0.359734E+02    0.391112E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.352120E+02    0.250669E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.333562E+02    0.254103E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.346244E+02    0.236248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.366669E+02    0.238836E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.367509E+02    0.257595E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.346817E+02    0.267232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.327613E+02    0.282302E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.316679E+02    0.269849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.314614E+02    0.253085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.322334E+02    0.236185E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.338766E+02    0.222292E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.357751E+02    0.217259E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134023E+03   -0.375985E+02    0.220559E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133766E+03   -0.387433E+02    0.232581E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.389725E+02    0.249399E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133744E+03   -0.381680E+02    0.267103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.365518E+02    0.280439E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.346345E+02    0.285243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.329368E+02    0.308934E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.302462E+02    0.295786E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.288239E+02    0.271628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.291540E+02    0.241482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.310210E+02    0.214985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.340342E+02    0.197305E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.375437E+02    0.192524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133302E+03   -0.404620E+02    0.204248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132421E+03   -0.421502E+02    0.227237E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132317E+03   -0.418224E+02    0.258762E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133135E+03   -0.395326E+02    0.289452E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134023E+03   -0.362812E+02    0.307261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.350064E+02    0.388442E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.330436E+02    0.391391E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.342764E+02    0.374176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133237E+03   -0.365043E+02    0.376772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133055E+03   -0.365399E+02    0.396682E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133602E+03   -0.344285E+02    0.405246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.325511E+02    0.418265E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.313935E+02    0.405528E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.312243E+02    0.388237E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.319537E+02    0.371717E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.334737E+02    0.359619E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.133607E+03   -0.355685E+02    0.353876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133061E+03   -0.373989E+02    0.358620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132613E+03   -0.386174E+02    0.371521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132314E+03   -0.388978E+02    0.388929E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132534E+03   -0.380367E+02    0.406720E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.132792E+03   -0.364587E+02    0.418794E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.344221E+02    0.423052E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.327310E+02    0.446476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.298987E+02    0.431664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.286039E+02    0.405045E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.287755E+02    0.376167E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.307839E+02    0.348353E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.337743E+02    0.332302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.372305E+02    0.330218E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132251E+03   -0.403384E+02    0.342754E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131203E+03   -0.420722E+02    0.368732E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131012E+03   -0.417471E+02    0.401383E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131347E+03   -0.396332E+02    0.429840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132360E+03   -0.362860E+02    0.446206E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.348804E+02    0.296291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.330215E+02    0.299390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.343001E+02    0.281590E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.363425E+02    0.284578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133948E+03   -0.364155E+02    0.303310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.343426E+02    0.312306E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.325735E+02    0.325002E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.314847E+02    0.312769E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.311274E+02    0.298032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.319884E+02    0.280116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.335596E+02    0.266825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.354632E+02    0.261839E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.371961E+02    0.266591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.384251E+02    0.278535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133038E+03   -0.388298E+02    0.293987E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133200E+03   -0.380120E+02    0.311100E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.362865E+02    0.324640E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.342777E+02    0.329850E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.325592E+02    0.353834E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.298063E+02    0.340474E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.284810E+02    0.315742E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.288261E+02    0.285931E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.307077E+02    0.258490E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.338182E+02    0.240019E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.372528E+02    0.236692E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132911E+03   -0.402633E+02    0.248175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132221E+03   -0.418399E+02    0.273865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132171E+03   -0.414898E+02    0.305262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132638E+03   -0.393617E+02    0.333551E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.359912E+02    0.352068E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.349047E+02    0.194313E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.330647E+02    0.198068E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.344756E+02    0.177890E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.365123E+02    0.180231E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.365245E+02    0.199720E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.344782E+02    0.209288E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.325761E+02    0.224263E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.314791E+02    0.212682E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.313394E+02    0.195468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.320923E+02    0.178282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.337205E+02    0.163690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.356071E+02    0.158262E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.374246E+02    0.161362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.385732E+02    0.173520E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.388168E+02    0.190371E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.379410E+02    0.208475E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.364327E+02    0.220513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.344414E+02    0.226473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.326050E+02    0.251996E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.300025E+02    0.238594E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.287192E+02    0.213958E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.290267E+02    0.184107E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.309468E+02    0.155626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.339412E+02    0.137195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.374351E+02    0.131719E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.402589E+02    0.144192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133084E+03   -0.417622E+02    0.169396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132707E+03   -0.415635E+02    0.199451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133506E+03   -0.393156E+02    0.229358E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.360961E+02    0.247795E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    641408.213648896     
  ps_ts2 prof sum =   640900.045044249     
  trcom prof sum =    640900.045044248     
  ps_ts2 cur sum  =   7886.05182966201     
  trcom cur sum  =    7886.05182966200     
  
  antenna # iant =            2
  powecha_use(iant) =    728885.684594830     
  ps_ts2 prof sum =   728320.213111325     
  trcom prof sum =    728320.213111325     
  ps_ts2 cur sum  =   10842.4370372620     
  trcom cur sum  =    10842.4370372620     
  
  antenna # iant =            3
  powecha_use(iant) =    485502.589558201     
  ps_ts2 prof sum =   485093.582372496     
  trcom prof sum =    485093.582372496     
  ps_ts2 cur sum  =   5148.62425531239     
  trcom cur sum  =    5148.62425531239     
  
  antenna # iant =            4
  powecha_use(iant) =    358724.206637690     
  ps_ts2 prof sum =   358449.563183441     
  trcom prof sum =    358449.563183441     
  ps_ts2 cur sum  =   4849.37632254900     
  trcom cur sum  =    4849.37632254899     
  
  antenna # iant =            5
  powecha_use(iant) =    585238.004557175     
  ps_ts2 prof sum =   584807.912641838     
  trcom prof sum =    584807.912641838     
  ps_ts2 cur sum  =   9610.42310126136     
  trcom cur sum  =    9610.42310126136     
  
  Total ECH heating:      2797571.31635335     
  Total Current Drive:    38336.9125460467     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    756
 TA= 1.03000E+00 CPU TIME= 1.71304E-01 SECONDS.  DT= 2.48160E-03
  
 TEC1=    1.03000000000000     
 TEC2=    1.03500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.61686416666635     
  %check_save_state: izleft hours =    78.3747222222222     
 --> plasma_hash("gframe"): TA= 1.030000E+00 NSTEP=   756 Hash code:   71867503
 ->PRGCHK: bdy curvature ratio at t= 1.0350E+00 seconds is:  5.5467E-02
% MHDEQ: TG1=     1.030000 ; TG2=     1.035000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5467E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.030000 TO TG2=    1.035000 @ NSTEP      756
   GFRAME TG2 MOMENTS CHECKSUM:  2.4737807877341D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0350E+00  1.0400E+00 total power(Watts):  2.8468E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.03500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.346659E+02    0.334675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.328042E+02    0.337520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.340965E+02    0.319903E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.361343E+02    0.323125E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.361960E+02    0.342193E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.341149E+02    0.351217E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.323334E+02    0.364162E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.312570E+02    0.351185E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.309119E+02    0.335756E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.317848E+02    0.318188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.332807E+02    0.306382E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.351849E+02    0.301777E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133963E+03   -0.370057E+02    0.305707E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.382278E+02    0.317421E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132979E+03   -0.386218E+02    0.333099E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.377850E+02    0.350814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133831E+03   -0.360509E+02    0.364512E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.341222E+02    0.368780E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.323835E+02    0.392904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.297151E+02    0.378093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.284007E+02    0.352083E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.286178E+02    0.323458E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.305921E+02    0.296240E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.336345E+02    0.278976E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.369855E+02    0.276973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132750E+03   -0.400874E+02    0.288251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132123E+03   -0.416507E+02    0.313391E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132110E+03   -0.412703E+02    0.345445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132601E+03   -0.391149E+02    0.374571E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133341E+03   -0.359101E+02    0.391259E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.351394E+02    0.251158E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.333707E+02    0.253666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.344693E+02    0.237684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.366819E+02    0.238386E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.366778E+02    0.258032E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.346154E+02    0.267627E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.328591E+02    0.280948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.316029E+02    0.270304E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.313962E+02    0.253592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.321667E+02    0.236703E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.338081E+02    0.222800E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.357030E+02    0.217759E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.375239E+02    0.221040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133757E+03   -0.387590E+02    0.232119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.389893E+02    0.248935E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.381857E+02    0.266621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.365690E+02    0.279926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.345650E+02    0.285590E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.328704E+02    0.309214E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.301067E+02    0.296994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.288355E+02    0.271199E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.291667E+02    0.241059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.310327E+02    0.214543E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.341292E+02    0.195848E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.375579E+02    0.192059E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133504E+03   -0.403831E+02    0.204725E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132834E+03   -0.419702E+02    0.228594E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132524E+03   -0.417424E+02    0.259135E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132916E+03   -0.396478E+02    0.288070E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.362099E+02    0.307526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.348522E+02    0.389258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.329800E+02    0.391601E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.342104E+02    0.374398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133232E+03   -0.365255E+02    0.376323E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.365617E+02    0.396252E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134037E+03   -0.342811E+02    0.405973E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.326465E+02    0.417368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.314137E+02    0.405132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.311631E+02    0.388463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.319763E+02    0.371250E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.334923E+02    0.359162E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.354112E+02    0.354805E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.372364E+02    0.359508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132609E+03   -0.386396E+02    0.371048E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132533E+03   -0.388260E+02    0.389082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132529E+03   -0.380593E+02    0.406299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133014E+03   -0.363910E+02    0.418918E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133490E+03   -0.344433E+02    0.422656E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133875E+03   -0.326687E+02    0.446605E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.298403E+02    0.431825E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.285471E+02    0.405268E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.288674E+02    0.375083E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.307215E+02    0.348623E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.337918E+02    0.331790E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133805E+03   -0.371582E+02    0.330444E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132478E+03   -0.402595E+02    0.342962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131640E+03   -0.418959E+02    0.369509E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131231E+03   -0.416727E+02    0.401487E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131568E+03   -0.395616E+02    0.429920E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.132811E+03   -0.361293E+02    0.446769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.348109E+02    0.296592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.330378E+02    0.298865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.342310E+02    0.281955E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.363598E+02    0.284059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134163E+03   -0.363441E+02    0.303582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.342745E+02    0.312578E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.325083E+02    0.325269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.314206E+02    0.313060E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.312228E+02    0.296679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.318425E+02    0.281384E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.334918E+02    0.267267E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.353919E+02    0.262276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134064E+03   -0.372131E+02    0.266115E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.383497E+02    0.278865E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133463E+03   -0.386632E+02    0.295044E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.378461E+02    0.312111E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134071E+03   -0.362181E+02    0.324850E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.342958E+02    0.329330E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.325769E+02    0.353365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.298993E+02    0.339234E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.284954E+02    0.315240E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.287648E+02    0.286349E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.306435E+02    0.258988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.336657E+02    0.241454E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134235E+03   -0.371779E+02    0.237164E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133329E+03   -0.400894E+02    0.249489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132431E+03   -0.417608E+02    0.274160E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132385E+03   -0.414116E+02    0.305453E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132854E+03   -0.392875E+02    0.333748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.359214E+02    0.352294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.350014E+02    0.192852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.330771E+02    0.197621E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.343226E+02    0.179513E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.365247E+02    0.179779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.365385E+02    0.199250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.344079E+02    0.209811E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.325892E+02    0.223817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.314909E+02    0.212240E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.312727E+02    0.196066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.320270E+02    0.178872E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.335691E+02    0.165381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.354501E+02    0.159946E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.373490E+02    0.161964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.385891E+02    0.173056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.387396E+02    0.190894E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.379563E+02    0.208001E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.363593E+02    0.221011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.344557E+02    0.226019E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.327011E+02    0.250638E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.299400E+02    0.239126E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.286577E+02    0.214527E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.290376E+02    0.183682E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.308814E+02    0.156302E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.338710E+02    0.137896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.373593E+02    0.132396E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133628E+03   -0.402724E+02    0.143760E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133281E+03   -0.416806E+02    0.169943E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.413857E+02    0.200886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.392376E+02    0.229821E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.360235E+02    0.248265E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666278.832608923     
  ps_ts2 prof sum =   665765.240943681     
  trcom prof sum =    665765.240943680     
  ps_ts2 cur sum  =   8314.60151023281     
  trcom cur sum  =    8314.60151023280     
  
  antenna # iant =            2
  powecha_use(iant) =    743122.750091437     
  ps_ts2 prof sum =   742560.918100225     
  trcom prof sum =    742560.918100225     
  ps_ts2 cur sum  =   11214.9710759615     
  trcom cur sum  =    11214.9710759615     
  
  antenna # iant =            3
  powecha_use(iant) =    481624.446750602     
  ps_ts2 prof sum =   481224.465500025     
  trcom prof sum =    481224.465500025     
  ps_ts2 cur sum  =   5183.47506744080     
  trcom cur sum  =    5183.47506744080     
  
  antenna # iant =            4
  powecha_use(iant) =    384812.799342517     
  ps_ts2 prof sum =   384509.157318834     
  trcom prof sum =    384509.157318833     
  ps_ts2 cur sum  =   5279.62394086731     
  trcom cur sum  =    5279.62394086731     
  
  antenna # iant =            5
  powecha_use(iant) =    570979.472400434     
  ps_ts2 prof sum =   570555.330967115     
  trcom prof sum =    570555.330967115     
  ps_ts2 cur sum  =   9508.34971586184     
  trcom cur sum  =    9508.34971586184     
  
  Total ECH heating:      2844615.11282988     
  Total Current Drive:    39501.0213103642     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    758
 TA= 1.03500E+00 CPU TIME= 1.59752E-01 SECONDS.  DT= 3.14800E-03
  
 TEC1=    1.03500000000000     
 TEC2=    1.04000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.62891583333317     
  %check_save_state: izleft hours =    78.3627777777778     
 --> plasma_hash("gframe"): TA= 1.035000E+00 NSTEP=   758 Hash code:   49495412
 ->PRGCHK: bdy curvature ratio at t= 1.0400E+00 seconds is:  5.5404E-02
% MHDEQ: TG1=     1.035000 ; TG2=     1.040000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7666E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5404E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.035000 TO TG2=    1.040000 @ NSTEP      758
   GFRAME TG2 MOMENTS CHECKSUM:  2.4726512771995D+04
 %MFRCHK - LABEL "RMS11", #       1=  4.85841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.42474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.62358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.88388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.28290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.54596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.40760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.54434E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.82972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.38102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.55427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -1.40247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -3.32639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.08533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.98389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.60459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  6.23011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.19844E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.78681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.78681E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.0400E+00  1.0450E+00 total power(Watts):  2.8688E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.04000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.345994E+02    0.334974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.328230E+02    0.337082E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.340299E+02    0.320230E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.361590E+02    0.322616E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.361266E+02    0.342490E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.340488E+02    0.351526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.323559E+02    0.363743E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.311953E+02    0.351506E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.310084E+02    0.334559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.316403E+02    0.319337E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.332987E+02    0.305917E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.352037E+02    0.301302E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.370282E+02    0.305191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133290E+03   -0.383429E+02    0.316158E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133413E+03   -0.384545E+02    0.334116E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133154E+03   -0.378067E+02    0.350390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133602E+03   -0.361620E+02    0.363418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.340565E+02    0.369057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.323212E+02    0.393158E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.295793E+02    0.379065E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.282696E+02    0.353166E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.285586E+02    0.323826E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.304515E+02    0.297499E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.335684E+02    0.279417E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.369137E+02    0.277386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132960E+03   -0.400121E+02    0.288577E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132336E+03   -0.415743E+02    0.313651E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132107E+03   -0.412944E+02    0.344979E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132597E+03   -0.391388E+02    0.374152E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133785E+03   -0.357531E+02    0.392107E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.351584E+02    0.250729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.333040E+02    0.254184E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.345689E+02    0.236314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.366100E+02    0.238887E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.366964E+02    0.257613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.345477E+02    0.268105E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.327079E+02    0.282268E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.316159E+02    0.269919E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.314116E+02    0.253196E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.321796E+02    0.236286E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.336546E+02    0.224295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.357171E+02    0.217300E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.375395E+02    0.220580E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.386844E+02    0.232603E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.389149E+02    0.249410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.381121E+02    0.267062E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.364984E+02    0.280335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.345833E+02    0.285137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.328884E+02    0.308751E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.300449E+02    0.297407E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.287755E+02    0.271720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.291034E+02    0.241619E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.309693E+02    0.215083E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.339777E+02    0.197396E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.374819E+02    0.192577E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133496E+03   -0.403994E+02    0.204232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132613E+03   -0.420902E+02    0.227190E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132517E+03   -0.417637E+02    0.258685E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133126E+03   -0.395730E+02    0.288402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.362292E+02    0.307040E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.57 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.347861E+02    0.389495E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.330009E+02    0.391221E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.342305E+02    0.373998E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.364572E+02    0.376558E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133269E+03   -0.364936E+02    0.396457E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.133803E+03   -0.343899E+02    0.405018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.325040E+02    0.418111E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.313527E+02    0.405371E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.311813E+02    0.388106E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.319140E+02    0.371535E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.334275E+02    0.359455E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.353436E+02    0.355088E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133275E+03   -0.373506E+02    0.358388E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132827E+03   -0.385685E+02    0.371274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132529E+03   -0.388507E+02    0.388666E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132748E+03   -0.379902E+02    0.406472E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133234E+03   -0.363239E+02    0.419091E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.343791E+02    0.422831E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.326898E+02    0.446292E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.298601E+02    0.431495E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.284168E+02    0.406129E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.287347E+02    0.376071E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.307398E+02    0.348210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.337252E+02    0.332108E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.371785E+02    0.329980E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132473E+03   -0.402818E+02    0.342516E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131418E+03   -0.420218E+02    0.368421E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131228E+03   -0.416991E+02    0.401069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131789E+03   -0.394909E+02    0.430042E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.360627E+02    0.446917E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.348292E+02    0.296119E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.329723E+02    0.299238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.342491E+02    0.281513E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.362895E+02    0.284450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.363634E+02    0.303096E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.342931E+02    0.312106E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.325264E+02    0.324815E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.312783E+02    0.314234E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.310800E+02    0.297930E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.319399E+02    0.280087E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.333423E+02    0.268652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.354100E+02    0.261867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.371411E+02    0.266572E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.383696E+02    0.278408E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133674E+03   -0.385895E+02    0.295375E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.377739E+02    0.312415E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.362385E+02    0.324386E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.342293E+02    0.329642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.325132E+02    0.353684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.297624E+02    0.340341E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.284358E+02    0.315624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.287781E+02    0.285938E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.306575E+02    0.258602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.337636E+02    0.240096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.371955E+02    0.236730E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133533E+03   -0.400130E+02    0.249959E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132425E+03   -0.417823E+02    0.273680E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132382E+03   -0.414344E+02    0.304942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132850E+03   -0.393098E+02    0.333283E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.359425E+02    0.351864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.348471E+02    0.194399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.330093E+02    0.198168E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.344197E+02    0.178006E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.364530E+02    0.180319E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.364646E+02    0.199764E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.344225E+02    0.209342E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.325208E+02    0.224351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.314265E+02    0.212777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.312855E+02    0.195606E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.320405E+02    0.178405E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.335024E+02    0.165957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.355488E+02    0.158391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.373637E+02    0.161463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.385122E+02    0.173593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.387545E+02    0.190403E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.378824E+02    0.208492E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.363733E+02    0.220581E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.343867E+02    0.226538E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.325537E+02    0.252092E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.299518E+02    0.238718E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.286714E+02    0.214083E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.289779E+02    0.184284E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.308922E+02    0.155814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.338843E+02    0.137383E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.373746E+02    0.131870E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.401950E+02    0.144281E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.416984E+02    0.169431E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133320E+03   -0.413069E+02    0.201351E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.392562E+02    0.229366E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.360410E+02    0.247849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.93 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663145.873398740     
  ps_ts2 prof sum =   662621.097718169     
  trcom prof sum =    662621.097718168     
  ps_ts2 cur sum  =   8380.73410443621     
  trcom cur sum  =    8380.73410443621     
  
  antenna # iant =            2
  powecha_use(iant) =    749028.954564904     
  ps_ts2 prof sum =   748460.092510746     
  trcom prof sum =    748460.092510746     
  ps_ts2 cur sum  =   11436.1486314009     
  trcom cur sum  =    11436.1486314009     
  
  antenna # iant =            3
  powecha_use(iant) =    483187.901206342     
  ps_ts2 prof sum =   482796.343421464     
  trcom prof sum =    482796.343421464     
  ps_ts2 cur sum  =   5266.03206143974     
  trcom cur sum  =    5266.03206143973     
  
  antenna # iant =            4
  powecha_use(iant) =    406490.992160943     
  ps_ts2 prof sum =   406174.421889337     
  trcom prof sum =    406174.421889337     
  ps_ts2 cur sum  =   5645.20294453388     
  trcom cur sum  =    5645.20294453388     
  
  antenna # iant =            5
  powecha_use(iant) =    566967.123158102     
  ps_ts2 prof sum =   566553.913223773     
  trcom prof sum =    566553.913223773     
  ps_ts2 cur sum  =   9547.10296365117     
  trcom cur sum  =    9547.10296365116     
  
  Total ECH heating:      2866605.86876349     
  Total Current Drive:    40275.2207054619     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    760
 TA= 1.04000E+00 CPU TIME= 1.56464E-01 SECONDS.  DT= 2.31499E-03
  
 TEC1=    1.04000000000000     
 TEC2=    1.04500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.64436083333339     
  %check_save_state: izleft hours =    78.3472222222222     
 --> plasma_hash("gframe"): TA= 1.040000E+00 NSTEP=   760 Hash code:  108990474
 ->PRGCHK: bdy curvature ratio at t= 1.0450E+00 seconds is:  5.5350E-02
% MHDEQ: TG1=     1.040000 ; TG2=     1.045000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7676E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5350E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.040000 TO TG2=    1.045000 @ NSTEP      760
   GFRAME TG2 MOMENTS CHECKSUM:  2.4715217666648D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0450E+00  1.0500E+00 total power(Watts):  2.9050E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.04500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.346175E+02    0.334531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.327574E+02    0.337402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.340486E+02    0.319762E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.360882E+02    0.322919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.361459E+02    0.342053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.340675E+02    0.351096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.322914E+02    0.364041E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.312122E+02    0.351099E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.308666E+02    0.335665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.317384E+02    0.318072E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.332326E+02    0.306268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.351347E+02    0.301647E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.369537E+02    0.305532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133721E+03   -0.381754E+02    0.317226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133190E+03   -0.385698E+02    0.332907E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133371E+03   -0.377359E+02    0.350639E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.360030E+02    0.364361E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.340764E+02    0.368654E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.323410E+02    0.392779E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.296733E+02    0.378019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.282855E+02    0.352768E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.285740E+02    0.323389E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.305455E+02    0.296194E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.334165E+02    0.280720E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.369323E+02    0.276930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133386E+03   -0.398398E+02    0.289728E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132333E+03   -0.415961E+02    0.313138E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132322E+03   -0.412183E+02    0.345214E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132814E+03   -0.390662E+02    0.374368E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.358646E+02    0.391092E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.351753E+02    0.250307E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.333193E+02    0.253778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.344149E+02    0.237780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.366267E+02    0.238455E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.366239E+02    0.258095E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.345637E+02    0.267686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.328099E+02    0.280943E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.315529E+02    0.270407E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.313469E+02    0.253733E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.321152E+02    0.236825E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.336710E+02    0.223845E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.357342E+02    0.216833E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.374662E+02    0.221072E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.387016E+02    0.232153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133812E+03   -0.389331E+02    0.248983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.381310E+02    0.266620E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.365167E+02    0.279872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.346012E+02    0.284675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.328227E+02    0.309091E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.300601E+02    0.296960E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.287905E+02    0.271330E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.291180E+02    0.241213E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.309826E+02    0.214634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.340758E+02    0.195907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.374993E+02    0.192076E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133699E+03   -0.403219E+02    0.204699E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133030E+03   -0.419097E+02    0.228585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132721E+03   -0.416849E+02    0.259102E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133552E+03   -0.394020E+02    0.289561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.361585E+02    0.307356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.348068E+02    0.389113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.329363E+02    0.391475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.341642E+02    0.374269E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.362967E+02    0.377456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.365159E+02    0.396060E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.342376E+02    0.405812E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.324416E+02    0.418308E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.313721E+02    0.405005E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.311207E+02    0.388364E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.319323E+02    0.371155E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.334460E+02    0.359043E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.353632E+02    0.354665E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.371876E+02    0.359340E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.132822E+03   -0.385913E+02    0.370845E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132747E+03   -0.387795E+02    0.388857E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132743E+03   -0.380139E+02    0.406065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133228E+03   -0.363469E+02    0.418699E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.344010E+02    0.422457E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.326282E+02    0.446451E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.298021E+02    0.431684E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.285090E+02    0.405170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.288263E+02    0.375019E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.305984E+02    0.349282E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.337441E+02    0.331654E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134014E+03   -0.371070E+02    0.330268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132689E+03   -0.402073E+02    0.342749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.131854E+03   -0.418452E+02    0.369266E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131447E+03   -0.416250E+02    0.401204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.131784E+03   -0.395161E+02    0.429647E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.360857E+02    0.446585E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.347603E+02    0.296477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.329890E+02    0.298769E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.341811E+02    0.281927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.363078E+02    0.283979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.362928E+02    0.303420E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.342254E+02    0.312431E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.325444E+02    0.324355E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.313742E+02    0.312957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.311760E+02    0.296616E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.317935E+02    0.281415E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.334385E+02    0.267369E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.353394E+02    0.262346E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.371594E+02    0.266136E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.382955E+02    0.278790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.386097E+02    0.294873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.377937E+02    0.311919E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.361676E+02    0.324682E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.342476E+02    0.329186E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.325346E+02    0.353237E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.297792E+02    0.339923E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.284511E+02    0.315179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.287933E+02    0.285510E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.305946E+02    0.259135E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.336131E+02    0.241567E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.371221E+02    0.237227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133524E+03   -0.400319E+02    0.249523E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132633E+03   -0.417041E+02    0.274027E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132594E+03   -0.413561E+02    0.305216E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133065E+03   -0.392349E+02    0.333551E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.358727E+02    0.352148E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.349470E+02    0.192906E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.330237E+02    0.197701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.342676E+02    0.179600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.364677E+02    0.179830E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.364813E+02    0.199274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.342697E+02    0.210849E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.325364E+02    0.223905E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.314400E+02    0.212325E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.312201E+02    0.196172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.319733E+02    0.178982E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.335136E+02    0.165464E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.355611E+02    0.157884E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.373778E+02    0.160954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.385271E+02    0.173089E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134200E+03   -0.386801E+02    0.190903E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.378978E+02    0.208007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.363035E+02    0.221051E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.344013E+02    0.226093E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.326509E+02    0.250758E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.298907E+02    0.239269E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.286821E+02    0.213635E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.289892E+02    0.183828E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.308323E+02    0.156366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.338149E+02    0.137962E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.372121E+02    0.133509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.402104E+02    0.143744E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133473E+03   -0.416175E+02    0.169928E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133313E+03   -0.413237E+02    0.200840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133904E+03   -0.391795E+02    0.229847E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.360583E+02    0.247428E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.70 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    639764.729202449     
  ps_ts2 prof sum =   639274.038973369     
  trcom prof sum =    639274.038973368     
  ps_ts2 cur sum  =   8179.31730671554     
  trcom cur sum  =    8179.31730671553     
  
  antenna # iant =            2
  powecha_use(iant) =    745044.695100203     
  ps_ts2 prof sum =   744488.131671245     
  trcom prof sum =    744488.131671244     
  ps_ts2 cur sum  =   11496.3767589775     
  trcom cur sum  =    11496.3767589775     
  
  antenna # iant =            3
  powecha_use(iant) =    485697.238608466     
  ps_ts2 prof sum =   485308.232319753     
  trcom prof sum =    485308.232319753     
  ps_ts2 cur sum  =   5357.10443481178     
  trcom cur sum  =    5357.10443481178     
  
  antenna # iant =            4
  powecha_use(iant) =    470425.679982611     
  ps_ts2 prof sum =   470068.544492417     
  trcom prof sum =    470068.544492417     
  ps_ts2 cur sum  =   6604.71611876676     
  trcom cur sum  =    6604.71611876676     
  
  antenna # iant =            5
  powecha_use(iant) =    564037.715566378     
  ps_ts2 prof sum =   563624.243044515     
  trcom prof sum =    563624.243044515     
  ps_ts2 cur sum  =   9596.27493084720     
  trcom cur sum  =    9596.27493084720     
  
  Total ECH heating:      2902763.19050130     
  Total Current Drive:    41233.7895501188     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    762
 TA= 1.04500E+00 CPU TIME= 1.60381E-01 SECONDS.  DT= 3.35626E-03
  
 TEC1=    1.04500000000000     
 TEC2=    1.05000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.66438416666642     
  %check_save_state: izleft hours =    78.3272222222222     
 --> plasma_hash("gframe"): TA= 1.045000E+00 NSTEP=   762 Hash code:  111845072
 ->PRGCHK: bdy curvature ratio at t= 1.0500E+00 seconds is:  5.5304E-02
% MHDEQ: TG1=     1.045000 ; TG2=     1.050000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7686E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5304E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.045000 TO TG2=    1.050000 @ NSTEP      762
   GFRAME TG2 MOMENTS CHECKSUM:  2.4703922624189D+04
 %MFRCHK - LABEL "RMS11", #       1=  2.29733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.86770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.67670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.81115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.35322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.53348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -8.61218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.38877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.86068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.63509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.60853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.90298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  3.37495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -3.91581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.05275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.70790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.15680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  5.83688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.18070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.80019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.80019E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0500E+00  1.0550E+00 total power(Watts):  2.9764E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.05000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.346366E+02    0.334089E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.327756E+02    0.336982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.339811E+02    0.320089E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.361073E+02    0.322447E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.360767E+02    0.342350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.340015E+02    0.351404E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.323110E+02    0.363651E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.310693E+02    0.352169E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.309641E+02    0.334467E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.315933E+02    0.319233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.332501E+02    0.305793E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.351536E+02    0.301164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134164E+03   -0.369726E+02    0.305040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.381022E+02    0.317526E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.384029E+02    0.333933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.375714E+02    0.351629E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.359340E+02    0.364648E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.340106E+02    0.368947E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.322784E+02    0.393039E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.295412E+02    0.378975E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.282274E+02    0.353125E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.285889E+02    0.322961E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.304046E+02    0.297454E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.335177E+02    0.279411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.369514E+02    0.276476E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133165E+03   -0.399570E+02    0.288401E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132544E+03   -0.415200E+02    0.313392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132318E+03   -0.412420E+02    0.344755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132809E+03   -0.390898E+02    0.373954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.357078E+02    0.391936E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.351045E+02    0.250827E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.331690E+02    0.255226E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.345203E+02    0.236379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.366437E+02    0.238029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.366422E+02    0.257681E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.345819E+02    0.267266E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.326613E+02    0.282265E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.315683E+02    0.270005E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.313624E+02    0.253340E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.321303E+02    0.236409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.337705E+02    0.222427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.356602E+02    0.217380E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.374833E+02    0.220613E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.386268E+02    0.232647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.388574E+02    0.249466E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.380574E+02    0.267064E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.364455E+02    0.280277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.345328E+02    0.285081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.328403E+02    0.308626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.300759E+02    0.296514E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.287311E+02    0.271850E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.290574E+02    0.241779E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.309177E+02    0.215187E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.339242E+02    0.197466E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.374269E+02    0.192592E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.403397E+02    0.204203E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132812E+03   -0.420287E+02    0.227197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132714E+03   -0.417062E+02    0.258653E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133546E+03   -0.394223E+02    0.289070E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.361798E+02    0.306854E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.347414E+02    0.389355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.329574E+02    0.391097E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.341849E+02    0.373883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.133661E+03   -0.364097E+02    0.376407E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.364479E+02    0.396272E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.341726E+02    0.406026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.324627E+02    0.417944E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.313114E+02    0.405247E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.311399E+02    0.387996E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.318701E+02    0.371455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.333810E+02    0.359351E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.352951E+02    0.354961E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.371168E+02    0.359622E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133038E+03   -0.385193E+02    0.371101E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132742E+03   -0.388031E+02    0.388448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.132962E+03   -0.379442E+02    0.406241E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133222E+03   -0.363704E+02    0.418319E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.343363E+02    0.422630E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.324826E+02    0.447112E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.298229E+02    0.431341E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.283784E+02    0.406043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.286935E+02    0.376028E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.306945E+02    0.348138E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.336774E+02    0.331987E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.371275E+02    0.329807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132685E+03   -0.402304E+02    0.342292E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132069E+03   -0.417696E+02    0.369486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131443E+03   -0.416512E+02    0.400783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132004E+03   -0.394452E+02    0.429769E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133247E+03   -0.360191E+02    0.446732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.347789E+02    0.296007E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.328402E+02    0.299986E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.341979E+02    0.281483E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.362368E+02    0.284371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.363119E+02    0.302933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.342439E+02    0.311958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.324794E+02    0.324691E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.312309E+02    0.314135E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.310323E+02    0.297873E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.318937E+02    0.280071E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.332907E+02    0.268736E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.353569E+02    0.261940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.370873E+02    0.266595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.383167E+02    0.278313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.385352E+02    0.295208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134055E+03   -0.377207E+02    0.312225E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.361879E+02    0.324209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.342667E+02    0.328732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.325501E+02    0.352858E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.297184E+02    0.340277E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.284663E+02    0.314734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.287341E+02    0.285974E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.306102E+02    0.258749E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.337138E+02    0.240205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.371394E+02    0.236797E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.399587E+02    0.249968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132627E+03   -0.417250E+02    0.273548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132591E+03   -0.413790E+02    0.304693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133061E+03   -0.392574E+02    0.333075E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134202E+03   -0.358936E+02    0.351725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.347911E+02    0.194461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.329559E+02    0.198252E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.343643E+02    0.178083E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.363086E+02    0.181400E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.364065E+02    0.199820E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.343689E+02    0.209393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.324699E+02    0.224446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.314529E+02    0.211871E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.312343E+02    0.195714E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.319877E+02    0.178517E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.335280E+02    0.164978E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.354059E+02    0.159510E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.373055E+02    0.161499E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.384532E+02    0.173618E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.386973E+02    0.190404E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.379154E+02    0.207526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.363208E+02    0.220594E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.342484E+02    0.227585E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.325033E+02    0.252223E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.299047E+02    0.238864E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.286250E+02    0.214187E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.290008E+02    0.183371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.308419E+02    0.155921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.338287E+02    0.137452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.373145E+02    0.131893E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.401330E+02    0.144269E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133466E+03   -0.416352E+02    0.169415E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.412457E+02    0.201309E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.391982E+02    0.229398E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.359877E+02    0.247937E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    636163.567052332     
  ps_ts2 prof sum =   635663.433284996     
  trcom prof sum =    635663.433284995     
  ps_ts2 cur sum  =   8231.09348230337     
  trcom cur sum  =    8231.09348230336     
  
  antenna # iant =            2
  powecha_use(iant) =    758291.884358885     
  ps_ts2 prof sum =   757736.206543641     
  trcom prof sum =    757736.206543640     
  ps_ts2 cur sum  =   11834.0537324640     
  trcom cur sum  =    11834.0537324640     
  
  antenna # iant =            3
  powecha_use(iant) =    482830.116622952     
  ps_ts2 prof sum =   482446.632760574     
  trcom prof sum =    482446.632760574     
  ps_ts2 cur sum  =   5391.34860833466     
  trcom cur sum  =    5391.34860833466     
  
  antenna # iant =            4
  powecha_use(iant) =    536138.762484841     
  ps_ts2 prof sum =   535736.140005642     
  trcom prof sum =    535736.140005642     
  ps_ts2 cur sum  =   7615.79343482572     
  trcom cur sum  =    7615.79343482572     
  
  antenna # iant =            5
  powecha_use(iant) =    562983.071736251     
  ps_ts2 prof sum =   562566.606352139     
  trcom prof sum =    562566.606352139     
  ps_ts2 cur sum  =   9685.88843147147     
  trcom cur sum  =    9685.88843147147     
  
  Total ECH heating:      2974149.01894699     
  Total Current Drive:    42758.1776893992     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    764
 TA= 1.05000E+00 CPU TIME= 1.63694E-01 SECONDS.  DT= 2.05468E-03
  
 TEC1=    1.05000000000000     
 TEC2=    1.05500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.67813361111098     
  %check_save_state: izleft hours =    78.3133333333333     
 --> plasma_hash("gframe"): TA= 1.050000E+00 NSTEP=   764 Hash code:   27323015
 ->PRGCHK: bdy curvature ratio at t= 1.0550E+00 seconds is:  5.5267E-02
% MHDEQ: TG1=     1.050000 ; TG2=     1.055000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7696E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5267E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.050000 TO TG2=    1.055000 @ NSTEP      764
   GFRAME TG2 MOMENTS CHECKSUM:  2.4692627581730D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0550E+00  1.0600E+00 total power(Watts):  2.9818E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.05500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.345691E+02    0.334417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.326273E+02    0.338079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.339993E+02    0.319626E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.360373E+02    0.322766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.360972E+02    0.341914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.340212E+02    0.350997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.322473E+02    0.363968E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.311679E+02    0.351033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.308206E+02    0.335604E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.316923E+02    0.317959E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.331004E+02    0.306981E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.350838E+02    0.301517E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.369013E+02    0.305366E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.381233E+02    0.317036E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133837E+03   -0.383297E+02    0.334228E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133580E+03   -0.376862E+02    0.350491E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.359553E+02    0.364247E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.340313E+02    0.368554E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.322991E+02    0.392677E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.296299E+02    0.377993E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.282432E+02    0.352744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.285314E+02    0.323322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.304198E+02    0.297019E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.333674E+02    0.280728E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.368796E+02    0.276889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133589E+03   -0.397848E+02    0.289566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132542E+03   -0.415417E+02    0.312890E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132532E+03   -0.411664E+02    0.345010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133025E+03   -0.390179E+02    0.374193E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.356407E+02    0.392177E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.349485E+02    0.252271E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.331031E+02    0.255755E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.343636E+02    0.237899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.365733E+02    0.238546E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.365707E+02    0.258177E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.345139E+02    0.267741E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.327622E+02    0.280944E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.315038E+02    0.270510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.313773E+02    0.252954E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.320649E+02    0.236962E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.336188E+02    0.223948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.356802E+02    0.216895E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.374108E+02    0.221128E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.386452E+02    0.232215E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.388761E+02    0.249049E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.380767E+02    0.266627E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.364647E+02    0.279817E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.345509E+02    0.284621E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.327755E+02    0.308980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.300147E+02    0.296930E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.287460E+02    0.271456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.290722E+02    0.241385E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.309327E+02    0.214750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.340227E+02    0.195988E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.374432E+02    0.192115E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.402629E+02    0.204700E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133223E+03   -0.418505E+02    0.228604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132917E+03   -0.416276E+02    0.259082E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.393473E+02    0.289409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.361969E+02    0.306388E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.36 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.347629E+02    0.388977E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.328941E+02    0.391363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.341187E+02    0.374174E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.362508E+02    0.377321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.133925E+03   -0.362888E+02    0.397098E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.341946E+02    0.405653E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.324005E+02    0.418144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.313317E+02    0.404885E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.311605E+02    0.387635E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.318895E+02    0.371075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.334007E+02    0.358956E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.353158E+02    0.354547E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.371389E+02    0.359207E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133255E+03   -0.384484E+02    0.371343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.132959E+03   -0.387324E+02    0.388660E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133181E+03   -0.378747E+02    0.406423E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133442E+03   -0.363031E+02    0.418483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.341845E+02    0.423357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.324205E+02    0.447289E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.297640E+02    0.431548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.284714E+02    0.405085E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.287866E+02    0.374977E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.305535E+02    0.349236E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.336971E+02    0.331540E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.370562E+02    0.330118E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132899E+03   -0.401557E+02    0.342561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132285E+03   -0.416942E+02    0.369708E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.131661E+03   -0.415775E+02    0.400933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132448E+03   -0.392780E+02    0.430402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.360429E+02    0.446406E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.347979E+02    0.295524E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.329416E+02    0.298672E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.340452E+02    0.282776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.362561E+02    0.283901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.362396E+02    0.303283E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.341756E+02    0.312300E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.323312E+02    0.325836E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.312485E+02    0.313681E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.310500E+02    0.297421E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.317465E+02    0.281438E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.333924E+02    0.267422E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.352869E+02    0.262434E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.371064E+02    0.266160E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.382408E+02    0.278721E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.385559E+02    0.294706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.377416E+02    0.311736E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.361176E+02    0.324525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.341970E+02    0.329082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.324856E+02    0.353185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.297345E+02    0.339869E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.284084E+02    0.315114E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.287509E+02    0.285543E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.306240E+02    0.258368E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.335622E+02    0.241696E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.370682E+02    0.237310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.399749E+02    0.249575E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132833E+03   -0.416474E+02    0.273908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132802E+03   -0.413015E+02    0.304970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.391838E+02    0.333362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.358245E+02    0.352028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.348929E+02    0.192980E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.329716E+02    0.197795E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.342123E+02    0.179703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.364167E+02    0.179858E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.364264E+02    0.199316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.342159E+02    0.210926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.324859E+02    0.224016E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.313895E+02    0.212435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.311704E+02    0.196296E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.320010E+02    0.178062E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.334604E+02    0.165571E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.355051E+02    0.157959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.373211E+02    0.161006E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.384694E+02    0.173136E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.386221E+02    0.190927E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.378419E+02    0.208037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.362498E+02    0.221115E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.343494E+02    0.226188E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.325187E+02    0.251833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.299199E+02    0.238463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.286362E+02    0.213770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.289403E+02    0.183987E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.308543E+02    0.155440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.337609E+02    0.138054E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.371540E+02    0.133560E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.401494E+02    0.143753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.415556E+02    0.169937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133507E+03   -0.412638E+02    0.200825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134097E+03   -0.391225E+02    0.229901E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.360044E+02    0.247529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    646399.850981058     
  ps_ts2 prof sum =   645897.088691545     
  trcom prof sum =    645897.088691544     
  ps_ts2 cur sum  =   8464.39190989200     
  trcom cur sum  =    8464.39190989198     
  
  antenna # iant =            2
  powecha_use(iant) =    740527.631340026     
  ps_ts2 prof sum =   739979.618929783     
  trcom prof sum =    739979.618929783     
  ps_ts2 cur sum  =   11689.2370674905     
  trcom cur sum  =    11689.2370674905     
  
  antenna # iant =            3
  powecha_use(iant) =    484322.371115242     
  ps_ts2 prof sum =   483940.448118898     
  trcom prof sum =    483940.448118898     
  ps_ts2 cur sum  =   5475.78809147655     
  trcom cur sum  =    5475.78809135499     
  
  antenna # iant =            4
  powecha_use(iant) =    547840.892263091     
  ps_ts2 prof sum =   547426.242422484     
  trcom prof sum =    547426.242422484     
  ps_ts2 cur sum  =   7875.66141982582     
  trcom cur sum  =    7875.66141982581     
  
  antenna # iant =            5
  powecha_use(iant) =    562700.438070739     
  ps_ts2 prof sum =   562301.813531610     
  trcom prof sum =    562301.813531610     
  ps_ts2 cur sum  =   9785.51480688772     
  trcom cur sum  =    9785.51480688772     
  
  Total ECH heating:      2979545.21169432     
  Total Current Drive:    43290.5932954510     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    767
 TA= 1.05500E+00 CPU TIME= 1.60245E-01 SECONDS.  DT= 4.71217E-04
  
 TEC1=    1.05500000000000     
 TEC2=    1.06000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.68978222222177     
  %check_save_state: izleft hours =    78.3016666666667     
 --> plasma_hash("gframe"): TA= 1.055000E+00 NSTEP=   767 Hash code:   34782371
 ->PRGCHK: bdy curvature ratio at t= 1.0600E+00 seconds is:  5.5378E-02
% MHDEQ: TG1=     1.055000 ; TG2=     1.060000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5378E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.055000 TO TG2=    1.060000 @ NSTEP      767
   GFRAME TG2 MOMENTS CHECKSUM:  2.4693321946410D+04
 %MFRCHK - LABEL "RMS11", #       2= -3.64851E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -9.38325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.77109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.89782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.36117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4=  4.83050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.43456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.70870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.75019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.70248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.41058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  3.88664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -3.94599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.47743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.76335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.83204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  4.67198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.12059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.23267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.23267E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.0600E+00  1.0650E+00 total power(Watts):  2.9993E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.06000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.345560E+02    0.334541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.326158E+02    0.338185E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.339866E+02    0.319834E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.360251E+02    0.322943E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.360856E+02    0.341965E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.340101E+02    0.351016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.322382E+02    0.363947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.311586E+02    0.351066E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.308110E+02    0.335729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.316782E+02    0.318197E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.330852E+02    0.307254E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.350682E+02    0.301789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.368861E+02    0.305634E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.381095E+02    0.317234E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.383166E+02    0.334315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.376753E+02    0.350478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.359450E+02    0.364199E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.340213E+02    0.368511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.322897E+02    0.392619E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.296250E+02    0.377923E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.282348E+02    0.352791E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.285209E+02    0.323542E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.304081E+02    0.297270E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.333518E+02    0.280923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.368620E+02    0.277071E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133657E+03   -0.397685E+02    0.289822E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132611E+03   -0.415277E+02    0.313080E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132607E+03   -0.411530E+02    0.345007E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133103E+03   -0.390074E+02    0.374102E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.356314E+02    0.392106E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.18 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.349329E+02    0.252305E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.330871E+02    0.255802E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.343460E+02    0.237952E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.365551E+02    0.238581E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.365532E+02    0.258220E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.344971E+02    0.267848E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.327469E+02    0.281145E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.314904E+02    0.270619E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.313621E+02    0.252997E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.320491E+02    0.237034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.336020E+02    0.224057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.356625E+02    0.217015E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.373932E+02    0.221216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134219E+03   -0.386269E+02    0.232251E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.388585E+02    0.249066E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.380583E+02    0.266730E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.364473E+02    0.280022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.345355E+02    0.284848E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.327608E+02    0.309245E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.300016E+02    0.297191E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.287321E+02    0.271567E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.290578E+02    0.241452E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.309172E+02    0.214904E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.339210E+02    0.197182E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.374238E+02    0.192279E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.402433E+02    0.204834E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133297E+03   -0.418302E+02    0.228634E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132992E+03   -0.416095E+02    0.259145E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.393311E+02    0.289665E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.361832E+02    0.306645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.347532E+02    0.388907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.328846E+02    0.391303E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.341094E+02    0.374115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.362407E+02    0.377246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.362796E+02    0.397028E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.341861E+02    0.405611E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.323928E+02    0.418153E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.313237E+02    0.404852E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.309904E+02    0.388884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.318804E+02    0.371043E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.333910E+02    0.358944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.353050E+02    0.354543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.371278E+02    0.359172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.383427E+02    0.371926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133037E+03   -0.387222E+02    0.388576E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133258E+03   -0.378655E+02    0.406370E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133517E+03   -0.362948E+02    0.418477E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.341768E+02    0.423373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.324141E+02    0.447334E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.298354E+02    0.431050E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.284643E+02    0.405062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.287030E+02    0.375635E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.305447E+02    0.349283E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.336850E+02    0.331676E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.370433E+02    0.330238E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.401433E+02    0.342569E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132363E+03   -0.416829E+02    0.369611E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132182E+03   -0.413667E+02    0.402008E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132525E+03   -0.392700E+02    0.430417E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133315E+03   -0.360356E+02    0.446441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.18 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.347819E+02    0.295795E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.329274E+02    0.298946E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.340294E+02    0.282988E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.362392E+02    0.284127E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.362265E+02    0.303536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.341602E+02    0.312550E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.323192E+02    0.326022E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.312347E+02    0.313929E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.310360E+02    0.297686E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.317313E+02    0.281634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.333769E+02    0.267514E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.352707E+02    0.262495E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.370886E+02    0.266268E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.382227E+02    0.278929E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.385404E+02    0.294972E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.377276E+02    0.311964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.361047E+02    0.324692E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.341872E+02    0.329205E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.324761E+02    0.353201E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.297249E+02    0.339982E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.283972E+02    0.315376E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.287379E+02    0.285759E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.306106E+02    0.258414E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.335451E+02    0.241745E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.370497E+02    0.237346E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.399552E+02    0.249594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132904E+03   -0.416298E+02    0.274096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132869E+03   -0.412864E+02    0.305213E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133346E+03   -0.391707E+02    0.333433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.358133E+02    0.352031E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.21 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.348752E+02    0.193150E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.329542E+02    0.197972E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.341950E+02    0.179867E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.363931E+02    0.180057E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.364077E+02    0.199480E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.341983E+02    0.211080E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.324694E+02    0.224133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.313737E+02    0.212594E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.312319E+02    0.195439E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.319834E+02    0.178230E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.334419E+02    0.165761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.354864E+02    0.158152E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.373007E+02    0.161187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.384497E+02    0.173289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.386024E+02    0.191091E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.378228E+02    0.208172E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.362314E+02    0.221213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.343326E+02    0.226275E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.325038E+02    0.251869E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.299049E+02    0.238534E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.286216E+02    0.213935E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.289258E+02    0.184158E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.308410E+02    0.155611E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.338227E+02    0.137219E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.371332E+02    0.133829E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.401277E+02    0.143972E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133526E+03   -0.416313E+02    0.169066E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.412438E+02    0.200964E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.391038E+02    0.229942E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.359884E+02    0.247552E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656483.273449395     
  ps_ts2 prof sum =   655983.884660940     
  trcom prof sum =    655983.884660940     
  ps_ts2 cur sum  =   8702.21957183233     
  trcom cur sum  =    8702.21957183233     
  
  antenna # iant =            2
  powecha_use(iant) =    733976.198895598     
  ps_ts2 prof sum =   733427.890991141     
  trcom prof sum =    733427.890991141     
  ps_ts2 cur sum  =   11721.0094967089     
  trcom cur sum  =    11721.0094967089     
  
  antenna # iant =            3
  powecha_use(iant) =    485812.904297163     
  ps_ts2 prof sum =   485424.834010674     
  trcom prof sum =    485424.834010675     
  ps_ts2 cur sum  =   5561.54977716623     
  trcom cur sum  =    5561.54977716622     
  
  antenna # iant =            4
  powecha_use(iant) =    554790.210003578     
  ps_ts2 prof sum =   554376.562759394     
  trcom prof sum =    554376.562759393     
  ps_ts2 cur sum  =   8070.36193970131     
  trcom cur sum  =    8070.36193970131     
  
  antenna # iant =            5
  powecha_use(iant) =    568250.460505212     
  ps_ts2 prof sum =   567859.798080128     
  trcom prof sum =    567859.798080129     
  ps_ts2 cur sum  =   9994.23551253946     
  trcom cur sum  =    9994.23551253946     
  
  Total ECH heating:      2997072.97050228     
  Total Current Drive:    44049.3762979482     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    773
 TA= 1.06000E+00 CPU TIME= 1.45999E-01 SECONDS.  DT= 1.41588E-03
  
 TEC1=    1.06000000000000     
 TEC2=    1.06500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.70363611111088     
  %check_save_state: izleft hours =    78.2880555555556     
 --> plasma_hash("gframe"): TA= 1.060000E+00 NSTEP=   773 Hash code:   65267088
 ->PRGCHK: bdy curvature ratio at t= 1.0650E+00 seconds is:  5.5288E-02
% MHDEQ: TG1=     1.060000 ; TG2=     1.065000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7700E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5288E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.060000 TO TG2=    1.065000 @ NSTEP      773
   GFRAME TG2 MOMENTS CHECKSUM:  2.4694016311090D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0650E+00  1.0700E+00 total power(Watts):  3.0195E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.06500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.345442E+02    0.334655E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.326036E+02    0.338313E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.339733E+02    0.320058E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.360101E+02    0.323147E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.360725E+02    0.342031E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.339962E+02    0.351059E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.321437E+02    0.364643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.311476E+02    0.351109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.307970E+02    0.335895E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.315854E+02    0.319254E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.330719E+02    0.307526E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.351424E+02    0.301218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.368709E+02    0.305890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134067E+03   -0.380933E+02    0.317461E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133981E+03   -0.383023E+02    0.334424E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.374752E+02    0.351917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.359332E+02    0.364155E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.340103E+02    0.368465E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.322802E+02    0.392570E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.295376E+02    0.378572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.282229E+02    0.352863E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.285089E+02    0.323786E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.303937E+02    0.297524E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.333386E+02    0.281063E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.368452E+02    0.277230E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133727E+03   -0.397494E+02    0.290067E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132682E+03   -0.415107E+02    0.313300E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132685E+03   -0.411392E+02    0.345010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133183E+03   -0.389952E+02    0.374015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.356201E+02    0.392039E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.350890E+02    0.250497E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.332377E+02    0.253993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.344996E+02    0.236120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.365370E+02    0.238643E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.365346E+02    0.258271E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.344768E+02    0.267952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.326478E+02    0.282202E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.315555E+02    0.269795E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.313460E+02    0.253061E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.321130E+02    0.236162E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.335844E+02    0.224188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.356437E+02    0.217148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.374641E+02    0.220369E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.386075E+02    0.232320E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.388393E+02    0.249104E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.380393E+02    0.266815E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.364308E+02    0.280197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.345197E+02    0.285053E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.326643E+02    0.310341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.299873E+02    0.297444E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.287166E+02    0.271662E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.290411E+02    0.241567E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.308996E+02    0.215077E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.339019E+02    0.197358E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.374035E+02    0.192448E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.402223E+02    0.204985E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133373E+03   -0.418087E+02    0.228695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133070E+03   -0.415883E+02    0.259198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.393122E+02    0.289907E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.361674E+02    0.306911E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.347426E+02    0.388842E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.328748E+02    0.391251E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.341855E+02    0.373380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.362291E+02    0.377182E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.362694E+02    0.396964E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.341761E+02    0.405569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.323839E+02    0.418158E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.313144E+02    0.404823E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.309805E+02    0.388843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.318737E+02    0.370967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.333793E+02    0.358937E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.352924E+02    0.354549E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.371151E+02    0.359148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133633E+03   -0.383303E+02    0.371852E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.387106E+02    0.388486E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133563E+03   -0.377609E+02    0.406897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133597E+03   -0.362851E+02    0.418472E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.341677E+02    0.423388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.324056E+02    0.447385E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.298276E+02    0.431099E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.283808E+02    0.405659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.286935E+02    0.375612E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.305328E+02    0.349355E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.336717E+02    0.331833E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.370286E+02    0.330387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.401296E+02    0.342593E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132226E+03   -0.417712E+02    0.368847E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132264E+03   -0.413552E+02    0.401929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132605E+03   -0.392599E+02    0.430431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133393E+03   -0.360269E+02    0.446476E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.347670E+02    0.296049E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.329128E+02    0.299208E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.340127E+02    0.283172E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.362230E+02    0.284333E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.362106E+02    0.303805E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.341484E+02    0.312801E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.323065E+02    0.326234E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.312227E+02    0.314197E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.310214E+02    0.297943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.317160E+02    0.281798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.332747E+02    0.268505E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.351652E+02    0.263462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.370696E+02    0.266347E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.382999E+02    0.278226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.385221E+02    0.295228E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.377112E+02    0.312210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.360922E+02    0.324864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.341736E+02    0.329381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.324646E+02    0.353229E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.297134E+02    0.340110E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.283842E+02    0.315643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.287239E+02    0.285950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.305959E+02    0.258479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.335278E+02    0.241819E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.370313E+02    0.237410E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.399362E+02    0.249623E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132978E+03   -0.416097E+02    0.274256E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132940E+03   -0.412689E+02    0.305462E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133638E+03   -0.390599E+02    0.334281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.358005E+02    0.352048E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.347705E+02    0.194342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.329350E+02    0.198152E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.341753E+02    0.180050E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.363734E+02    0.180229E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.363878E+02    0.199652E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.341794E+02    0.211252E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.324518E+02    0.224273E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.313558E+02    0.212770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.312109E+02    0.195660E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.319665E+02    0.178422E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.334236E+02    0.165980E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.354669E+02    0.158377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.372804E+02    0.161393E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.384279E+02    0.173467E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.386737E+02    0.190249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.378024E+02    0.208330E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.362123E+02    0.221336E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.343146E+02    0.226390E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.324869E+02    0.251933E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.298894E+02    0.238634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.286052E+02    0.214115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.289092E+02    0.184349E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.308191E+02    0.155922E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.338025E+02    0.137513E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.372872E+02    0.131931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.401051E+02    0.144221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.416084E+02    0.169238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133648E+03   -0.412221E+02    0.201116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134246E+03   -0.390841E+02    0.230017E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.359701E+02    0.247599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678301.314470426     
  ps_ts2 prof sum =   677768.419358763     
  trcom prof sum =    677768.419358762     
  ps_ts2 cur sum  =   9102.75636962307     
  trcom cur sum  =    9102.75636962306     
  
  antenna # iant =            2
  powecha_use(iant) =    727478.600039307     
  ps_ts2 prof sum =   726972.327651783     
  trcom prof sum =    726972.327651783     
  ps_ts2 cur sum  =   11753.8571236269     
  trcom cur sum  =    11753.8571236269     
  
  antenna # iant =            3
  powecha_use(iant) =    489460.225381128     
  ps_ts2 prof sum =   489074.981372599     
  trcom prof sum =    489074.981361778     
  ps_ts2 cur sum  =   5676.48513355579     
  trcom cur sum  =    5676.48513355578     
  
  antenna # iant =            4
  powecha_use(iant) =    556531.501249653     
  ps_ts2 prof sum =   556107.840190920     
  trcom prof sum =    556107.840190919     
  ps_ts2 cur sum  =   8192.46779615945     
  trcom cur sum  =    8192.46779615944     
  
  antenna # iant =            5
  powecha_use(iant) =    567741.126127106     
  ps_ts2 prof sum =   567353.710305591     
  trcom prof sum =    567353.710305591     
  ps_ts2 cur sum  =   10099.0946316798     
  trcom cur sum  =    10099.0946316798     
  
  Total ECH heating:      3017277.27886883     
  Total Current Drive:    44824.6610546450     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    776
 TA= 1.06500E+00 CPU TIME= 1.49741E-01 SECONDS.  DT= 2.26783E-03
  
 TEC1=    1.06500000000000     
 TEC2=    1.07000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.71787999999970     
  %check_save_state: izleft hours =    78.2736111111111     
 --> plasma_hash("gframe"): TA= 1.065000E+00 NSTEP=   776 Hash code:   76098180
 ->PRGCHK: bdy curvature ratio at t= 1.0700E+00 seconds is:  5.5084E-02
% MHDEQ: TG1=     1.065000 ; TG2=     1.070000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7702E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5084E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.065000 TO TG2=    1.070000 @ NSTEP      776
   GFRAME TG2 MOMENTS CHECKSUM:  2.4694710675770D+04
 %MFRCHK - LABEL "RMS11", #       2= -2.83777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -9.71000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.87540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.59667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.99529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.61688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.03639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.55608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -3.90170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -5.95315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.52861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.23169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -2.23830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -3.06911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.37862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11= -4.89580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.40063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.96746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.02856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.98681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.98681E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.0700E+00  1.0750E+00 total power(Watts):  3.0241E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.07000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.345315E+02    0.334769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.325916E+02    0.338427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.339600E+02    0.320225E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.359963E+02    0.323302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.360598E+02    0.342096E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.339868E+02    0.351075E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.321333E+02    0.364637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.311371E+02    0.351161E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.307872E+02    0.336026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.315730E+02    0.319436E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.330578E+02    0.307694E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.351277E+02    0.301378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.368559E+02    0.306062E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134139E+03   -0.380782E+02    0.317625E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134055E+03   -0.382883E+02    0.334518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134249E+03   -0.374626E+02    0.351929E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.359219E+02    0.364124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.339994E+02    0.368435E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.322712E+02    0.392517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.295288E+02    0.378544E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.282134E+02    0.352925E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.284973E+02    0.323970E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.303805E+02    0.297674E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.333200E+02    0.281181E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.368281E+02    0.277310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133798E+03   -0.397320E+02    0.290193E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133185E+03   -0.412940E+02    0.315020E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132767E+03   -0.411238E+02    0.345026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.389839E+02    0.373933E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.356102E+02    0.391976E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.348980E+02    0.252471E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.330547E+02    0.255974E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.343112E+02    0.238208E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.365194E+02    0.238796E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.365181E+02    0.258352E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.344652E+02    0.267996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.326330E+02    0.282297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.315402E+02    0.269875E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.313309E+02    0.253189E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.320973E+02    0.236350E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.335673E+02    0.224398E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.356259E+02    0.217359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.373538E+02    0.221542E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.385888E+02    0.232486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.388211E+02    0.249199E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.380234E+02    0.266873E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.364141E+02    0.280290E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.345037E+02    0.285161E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.326509E+02    0.310519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.299742E+02    0.297590E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.287042E+02    0.271750E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.290285E+02    0.241728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.308842E+02    0.215295E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.338847E+02    0.197549E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.373841E+02    0.192631E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.402014E+02    0.205193E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133443E+03   -0.417885E+02    0.228858E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133145E+03   -0.415698E+02    0.259247E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133967E+03   -0.392955E+02    0.290034E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.361529E+02    0.307079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.347328E+02    0.388782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.328656E+02    0.391195E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.341746E+02    0.373334E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.362181E+02    0.377116E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.362565E+02    0.396915E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.341670E+02    0.405528E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.324595E+02    0.417572E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.313063E+02    0.404782E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.309731E+02    0.388788E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.318602E+02    0.370966E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.333682E+02    0.358940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.352808E+02    0.354557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.371032E+02    0.359126E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.383188E+02    0.371785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133199E+03   -0.387001E+02    0.388401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133642E+03   -0.377506E+02    0.406842E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.360935E+02    0.419573E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.341591E+02    0.423397E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.323981E+02    0.447440E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.296643E+02    0.432227E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.283735E+02    0.405631E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.286843E+02    0.375596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.305226E+02    0.349423E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.336597E+02    0.331958E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.370149E+02    0.330508E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133126E+03   -0.401162E+02    0.342619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132525E+03   -0.416577E+02    0.369422E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132355E+03   -0.413406E+02    0.401866E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132684E+03   -0.392507E+02    0.430445E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.358378E+02    0.447480E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.345772E+02    0.297895E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.327348E+02    0.301027E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.339972E+02    0.283271E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.362066E+02    0.284443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.361954E+02    0.303969E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.341347E+02    0.312979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.322939E+02    0.326393E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.312091E+02    0.314381E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.310077E+02    0.298093E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.317003E+02    0.281898E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.332597E+02    0.268584E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.351488E+02    0.263542E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.370536E+02    0.266401E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.382827E+02    0.278311E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.385063E+02    0.295374E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.376961E+02    0.312380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.360765E+02    0.325035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.341611E+02    0.329522E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.324538E+02    0.353259E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.297004E+02    0.340236E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.283728E+02    0.315833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.287108E+02    0.286056E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.305810E+02    0.258593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.335112E+02    0.241984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.370093E+02    0.237605E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.399173E+02    0.249711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133053E+03   -0.415914E+02    0.274326E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133012E+03   -0.412522E+02    0.305620E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.391425E+02    0.333614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.357886E+02    0.352066E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.347518E+02    0.194528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.329185E+02    0.198344E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.341572E+02    0.180234E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.363535E+02    0.180410E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.363693E+02    0.199851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.341624E+02    0.211466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.324358E+02    0.224484E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.313403E+02    0.212984E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.311978E+02    0.195809E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.319486E+02    0.178606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.334048E+02    0.166166E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.354476E+02    0.158565E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.372601E+02    0.161573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.384077E+02    0.173637E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.386538E+02    0.190427E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.377826E+02    0.208543E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.361939E+02    0.221547E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.342977E+02    0.226588E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.324706E+02    0.252061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.298748E+02    0.238821E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.285910E+02    0.214334E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.289666E+02    0.183475E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.308019E+02    0.156121E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.337839E+02    0.137710E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.372669E+02    0.132121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.400834E+02    0.144405E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133666E+03   -0.415863E+02    0.169403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133716E+03   -0.412010E+02    0.201321E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134315E+03   -0.390649E+02    0.230191E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.359531E+02    0.247719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675401.646084183     
  ps_ts2 prof sum =   674878.022994915     
  trcom prof sum =    674878.022994915     
  ps_ts2 cur sum  =   9178.40228228617     
  trcom cur sum  =    9178.40228228616     
  
  antenna # iant =            2
  powecha_use(iant) =    725969.369878912     
  ps_ts2 prof sum =   725434.622239569     
  trcom prof sum =    725434.622239569     
  ps_ts2 cur sum  =   11869.3147103795     
  trcom cur sum  =    11869.3147103795     
  
  antenna # iant =            3
  powecha_use(iant) =    494304.295318619     
  ps_ts2 prof sum =   493910.617149108     
  trcom prof sum =    493910.617149108     
  ps_ts2 cur sum  =   5808.46399059177     
  trcom cur sum  =    5808.46399059176     
  
  antenna # iant =            4
  powecha_use(iant) =    565339.686058752     
  ps_ts2 prof sum =   564905.272479272     
  trcom prof sum =    564905.272479272     
  ps_ts2 cur sum  =   8423.97012042899     
  trcom cur sum  =    8423.97012042899     
  
  antenna # iant =            5
  powecha_use(iant) =    563058.920799359     
  ps_ts2 prof sum =   562683.914193373     
  trcom prof sum =    562683.914193373     
  ps_ts2 cur sum  =   10129.0948479743     
  trcom cur sum  =    10129.0948479743     
  
  Total ECH heating:      3021812.44905624     
  Total Current Drive:    45409.2459516606     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    778
 TA= 1.07000E+00 CPU TIME= 1.64646E-01 SECONDS.  DT= 3.41521E-03
  
 TEC1=    1.07000000000000     
 TEC2=    1.07500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.73422722222176     
  %check_save_state: izleft hours =    78.2572222222222     
 --> plasma_hash("gframe"): TA= 1.070000E+00 NSTEP=   778 Hash code:   10810302
 ->PRGCHK: bdy curvature ratio at t= 1.0750E+00 seconds is:  5.4979E-02
% MHDEQ: TG1=     1.070000 ; TG2=     1.075000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4979E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.070000 TO TG2=    1.075000 @ NSTEP      778
   GFRAME TG2 MOMENTS CHECKSUM:  2.4695405040450D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0750E+00  1.0800E+00 total power(Watts):  2.9876E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.07500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.345185E+02    0.334834E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.325791E+02    0.338504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.339465E+02    0.320270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.359826E+02    0.323351E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.360463E+02    0.342153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.339748E+02    0.351120E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.321218E+02    0.364660E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.311263E+02    0.351217E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.307750E+02    0.336102E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.315595E+02    0.319479E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.330435E+02    0.307693E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.351127E+02    0.301350E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.368403E+02    0.306045E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.380640E+02    0.317652E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.382732E+02    0.334577E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.375429E+02    0.351224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.359093E+02    0.364122E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.339893E+02    0.368415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.322612E+02    0.392476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.295187E+02    0.378541E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.282047E+02    0.352984E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.284856E+02    0.324029E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.303675E+02    0.297650E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.333056E+02    0.281176E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.368125E+02    0.277289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133878E+03   -0.397159E+02    0.290124E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133261E+03   -0.412771E+02    0.315037E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132840E+03   -0.411117E+02    0.345017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133343E+03   -0.389718E+02    0.373876E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.355992E+02    0.391915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.348813E+02    0.252729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.330387E+02    0.256217E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.342945E+02    0.238553E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.365012E+02    0.239124E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.365052E+02    0.258491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.344488E+02    0.268082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.326188E+02    0.282291E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.315270E+02    0.269982E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.313171E+02    0.253461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.320814E+02    0.236703E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.335500E+02    0.224749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.354325E+02    0.219665E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.373354E+02    0.221895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.385697E+02    0.232832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134294E+03   -0.388032E+02    0.249439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.380064E+02    0.266931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.363987E+02    0.280255E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.344891E+02    0.285125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.326366E+02    0.310526E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.299613E+02    0.297571E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.286924E+02    0.271861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.290142E+02    0.242073E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.308679E+02    0.215601E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.338659E+02    0.197764E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.373648E+02    0.192834E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.401796E+02    0.205492E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133504E+03   -0.417686E+02    0.229204E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.415515E+02    0.259333E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.392789E+02    0.289971E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.361380E+02    0.307069E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.347220E+02    0.388726E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.328553E+02    0.391153E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.341636E+02    0.373310E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.362067E+02    0.377072E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.362486E+02    0.396836E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.341574E+02    0.405475E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.324507E+02    0.417551E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.312975E+02    0.404744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.309612E+02    0.388773E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.318493E+02    0.370961E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.333564E+02    0.358965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.352698E+02    0.354573E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.370901E+02    0.359120E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.383063E+02    0.371739E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133279E+03   -0.386887E+02    0.388322E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133724E+03   -0.377404E+02    0.406774E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.360837E+02    0.419546E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.341493E+02    0.423394E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.324738E+02    0.447004E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.296565E+02    0.432261E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.283645E+02    0.405614E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.286754E+02    0.375594E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.305109E+02    0.349488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.336465E+02    0.332028E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.370010E+02    0.330565E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133203E+03   -0.401017E+02    0.342645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132606E+03   -0.416446E+02    0.369355E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132428E+03   -0.413333E+02    0.401750E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132764E+03   -0.392406E+02    0.430451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.358289E+02    0.447530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.345621E+02    0.297861E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.328844E+02    0.299331E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.339825E+02    0.283252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.361912E+02    0.284397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.361802E+02    0.303948E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.341202E+02    0.312994E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.322806E+02    0.326462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.311960E+02    0.314402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.309947E+02    0.298069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.316871E+02    0.281903E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.332448E+02    0.268685E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.351331E+02    0.263686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.370370E+02    0.266482E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.382662E+02    0.278269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.384901E+02    0.295321E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.376816E+02    0.312392E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.360625E+02    0.325086E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.341477E+02    0.329586E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.324421E+02    0.353303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.296910E+02    0.340314E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.283609E+02    0.315862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.286974E+02    0.286059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.305667E+02    0.258823E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.334950E+02    0.242319E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.369949E+02    0.237899E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.398993E+02    0.249934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133119E+03   -0.415762E+02    0.274254E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133089E+03   -0.412355E+02    0.305604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133788E+03   -0.390311E+02    0.334423E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.357756E+02    0.352098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.347335E+02    0.194731E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.329022E+02    0.198543E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.341376E+02    0.180406E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.363342E+02    0.180578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.363500E+02    0.200093E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.341442E+02    0.211764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.324190E+02    0.224834E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.313235E+02    0.213281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.311813E+02    0.196009E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.319312E+02    0.178774E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.333869E+02    0.166334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.354285E+02    0.158730E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.372398E+02    0.161733E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.383866E+02    0.173799E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.386334E+02    0.190626E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.377634E+02    0.208843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.361761E+02    0.221896E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.342804E+02    0.226944E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.324554E+02    0.252338E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.298601E+02    0.239171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.285758E+02    0.214630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.289502E+02    0.183653E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.307853E+02    0.156299E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.337655E+02    0.137887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.372468E+02    0.132292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.400615E+02    0.144569E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.415642E+02    0.169557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133781E+03   -0.411787E+02    0.201602E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.390454E+02    0.230546E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.359360E+02    0.247989E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662616.140695385     
  ps_ts2 prof sum =   662114.093770648     
  trcom prof sum =    662114.093770647     
  ps_ts2 cur sum  =   9117.26527989214     
  trcom cur sum  =    9117.26527989214     
  
  antenna # iant =            2
  powecha_use(iant) =    713371.648010401     
  ps_ts2 prof sum =   712841.857339719     
  trcom prof sum =    712841.857339718     
  ps_ts2 cur sum  =   11803.0514923009     
  trcom cur sum  =    11803.0514923009     
  
  antenna # iant =            3
  powecha_use(iant) =    490480.131425036     
  ps_ts2 prof sum =   490101.004416783     
  trcom prof sum =    490101.004416784     
  ps_ts2 cur sum  =   5835.25996103443     
  trcom cur sum  =    5835.25996103442     
  
  antenna # iant =            4
  powecha_use(iant) =    559287.167360791     
  ps_ts2 prof sum =   558868.355642518     
  trcom prof sum =    558868.355642517     
  ps_ts2 cur sum  =   8437.08713786681     
  trcom cur sum  =    8437.08713786681     
  
  antenna # iant =            5
  powecha_use(iant) =    561886.188670195     
  ps_ts2 prof sum =   561514.492587230     
  trcom prof sum =    561514.492587230     
  ps_ts2 cur sum  =   10224.3664406374     
  trcom cur sum  =    10224.3664406374     
  
  Total ECH heating:      2985439.80375690     
  Total Current Drive:    45417.0303117317     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    780
 TA= 1.07500E+00 CPU TIME= 1.61818E-01 SECONDS.  DT= 1.98099E-03
  
 TEC1=    1.07500000000000     
 TEC2=    1.08000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.74788500000000     
  %check_save_state: izleft hours =    78.2436111111111     
 --> plasma_hash("gframe"): TA= 1.075000E+00 NSTEP=   780 Hash code:   96293075
 ->PRGCHK: bdy curvature ratio at t= 1.0800E+00 seconds is:  5.4969E-02
% MHDEQ: TG1=     1.075000 ; TG2=     1.080000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7706E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4969E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.075000 TO TG2=    1.080000 @ NSTEP      780
   GFRAME TG2 MOMENTS CHECKSUM:  2.4696099405130D+04
 %MFRCHK - LABEL "RMS11", #       2= -2.07105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.97404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.36485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  8.05708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.72924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.13509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.67100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -5.02994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.21307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.36417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.18587E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -3.65029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -2.23981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.33945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.27849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.84898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  1.35546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.94153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.65440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.65440E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0800E+00  1.0850E+00 total power(Watts):  2.9898E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.08000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.345077E+02    0.334949E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.325688E+02    0.338622E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.339350E+02    0.320352E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.359701E+02    0.323445E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.360354E+02    0.342259E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.339654E+02    0.351214E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.321133E+02    0.364732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.310359E+02    0.352077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.307650E+02    0.336228E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.315489E+02    0.319555E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.330322E+02    0.307735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.351009E+02    0.301373E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.368277E+02    0.306079E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.380508E+02    0.317726E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.382615E+02    0.334682E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.375319E+02    0.351309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.358996E+02    0.364176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.339791E+02    0.368475E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.322537E+02    0.392484E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.295115E+02    0.378589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.281961E+02    0.353097E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.285514E+02    0.323300E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.303570E+02    0.297676E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.332944E+02    0.281222E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.367994E+02    0.277326E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.397021E+02    0.290123E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133338E+03   -0.412637E+02    0.315105E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132918E+03   -0.411004E+02    0.345094E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133423E+03   -0.389621E+02    0.373884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.355908E+02    0.391911E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.348679E+02    0.252996E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.330262E+02    0.256473E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.342804E+02    0.238885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.364868E+02    0.239442E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.364879E+02    0.258728E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.344366E+02    0.268220E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.326080E+02    0.282329E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.315150E+02    0.270133E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.313045E+02    0.253740E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.320725E+02    0.236988E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.335354E+02    0.225075E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.354169E+02    0.219975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.374108E+02    0.221247E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.385544E+02    0.233160E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.387883E+02    0.249695E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.379930E+02    0.267039E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.363860E+02    0.280279E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.344772E+02    0.285142E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.326255E+02    0.310577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.300289E+02    0.296726E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.286817E+02    0.272017E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.290023E+02    0.242406E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.308544E+02    0.215874E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.338550E+02    0.197921E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.373479E+02    0.193020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.401634E+02    0.205743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.417516E+02    0.229534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.415372E+02    0.259464E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134121E+03   -0.392651E+02    0.289968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.361256E+02    0.307108E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.347138E+02    0.388729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.328474E+02    0.391160E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.341549E+02    0.373346E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.361975E+02    0.377093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.362403E+02    0.396823E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.341498E+02    0.405467E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.324434E+02    0.417559E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.312906E+02    0.404747E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.309538E+02    0.388796E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.318410E+02    0.371014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.333475E+02    0.359042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.352582E+02    0.354668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.370800E+02    0.359183E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.382965E+02    0.371761E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.386818E+02    0.388286E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133805E+03   -0.377321E+02    0.406755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.360763E+02    0.419547E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.341431E+02    0.423403E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.324678E+02    0.447117E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.296504E+02    0.432323E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.283589E+02    0.405627E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.286678E+02    0.375656E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.305021E+02    0.349607E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.336361E+02    0.332138E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.369891E+02    0.330669E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133280E+03   -0.400901E+02    0.342729E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132468E+03   -0.417358E+02    0.368689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132511E+03   -0.413242E+02    0.401717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132846E+03   -0.392331E+02    0.430483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134085E+03   -0.358220E+02    0.447643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.345499E+02    0.297877E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.328731E+02    0.299353E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.339705E+02    0.283285E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.361785E+02    0.284411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.361677E+02    0.303978E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.340220E+02    0.313878E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.322700E+02    0.326562E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.311855E+02    0.314465E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.309840E+02    0.298093E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.316764E+02    0.281950E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.332332E+02    0.268837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.351205E+02    0.263864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.370243E+02    0.266600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.382529E+02    0.278289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.384770E+02    0.295330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.376683E+02    0.312450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.360502E+02    0.325184E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.341365E+02    0.329690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.324312E+02    0.353411E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.296819E+02    0.340437E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.284264E+02    0.315091E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.286878E+02    0.286106E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.305550E+02    0.259073E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.334815E+02    0.242642E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.369803E+02    0.238219E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.398840E+02    0.250184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133206E+03   -0.415595E+02    0.274280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.412222E+02    0.305633E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.390189E+02    0.334526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.357654E+02    0.352186E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.347173E+02    0.194917E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.328863E+02    0.198750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.341223E+02    0.180568E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.363175E+02    0.180741E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.363342E+02    0.200304E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.341290E+02    0.212025E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.324051E+02    0.225151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.313097E+02    0.213541E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.311666E+02    0.196197E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.319167E+02    0.178939E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.334534E+02    0.165421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.353267E+02    0.159955E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.372231E+02    0.161883E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.383694E+02    0.173952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.386161E+02    0.190807E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.377468E+02    0.209114E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.361606E+02    0.222219E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.342661E+02    0.227274E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.324431E+02    0.252617E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.298476E+02    0.239506E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.285632E+02    0.214891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.289371E+02    0.183824E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.307707E+02    0.156464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.337502E+02    0.138042E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.372299E+02    0.132438E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.400434E+02    0.144714E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.415451E+02    0.169705E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133850E+03   -0.411608E+02    0.201840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.390288E+02    0.230884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.359224E+02    0.248266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650802.624319474     
  ps_ts2 prof sum =   650313.161093230     
  trcom prof sum =    650313.161093229     
  ps_ts2 cur sum  =   9058.02704125657     
  trcom cur sum  =    9058.02704125656     
  
  antenna # iant =            2
  powecha_use(iant) =    710454.810570569     
  ps_ts2 prof sum =   709938.360080630     
  trcom prof sum =    709938.360080630     
  ps_ts2 cur sum  =   11880.6995260597     
  trcom cur sum  =    11880.6995260597     
  
  antenna # iant =            3
  powecha_use(iant) =    486893.871264018     
  ps_ts2 prof sum =   486527.257868224     
  trcom prof sum =    486527.257868224     
  ps_ts2 cur sum  =   5858.61002356046     
  trcom cur sum  =    5858.61002356046     
  
  antenna # iant =            4
  powecha_use(iant) =    583348.305303917     
  ps_ts2 prof sum =   582911.683756148     
  trcom prof sum =    582911.683756148     
  ps_ts2 cur sum  =   8899.74564155262     
  trcom cur sum  =    8899.74564155262     
  
  antenna # iant =            5
  powecha_use(iant) =    558343.441479877     
  ps_ts2 prof sum =   557970.678031598     
  trcom prof sum =    557970.678031598     
  ps_ts2 cur sum  =   10262.3314175568     
  trcom cur sum  =    10262.3314175568     
  
  Total ECH heating:      2987661.14082983     
  Total Current Drive:    45959.4136499861     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    783
 TA= 1.08000E+00 CPU TIME= 1.59598E-01 SECONDS.  DT= 6.78464E-04
  
 TEC1=    1.08000000000000     
 TEC2=    1.08500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.76042916666643     
  %check_save_state: izleft hours =    78.2311111111111     
 --> plasma_hash("gframe"): TA= 1.080000E+00 NSTEP=   783 Hash code:   43629007
 ->PRGCHK: bdy curvature ratio at t= 1.0850E+00 seconds is:  5.4621E-02
% MHDEQ: TG1=     1.080000 ; TG2=     1.085000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7707E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4621E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.080000 TO TG2=    1.085000 @ NSTEP      783
   GFRAME TG2 MOMENTS CHECKSUM:  2.4696793769810D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0850E+00  1.0900E+00 total power(Watts):  3.0028E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.08500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.344958E+02    0.335053E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.325545E+02    0.338763E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.339269E+02    0.320398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.360483E+02    0.322729E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.360237E+02    0.342361E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.339539E+02    0.351311E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.321032E+02    0.364806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.310264E+02    0.352173E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.308354E+02    0.335548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.315375E+02    0.319637E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.330197E+02    0.307779E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.350881E+02    0.301399E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.368143E+02    0.306115E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.380369E+02    0.317794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.382486E+02    0.334780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.375203E+02    0.351383E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.358887E+02    0.364230E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.339688E+02    0.368528E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.322452E+02    0.392491E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.295028E+02    0.378637E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.281885E+02    0.353207E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.285408E+02    0.323389E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.303451E+02    0.297718E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.332803E+02    0.281300E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.367851E+02    0.277391E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.396871E+02    0.290131E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.412489E+02    0.315163E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132996E+03   -0.410870E+02    0.345171E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133724E+03   -0.388541E+02    0.374564E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.355811E+02    0.391906E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.350278E+02    0.251390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.330962E+02    0.255792E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.344374E+02    0.237268E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.364709E+02    0.239743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.365639E+02    0.258019E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.343363E+02    0.269277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.325943E+02    0.282407E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.315027E+02    0.270295E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.312909E+02    0.254015E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.320537E+02    0.237346E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.335198E+02    0.225365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.355756E+02    0.218279E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.373938E+02    0.221530E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.385373E+02    0.233468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.387758E+02    0.249909E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.379749E+02    0.267187E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.363724E+02    0.280323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.344635E+02    0.285178E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.326133E+02    0.310630E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.300173E+02    0.296766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.287449E+02    0.271262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.290643E+02    0.241739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.309176E+02    0.215105E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.338348E+02    0.198136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.373293E+02    0.193197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.402395E+02    0.204983E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.417331E+02    0.229835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133569E+03   -0.414203E+02    0.260505E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.392502E+02    0.289980E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.361124E+02    0.307150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.347043E+02    0.388731E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.329236E+02    0.390514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.341450E+02    0.373381E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.361871E+02    0.377112E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.362308E+02    0.396801E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.341411E+02    0.405457E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.324362E+02    0.417558E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.312825E+02    0.404750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.309451E+02    0.388819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.318319E+02    0.371066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.333370E+02    0.359119E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.352472E+02    0.354746E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.370684E+02    0.359243E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.382852E+02    0.371778E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133442E+03   -0.386697E+02    0.388275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133890E+03   -0.377212E+02    0.406738E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.360670E+02    0.419543E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.341351E+02    0.423407E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.324608E+02    0.447215E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.296437E+02    0.432366E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.283514E+02    0.405637E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.286635E+02    0.375681E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.304926E+02    0.349714E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.336250E+02    0.332236E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.369761E+02    0.330767E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133357E+03   -0.400769E+02    0.342817E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132549E+03   -0.417240E+02    0.368694E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132595E+03   -0.413140E+02    0.401668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132928E+03   -0.392243E+02    0.430502E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.358141E+02    0.447740E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.347125E+02    0.296193E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.327766E+02    0.300248E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.339578E+02    0.283339E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.361643E+02    0.284440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.362452E+02    0.303174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.340099E+02    0.313936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.322590E+02    0.326659E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.311737E+02    0.314533E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.309717E+02    0.298133E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.317446E+02    0.281141E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.332199E+02    0.268999E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.351060E+02    0.264052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.370091E+02    0.266747E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.382376E+02    0.278336E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.384626E+02    0.295340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.376545E+02    0.312505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.360372E+02    0.325270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.341255E+02    0.329780E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.323383E+02    0.354236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.296725E+02    0.340555E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.284157E+02    0.315163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.286769E+02    0.286176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.305425E+02    0.259322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.334665E+02    0.242948E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.370554E+02    0.237575E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.398676E+02    0.250425E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133494E+03   -0.414431E+02    0.275182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133466E+03   -0.411039E+02    0.306500E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.390056E+02    0.334622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.357535E+02    0.352270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.347006E+02    0.195094E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.329514E+02    0.197904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.341893E+02    0.179681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.362120E+02    0.181935E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.363162E+02    0.200496E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.341125E+02    0.212257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.323898E+02    0.225441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.313737E+02    0.212758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.311518E+02    0.196380E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.319008E+02    0.179108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.334365E+02    0.165578E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.353091E+02    0.160109E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.372049E+02    0.162033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.383508E+02    0.174104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.385971E+02    0.190980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.377294E+02    0.209343E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.360551E+02    0.223481E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.341651E+02    0.228551E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.324265E+02    0.252918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.298343E+02    0.239814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.285493E+02    0.215121E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.289229E+02    0.183995E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.307567E+02    0.156626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.337334E+02    0.138195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.372111E+02    0.132585E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.400238E+02    0.144858E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.415249E+02    0.169849E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.411452E+02    0.202010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.390127E+02    0.231180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.359069E+02    0.248540E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    644658.120826066     
  ps_ts2 prof sum =   644168.735728862     
  trcom prof sum =    644168.735728862     
  ps_ts2 cur sum  =   9070.65238940400     
  trcom cur sum  =    9070.65238940399     
  
  antenna # iant =            2
  powecha_use(iant) =    717673.775127068     
  ps_ts2 prof sum =   717190.504312080     
  trcom prof sum =    717190.504312080     
  ps_ts2 cur sum  =   12118.0881156837     
  trcom cur sum  =    12118.0881156837     
  
  antenna # iant =            3
  powecha_use(iant) =    481036.262620684     
  ps_ts2 prof sum =   480675.047273638     
  trcom prof sum =    480675.047273638     
  ps_ts2 cur sum  =   5851.75433130757     
  trcom cur sum  =    5851.75433130756     
  
  antenna # iant =            4
  powecha_use(iant) =    604450.738995622     
  ps_ts2 prof sum =   603988.335598348     
  trcom prof sum =    603988.335598348     
  ps_ts2 cur sum  =   9317.06037561013     
  trcom cur sum  =    9317.06037561013     
  
  antenna # iant =            5
  powecha_use(iant) =    554931.193707919     
  ps_ts2 prof sum =   554540.445004647     
  trcom prof sum =    554540.445004647     
  ps_ts2 cur sum  =   10294.8514279201     
  trcom cur sum  =    10294.8514279201     
  
  Total ECH heating:      3000563.06791757     
  Total Current Drive:    46652.4066399255     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    788
 TA= 1.08500E+00 CPU TIME= 1.59843E-01 SECONDS.  DT= 1.36029E-03
  
 TEC1=    1.08500000000000     
 TEC2=    1.09000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.77254444444429     
  %check_save_state: izleft hours =    78.2188888888889     
 --> plasma_hash("gframe"): TA= 1.085000E+00 NSTEP=   788 Hash code:   44386894
 ->PRGCHK: bdy curvature ratio at t= 1.0900E+00 seconds is:  5.4295E-02
% MHDEQ: TG1=     1.085000 ; TG2=     1.090000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4295E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.085000 TO TG2=    1.090000 @ NSTEP      788
   GFRAME TG2 MOMENTS CHECKSUM:  2.4697488134490D+04
 %MFRCHK - LABEL "RMS11", #       2= -1.21631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.08401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.77683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  6.31822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.38683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.31818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.79912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.28770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.28027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.18086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.69706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -5.22435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.31533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.18099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.92669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.34880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  2.30290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.84451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.10413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.10413E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0900E+00  1.0950E+00 total power(Watts):  2.9787E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.09000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.344054E+02    0.336081E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.325560E+02    0.338985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.339213E+02    0.320636E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.360456E+02    0.322946E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.360215E+02    0.342618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.339524E+02    0.351562E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.321022E+02    0.365038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.310246E+02    0.352430E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.308339E+02    0.335789E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.315358E+02    0.319827E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.330181E+02    0.307938E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.350853E+02    0.301551E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.369040E+02    0.305441E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.380340E+02    0.317997E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.382461E+02    0.335027E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.375181E+02    0.351630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.358872E+02    0.364458E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.339677E+02    0.368749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.321610E+02    0.393319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.295023E+02    0.378847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.281878E+02    0.353458E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.285397E+02    0.323597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.303434E+02    0.297850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.334480E+02    0.279690E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.368740E+02    0.276677E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.396840E+02    0.290252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.412441E+02    0.315376E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133074E+03   -0.410848E+02    0.345416E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133803E+03   -0.388527E+02    0.374766E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.356712E+02    0.391441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.350250E+02    0.251704E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.330950E+02    0.256081E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.344339E+02    0.237593E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.363773E+02    0.241023E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.365606E+02    0.258298E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.343334E+02    0.269517E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.325922E+02    0.282574E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.314998E+02    0.270540E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.312901E+02    0.254327E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.320507E+02    0.237668E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.335162E+02    0.225644E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.355722E+02    0.218538E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.373896E+02    0.221816E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.385329E+02    0.233792E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.387685E+02    0.250248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.379745E+02    0.267390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.363697E+02    0.280477E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.344613E+02    0.285322E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.326115E+02    0.310794E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.300155E+02    0.296901E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.287445E+02    0.271500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.290621E+02    0.242064E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.309147E+02    0.215325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.338312E+02    0.198309E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.372343E+02    0.194375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.402349E+02    0.205188E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133706E+03   -0.417283E+02    0.230159E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133643E+03   -0.414172E+02    0.260745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.392472E+02    0.290098E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.361083E+02    0.307324E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.347030E+02    0.388917E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.329234E+02    0.390692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.341440E+02    0.373589E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.361858E+02    0.377312E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.362298E+02    0.396976E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.341404E+02    0.405624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.324364E+02    0.417719E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.312004E+02    0.405535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.309449E+02    0.389005E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.318312E+02    0.371284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.333357E+02    0.359360E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.352457E+02    0.354991E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.370670E+02    0.359478E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.382838E+02    0.371991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.386686E+02    0.388452E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.377216E+02    0.406891E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.360670E+02    0.419700E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.341343E+02    0.423579E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.324612E+02    0.447436E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.296454E+02    0.432538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.283520E+02    0.405803E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.286591E+02    0.375929E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.304913E+02    0.349975E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.336230E+02    0.332481E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.370667E+02    0.330228E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.399757E+02    0.343811E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132629E+03   -0.417226E+02    0.368898E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132677E+03   -0.413131E+02    0.401826E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133010E+03   -0.392240E+02    0.430683E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.358139E+02    0.447968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.347107E+02    0.296327E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.327743E+02    0.300379E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.341274E+02    0.281727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.361616E+02    0.284582E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.362462E+02    0.303299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.340072E+02    0.314112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.322570E+02    0.326876E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.311716E+02    0.314705E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.309700E+02    0.298271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.317427E+02    0.281323E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.332170E+02    0.269244E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.351028E+02    0.264317E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.370982E+02    0.266073E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.382300E+02    0.278527E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.384598E+02    0.295470E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.376515E+02    0.312684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.361260E+02    0.324704E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.340377E+02    0.330803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.323373E+02    0.354488E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.296713E+02    0.340804E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.284141E+02    0.315333E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.287496E+02    0.285444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.305416E+02    0.259618E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.335495E+02    0.242311E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.370515E+02    0.237903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.398596E+02    0.250764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133572E+03   -0.414399E+02    0.275330E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.411032E+02    0.306643E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.390032E+02    0.334871E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.358430E+02    0.351783E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.346965E+02    0.195258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.329481E+02    0.198077E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.341849E+02    0.179824E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.362077E+02    0.182079E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.362232E+02    0.201686E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.342784E+02    0.210462E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.324682E+02    0.224731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.313704E+02    0.212971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.311476E+02    0.196546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.318968E+02    0.179250E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.334321E+02    0.165708E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.353048E+02    0.160229E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.371988E+02    0.162162E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.383457E+02    0.174238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.385921E+02    0.191137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.378160E+02    0.208572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.360510E+02    0.223766E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.341613E+02    0.228852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.324268E+02    0.253211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.298319E+02    0.240138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.286204E+02    0.214314E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.289195E+02    0.184146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.308281E+02    0.155646E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.337289E+02    0.138292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.371184E+02    0.133771E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134301E+03   -0.401122E+02    0.143886E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133963E+03   -0.415195E+02    0.169971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.411361E+02    0.202238E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.391026E+02    0.230552E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.359039E+02    0.248858E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.07 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    639366.673482904     
  ps_ts2 prof sum =   638886.237284386     
  trcom prof sum =    638886.237284386     
  ps_ts2 cur sum  =   9072.07819114390     
  trcom cur sum  =    9072.07819114389     
  
  antenna # iant =            2
  powecha_use(iant) =    704960.259502807     
  ps_ts2 prof sum =   704459.562467866     
  trcom prof sum =    704459.562467866     
  ps_ts2 cur sum  =   11997.9725786837     
  trcom cur sum  =    11997.9725786837     
  
  antenna # iant =            3
  powecha_use(iant) =    482366.578916566     
  ps_ts2 prof sum =   482000.747027135     
  trcom prof sum =    482000.747027134     
  ps_ts2 cur sum  =   5920.65698432856     
  trcom cur sum  =    5920.65698432855     
  
  antenna # iant =            4
  powecha_use(iant) =    594282.422512005     
  ps_ts2 prof sum =   593843.522480743     
  trcom prof sum =    593843.522480743     
  ps_ts2 cur sum  =   9235.01649901795     
  trcom cur sum  =    9235.01649901795     
  
  antenna # iant =            5
  powecha_use(iant) =    557738.399047925     
  ps_ts2 prof sum =   557349.564557147     
  trcom prof sum =    557349.564557147     
  ps_ts2 cur sum  =   10425.8950693080     
  trcom cur sum  =    10425.8950693080     
  
  Total ECH heating:      2976539.63381728     
  Total Current Drive:    46651.6193224821     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    791
 TA= 1.09000E+00 CPU TIME= 1.45751E-01 SECONDS.  DT= 2.42419E-03
  
 TEC1=    1.09000000000000     
 TEC2=    1.09500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.78863361111098     
  %check_save_state: izleft hours =    78.2030555555556     
 --> plasma_hash("gframe"): TA= 1.090000E+00 NSTEP=   791 Hash code:  111861643
 ->PRGCHK: bdy curvature ratio at t= 1.0950E+00 seconds is:  5.4074E-02
% MHDEQ: TG1=     1.090000 ; TG2=     1.095000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7711E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4074E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.090000 TO TG2=    1.095000 @ NSTEP      791
   GFRAME TG2 MOMENTS CHECKSUM:  2.4698182499170D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.0950E+00  1.1000E+00 total power(Watts):  3.0042E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.09500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.344026E+02    0.336321E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.327220E+02    0.337667E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.338311E+02    0.321645E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.360426E+02    0.323155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.360187E+02    0.342869E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.338630E+02    0.352560E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.321007E+02    0.365276E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.310226E+02    0.352684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.308317E+02    0.336026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.315336E+02    0.320018E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.330149E+02    0.308092E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.350822E+02    0.301693E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.369005E+02    0.305594E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.380304E+02    0.318195E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134219E+03   -0.383386E+02    0.334505E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.375157E+02    0.351888E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.358854E+02    0.364696E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.339665E+02    0.368979E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.321599E+02    0.393550E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.295015E+02    0.379081E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.282611E+02    0.352950E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.285379E+02    0.323791E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.304205E+02    0.297124E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.333603E+02    0.280774E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.368709E+02    0.276858E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.396792E+02    0.290394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133574E+03   -0.412415E+02    0.315556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133152E+03   -0.410819E+02    0.345671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.388504E+02    0.374999E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.356698E+02    0.391670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.350210E+02    0.251999E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.330895E+02    0.256393E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.343436E+02    0.238854E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.363722E+02    0.241325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.365566E+02    0.258573E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.343297E+02    0.269754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.325851E+02    0.282793E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.314974E+02    0.270781E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.312851E+02    0.254632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.320471E+02    0.237956E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.335962E+02    0.224903E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.354783E+02    0.219753E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.373850E+02    0.222065E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.385278E+02    0.234085E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.387641E+02    0.250550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.379706E+02    0.267618E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.362746E+02    0.281538E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.344582E+02    0.285481E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.326086E+02    0.310955E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.300134E+02    0.297043E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.287405E+02    0.271756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.290591E+02    0.242358E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.309105E+02    0.215527E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.339100E+02    0.197452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.372261E+02    0.194567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.402284E+02    0.205374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.417239E+02    0.230448E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.414120E+02    0.260992E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134142E+03   -0.393395E+02    0.289388E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.361064E+02    0.307465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.347023E+02    0.389140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.329222E+02    0.390922E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.341428E+02    0.373823E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.361841E+02    0.377545E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.362286E+02    0.397206E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.341397E+02    0.405851E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.324373E+02    0.417937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.311998E+02    0.405765E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.309438E+02    0.389232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.317472E+02    0.372223E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.332479E+02    0.360335E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.352438E+02    0.355237E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.370648E+02    0.359723E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134107E+03   -0.382817E+02    0.372225E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.385705E+02    0.389320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.377205E+02    0.407120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.361580E+02    0.419359E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.342223E+02    0.423235E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.324615E+02    0.447666E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.296443E+02    0.432766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.283516E+02    0.406040E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.286582E+02    0.376164E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.305689E+02    0.349468E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.335332E+02    0.333504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.370638E+02    0.330461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133730E+03   -0.399730E+02    0.344067E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132710E+03   -0.417203E+02    0.369129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132538E+03   -0.414133E+02    0.401455E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133092E+03   -0.392234E+02    0.430904E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.358136E+02    0.448201E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.347077E+02    0.296467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.327723E+02    0.300528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.341245E+02    0.281904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.360682E+02    0.285612E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.362395E+02    0.303470E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.341785E+02    0.312631E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.324221E+02    0.325467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.311688E+02    0.314878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.309672E+02    0.298417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.317401E+02    0.281511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.332156E+02    0.269467E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.352760E+02    0.262744E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.370942E+02    0.266309E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.382313E+02    0.278659E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.384559E+02    0.295614E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.376481E+02    0.312863E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.361231E+02    0.324919E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.340324E+02    0.331043E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.323352E+02    0.354741E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.297480E+02    0.340259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.284118E+02    0.315505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.287477E+02    0.285627E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.306154E+02    0.258967E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.335441E+02    0.242619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.370468E+02    0.238202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.398595E+02    0.251016E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.414355E+02    0.275502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133618E+03   -0.410991E+02    0.306807E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.390007E+02    0.335111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.358412E+02    0.352030E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.346913E+02    0.195428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.329432E+02    0.198248E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.341802E+02    0.179984E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.362024E+02    0.182237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.362184E+02    0.201861E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.341888E+02    0.211659E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.324640E+02    0.224969E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.313661E+02    0.213166E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.312223E+02    0.195673E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.319718E+02    0.178348E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.334292E+02    0.165857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.352996E+02    0.160373E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.371057E+02    0.163357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.384320E+02    0.173349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.385858E+02    0.191301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.378109E+02    0.208760E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.362250E+02    0.222052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.341570E+02    0.229117E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.324228E+02    0.253511E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.299054E+02    0.239449E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.286163E+02    0.214514E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.289157E+02    0.184316E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.308232E+02    0.155787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.338068E+02    0.137292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.371132E+02    0.133873E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.401062E+02    0.144007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.415126E+02    0.170119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.411300E+02    0.202419E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.390975E+02    0.230842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.358998E+02    0.249161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.15 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652015.888797173     
  ps_ts2 prof sum =   651522.063704863     
  trcom prof sum =    651522.063704863     
  ps_ts2 cur sum  =   9327.57144540867     
  trcom cur sum  =    9327.57144540866     
  
  antenna # iant =            2
  powecha_use(iant) =    703801.869943504     
  ps_ts2 prof sum =   703278.705979441     
  trcom prof sum =    703278.705979441     
  ps_ts2 cur sum  =   12067.4860506666     
  trcom cur sum  =    12067.4860506666     
  
  antenna # iant =            3
  powecha_use(iant) =    484555.020962160     
  ps_ts2 prof sum =   484180.188760635     
  trcom prof sum =    484180.188760635     
  ps_ts2 cur sum  =   5996.97323535579     
  trcom cur sum  =    5996.97323535578     
  
  antenna # iant =            4
  powecha_use(iant) =    609832.528474833     
  ps_ts2 prof sum =   609404.347126120     
  trcom prof sum =    609404.347126120     
  ps_ts2 cur sum  =   9553.67718502838     
  trcom cur sum  =    9553.67718502838     
  
  antenna # iant =            5
  powecha_use(iant) =    554042.646663487     
  ps_ts2 prof sum =   553652.628529683     
  trcom prof sum =    553652.628529683     
  ps_ts2 cur sum  =   10426.7772741666     
  trcom cur sum  =    10426.7772741666     
  
  Total ECH heating:      3002037.93410074     
  Total Current Drive:    47372.4851906260     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    793
 TA= 1.09500E+00 CPU TIME= 1.66134E-01 SECONDS.  DT= 3.21976E-03
  
 TEC1=    1.09500000000000     
 TEC2=    1.10000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.80342111111099     
  %check_save_state: izleft hours =    78.1880555555556     
 --> plasma_hash("gframe"): TA= 1.095000E+00 NSTEP=   793 Hash code:   36412464
 ->PRGCHK: bdy curvature ratio at t= 1.1000E+00 seconds is:  5.3726E-02
% MHDEQ: TG1=     1.095000 ; TG2=     1.100000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7713E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3726E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.095000 TO TG2=    1.100000 @ NSTEP      793
   GFRAME TG2 MOMENTS CHECKSUM:  2.4698876863850D+04
 %MFRCHK - LABEL "RMS11", #       3=  4.68725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.18832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.16761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  4.66889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.44036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.92064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -7.48069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.35473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -7.20739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.18193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  1.22840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  2.55098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  6.29642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.49004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.82288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.14610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.75249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.97545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.97545E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1000E+00  1.1050E+00 total power(Watts):  3.0132E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.10000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.345767E+02    0.335006E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.327199E+02    0.337917E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.338277E+02    0.321849E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.360395E+02    0.323366E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.361074E+02    0.342374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.338605E+02    0.352833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.322662E+02    0.364086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.310208E+02    0.352954E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.308287E+02    0.336270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.315309E+02    0.320206E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.330973E+02    0.307405E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.350797E+02    0.301841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.368965E+02    0.305754E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.381222E+02    0.317585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.383353E+02    0.334759E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.375129E+02    0.352159E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.359749E+02    0.364233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.338772E+02    0.369941E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.321594E+02    0.393775E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.295000E+02    0.379321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.282592E+02    0.353218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.285366E+02    0.323989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.304177E+02    0.297282E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.333569E+02    0.280965E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.368678E+02    0.277049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.397728E+02    0.289690E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.412375E+02    0.315748E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133448E+03   -0.409777E+02    0.346674E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.388487E+02    0.375236E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.356685E+02    0.391898E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.349298E+02    0.253163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.330863E+02    0.256627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.343395E+02    0.239034E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.365490E+02    0.239613E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.365528E+02    0.258809E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.343243E+02    0.270001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.325860E+02    0.282947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.314941E+02    0.271015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.313623E+02    0.253905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.320436E+02    0.238122E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.335918E+02    0.225020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.354753E+02    0.219853E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.373801E+02    0.222176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.386169E+02    0.233304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.387602E+02    0.250775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.379674E+02    0.267831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.364540E+02    0.279951E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.343684E+02    0.286534E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.326059E+02    0.311122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.300110E+02    0.297205E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.287380E+02    0.271984E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.290563E+02    0.242541E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.309077E+02    0.215636E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.339063E+02    0.197599E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.374058E+02    0.192643E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.402244E+02    0.205464E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.417177E+02    0.230612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133795E+03   -0.414079E+02    0.261217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.393357E+02    0.289530E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.361027E+02    0.307626E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.347906E+02    0.388708E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.329212E+02    0.391149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.341409E+02    0.374069E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.362749E+02    0.377103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.362270E+02    0.397438E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.342268E+02    0.405464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.324353E+02    0.418174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.311993E+02    0.405997E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.310243E+02    0.388794E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.317453E+02    0.372474E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.332481E+02    0.360576E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.353311E+02    0.354773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.370620E+02    0.359980E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.382746E+02    0.372507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133904E+03   -0.385687E+02    0.389550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.377191E+02    0.407344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.361571E+02    0.419586E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.342215E+02    0.423463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.324615E+02    0.447893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.296441E+02    0.432991E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.283534E+02    0.406250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.287334E+02    0.375699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.305670E+02    0.349729E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.335308E+02    0.333742E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.370606E+02    0.330694E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.399693E+02    0.344340E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132790E+03   -0.417179E+02    0.369370E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132620E+03   -0.414116E+02    0.401679E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133174E+03   -0.392228E+02    0.431126E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.358121E+02    0.448441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.347035E+02    0.296611E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.327684E+02    0.300680E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.340355E+02    0.282977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.362469E+02    0.284026E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.362356E+02    0.303622E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.341763E+02    0.312796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.323359E+02    0.326485E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.312444E+02    0.314244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.310451E+02    0.297693E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.317369E+02    0.281710E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.332105E+02    0.269720E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.352725E+02    0.262979E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.370910E+02    0.266534E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.382279E+02    0.278841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.384519E+02    0.295753E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.377388E+02    0.312224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.361199E+02    0.325134E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.340297E+02    0.331277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.323331E+02    0.355010E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.297459E+02    0.340508E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.284101E+02    0.315675E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.287448E+02    0.285822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.306126E+02    0.259203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.335403E+02    0.242812E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.370428E+02    0.238388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.399523E+02    0.250327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.414308E+02    0.275688E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133699E+03   -0.410949E+02    0.306970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.389967E+02    0.335373E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.358382E+02    0.352303E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.347732E+02    0.194553E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.329397E+02    0.198398E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.341764E+02    0.180200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.363742E+02    0.180355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.362133E+02    0.201986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.341841E+02    0.211767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.324622E+02    0.225077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.313632E+02    0.213277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.312187E+02    0.195845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.319683E+02    0.178575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.334235E+02    0.166101E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.352953E+02    0.160614E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.371009E+02    0.163596E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.384276E+02    0.173561E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.385822E+02    0.191439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.378059E+02    0.208858E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.362201E+02    0.222160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.341529E+02    0.229248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.325020E+02    0.252786E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.299026E+02    0.239619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.286143E+02    0.214626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.289865E+02    0.183465E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.308202E+02    0.156021E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.338012E+02    0.137470E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.371077E+02    0.134044E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.401007E+02    0.144222E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.416053E+02    0.169299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.412233E+02    0.201523E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.390926E+02    0.230999E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.358955E+02    0.249382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660520.892305685     
  ps_ts2 prof sum =   660041.444837777     
  trcom prof sum =    660041.444837776     
  ps_ts2 cur sum  =   9532.02548387535     
  trcom cur sum  =    9532.02548387535     
  
  antenna # iant =            2
  powecha_use(iant) =    701895.996468899     
  ps_ts2 prof sum =   701385.647366833     
  trcom prof sum =    701385.647366833     
  ps_ts2 cur sum  =   12129.1305246562     
  trcom cur sum  =    12129.1305246562     
  
  antenna # iant =            3
  powecha_use(iant) =    486015.477036261     
  ps_ts2 prof sum =   485654.111997104     
  trcom prof sum =    485654.111997103     
  ps_ts2 cur sum  =   6067.65645301486     
  trcom cur sum  =    6067.65645301486     
  
  antenna # iant =            4
  powecha_use(iant) =    603936.672098232     
  ps_ts2 prof sum =   603515.705679793     
  trcom prof sum =    603515.705679793     
  ps_ts2 cur sum  =   9542.06050624100     
  trcom cur sum  =    9542.06050624100     
  
  antenna # iant =            5
  powecha_use(iant) =    560815.111268623     
  ps_ts2 prof sum =   560431.364959864     
  trcom prof sum =    560431.364959864     
  ps_ts2 cur sum  =   10630.0894496545     
  trcom cur sum  =    10630.0894496545     
  
  Total ECH heating:      3011028.27484137     
  Total Current Drive:    47900.9624174419     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    795
 TA= 1.10000E+00 CPU TIME= 1.67324E-01 SECONDS.  DT= 2.22530E-03
  
 TEC1=    1.10000000000000     
 TEC2=    1.10500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.81870444444439     
  %check_save_state: izleft hours =    78.1727777777778     
 --> plasma_hash("gframe"): TA= 1.100000E+00 NSTEP=   795 Hash code:   38341493
 ->PRGCHK: bdy curvature ratio at t= 1.1050E+00 seconds is:  5.3187E-02
% MHDEQ: TG1=     1.100000 ; TG2=     1.105000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3187E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.100000 TO TG2=    1.105000 @ NSTEP      795
   GFRAME TG2 MOMENTS CHECKSUM:  2.4699571228530D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1050E+00  1.1100E+00 total power(Watts):  3.0017E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.10500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.345745E+02    0.335245E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.326331E+02    0.338945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.338252E+02    0.322040E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.360367E+02    0.323570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.361016E+02    0.342667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.338579E+02    0.353100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.322645E+02    0.364345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.310190E+02    0.353221E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.308270E+02    0.336505E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.316126E+02    0.319545E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.330943E+02    0.307561E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.349870E+02    0.302841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.368936E+02    0.305909E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.381163E+02    0.317793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.383319E+02    0.335009E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.375095E+02    0.352432E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.359716E+02    0.364498E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.338743E+02    0.370188E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.321574E+02    0.394005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.295774E+02    0.378860E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.282587E+02    0.353481E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.285348E+02    0.324180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.304158E+02    0.297450E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.333540E+02    0.281181E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.368640E+02    0.277260E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.397695E+02    0.289845E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133736E+03   -0.412337E+02    0.315935E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133526E+03   -0.409736E+02    0.346958E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.388430E+02    0.375494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.356669E+02    0.392121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.349260E+02    0.253385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.330827E+02    0.256859E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.343355E+02    0.239186E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.365451E+02    0.239784E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.365495E+02    0.259049E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.344973E+02    0.268397E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.326676E+02    0.282267E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.315722E+02    0.270336E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.313589E+02    0.254126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.321213E+02    0.237287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.335891E+02    0.225112E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.354710E+02    0.219942E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.373760E+02    0.222264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.386132E+02    0.233444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.388510E+02    0.250075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.380576E+02    0.267168E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.364505E+02    0.280154E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.343652E+02    0.286728E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.326876E+02    0.310438E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.300086E+02    0.297380E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.287355E+02    0.272228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.290532E+02    0.242698E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.309051E+02    0.215742E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.339016E+02    0.197751E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.374013E+02    0.192792E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.402197E+02    0.205558E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.417129E+02    0.230747E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.414028E+02    0.261458E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134301E+03   -0.393321E+02    0.289695E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.360087E+02    0.308622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.347883E+02    0.388943E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.329202E+02    0.391374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.341393E+02    0.374303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.362717E+02    0.377345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.363178E+02    0.397027E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.342256E+02    0.405686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.324345E+02    0.418398E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.311980E+02    0.406222E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.310224E+02    0.389028E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.317438E+02    0.372714E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.332436E+02    0.360864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.353287E+02    0.355042E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.370590E+02    0.360253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.382770E+02    0.372708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.385667E+02    0.389772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.377172E+02    0.407571E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.361558E+02    0.419816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.342205E+02    0.423693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.324609E+02    0.448136E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.297220E+02    0.432672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.284263E+02    0.405857E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.287316E+02    0.375944E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.305657E+02    0.349996E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.335283E+02    0.333976E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.370548E+02    0.330961E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.399658E+02    0.344612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132872E+03   -0.417152E+02    0.369609E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132703E+03   -0.414097E+02    0.401903E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133256E+03   -0.392214E+02    0.431367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.358127E+02    0.448676E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.346133E+02    0.297634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.327666E+02    0.300838E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.340319E+02    0.283185E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.362432E+02    0.284220E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.362330E+02    0.303771E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.341728E+02    0.312965E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.323324E+02    0.326696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.312465E+02    0.314380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.310435E+02    0.297863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.317340E+02    0.281927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.332922E+02    0.269042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.352689E+02    0.263224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.370872E+02    0.266770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.382236E+02    0.279046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.385437E+02    0.295059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.377357E+02    0.312391E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.361172E+02    0.325346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.342025E+02    0.329910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.323309E+02    0.355277E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.297451E+02    0.340746E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.284091E+02    0.315845E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.287432E+02    0.286028E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.306095E+02    0.259439E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.335364E+02    0.242982E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.370409E+02    0.238532E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.399476E+02    0.250560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.414265E+02    0.275889E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133781E+03   -0.410910E+02    0.307129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134252E+03   -0.389932E+02    0.335628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.358356E+02    0.352575E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.347683E+02    0.194715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.329366E+02    0.198553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.341728E+02    0.180431E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.363692E+02    0.180571E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.363877E+02    0.200080E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.341820E+02    0.211868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.324570E+02    0.225180E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.314397E+02    0.212369E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.312160E+02    0.196009E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.319653E+02    0.178815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.335014E+02    0.165278E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.353760E+02    0.159787E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.370953E+02    0.163852E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.384229E+02    0.173790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.386705E+02    0.190572E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.378033E+02    0.208946E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.362165E+02    0.222249E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.341496E+02    0.229357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.324986E+02    0.253005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.298992E+02    0.239766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.286113E+02    0.214739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.289836E+02    0.183695E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.308166E+02    0.156256E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.337932E+02    0.137692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.372790E+02    0.132014E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.400949E+02    0.144444E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.416003E+02    0.169529E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.412181E+02    0.201619E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.390884E+02    0.231128E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.358025E+02    0.250535E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.65 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662754.930352196     
  ps_ts2 prof sum =   662262.737618496     
  trcom prof sum =    662262.737618496     
  ps_ts2 cur sum  =   9648.03969370829     
  trcom cur sum  =    9648.03969370828     
  
  antenna # iant =            2
  powecha_use(iant) =    692563.922619682     
  ps_ts2 prof sum =   692081.132187703     
  trcom prof sum =    692081.132187703     
  ps_ts2 cur sum  =   12062.4773063535     
  trcom cur sum  =    12062.4773063535     
  
  antenna # iant =            3
  powecha_use(iant) =    487018.445514329     
  ps_ts2 prof sum =   486663.909602978     
  trcom prof sum =    486663.909602978     
  ps_ts2 cur sum  =   6135.87251079971     
  trcom cur sum  =    6135.87251079970     
  
  antenna # iant =            4
  powecha_use(iant) =    601355.437713841     
  ps_ts2 prof sum =   600939.538487001     
  trcom prof sum =    600939.538487001     
  ps_ts2 cur sum  =   9579.68023354007     
  trcom cur sum  =    9579.68023354007     
  
  antenna # iant =            5
  powecha_use(iant) =    557981.403497913     
  ps_ts2 prof sum =   557615.641704559     
  trcom prof sum =    557615.641704559     
  ps_ts2 cur sum  =   10656.1628176238     
  trcom cur sum  =    10656.1628176238     
  
  Total ECH heating:      2999562.95960074     
  Total Current Drive:    48082.2325620253     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    797
 TA= 1.10500E+00 CPU TIME= 1.60092E-01 SECONDS.  DT= 3.46838E-03
  
 TEC1=    1.10500000000000     
 TEC2=    1.11000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.83351111111074     
  %check_save_state: izleft hours =    78.1580555555555     
 --> plasma_hash("gframe"): TA= 1.105000E+00 NSTEP=   797 Hash code:   72451952
 ->PRGCHK: bdy curvature ratio at t= 1.1100E+00 seconds is:  5.3910E-02
% MHDEQ: TG1=     1.105000 ; TG2=     1.110000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3910E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.105000 TO TG2=    1.110000 @ NSTEP      797
   GFRAME TG2 MOMENTS CHECKSUM:  2.4687657566283D+04
 %MFRCHK - LABEL "RMS11", #       1=  4.88334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.27790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -3.22973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  4.54022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.54684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.86063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -7.51724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.44325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -5.58686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.94833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7=  1.26139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8= -4.78574E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  6.24210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.54153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.97105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.45130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.77807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.24462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.24462E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1100E+00  1.1150E+00 total power(Watts):  3.0168E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.11000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.344446E+02    0.336773E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.326781E+02    0.338904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.338710E+02    0.321973E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.360856E+02    0.323521E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.361542E+02    0.342618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.339096E+02    0.353047E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.321411E+02    0.365806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.310625E+02    0.353189E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.308699E+02    0.336455E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.315709E+02    0.320313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.331384E+02    0.307456E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.351228E+02    0.301872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.369427E+02    0.305812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.381702E+02    0.317716E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.383838E+02    0.334983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.375606E+02    0.352429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.360208E+02    0.364534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.339218E+02    0.370230E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.322023E+02    0.394147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.295405E+02    0.379611E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.282976E+02    0.353442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.285730E+02    0.324101E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.304572E+02    0.297279E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.333980E+02    0.280920E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.369115E+02    0.276998E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.398208E+02    0.289681E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133671E+03   -0.412881E+02    0.315885E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133457E+03   -0.410291E+02    0.346959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133967E+03   -0.388988E+02    0.375580E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.357157E+02    0.392293E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.349703E+02    0.253023E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.331253E+02    0.256498E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.343784E+02    0.238804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.365906E+02    0.239395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.365962E+02    0.258690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.343656E+02    0.269923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.327106E+02    0.282012E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.316137E+02    0.270013E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.313999E+02    0.253767E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.321620E+02    0.236911E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.336294E+02    0.224718E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.355136E+02    0.219528E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.374207E+02    0.221859E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.386611E+02    0.233044E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.388994E+02    0.249696E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.381061E+02    0.266848E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.364977E+02    0.279910E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.344094E+02    0.286508E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.326466E+02    0.311188E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.300498E+02    0.297204E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.287741E+02    0.271912E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.290917E+02    0.242320E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.309410E+02    0.215311E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.339407E+02    0.197229E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.374443E+02    0.192242E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.402656E+02    0.205078E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.417630E+02    0.230337E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.414554E+02    0.261117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.393837E+02    0.289520E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.361481E+02    0.307690E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.348365E+02    0.389087E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.329659E+02    0.391516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.341856E+02    0.374381E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.363217E+02    0.377434E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.362749E+02    0.397859E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.342726E+02    0.405909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.324796E+02    0.418638E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.312419E+02    0.406409E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.310661E+02    0.389132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.317870E+02    0.372762E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.332913E+02    0.360852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.351961E+02    0.356512E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.371098E+02    0.360271E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.383287E+02    0.372798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.386190E+02    0.389962E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.377686E+02    0.407827E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.362053E+02    0.420083E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.342673E+02    0.423952E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.325060E+02    0.448355E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.296846E+02    0.433439E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.283915E+02    0.406650E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.287734E+02    0.375971E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.306077E+02    0.349959E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.335745E+02    0.333932E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.371080E+02    0.330895E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.400199E+02    0.344608E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132798E+03   -0.417712E+02    0.369720E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132623E+03   -0.414652E+02    0.402184E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133173E+03   -0.392745E+02    0.431652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.358568E+02    0.448938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.346589E+02    0.297485E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.328099E+02    0.300698E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.340758E+02    0.282941E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.362903E+02    0.283999E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.362811E+02    0.303667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.342187E+02    0.312884E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.323769E+02    0.326640E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.312851E+02    0.314322E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.310846E+02    0.297694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.317766E+02    0.281665E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.332506E+02    0.269644E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.353149E+02    0.262880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.371342E+02    0.266448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.382733E+02    0.278798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.384987E+02    0.295766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.377860E+02    0.312320E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.361661E+02    0.325298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.340734E+02    0.331459E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.323764E+02    0.355258E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.297852E+02    0.340710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.284475E+02    0.315747E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.287820E+02    0.285784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.306501E+02    0.259088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.335786E+02    0.242604E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.370847E+02    0.238162E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.399971E+02    0.250181E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.414796E+02    0.275634E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.411456E+02    0.307052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.390458E+02    0.335601E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.358843E+02    0.352567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.348080E+02    0.194176E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.329731E+02    0.198035E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.342103E+02    0.179818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.364096E+02    0.179957E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.364301E+02    0.199571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.342217E+02    0.211420E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.324963E+02    0.224786E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.313978E+02    0.212946E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.312532E+02    0.195463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.319969E+02    0.178243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.335373E+02    0.164631E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.354135E+02    0.159127E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.371347E+02    0.163185E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.384646E+02    0.173144E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.387148E+02    0.190008E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.378424E+02    0.208530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.362597E+02    0.221846E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.341913E+02    0.228966E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.325404E+02    0.252641E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.299374E+02    0.239395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.286465E+02    0.214306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.290159E+02    0.183108E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.308477E+02    0.155621E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.338292E+02    0.137023E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.373154E+02    0.131358E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.401351E+02    0.143750E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.416451E+02    0.168855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.412663E+02    0.201118E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.391367E+02    0.230722E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.358480E+02    0.250163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674376.941094229     
  ps_ts2 prof sum =   673871.822021746     
  trcom prof sum =    673871.822021745     
  ps_ts2 cur sum  =   9835.50756343857     
  trcom cur sum  =    9835.50756343857     
  
  antenna # iant =            2
  powecha_use(iant) =    687462.346866006     
  ps_ts2 prof sum =   686985.079246039     
  trcom prof sum =    686985.079246039     
  ps_ts2 cur sum  =   11991.3185765414     
  trcom cur sum  =    11991.3185765414     
  
  antenna # iant =            3
  powecha_use(iant) =    489323.255088260     
  ps_ts2 prof sum =   488966.108619664     
  trcom prof sum =    488966.108619664     
  ps_ts2 cur sum  =   6178.13353115233     
  trcom cur sum  =    6178.13353115232     
  
  antenna # iant =            4
  powecha_use(iant) =    607452.435940083     
  ps_ts2 prof sum =   607028.725959420     
  trcom prof sum =    607028.725959420     
  ps_ts2 cur sum  =   9693.73065318482     
  trcom cur sum  =    9693.73065318482     
  
  antenna # iant =            5
  powecha_use(iant) =    558190.616874533     
  ps_ts2 prof sum =   557825.029990697     
  trcom prof sum =    557825.029990696     
  ps_ts2 cur sum  =   10670.8562044197     
  trcom cur sum  =    10670.8562044197     
  
  Total ECH heating:      3014676.76583756     
  Total Current Drive:    48369.5465287368     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    799
 TA= 1.11000E+00 CPU TIME= 1.59103E-01 SECONDS.  DT= 1.91452E-03
  
 TEC1=    1.11000000000000     
 TEC2=    1.11500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.84467916666654     
  %check_save_state: izleft hours =    78.1469444444444     
 --> plasma_hash("gframe"): TA= 1.110000E+00 NSTEP=   799 Hash code:   29341143
 ->PRGCHK: bdy curvature ratio at t= 1.1150E+00 seconds is:  5.4161E-02
% MHDEQ: TG1=     1.110000 ; TG2=     1.115000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7692E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4161E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.110000 TO TG2=    1.115000 @ NSTEP      799
   GFRAME TG2 MOMENTS CHECKSUM:  2.4675743904035D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.1150E+00  1.1200E+00 total power(Watts):  3.0284E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.11500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.344939E+02    0.336703E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.326369E+02    0.339644E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.339157E+02    0.321927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.361326E+02    0.323477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.362018E+02    0.342596E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.339500E+02    0.353073E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.321843E+02    0.365824E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.311044E+02    0.353165E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.309110E+02    0.336407E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.316131E+02    0.320255E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.331817E+02    0.307373E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.351683E+02    0.301783E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.369903E+02    0.305746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.382197E+02    0.317674E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.384341E+02    0.334958E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.376106E+02    0.352436E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.360698E+02    0.364571E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.339665E+02    0.370277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.322457E+02    0.394277E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.295806E+02    0.379669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.283368E+02    0.353410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.286131E+02    0.324038E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.304962E+02    0.297150E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.334402E+02    0.280692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.369576E+02    0.276765E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.398720E+02    0.289552E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.413412E+02    0.315854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133391E+03   -0.410830E+02    0.346963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.389496E+02    0.375697E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.357629E+02    0.392448E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.350136E+02    0.252665E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.331663E+02    0.256149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.344199E+02    0.238448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.366351E+02    0.239025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.366412E+02    0.258348E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.344107E+02    0.269607E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.327493E+02    0.281819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.316542E+02    0.269713E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.314385E+02    0.253416E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.322007E+02    0.236557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.336687E+02    0.224364E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.355545E+02    0.219160E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.374647E+02    0.221489E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.387072E+02    0.232666E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.389473E+02    0.249326E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.381531E+02    0.266556E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.365438E+02    0.279701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.344543E+02    0.286325E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.326893E+02    0.311110E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.300886E+02    0.297070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.288104E+02    0.271613E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.291261E+02    0.241986E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.309768E+02    0.214928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.339786E+02    0.196738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.374868E+02    0.191707E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.404081E+02    0.203653E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.418177E+02    0.229907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.415061E+02    0.260792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.394333E+02    0.289394E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.361948E+02    0.307626E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.347932E+02    0.389880E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.328387E+02    0.392956E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.342324E+02    0.374444E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.363703E+02    0.377539E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.363227E+02    0.398036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.341414E+02    0.407317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.325196E+02    0.418860E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.312838E+02    0.406570E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.310270E+02    0.389909E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.318305E+02    0.372803E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.333341E+02    0.360871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.352434E+02    0.356516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.371591E+02    0.360299E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.383794E+02    0.372893E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.386695E+02    0.390131E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134050E+03   -0.378177E+02    0.408050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.362530E+02    0.420316E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.343127E+02    0.424176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.325495E+02    0.448580E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.297252E+02    0.433635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.284298E+02    0.406799E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.288121E+02    0.376016E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.306494E+02    0.349926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.336192E+02    0.333886E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.371563E+02    0.330863E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.400726E+02    0.344603E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132727E+03   -0.418255E+02    0.369838E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132547E+03   -0.415191E+02    0.402424E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133094E+03   -0.393255E+02    0.431932E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.359094E+02    0.449164E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.347031E+02    0.297373E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.328525E+02    0.300591E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.341199E+02    0.282730E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.363362E+02    0.283818E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.363277E+02    0.303592E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.342636E+02    0.312823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.324198E+02    0.326589E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.313296E+02    0.314217E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.311260E+02    0.297573E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.318171E+02    0.281435E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.332965E+02    0.269294E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.353588E+02    0.262556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.371810E+02    0.266145E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.383209E+02    0.278580E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.385475E+02    0.295668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.378350E+02    0.312270E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.362132E+02    0.325256E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.341183E+02    0.331409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.324195E+02    0.355247E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.298248E+02    0.340661E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.284862E+02    0.315672E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.288198E+02    0.285568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.306880E+02    0.258747E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.336195E+02    0.242249E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.371296E+02    0.237790E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.400462E+02    0.249809E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.415312E+02    0.275408E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.411975E+02    0.307006E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.390968E+02    0.335581E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.359324E+02    0.352567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.348466E+02    0.193662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.330101E+02    0.197548E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.343300E+02    0.178147E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.363600E+02    0.180398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.364704E+02    0.199109E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.342604E+02    0.211019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.325347E+02    0.224433E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.315125E+02    0.211526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.312859E+02    0.194974E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.320335E+02    0.177588E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.335711E+02    0.163960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.354486E+02    0.158437E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.373518E+02    0.160351E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.385048E+02    0.172494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.387565E+02    0.189481E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.378897E+02    0.208075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.363007E+02    0.221492E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.342313E+02    0.228611E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.325806E+02    0.252290E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.299738E+02    0.239049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.286786E+02    0.213917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.290471E+02    0.182523E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.308793E+02    0.154958E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.338611E+02    0.136375E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.373507E+02    0.130689E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.401745E+02    0.143029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.416886E+02    0.168176E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.413117E+02    0.200671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.391826E+02    0.230349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.358919E+02    0.249801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673677.314905632     
  ps_ts2 prof sum =   673176.486853773     
  trcom prof sum =    673176.486853772     
  ps_ts2 cur sum  =   9832.60214463195     
  trcom cur sum  =    9832.60214463194     
  
  antenna # iant =            2
  powecha_use(iant) =    691680.888185797     
  ps_ts2 prof sum =   691201.600207392     
  trcom prof sum =    691201.600207392     
  ps_ts2 cur sum  =   12069.0554313866     
  trcom cur sum  =    12069.0554313866     
  
  antenna # iant =            3
  powecha_use(iant) =    488906.851136214     
  ps_ts2 prof sum =   488538.359218753     
  trcom prof sum =    488538.359218753     
  ps_ts2 cur sum  =   6183.18037530126     
  trcom cur sum  =    6183.18037530126     
  
  antenna # iant =            4
  powecha_use(iant) =    618992.386324366     
  ps_ts2 prof sum =   618564.594855702     
  trcom prof sum =    618564.594855701     
  ps_ts2 cur sum  =   9882.03185283040     
  trcom cur sum  =    9882.03185283040     
  
  antenna # iant =            5
  powecha_use(iant) =    555144.778186371     
  ps_ts2 prof sum =   554784.424467850     
  trcom prof sum =    554784.424467850     
  ps_ts2 cur sum  =   10616.3257087285     
  trcom cur sum  =    10616.3257087285     
  
  Total ECH heating:      3026265.46560347     
  Total Current Drive:    48583.1955128787     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    802
 TA= 1.11500E+00 CPU TIME= 1.59444E-01 SECONDS.  DT= 8.65403E-04
  
 TEC1=    1.11500000000000     
 TEC2=    1.12000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.86231861111082     
  %check_save_state: izleft hours =    78.1288888888889     
 --> plasma_hash("gframe"): TA= 1.115000E+00 NSTEP=   802 Hash code:   58339210
 ->PRGCHK: bdy curvature ratio at t= 1.1200E+00 seconds is:  5.4495E-02
% MHDEQ: TG1=     1.115000 ; TG2=     1.120000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7681E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4495E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.115000 TO TG2=    1.120000 @ NSTEP      802
   GFRAME TG2 MOMENTS CHECKSUM:  2.4663830217740D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.40222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.78707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  6.85215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.03671E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.45946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -5.65721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.95276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -2.27078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.13544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -5.01730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  3.78227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.86684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.11603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.67582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  3.30662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.01588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.67034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.67034E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1200E+00  1.1250E+00 total power(Watts):  3.0416E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.12000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.345370E+02    0.336725E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.326816E+02    0.339627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.339623E+02    0.321892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.361822E+02    0.323457E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.361597E+02    0.343362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.339970E+02    0.353092E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.322297E+02    0.365875E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.311477E+02    0.353169E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.309541E+02    0.336379E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.316565E+02    0.320217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.331411E+02    0.308168E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.352155E+02    0.301722E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.370402E+02    0.305700E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.381754E+02    0.318461E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.384866E+02    0.334960E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.376619E+02    0.352482E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.360269E+02    0.365367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.341018E+02    0.369659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.322905E+02    0.394442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.296191E+02    0.379788E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.283766E+02    0.353403E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.286524E+02    0.323993E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.305400E+02    0.297036E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.334853E+02    0.280499E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.370060E+02    0.276568E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.398261E+02    0.290320E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.413947E+02    0.315852E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133106E+03   -0.412399E+02    0.346283E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.390031E+02    0.375844E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.358118E+02    0.392641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.350584E+02    0.252276E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.332088E+02    0.255776E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.344631E+02    0.238007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.366814E+02    0.238580E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.366892E+02    0.258005E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.344564E+02    0.269330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.327123E+02    0.282504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.316139E+02    0.270358E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.314791E+02    0.253023E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.321596E+02    0.237098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.337106E+02    0.223905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.355944E+02    0.218732E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.375111E+02    0.221016E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.387553E+02    0.232206E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.389965E+02    0.248929E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.381078E+02    0.267188E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.364080E+02    0.281301E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.344981E+02    0.286184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.327339E+02    0.311061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.301306E+02    0.296965E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.288487E+02    0.271331E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.291636E+02    0.241556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.310146E+02    0.214471E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.340188E+02    0.196228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.375294E+02    0.191193E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.403598E+02    0.204143E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.418645E+02    0.229473E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133727E+03   -0.415592E+02    0.260484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.394854E+02    0.289301E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.362421E+02    0.307596E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.348410E+02    0.390058E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.328842E+02    0.393120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.342791E+02    0.374557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.363273E+02    0.378355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.363722E+02    0.398250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.342767E+02    0.406931E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.323976E+02    0.420236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.313275E+02    0.406767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.310703E+02    0.390051E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.318749E+02    0.372890E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.333803E+02    0.360914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.353824E+02    0.355821E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.372098E+02    0.360380E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.384321E+02    0.373023E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.386245E+02    0.390978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133971E+03   -0.378692E+02    0.408308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.362094E+02    0.421152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.342715E+02    0.424988E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.325940E+02    0.448823E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.297674E+02    0.433852E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.284698E+02    0.406976E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.287761E+02    0.376799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.306923E+02    0.349920E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.336652E+02    0.333870E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.372067E+02    0.330855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.401265E+02    0.344636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133090E+03   -0.416761E+02    0.371345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132689E+03   -0.414722E+02    0.403305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133461E+03   -0.391820E+02    0.433278E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.359572E+02    0.449438E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.348384E+02    0.296431E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.328970E+02    0.300516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.341647E+02    0.282559E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.362004E+02    0.285438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.363802E+02    0.303510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.341346E+02    0.314451E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.324645E+02    0.326557E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.312911E+02    0.315012E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.311688E+02    0.297474E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.318561E+02    0.281266E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.333355E+02    0.269055E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.354052E+02    0.262233E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.372288E+02    0.265864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.383678E+02    0.278434E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.385988E+02    0.295597E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.377913E+02    0.313059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.362630E+02    0.325238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.341664E+02    0.331388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.324645E+02    0.355263E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.298667E+02    0.340635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.285266E+02    0.315615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.288588E+02    0.285390E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.307277E+02    0.258382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.336622E+02    0.241814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.371764E+02    0.237342E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.400971E+02    0.249416E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133648E+03   -0.415852E+02    0.275227E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133594E+03   -0.412527E+02    0.306979E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134051E+03   -0.391498E+02    0.335588E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.359817E+02    0.352601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.348876E+02    0.193142E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.330492E+02    0.197042E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.342846E+02    0.178647E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.364905E+02    0.178779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.365111E+02    0.198623E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.343020E+02    0.210544E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.325753E+02    0.223979E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.314711E+02    0.212086E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.313229E+02    0.194465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.320700E+02    0.177026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.336081E+02    0.163371E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.354870E+02    0.157836E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.373928E+02    0.159739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.385484E+02    0.171897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.388023E+02    0.188937E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.379350E+02    0.207588E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.363472E+02    0.221009E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.342741E+02    0.228154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.326223E+02    0.251893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.300122E+02    0.238613E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.287127E+02    0.213475E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.290800E+02    0.181979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.309126E+02    0.154377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.338965E+02    0.135793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.373879E+02    0.130084E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.402170E+02    0.142394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.417352E+02    0.167558E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.413616E+02    0.200150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.392317E+02    0.229877E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.359377E+02    0.249399E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680251.935460062     
  ps_ts2 prof sum =   679762.211126353     
  trcom prof sum =    679762.211126352     
  ps_ts2 cur sum  =   9957.00214466720     
  trcom cur sum  =    9957.00214466720     
  
  antenna # iant =            2
  powecha_use(iant) =    691559.965396989     
  ps_ts2 prof sum =   691065.626530059     
  trcom prof sum =    691065.626530059     
  ps_ts2 cur sum  =   12090.1593978181     
  trcom cur sum  =    12090.1593978181     
  
  antenna # iant =            3
  powecha_use(iant) =    491966.603897527     
  ps_ts2 prof sum =   491588.592064533     
  trcom prof sum =    491588.592064533     
  ps_ts2 cur sum  =   6242.57483829273     
  trcom cur sum  =    6242.57483829273     
  
  antenna # iant =            4
  powecha_use(iant) =    624009.819942478     
  ps_ts2 prof sum =   623576.547646766     
  trcom prof sum =    623576.547646765     
  ps_ts2 cur sum  =   9984.43882631060     
  trcom cur sum  =    9984.43882631060     
  
  antenna # iant =            5
  powecha_use(iant) =    553791.784493944     
  ps_ts2 prof sum =   553442.397213593     
  trcom prof sum =    553442.397213593     
  ps_ts2 cur sum  =   10608.3477230681     
  trcom cur sum  =    10608.3477230681     
  
  Total ECH heating:      3039435.37458130     
  Total Current Drive:    48882.5229301567     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    807
 TA= 1.12000E+00 CPU TIME= 1.48853E-01 SECONDS.  DT= 1.30150E-05
  
 TEC1=    1.12000000000000     
 TEC2=    1.12500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.87553027777744     
  %check_save_state: izleft hours =    78.1161111111111     
 --> plasma_hash("gframe"): TA= 1.120000E+00 NSTEP=   807 Hash code:   81444554
 ->PRGCHK: bdy curvature ratio at t= 1.1250E+00 seconds is:  5.4730E-02
% MHDEQ: TG1=     1.120000 ; TG2=     1.125000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4730E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.120000 TO TG2=    1.125000 @ NSTEP      807
   GFRAME TG2 MOMENTS CHECKSUM:  2.4651916531445D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.1250E+00  1.1300E+00 total power(Watts):  3.0305E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.12500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.345846E+02    0.336715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.327269E+02    0.339616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.340109E+02    0.321842E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.362309E+02    0.323439E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.362089E+02    0.343374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.341319E+02    0.352375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.322740E+02    0.365952E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.311918E+02    0.353178E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.309972E+02    0.336356E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.316999E+02    0.320179E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.331860E+02    0.308124E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.352631E+02    0.301674E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.370898E+02    0.305668E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.382265E+02    0.318444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.384420E+02    0.335734E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.377133E+02    0.352537E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.360791E+02    0.365453E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.341486E+02    0.369775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.324197E+02    0.394005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.296641E+02    0.379887E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.283409E+02    0.354169E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.286919E+02    0.323949E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.305791E+02    0.296970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.335279E+02    0.280327E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.370544E+02    0.276392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.398785E+02    0.290256E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133480E+03   -0.414520E+02    0.315834E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133470E+03   -0.410917E+02    0.347809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.389572E+02    0.376714E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.357695E+02    0.393521E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.351042E+02    0.251867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.332533E+02    0.255382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.345076E+02    0.237526E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.367283E+02    0.238103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.367347E+02    0.257655E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.345001E+02    0.269057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.327544E+02    0.282340E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.316529E+02    0.270105E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.315206E+02    0.252613E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.322005E+02    0.236619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.337527E+02    0.223411E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.356425E+02    0.218197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.375575E+02    0.220503E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.388041E+02    0.231703E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134327E+03   -0.390461E+02    0.248519E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.381577E+02    0.266925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.364561E+02    0.281153E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.346333E+02    0.285168E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.327786E+02    0.311023E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.301701E+02    0.296884E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.288876E+02    0.271046E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.292010E+02    0.241091E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.310534E+02    0.213993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.340596E+02    0.195729E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.375739E+02    0.190673E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.404080E+02    0.203627E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.419163E+02    0.228959E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133679E+03   -0.416124E+02    0.260184E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.395375E+02    0.289231E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.362926E+02    0.307548E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.60 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.348890E+02    0.390276E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.329296E+02    0.393330E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.341498E+02    0.376077E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.363769E+02    0.378534E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.364218E+02    0.398516E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.343239E+02    0.407202E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.324431E+02    0.420505E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.312889E+02    0.407626E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.311135E+02    0.390233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.318358E+02    0.373700E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.335133E+02    0.360247E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.354309E+02    0.355877E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.372605E+02    0.360467E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.384838E+02    0.373194E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.386764E+02    0.391247E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133890E+03   -0.379205E+02    0.408615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.362552E+02    0.421479E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.343182E+02    0.425277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.324741E+02    0.450015E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.298089E+02    0.434095E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.285102E+02    0.407191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.288156E+02    0.376916E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.306539E+02    0.350690E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.337984E+02    0.333059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.372573E+02    0.330847E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.401804E+02    0.344682E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133016E+03   -0.417319E+02    0.371541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132609E+03   -0.415276E+02    0.403642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133378E+03   -0.392349E+02    0.433592E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.360063E+02    0.449692E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.348850E+02    0.296368E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.329412E+02    0.300455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.342976E+02    0.281505E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.362488E+02    0.285317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.364255E+02    0.303499E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.341809E+02    0.314414E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.324247E+02    0.327338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.313338E+02    0.314968E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.311278E+02    0.298274E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.319013E+02    0.281059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.333794E+02    0.268773E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.354501E+02    0.261913E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.372769E+02    0.265590E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.384217E+02    0.278252E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.386500E+02    0.295549E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.378417E+02    0.313039E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.361278E+02    0.326818E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.342124E+02    0.331373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.325094E+02    0.355295E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.298298E+02    0.341404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.285642E+02    0.315570E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.288957E+02    0.285230E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.307688E+02    0.258005E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.337057E+02    0.241347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.372239E+02    0.236859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.401479E+02    0.249013E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133592E+03   -0.416384E+02    0.275077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.413046E+02    0.306981E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.392027E+02    0.335599E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.358472E+02    0.354124E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.349294E+02    0.192637E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.330894E+02    0.196546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.343243E+02    0.178119E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.365329E+02    0.178242E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.363787E+02    0.200149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.343436E+02    0.210059E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.326161E+02    0.223489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.315109E+02    0.211609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.313606E+02    0.193970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.321071E+02    0.176501E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.336456E+02    0.162821E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.355261E+02    0.157274E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.374345E+02    0.159168E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.385924E+02    0.171340E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.386605E+02    0.190473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.379822E+02    0.207078E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.363928E+02    0.220501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.343174E+02    0.227660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.326673E+02    0.251451E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.300507E+02    0.238140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.287497E+02    0.212991E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.291139E+02    0.181470E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.309462E+02    0.153831E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.339314E+02    0.135227E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.374289E+02    0.129468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.402600E+02    0.141792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.417831E+02    0.166979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.414109E+02    0.199626E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.392807E+02    0.229369E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.360742E+02    0.248020E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680267.879646300     
  ps_ts2 prof sum =   679793.251625019     
  trcom prof sum =    679793.251625018     
  ps_ts2 cur sum  =   9976.91239644848     
  trcom cur sum  =    9976.91239644846     
  
  antenna # iant =            2
  powecha_use(iant) =    689054.077934394     
  ps_ts2 prof sum =   688585.679716198     
  trcom prof sum =    688585.679716198     
  ps_ts2 cur sum  =   12064.4468624322     
  trcom cur sum  =    12064.4468624322     
  
  antenna # iant =            3
  powecha_use(iant) =    495379.001361392     
  ps_ts2 prof sum =   495000.686371843     
  trcom prof sum =    495000.686371843     
  ps_ts2 cur sum  =   6300.47632511133     
  trcom cur sum  =    6300.47632511132     
  
  antenna # iant =            4
  powecha_use(iant) =    610578.033867318     
  ps_ts2 prof sum =   610146.586009720     
  trcom prof sum =    610146.586009719     
  ps_ts2 cur sum  =   9786.13818135911     
  trcom cur sum  =    9786.13818135910     
  
  antenna # iant =            5
  powecha_use(iant) =    555235.309411347     
  ps_ts2 prof sum =   554880.830233025     
  trcom prof sum =    554880.830233025     
  ps_ts2 cur sum  =   10650.0228579366     
  trcom cur sum  =    10650.0228579366     
  
  Total ECH heating:      3028407.03395580     
  Total Current Drive:    48777.9966232877     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    828
 TA= 1.12500E+00 CPU TIME= 1.67065E-01 SECONDS.  DT= 6.70713E-04
  
 TEC1=    1.12500000000000     
 TEC2=    1.13000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.88735888888846     
  %check_save_state: izleft hours =    78.1041666666667     
 --> plasma_hash("gframe"): TA= 1.125000E+00 NSTEP=   828 Hash code:   72782549
 ->PRGCHK: bdy curvature ratio at t= 1.1300E+00 seconds is:  5.4672E-02
% MHDEQ: TG1=     1.125000 ; TG2=     1.130000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4672E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.125000 TO TG2=    1.130000 @ NSTEP      828
   GFRAME TG2 MOMENTS CHECKSUM:  2.4640002845150D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.50845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.51024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.52949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.40245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  8.86091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.61342E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.72461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.11090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -4.04108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.70758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       6= -3.86556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  5.85854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -3.38339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  6.30816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.42559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13=  4.64554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.41931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -4.92778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.22250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.20180E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.20180E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.1300E+00  1.1350E+00 total power(Watts):  3.0209E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.13000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.347232E+02    0.335958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.327741E+02    0.339639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.341453E+02    0.321054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.360986E+02    0.325065E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.362601E+02    0.343432E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.341806E+02    0.352455E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.323208E+02    0.366077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.312362E+02    0.353241E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.310426E+02    0.336359E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.317456E+02    0.320176E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.332337E+02    0.308125E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.351329E+02    0.303375E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.371421E+02    0.305684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.382807E+02    0.318468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.384962E+02    0.335786E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.377663E+02    0.352643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.361276E+02    0.365635E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.341977E+02    0.369940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.324617E+02    0.394300E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.297072E+02    0.380062E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.283821E+02    0.354212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.287341E+02    0.323939E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.305428E+02    0.297818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.335753E+02    0.280211E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.369200E+02    0.278070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.399335E+02    0.290252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133415E+03   -0.415098E+02    0.315870E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133400E+03   -0.411495E+02    0.347923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133889E+03   -0.390125E+02    0.376959E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.358195E+02    0.393819E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.352389E+02    0.250545E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.332975E+02    0.255029E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.345538E+02    0.237063E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.365938E+02    0.239581E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.367854E+02    0.257350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.345476E+02    0.268839E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.328006E+02    0.282237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.316994E+02    0.269851E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.315635E+02    0.252232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.322448E+02    0.236154E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.337985E+02    0.222927E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.356901E+02    0.217707E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.376081E+02    0.220000E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.388555E+02    0.231223E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.390027E+02    0.249083E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.382092E+02    0.266727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.365025E+02    0.281096E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.346816E+02    0.285107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.328256E+02    0.311022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.302130E+02    0.296845E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.289281E+02    0.270817E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.292413E+02    0.240643E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.310950E+02    0.213530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.341039E+02    0.195256E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.376222E+02    0.190184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.404606E+02    0.203125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.419720E+02    0.228466E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133630E+03   -0.416684E+02    0.259944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.394938E+02    0.290082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.363441E+02    0.307561E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.349386E+02    0.390548E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.330630E+02    0.392941E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.341983E+02    0.376274E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.364286E+02    0.378769E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.364728E+02    0.398838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.343719E+02    0.407523E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.324896E+02    0.420812E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.313340E+02    0.407910E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.311586E+02    0.390459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.318824E+02    0.373856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.333880E+02    0.361811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.354813E+02    0.355980E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.373135E+02    0.360609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.385376E+02    0.373429E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.387310E+02    0.391551E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.378777E+02    0.409559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.363103E+02    0.421798E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.343673E+02    0.425598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.326008E+02    0.449806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.298521E+02    0.434368E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.285523E+02    0.407451E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.288592E+02    0.377058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.306987E+02    0.350728E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.336724E+02    0.334662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.372163E+02    0.331664E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.401372E+02    0.345517E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132723E+03   -0.418926E+02    0.371130E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132528E+03   -0.415844E+02    0.404038E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133295E+03   -0.392895E+02    0.433946E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.360570E+02    0.449982E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.347565E+02    0.298080E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.329882E+02    0.300441E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.341701E+02    0.283210E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.363911E+02    0.284377E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.362929E+02    0.305194E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.342298E+02    0.314424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.324719E+02    0.327339E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.313793E+02    0.314968E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.311732E+02    0.298251E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.319462E+02    0.280936E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.334253E+02    0.268542E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.353199E+02    0.263499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.371455E+02    0.267165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.384742E+02    0.278166E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.387037E+02    0.295554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.378950E+02    0.313060E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.362715E+02    0.326042E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.343493E+02    0.330600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.324717E+02    0.356114E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.298737E+02    0.341409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.286069E+02    0.315558E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.289382E+02    0.285126E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.308122E+02    0.257662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.337519E+02    0.240900E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.372726E+02    0.236401E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134002E+03   -0.402020E+02    0.248647E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.416958E+02    0.274986E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133467E+03   -0.413650E+02    0.306989E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.392579E+02    0.335656E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.359903E+02    0.353482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.349690E+02    0.192200E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.331317E+02    0.196077E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.343672E+02    0.177621E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.365791E+02    0.177739E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.364262E+02    0.199671E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.343894E+02    0.209586E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.326602E+02    0.223008E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.315519E+02    0.211148E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.314013E+02    0.193501E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.321474E+02    0.176006E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.336869E+02    0.162301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.355688E+02    0.156741E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.372996E+02    0.160795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.386405E+02    0.170818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.387104E+02    0.189982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.380317E+02    0.206584E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.364417E+02    0.220000E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.343636E+02    0.227176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.327107E+02    0.251091E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.300921E+02    0.237684E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.287886E+02    0.212534E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.291513E+02    0.180991E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.309833E+02    0.153307E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.339704E+02    0.134682E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.374693E+02    0.128932E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.403075E+02    0.141220E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133841E+03   -0.418345E+02    0.166438E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.414642E+02    0.199121E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.393325E+02    0.228880E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.361222E+02    0.247628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682261.670500291     
  ps_ts2 prof sum =   681780.928529792     
  trcom prof sum =    681780.928529791     
  ps_ts2 cur sum  =   10025.4199912763     
  trcom cur sum  =    10025.4199912763     
  
  antenna # iant =            2
  powecha_use(iant) =    693691.999340783     
  ps_ts2 prof sum =   693220.327086546     
  trcom prof sum =    693220.327086547     
  ps_ts2 cur sum  =   12168.1560333513     
  trcom cur sum  =    12168.1560333513     
  
  antenna # iant =            3
  powecha_use(iant) =    496282.211429527     
  ps_ts2 prof sum =   495908.356616556     
  trcom prof sum =    495908.356616556     
  ps_ts2 cur sum  =   6326.14453643069     
  trcom cur sum  =    6326.14453643068     
  
  antenna # iant =            4
  powecha_use(iant) =    594831.063158089     
  ps_ts2 prof sum =   594396.254678988     
  trcom prof sum =    594396.254678988     
  ps_ts2 cur sum  =   9552.00403149427     
  trcom cur sum  =    9552.00403149426     
  
  antenna # iant =            5
  powecha_use(iant) =    553809.350809959     
  ps_ts2 prof sum =   553452.425463071     
  trcom prof sum =    553452.425463070     
  ps_ts2 cur sum  =   10636.8195717674     
  trcom cur sum  =    10636.8195717674     
  
  Total ECH heating:      3018758.29237495     
  Total Current Drive:    48708.5441643199     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    833
 TA= 1.13000E+00 CPU TIME= 1.59679E-01 SECONDS.  DT= 1.41615E-03
  
 TEC1=    1.13000000000000     
 TEC2=    1.13500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    1.90099777777777     
  %check_save_state: izleft hours =    78.0905555555556     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  1.1300000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 1.130000E+00 NSTEP=   833 Hash code:   82070314
 ->PRGCHK: bdy curvature ratio at t= 1.1350E+00 seconds is:  5.4755E-02
% MHDEQ: TG1=     1.130000 ; TG2=     1.135000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4755E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.130000 TO TG2=    1.135000 @ NSTEP      833
   GFRAME TG2 MOMENTS CHECKSUM:  2.4628089158854D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1350E+00  1.1400E+00 total power(Watts):  3.0139E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.13500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.347711E+02    0.335982E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.328200E+02    0.339660E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.341920E+02    0.321071E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.361486E+02    0.325077E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.363148E+02    0.343456E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.342283E+02    0.352539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.323661E+02    0.366221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.312803E+02    0.353306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.310819E+02    0.336408E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.317901E+02    0.320173E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.332833E+02    0.308088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.351816E+02    0.303390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.371928E+02    0.305702E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.383331E+02    0.318493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.385490E+02    0.335832E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134144E+03   -0.378185E+02    0.352767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.361775E+02    0.365811E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.342454E+02    0.370122E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.323424E+02    0.395801E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.297496E+02    0.380243E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.284232E+02    0.354263E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.287751E+02    0.323929E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.305846E+02    0.297806E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.336205E+02    0.280127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.371554E+02    0.276207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.399869E+02    0.290262E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133350E+03   -0.415663E+02    0.315907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133330E+03   -0.412054E+02    0.348044E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.390630E+02    0.377232E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.358692E+02    0.394089E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.351970E+02    0.251117E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.333413E+02    0.254676E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.345989E+02    0.236587E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.368247E+02    0.237181E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.368339E+02    0.257052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.345936E+02    0.268640E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.328447E+02    0.282164E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.317416E+02    0.269644E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.316058E+02    0.251846E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.323697E+02    0.234681E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.338419E+02    0.222420E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.357362E+02    0.217190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.376550E+02    0.219479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.389059E+02    0.230722E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.391497E+02    0.247765E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.382598E+02    0.266552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.365555E+02    0.281012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.347288E+02    0.285072E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.328710E+02    0.311022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.302551E+02    0.296833E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.289678E+02    0.270601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.292807E+02    0.240176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.311359E+02    0.213042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.341469E+02    0.194786E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.376685E+02    0.189696E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.406094E+02    0.201597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.421268E+02    0.226996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133580E+03   -0.417229E+02    0.259720E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.396450E+02    0.289232E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.363933E+02    0.307582E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.18 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.349863E+02    0.390817E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.331090E+02    0.393190E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.342462E+02    0.376473E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.364787E+02    0.379008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.365233E+02    0.399124E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.344204E+02    0.407803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.326197E+02    0.420510E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.313775E+02    0.408165E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.312027E+02    0.390685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.319269E+02    0.374033E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.334346E+02    0.361938E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.355308E+02    0.356098E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.373648E+02    0.360772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.385899E+02    0.373665E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133739E+03   -0.387838E+02    0.391849E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.379295E+02    0.409874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.363604E+02    0.422097E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.344150E+02    0.425881E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.326460E+02    0.450096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.298941E+02    0.434610E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.285928E+02    0.407687E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.289003E+02    0.377221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.307420E+02    0.350777E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.337194E+02    0.334669E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.373613E+02    0.330915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.401921E+02    0.345615E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132647E+03   -0.419491E+02    0.371398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132447E+03   -0.416411E+02    0.404382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133213E+03   -0.393429E+02    0.434269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.360147E+02    0.450775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.348039E+02    0.298084E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.330339E+02    0.300437E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.342162E+02    0.283149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.363485E+02    0.285229E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.363420E+02    0.305216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.342767E+02    0.314435E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.325165E+02    0.327346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.314235E+02    0.314966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.312152E+02    0.298240E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.319897E+02    0.280850E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.334701E+02    0.268330E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.353664E+02    0.263243E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.373774E+02    0.265177E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.385253E+02    0.278115E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.387560E+02    0.295571E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.379470E+02    0.313079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.362294E+02    0.326855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.343970E+02    0.330606E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.325173E+02    0.356195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.299156E+02    0.341422E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.286462E+02    0.315549E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.289777E+02    0.285054E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.308516E+02    0.257326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.337952E+02    0.240443E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.373213E+02    0.235924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.402538E+02    0.248290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133479E+03   -0.417506E+02    0.274940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133402E+03   -0.414211E+02    0.307024E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.393120E+02    0.335702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.360404E+02    0.353588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.350183E+02    0.191683E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.331739E+02    0.195609E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.344945E+02    0.176059E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.365345E+02    0.178307E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.364711E+02    0.199189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.344336E+02    0.209097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.327030E+02    0.222505E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.315935E+02    0.210664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.314408E+02    0.193038E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.321869E+02    0.175520E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.337272E+02    0.161789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.356109E+02    0.156214E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.375249E+02    0.158097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.386865E+02    0.170307E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.389464E+02    0.187418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.380797E+02    0.206075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.364878E+02    0.219484E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.344086E+02    0.226669E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.327518E+02    0.250707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.301322E+02    0.237207E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.288265E+02    0.212062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.291883E+02    0.180514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.310965E+02    0.151663E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.340080E+02    0.134135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.374216E+02    0.129493E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.404485E+02    0.139556E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.418837E+02    0.165908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.415163E+02    0.198602E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.393834E+02    0.228368E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.360790E+02    0.248181E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682237.447522092     
  ps_ts2 prof sum =   681759.973936892     
  trcom prof sum =    681759.973936892     
  ps_ts2 cur sum  =   10030.4213184783     
  trcom cur sum  =    10030.4213184783     
  
  antenna # iant =            2
  powecha_use(iant) =    693548.190906031     
  ps_ts2 prof sum =   693093.113517637     
  trcom prof sum =    693093.113517637     
  ps_ts2 cur sum  =   12173.8027858180     
  trcom cur sum  =    12173.8027858180     
  
  antenna # iant =            3
  powecha_use(iant) =    495822.259210790     
  ps_ts2 prof sum =   495459.583502413     
  trcom prof sum =    495459.583502413     
  ps_ts2 cur sum  =   6328.06371410288     
  trcom cur sum  =    6328.06371410288     
  
  antenna # iant =            4
  powecha_use(iant) =    588947.410183750     
  ps_ts2 prof sum =   588512.073937126     
  trcom prof sum =    588512.073937125     
  ps_ts2 cur sum  =   9460.71281155975     
  trcom cur sum  =    9460.71281155975     
  
  antenna # iant =            5
  powecha_use(iant) =    553379.530776821     
  ps_ts2 prof sum =   553022.460192379     
  trcom prof sum =    553022.460173531     
  ps_ts2 cur sum  =   10635.9302209718     
  trcom cur sum  =    10635.9302209718     
  
  Total ECH heating:      3011847.20506760     
  Total Current Drive:    48628.9308509308     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    836
 TA= 1.13500E+00 CPU TIME= 1.68095E-01 SECONDS.  DT= 2.26707E-03
  
 TEC1=    1.13500000000000     
 TEC2=    1.14000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.91341999999986     
  %check_save_state: izleft hours =    78.0780555555556     
 --> plasma_hash("gframe"): TA= 1.135000E+00 NSTEP=   836 Hash code:   79493819
 ->PRGCHK: bdy curvature ratio at t= 1.1400E+00 seconds is:  5.4537E-02
% MHDEQ: TG1=     1.135000 ; TG2=     1.140000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7637E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4537E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.135000 TO TG2=    1.140000 @ NSTEP      836
   GFRAME TG2 MOMENTS CHECKSUM:  2.4616175472559D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.97038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.61815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.72422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.01823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.89893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  4.78311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.76270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.42663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -4.55192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  3.48871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.37944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -1.75119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.51788E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.98272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -2.09668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.16306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.52222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.42891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.53371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.53371E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1400E+00  1.1450E+00 total power(Watts):  3.0054E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.14000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.348270E+02    0.336122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.328733E+02    0.339787E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.342475E+02    0.321186E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.362065E+02    0.325212E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.363686E+02    0.343680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.342832E+02    0.352753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.324184E+02    0.366484E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.313310E+02    0.353491E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.310552E+02    0.337271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.318416E+02    0.320287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.333335E+02    0.308261E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.352379E+02    0.303545E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.370646E+02    0.307528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.383943E+02    0.318636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.386101E+02    0.336002E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134071E+03   -0.378781E+02    0.353027E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.362346E+02    0.366132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.341234E+02    0.371834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.323938E+02    0.396169E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.297981E+02    0.380543E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.284698E+02    0.354419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.288228E+02    0.324017E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.306351E+02    0.297927E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.336745E+02    0.280211E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.370279E+02    0.278087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.400497E+02    0.290447E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133284E+03   -0.416317E+02    0.316070E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133258E+03   -0.412695E+02    0.348316E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.391258E+02    0.377622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.359256E+02    0.394497E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.352527E+02    0.250862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.333949E+02    0.254432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.346535E+02    0.236198E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.368831E+02    0.236813E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.368917E+02    0.256904E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.346488E+02    0.268599E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.328978E+02    0.282246E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.317926E+02    0.269571E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.316562E+02    0.251571E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.324211E+02    0.234283E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.338967E+02    0.221985E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.357920E+02    0.216764E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.376217E+02    0.220034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.389671E+02    0.230329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.392106E+02    0.247532E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.383199E+02    0.266540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.367056E+02    0.280233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.346076E+02    0.286969E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.329246E+02    0.311153E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.303050E+02    0.296955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.290144E+02    0.270524E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.293280E+02    0.239795E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.311855E+02    0.212632E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.341992E+02    0.194412E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.377264E+02    0.189317E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.406725E+02    0.201171E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133455E+03   -0.421924E+02    0.226588E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.417874E+02    0.259670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.397077E+02    0.289411E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.364518E+02    0.307732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.13 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.350417E+02    0.391207E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.331614E+02    0.393570E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.343007E+02    0.376811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.365359E+02    0.379388E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.365800E+02    0.399548E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.344747E+02    0.408201E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.326713E+02    0.420888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.314289E+02    0.408523E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.312528E+02    0.391030E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.319783E+02    0.374327E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.334884E+02    0.362187E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.355873E+02    0.356348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.374236E+02    0.361076E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.386460E+02    0.374081E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133659E+03   -0.388441E+02    0.392286E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.379885E+02    0.410310E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.364165E+02    0.422517E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.344688E+02    0.426277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.326971E+02    0.450517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.299417E+02    0.434961E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.286395E+02    0.408024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.289477E+02    0.377505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.307923E+02    0.350935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.337742E+02    0.334796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.373267E+02    0.331841E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133621E+03   -0.402551E+02    0.345853E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132570E+03   -0.420138E+02    0.371818E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132366E+03   -0.417042E+02    0.404877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132905E+03   -0.395009E+02    0.434225E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.360699E+02    0.451238E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.348599E+02    0.298231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.330894E+02    0.300552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.342709E+02    0.283249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.364060E+02    0.285360E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.364007E+02    0.305365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.343325E+02    0.314564E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.325700E+02    0.327455E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.314747E+02    0.315082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.312669E+02    0.298369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.320414E+02    0.280915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.335232E+02    0.268259E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.354229E+02    0.263123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.374370E+02    0.265144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.385862E+02    0.278230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.388176E+02    0.295747E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.380073E+02    0.313236E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.363795E+02    0.326198E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.344528E+02    0.330736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.325699E+02    0.356399E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.299649E+02    0.341538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.286951E+02    0.315653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.290254E+02    0.285122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.309018E+02    0.257104E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.338486E+02    0.240077E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.373840E+02    0.235514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.403166E+02    0.248064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133418E+03   -0.418156E+02    0.275072E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133336E+03   -0.414866E+02    0.307207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.393738E+02    0.335885E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.360976E+02    0.353827E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.350722E+02    0.191313E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.332248E+02    0.195241E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.345477E+02    0.175673E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.365905E+02    0.177925E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.367094E+02    0.196732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.344885E+02    0.208683E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.327556E+02    0.222074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.317239E+02    0.209223E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.314908E+02    0.192670E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.322368E+02    0.175134E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.337787E+02    0.161378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.356644E+02    0.155793E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.375817E+02    0.157681E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.387461E+02    0.169909E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.390053E+02    0.187037E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.381387E+02    0.205652E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.365453E+02    0.219047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.344625E+02    0.226246E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.328056E+02    0.250418E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.301814E+02    0.236811E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.288733E+02    0.211658E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.292343E+02    0.180137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.311444E+02    0.151229E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.340580E+02    0.133673E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.374758E+02    0.129019E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.405076E+02    0.139095E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.419467E+02    0.165503E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.415809E+02    0.198182E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.394449E+02    0.227962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.361364E+02    0.247900E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681511.917905970     
  ps_ts2 prof sum =   681009.322409239     
  trcom prof sum =    681009.322409238     
  ps_ts2 cur sum  =   10038.7984587106     
  trcom cur sum  =    10038.7984587106     
  
  antenna # iant =            2
  powecha_use(iant) =    688813.333897544     
  ps_ts2 prof sum =   688351.451934860     
  trcom prof sum =    688351.451934860     
  ps_ts2 cur sum  =   12108.5992194326     
  trcom cur sum  =    12108.5992194326     
  
  antenna # iant =            3
  powecha_use(iant) =    497780.745111786     
  ps_ts2 prof sum =   497428.799262371     
  trcom prof sum =    497428.799262371     
  ps_ts2 cur sum  =   6366.68929372201     
  trcom cur sum  =    6366.68929372202     
  
  antenna # iant =            4
  powecha_use(iant) =    584467.187079449     
  ps_ts2 prof sum =   584049.970440787     
  trcom prof sum =    584049.970440787     
  ps_ts2 cur sum  =   9403.56335487839     
  trcom cur sum  =    9403.56335487838     
  
  antenna # iant =            5
  powecha_use(iant) =    552859.377399758     
  ps_ts2 prof sum =   552514.265528266     
  trcom prof sum =    552514.265513106     
  ps_ts2 cur sum  =   10640.7059625981     
  trcom cur sum  =    10640.7059625981     
  
  Total ECH heating:      3003353.80956036     
  Total Current Drive:    48558.3562893417     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    838
 TA= 1.14000E+00 CPU TIME= 1.59510E-01 SECONDS.  DT= 3.41616E-03
  
 TEC1=    1.14000000000000     
 TEC2=    1.14500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.92787555555537     
  %check_save_state: izleft hours =    78.0636111111111     
 --> plasma_hash("gframe"): TA= 1.140000E+00 NSTEP=   838 Hash code:   32658891
 ->PRGCHK: bdy curvature ratio at t= 1.1450E+00 seconds is:  5.4230E-02
% MHDEQ: TG1=     1.140000 ; TG2=     1.145000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4230E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.140000 TO TG2=    1.145000 @ NSTEP      838
   GFRAME TG2 MOMENTS CHECKSUM:  2.4604261786264D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1450E+00  1.1500E+00 total power(Watts):  3.0095E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.14500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.348836E+02    0.336217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.329265E+02    0.339885E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.341273E+02    0.322821E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.362665E+02    0.325231E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.364264E+02    0.343851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.341618E+02    0.354451E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.324688E+02    0.366789E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.313002E+02    0.354423E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.311062E+02    0.337328E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.318945E+02    0.320279E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.333882E+02    0.308250E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.352954E+02    0.303532E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.371250E+02    0.307527E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.384557E+02    0.318674E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.386713E+02    0.336133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.378425E+02    0.354024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.362919E+02    0.366470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.341780E+02    0.372164E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.324465E+02    0.396531E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.298466E+02    0.380863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.285165E+02    0.354582E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.288710E+02    0.324007E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.306865E+02    0.297906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.336466E+02    0.281083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.370877E+02    0.278098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.401144E+02    0.290462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133221E+03   -0.416976E+02    0.316117E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133187E+03   -0.413342E+02    0.348585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.391869E+02    0.378038E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.359819E+02    0.394907E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.353095E+02    0.250720E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.334493E+02    0.254298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.347098E+02    0.235952E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.369418E+02    0.236601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.369513E+02    0.256823E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.347026E+02    0.268586E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.329520E+02    0.282241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.318452E+02    0.269527E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.317077E+02    0.251408E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.324726E+02    0.234015E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.339493E+02    0.221674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.358480E+02    0.216434E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.376817E+02    0.219718E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.390286E+02    0.230077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.392735E+02    0.247401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.383812E+02    0.266544E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.367650E+02    0.280246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.346637E+02    0.286977E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.329787E+02    0.311140E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.303557E+02    0.296933E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.290623E+02    0.270468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.293772E+02    0.239544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.312318E+02    0.212342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.342543E+02    0.194061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.377859E+02    0.188956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.407362E+02    0.200816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133410E+03   -0.422589E+02    0.226333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133471E+03   -0.418537E+02    0.259656E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.396734E+02    0.290282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.365110E+02    0.307724E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.349173E+02    0.392878E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.330428E+02    0.395219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.344442E+02    0.376484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.365940E+02    0.379776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.365445E+02    0.400577E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.345286E+02    0.408600E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.327234E+02    0.421253E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.314783E+02    0.408893E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.313034E+02    0.391383E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.320298E+02    0.374647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.335423E+02    0.362457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.356439E+02    0.356616E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.374827E+02    0.361397E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.386136E+02    0.375130E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133578E+03   -0.389043E+02    0.392729E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133785E+03   -0.380473E+02    0.410743E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.364730E+02    0.422928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.345226E+02    0.426666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.327481E+02    0.450947E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.299105E+02    0.435843E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.286852E+02    0.408366E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.289952E+02    0.377808E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.308431E+02    0.351095E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.338291E+02    0.334859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.373866E+02    0.331932E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133555E+03   -0.403160E+02    0.346104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132492E+03   -0.420782E+02    0.372270E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132285E+03   -0.417680E+02    0.405360E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132822E+03   -0.395611E+02    0.434691E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.361253E+02    0.451708E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.36 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.349168E+02    0.298230E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.331414E+02    0.300568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.343270E+02    0.283250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.365567E+02    0.284498E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.364600E+02    0.305358E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.343885E+02    0.314555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.326233E+02    0.327470E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.315266E+02    0.315063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.313191E+02    0.298350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.320939E+02    0.280904E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.335782E+02    0.268224E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.354801E+02    0.263071E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.373097E+02    0.266961E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.386481E+02    0.278257E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.388769E+02    0.295781E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134279E+03   -0.380686E+02    0.313244E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.364383E+02    0.326241E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.345084E+02    0.330789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.326227E+02    0.356618E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.300142E+02    0.341617E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.287427E+02    0.315619E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.290741E+02    0.285107E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.309527E+02    0.256974E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.339038E+02    0.239850E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.374399E+02    0.235331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.403804E+02    0.247955E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133359E+03   -0.418825E+02    0.275108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.415525E+02    0.307231E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.394361E+02    0.336035E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.361550E+02    0.354079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.54 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.351262E+02    0.190955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.332787E+02    0.194887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.346027E+02    0.175276E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.366474E+02    0.177539E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.367664E+02    0.196380E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.345435E+02    0.208336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.328085E+02    0.221756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.317752E+02    0.208877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.315418E+02    0.192311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.322888E+02    0.174735E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.338318E+02    0.160949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.357199E+02    0.155353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.376394E+02    0.157243E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.388055E+02    0.169506E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.390651E+02    0.186679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.381990E+02    0.205305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.366037E+02    0.218727E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.345179E+02    0.225943E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.328586E+02    0.250257E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.302310E+02    0.236550E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.289210E+02    0.211311E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.292813E+02    0.179751E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.311920E+02    0.150788E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.341083E+02    0.133208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.375317E+02    0.128541E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.405716E+02    0.138590E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.420103E+02    0.165086E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.416457E+02    0.197822E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.395075E+02    0.227698E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.361943E+02    0.247742E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686905.893742279     
  ps_ts2 prof sum =   686375.509167102     
  trcom prof sum =    686375.509167101     
  ps_ts2 cur sum  =   10138.3766104438     
  trcom cur sum  =    10138.3766104438     
  
  antenna # iant =            2
  powecha_use(iant) =    688619.872423387     
  ps_ts2 prof sum =   688160.138495262     
  trcom prof sum =    688160.138495262     
  ps_ts2 cur sum  =   12124.8200934648     
  trcom cur sum  =    12124.8200934648     
  
  antenna # iant =            3
  powecha_use(iant) =    500091.715697574     
  ps_ts2 prof sum =   499729.991566150     
  trcom prof sum =    499729.991566150     
  ps_ts2 cur sum  =   6407.02277255983     
  trcom cur sum  =    6407.02277255983     
  
  antenna # iant =            4
  powecha_use(iant) =    582092.783030944     
  ps_ts2 prof sum =   581682.834008360     
  trcom prof sum =    581682.834008359     
  ps_ts2 cur sum  =   9383.25216918652     
  trcom cur sum  =    9383.25216918651     
  
  antenna # iant =            5
  powecha_use(iant) =    551815.126233201     
  ps_ts2 prof sum =   551470.373572814     
  trcom prof sum =    551470.373557964     
  ps_ts2 cur sum  =   10634.0255147207     
  trcom cur sum  =    10634.0255147207     
  
  Total ECH heating:      3007418.84679484     
  Total Current Drive:    48687.4971603757     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    840
 TA= 1.14500E+00 CPU TIME= 1.48279E-01 SECONDS.  DT= 1.97980E-03
  
 TEC1=    1.14500000000000     
 TEC2=    1.15000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.94413472222232     
  %check_save_state: izleft hours =    78.0475000000000     
 --> plasma_hash("gframe"): TA= 1.145000E+00 NSTEP=   840 Hash code:   63890122
 ->PRGCHK: bdy curvature ratio at t= 1.1500E+00 seconds is:  5.4054E-02
% MHDEQ: TG1=     1.145000 ; TG2=     1.150000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7614E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4054E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.145000 TO TG2=    1.150000 @ NSTEP      840
   GFRAME TG2 MOMENTS CHECKSUM:  2.4592348093451D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.46165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.72017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.12652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.65497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.16886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -9.53883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.43349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  5.70048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.85910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  6.20997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.67709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -5.44873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.92790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.17731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.08710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.92079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  4.01349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.62406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.56701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.56701E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1500E+00  1.1550E+00 total power(Watts):  3.0125E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.15000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.349395E+02    0.336296E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.329800E+02    0.339958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.341828E+02    0.322754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.363234E+02    0.325218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.364842E+02    0.344025E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.342164E+02    0.354679E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.324381E+02    0.367785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.313508E+02    0.354614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.311568E+02    0.337354E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.319469E+02    0.320175E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.334432E+02    0.308110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.353530E+02    0.303395E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.371849E+02    0.307407E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.385172E+02    0.318624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.387325E+02    0.336254E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134142E+03   -0.379016E+02    0.354304E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.363490E+02    0.366826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.342320E+02    0.372510E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.324977E+02    0.396900E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.298953E+02    0.381192E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.285641E+02    0.354749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.289190E+02    0.323912E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.307374E+02    0.297767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.336989E+02    0.281036E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.371486E+02    0.278032E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.401787E+02    0.290347E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.417635E+02    0.316086E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133115E+03   -0.413984E+02    0.348870E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133575E+03   -0.392471E+02    0.378466E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.360379E+02    0.395317E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.353674E+02    0.250676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.335043E+02    0.254262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.347666E+02    0.235836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.370015E+02    0.236510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.370115E+02    0.256808E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.347623E+02    0.268540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.330063E+02    0.282160E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.318988E+02    0.269496E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.317614E+02    0.251347E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.325273E+02    0.233875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.340047E+02    0.221471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.359069E+02    0.216208E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.377423E+02    0.219528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.390911E+02    0.229968E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.393363E+02    0.247379E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.384439E+02    0.266526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.368255E+02    0.280163E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.347213E+02    0.286865E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.330329E+02    0.311006E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.304061E+02    0.296794E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.291131E+02    0.270422E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.294251E+02    0.239416E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.312867E+02    0.212022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.343093E+02    0.193727E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.378453E+02    0.188616E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.408004E+02    0.200535E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133352E+03   -0.423283E+02    0.226197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133411E+03   -0.419210E+02    0.259660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.397369E+02    0.290172E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.365701E+02    0.307609E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.349722E+02    0.393270E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.330957E+02    0.395585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.344986E+02    0.376853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.366515E+02    0.380175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.366014E+02    0.400986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.344054E+02    0.410161E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.327743E+02    0.421608E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.315284E+02    0.409241E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.313533E+02    0.391738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.320810E+02    0.374979E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.335959E+02    0.362740E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.357003E+02    0.356895E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.375413E+02    0.361741E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.386739E+02    0.375537E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.389638E+02    0.393174E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.381054E+02    0.411161E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.365285E+02    0.423323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.345756E+02    0.427045E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.327986E+02    0.451384E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.299569E+02    0.436184E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.286559E+02    0.409298E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.290420E+02    0.378122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.308930E+02    0.351254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.338833E+02    0.334894E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.374458E+02    0.331988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133479E+03   -0.403810E+02    0.346335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132414E+03   -0.421426E+02    0.372727E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132204E+03   -0.418309E+02    0.405833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132739E+03   -0.396206E+02    0.435144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.361798E+02    0.452191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.349740E+02    0.298097E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.331961E+02    0.300425E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.343836E+02    0.283171E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.366168E+02    0.284400E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.365188E+02    0.305232E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.344446E+02    0.314443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.326765E+02    0.327425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.315785E+02    0.314932E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.313730E+02    0.298190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.321479E+02    0.280826E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.336360E+02    0.268178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.355380E+02    0.263055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.373703E+02    0.266943E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134212E+03   -0.387108E+02    0.278186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.389426E+02    0.295634E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.381299E+02    0.313164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.364969E+02    0.326232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.345642E+02    0.330806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.326752E+02    0.356842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.300633E+02    0.341679E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.287910E+02    0.315482E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.291239E+02    0.285005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.310048E+02    0.256923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.339595E+02    0.239748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.375002E+02    0.235235E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133798E+03   -0.404459E+02    0.247934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133299E+03   -0.419500E+02    0.275044E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.416184E+02    0.307136E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.394981E+02    0.336167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.362122E+02    0.354339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.351837E+02    0.190616E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.333333E+02    0.194555E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.346564E+02    0.174882E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.367044E+02    0.177155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.368248E+02    0.196059E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.345978E+02    0.208063E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.328605E+02    0.221549E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.318263E+02    0.208598E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.315927E+02    0.191971E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.323394E+02    0.174338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.338839E+02    0.160521E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.357743E+02    0.154917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.376053E+02    0.157907E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.387702E+02    0.170179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.391278E+02    0.186329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.382604E+02    0.205031E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.366626E+02    0.218533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.345743E+02    0.225766E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.329135E+02    0.250200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.302793E+02    0.236413E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.289690E+02    0.211028E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.293281E+02    0.179362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.312407E+02    0.150346E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.342424E+02    0.131605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.375867E+02    0.128079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.406288E+02    0.138161E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.420747E+02    0.164670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133691E+03   -0.417110E+02    0.197526E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.395705E+02    0.227576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.362530E+02    0.247696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690555.951359196     
  ps_ts2 prof sum =   690029.608971180     
  trcom prof sum =    690029.608971179     
  ps_ts2 cur sum  =   10208.3732109254     
  trcom cur sum  =    10208.3732109254     
  
  antenna # iant =            2
  powecha_use(iant) =    691572.588243931     
  ps_ts2 prof sum =   691117.944143636     
  trcom prof sum =    691117.944143636     
  ps_ts2 cur sum  =   12192.1944882007     
  trcom cur sum  =    12192.1944882007     
  
  antenna # iant =            3
  powecha_use(iant) =    501786.278127348     
  ps_ts2 prof sum =   501424.012802846     
  trcom prof sum =    501424.012802846     
  ps_ts2 cur sum  =   6437.47219044466     
  trcom cur sum  =    6437.47219044466     
  
  antenna # iant =            4
  powecha_use(iant) =    576859.055992157     
  ps_ts2 prof sum =   576461.430915918     
  trcom prof sum =    576461.430915918     
  ps_ts2 cur sum  =   9313.95818877047     
  trcom cur sum  =    9313.95818877046     
  
  antenna # iant =            5
  powecha_use(iant) =    551766.469215713     
  ps_ts2 prof sum =   551413.651759489     
  trcom prof sum =    551413.651744449     
  ps_ts2 cur sum  =   10643.2796866446     
  trcom cur sum  =    10643.2796866446     
  
  Total ECH heating:      3010446.64857803     
  Total Current Drive:    48795.2777649858     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    843
 TA= 1.15000E+00 CPU TIME= 1.66951E-01 SECONDS.  DT= 6.81800E-04
  
 TEC1=    1.15000000000000     
 TEC2=    1.15500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.96046472222201     
  %check_save_state: izleft hours =    78.0311111111111     
 --> plasma_hash("gframe"): TA= 1.150000E+00 NSTEP=   843 Hash code:   28539783
 ->PRGCHK: bdy curvature ratio at t= 1.1550E+00 seconds is:  5.3576E-02
% MHDEQ: TG1=     1.150000 ; TG2=     1.155000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7603E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3576E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.150000 TO TG2=    1.155000 @ NSTEP      843
   GFRAME TG2 MOMENTS CHECKSUM:  2.4580434400639D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1550E+00  1.1600E+00 total power(Watts):  3.0005E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.15500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.348167E+02    0.337926E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.330380E+02    0.340011E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.342389E+02    0.322700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.364743E+02    0.324412E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.365420E+02    0.344209E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.342710E+02    0.354923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.324899E+02    0.368106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.314019E+02    0.354823E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.312083E+02    0.337404E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.319997E+02    0.320094E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.334982E+02    0.307978E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.354113E+02    0.303265E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.373393E+02    0.306462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.385788E+02    0.318591E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.387935E+02    0.336390E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.379577E+02    0.354630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.364065E+02    0.367197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.342866E+02    0.372874E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.325494E+02    0.397271E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.298643E+02    0.382213E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.286111E+02    0.354932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.289673E+02    0.323833E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.307892E+02    0.297625E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.337554E+02    0.280951E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.372094E+02    0.277967E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133745E+03   -0.402441E+02    0.290240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133099E+03   -0.418297E+02    0.316066E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133043E+03   -0.414628E+02    0.349178E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.393083E+02    0.378911E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.360945E+02    0.395726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.355153E+02    0.249693E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.335635E+02    0.254201E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.348216E+02    0.235752E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.368779E+02    0.238366E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.368873E+02    0.258666E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.348202E+02    0.268510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.330619E+02    0.282068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.319523E+02    0.269459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.318148E+02    0.251298E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.324983E+02    0.234743E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.340606E+02    0.221278E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.359612E+02    0.216037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.378026E+02    0.219349E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.391544E+02    0.229865E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.394006E+02    0.247367E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.385068E+02    0.266504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.368857E+02    0.280089E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.347787E+02    0.286765E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.330872E+02    0.310878E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.304600E+02    0.296622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.291622E+02    0.270379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.294740E+02    0.239303E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.313397E+02    0.211763E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.343652E+02    0.193405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.379045E+02    0.188296E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133809E+03   -0.408650E+02    0.200274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133305E+03   -0.423936E+02    0.226123E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133350E+03   -0.419890E+02    0.259670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.398016E+02    0.290064E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.364448E+02    0.309160E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.351175E+02    0.393035E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.331471E+02    0.395973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.345533E+02    0.377235E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.367078E+02    0.380601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.366586E+02    0.401394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.345482E+02    0.409937E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.326556E+02    0.423063E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.315789E+02    0.409579E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.313217E+02    0.392741E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.321329E+02    0.375329E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.336495E+02    0.363045E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.355744E+02    0.358635E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.375056E+02    0.362799E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133725E+03   -0.387337E+02    0.375969E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.390244E+02    0.393614E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.381648E+02    0.411559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.364926E+02    0.424238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.345409E+02    0.427943E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.328502E+02    0.451820E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.300052E+02    0.436514E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.287027E+02    0.409611E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.290156E+02    0.379108E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.309437E+02    0.351432E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.339386E+02    0.334947E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.375058E+02    0.332062E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133408E+03   -0.404442E+02    0.346594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132336E+03   -0.422070E+02    0.373201E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132565E+03   -0.416900E+02    0.407423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133105E+03   -0.394834E+02    0.436589E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.362353E+02    0.452673E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.350319E+02    0.297960E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.332513E+02    0.300286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.344411E+02    0.283077E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.366772E+02    0.284299E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.365783E+02    0.305111E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.345009E+02    0.314345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.327303E+02    0.327396E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.316308E+02    0.314816E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.314238E+02    0.298068E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.322015E+02    0.280745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.336898E+02    0.268172E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.355971E+02    0.263040E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.374320E+02    0.266921E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.387743E+02    0.278112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.390058E+02    0.295516E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.381914E+02    0.313086E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.365553E+02    0.326242E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.344428E+02    0.332413E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.327276E+02    0.357092E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.301130E+02    0.341762E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.288408E+02    0.315339E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.291737E+02    0.284904E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.310573E+02    0.256881E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.340150E+02    0.239667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.375615E+02    0.235149E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.405065E+02    0.247970E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.420178E+02    0.274985E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133155E+03   -0.416847E+02    0.307061E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133795E+03   -0.394597E+02    0.337085E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.362690E+02    0.354622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.352397E+02    0.190284E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.333873E+02    0.194230E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.347105E+02    0.174498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.367619E+02    0.176780E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.368828E+02    0.195766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.346543E+02    0.207797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.329150E+02    0.221346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.318804E+02    0.208327E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.316428E+02    0.191644E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.323891E+02    0.173946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.339353E+02    0.160079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.358280E+02    0.154445E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.376642E+02    0.157452E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.388316E+02    0.169772E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.391887E+02    0.186005E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.383216E+02    0.204773E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.367223E+02    0.218342E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.346309E+02    0.225600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.329677E+02    0.250159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.303307E+02    0.236286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.290170E+02    0.210734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.293767E+02    0.178981E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.312921E+02    0.149802E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.342942E+02    0.131057E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.376428E+02    0.127513E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.406894E+02    0.137630E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.421398E+02    0.164260E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.417760E+02    0.197254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.396344E+02    0.227457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.364037E+02    0.246704E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684436.998907825     
  ps_ts2 prof sum =   683932.711631663     
  trcom prof sum =    683932.711631663     
  ps_ts2 cur sum  =   10133.0566601040     
  trcom cur sum  =    10133.0566601040     
  
  antenna # iant =            2
  powecha_use(iant) =    688975.235700778     
  ps_ts2 prof sum =   688502.125055672     
  trcom prof sum =    688502.125055672     
  ps_ts2 cur sum  =   12165.4649969960     
  trcom cur sum  =    12165.4649969960     
  
  antenna # iant =            3
  powecha_use(iant) =    502208.952839098     
  ps_ts2 prof sum =   501829.298422078     
  trcom prof sum =    501829.298422078     
  ps_ts2 cur sum  =   6452.93359941757     
  trcom cur sum  =    6452.93359941757     
  
  antenna # iant =            4
  powecha_use(iant) =    573126.923762482     
  ps_ts2 prof sum =   572731.949723146     
  trcom prof sum =    572731.949723145     
  ps_ts2 cur sum  =   9268.80717402203     
  trcom cur sum  =    9268.80717402202     
  
  antenna # iant =            5
  powecha_use(iant) =    551771.044261716     
  ps_ts2 prof sum =   551429.041488666     
  trcom prof sum =    551429.041473529     
  ps_ts2 cur sum  =   10660.1130154699     
  trcom cur sum  =    10660.1130154699     
  
  Total ECH heating:      2998425.12630609     
  Total Current Drive:    48680.3754460094     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    848
 TA= 1.15500E+00 CPU TIME= 1.59798E-01 SECONDS.  DT= 1.33624E-03
  
 TEC1=    1.15500000000000     
 TEC2=    1.16000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.97181388888839     
  %check_save_state: izleft hours =    78.0197222222222     
 --> plasma_hash("gframe"): TA= 1.155000E+00 NSTEP=   848 Hash code:   93338173
 ->PRGCHK: bdy curvature ratio at t= 1.1600E+00 seconds is:  5.3502E-02
% MHDEQ: TG1=     1.155000 ; TG2=     1.160000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7614E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3502E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.155000 TO TG2=    1.160000 @ NSTEP      848
   GFRAME TG2 MOMENTS CHECKSUM:  2.4566242685681D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.72375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.09440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  6.34067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.50861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.24910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.25982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.01826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.47578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.24182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.68124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.99222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.77933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  2.95695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5=  1.18216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.71734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.95917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  3.04670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.75852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.68407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.68407E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1600E+00  1.1650E+00 total power(Watts):  2.9994E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.16000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.349665E+02    0.337081E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.330052E+02    0.340752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.342104E+02    0.323308E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.363522E+02    0.325840E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.365119E+02    0.344972E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.342415E+02    0.355719E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.325465E+02    0.368242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.314569E+02    0.354859E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.312632E+02    0.337296E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.319730E+02    0.320686E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.334709E+02    0.308558E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.353829E+02    0.303844E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.372162E+02    0.307867E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.385484E+02    0.319202E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.387625E+02    0.337105E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.380261E+02    0.354714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.363758E+02    0.368065E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.342576E+02    0.373732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.325170E+02    0.398105E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.299175E+02    0.382373E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.285857E+02    0.355699E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.289428E+02    0.324432E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.307642E+02    0.298230E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.338156E+02    0.280748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.371853E+02    0.278625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133904E+03   -0.402141E+02    0.290847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133258E+03   -0.417979E+02    0.316678E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133197E+03   -0.414296E+02    0.350000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.392759E+02    0.379801E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.360642E+02    0.396545E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.353979E+02    0.251474E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.335331E+02    0.255057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.347958E+02    0.236538E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.370339E+02    0.237242E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.370445E+02    0.257621E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.347933E+02    0.269283E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.330358E+02    0.282757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.319264E+02    0.270238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.317882E+02    0.252125E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.325550E+02    0.234542E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.340341E+02    0.222034E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.359370E+02    0.216743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.377742E+02    0.220105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.391252E+02    0.230669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.393728E+02    0.248188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.383827E+02    0.268169E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.367649E+02    0.281655E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.347512E+02    0.287418E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.330605E+02    0.311455E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.304327E+02    0.297260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.291385E+02    0.271157E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.294504E+02    0.240101E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.313932E+02    0.211461E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.343367E+02    0.194111E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.377836E+02    0.190037E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.408354E+02    0.200982E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.423636E+02    0.226919E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.419590E+02    0.260456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.398706E+02    0.289819E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.366010E+02    0.308075E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.349976E+02    0.394493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.331174E+02    0.396784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.345273E+02    0.378078E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.366772E+02    0.381472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134294E+03   -0.366280E+02    0.402186E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.344296E+02    0.411261E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.327977E+02    0.422632E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.315513E+02    0.410313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.313767E+02    0.392917E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.321048E+02    0.376179E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.336202E+02    0.363881E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.357272E+02    0.358020E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.375692E+02    0.362964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.387020E+02    0.376857E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133569E+03   -0.389928E+02    0.394454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.381326E+02    0.412308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.365557E+02    0.424388E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.346047E+02    0.428062E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.328211E+02    0.452561E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.299780E+02    0.437178E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.287528E+02    0.409740E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.290637E+02    0.379289E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.309164E+02    0.352191E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.339098E+02    0.335617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.373807E+02    0.333518E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133563E+03   -0.404120E+02    0.347392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132487E+03   -0.421743E+02    0.374112E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132719E+03   -0.416570E+02    0.408198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132812E+03   -0.396485E+02    0.436316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.362047E+02    0.453430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.350043E+02    0.298555E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.332248E+02    0.300874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.344142E+02    0.283754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.365567E+02    0.285830E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.365498E+02    0.305684E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.344730E+02    0.314925E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.327028E+02    0.328019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.316049E+02    0.315397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.313983E+02    0.298671E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.321763E+02    0.281444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.336636E+02    0.268946E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.355697E+02    0.263844E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.375917E+02    0.265860E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.387454E+02    0.278793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.389764E+02    0.296106E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.381612E+02    0.313671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.364333E+02    0.327671E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.345025E+02    0.332284E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.326992E+02    0.357887E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.300867E+02    0.342458E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.288151E+02    0.315935E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.291493E+02    0.285587E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.310322E+02    0.257713E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.339882E+02    0.240473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.375330E+02    0.235960E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133889E+03   -0.404819E+02    0.248760E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133396E+03   -0.419878E+02    0.275673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133316E+03   -0.416536E+02    0.307642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133730E+03   -0.395288E+02    0.337046E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.362394E+02    0.355436E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.352117E+02    0.190986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.334433E+02    0.193881E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.346835E+02    0.175176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.367296E+02    0.177507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.367642E+02    0.197511E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.346267E+02    0.208524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.328887E+02    0.222106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.318536E+02    0.209059E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.316192E+02    0.192347E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.324452E+02    0.173521E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.339092E+02    0.160703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.358021E+02    0.155051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.376339E+02    0.158067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.388022E+02    0.170436E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.391600E+02    0.186693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.381987E+02    0.206517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.366028E+02    0.220101E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.346905E+02    0.225373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.329400E+02    0.250996E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.303059E+02    0.237087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.289174E+02    0.212541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.293518E+02    0.179676E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.312644E+02    0.150449E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.342684E+02    0.131602E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.376138E+02    0.128042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.406602E+02    0.138171E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133629E+03   -0.422098E+02    0.163838E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.417468E+02    0.197955E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.397021E+02    0.227282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.362849E+02    0.248484E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687795.225117973     
  ps_ts2 prof sum =   687287.481043059     
  trcom prof sum =    687287.481043059     
  ps_ts2 cur sum  =   10268.5795551918     
  trcom cur sum  =    10268.5795551917     
  
  antenna # iant =            2
  powecha_use(iant) =    688457.339139046     
  ps_ts2 prof sum =   687973.160606125     
  trcom prof sum =    687973.160606125     
  ps_ts2 cur sum  =   12253.4847664431     
  trcom cur sum  =    12253.4847664431     
  
  antenna # iant =            3
  powecha_use(iant) =    501424.615902224     
  ps_ts2 prof sum =   501057.037461495     
  trcom prof sum =    501057.037461495     
  ps_ts2 cur sum  =   6499.50198980443     
  trcom cur sum  =    6499.50198980444     
  
  antenna # iant =            4
  powecha_use(iant) =    569102.269757551     
  ps_ts2 prof sum =   568690.095172979     
  trcom prof sum =    568690.095172979     
  ps_ts2 cur sum  =   9280.50241475082     
  trcom cur sum  =    9280.50241475081     
  
  antenna # iant =            5
  powecha_use(iant) =    552570.765319472     
  ps_ts2 prof sum =   552181.725004466     
  trcom prof sum =    552181.724989733     
  ps_ts2 cur sum  =   10760.4055554448     
  trcom cur sum  =    10760.4055554447     
  
  Total ECH heating:      2997189.49927339     
  Total Current Drive:    49062.4742816349     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    851
 TA= 1.16000E+00 CPU TIME= 1.60953E-01 SECONDS.  DT= 2.49182E-03
  
 TEC1=    1.16000000000000     
 TEC2=    1.16500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.98516944444395     
  %check_save_state: izleft hours =    78.0063888888889     
 --> plasma_hash("gframe"): TA= 1.160000E+00 NSTEP=   851 Hash code:   95304792
 ->PRGCHK: bdy curvature ratio at t= 1.1650E+00 seconds is:  5.3448E-02
% MHDEQ: TG1=     1.160000 ; TG2=     1.165000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3448E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.160000 TO TG2=    1.165000 @ NSTEP      851
   GFRAME TG2 MOMENTS CHECKSUM:  2.4552050970723D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.1650E+00  1.1700E+00 total power(Watts):  3.0068E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.16500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.348487E+02    0.338649E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.329779E+02    0.341544E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.342712E+02    0.323261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.365087E+02    0.325033E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.364828E+02    0.345775E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.343907E+02    0.355045E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.325197E+02    0.368987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.314304E+02    0.355634E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.312372E+02    0.338076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.319467E+02    0.321431E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.335310E+02    0.308421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.355363E+02    0.302856E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.373758E+02    0.306931E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.386156E+02    0.319179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134002E+03   -0.388299E+02    0.337165E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.379960E+02    0.355506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.363471E+02    0.368819E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.342290E+02    0.374470E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.324933E+02    0.398735E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.298916E+02    0.383071E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.286375E+02    0.355717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.289186E+02    0.325180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.308198E+02    0.298042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.337892E+02    0.281447E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.373403E+02    0.277585E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.402844E+02    0.290678E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133409E+03   -0.417669E+02    0.317462E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.413985E+02    0.350813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133802E+03   -0.392441E+02    0.380538E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.360347E+02    0.397216E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.353716E+02    0.252264E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.335935E+02    0.254892E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.347691E+02    0.237314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.369138E+02    0.238996E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.369241E+02    0.259321E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.347666E+02    0.270014E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.330951E+02    0.282554E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.319842E+02    0.270045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.317622E+02    0.252928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.325292E+02    0.235320E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.340939E+02    0.221772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.359994E+02    0.216467E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.379330E+02    0.218858E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.390963E+02    0.231445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.393435E+02    0.248985E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.385458E+02    0.267085E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.367369E+02    0.282348E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.348130E+02    0.287222E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.330337E+02    0.312176E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.304080E+02    0.297942E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.291145E+02    0.271896E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.295041E+02    0.239883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.313654E+02    0.212190E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.343962E+02    0.193752E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.377557E+02    0.190727E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.408106E+02    0.201644E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133612E+03   -0.423334E+02    0.227694E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133445E+03   -0.420316E+02    0.260297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.398415E+02    0.290501E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.365727E+02    0.308801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.351492E+02    0.393913E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.332633E+02    0.396191E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.344061E+02    0.379497E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.366476E+02    0.382192E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.366914E+02    0.402242E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.345788E+02    0.410729E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.326842E+02    0.423819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.315238E+02    0.410939E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.313488E+02    0.393593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.320779E+02    0.376904E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.335929E+02    0.364639E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.356977E+02    0.358810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.375392E+02    0.363739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.387682E+02    0.376944E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133722E+03   -0.389621E+02    0.395138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.381017E+02    0.412954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.365249E+02    0.425045E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.345717E+02    0.428742E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.327920E+02    0.453319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.300318E+02    0.437312E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.287269E+02    0.410362E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.290388E+02    0.379997E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.308904E+02    0.352970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.339698E+02    0.335627E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.375406E+02    0.332778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.404821E+02    0.347473E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132856E+03   -0.420392E+02    0.375518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132429E+03   -0.418308E+02    0.407728E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133190E+03   -0.395182E+02    0.437527E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.361771E+02    0.454203E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.93 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.350663E+02    0.298389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.331983E+02    0.301569E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.344756E+02    0.283555E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.365289E+02    0.286516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.367070E+02    0.304724E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.344453E+02    0.315654E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.327612E+02    0.327987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.316615E+02    0.315285E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.314550E+02    0.298486E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.321508E+02    0.282144E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.337238E+02    0.268761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.356327E+02    0.263672E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.375639E+02    0.266595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.386204E+02    0.280366E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.390448E+02    0.295951E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134252E+03   -0.382280E+02    0.313615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.364043E+02    0.328459E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.344745E+02    0.333073E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.327573E+02    0.357933E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.300614E+02    0.343244E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.287911E+02    0.316654E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.291294E+02    0.286240E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.310073E+02    0.258499E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.340484E+02    0.240278E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.374117E+02    0.237714E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134041E+03   -0.404534E+02    0.249546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133550E+03   -0.419580E+02    0.276369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133468E+03   -0.416230E+02    0.308388E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.394987E+02    0.337860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.361181E+02    0.356944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.352725E+02    0.190623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.334149E+02    0.194585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.346577E+02    0.175860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.367055E+02    0.178147E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.367368E+02    0.198203E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.346872E+02    0.208211E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.329463E+02    0.221840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.318281E+02    0.209781E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.316737E+02    0.191976E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.324206E+02    0.174206E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.339681E+02    0.160224E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.358621E+02    0.154554E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.376057E+02    0.158694E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.389618E+02    0.168955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.390369E+02    0.188419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.383584E+02    0.205192E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.365751E+02    0.220850E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.346639E+02    0.226131E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.329163E+02    0.251772E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.302826E+02    0.237859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.290451E+02    0.211168E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.294030E+02    0.179270E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.312395E+02    0.151054E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.342425E+02    0.132146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.376764E+02    0.127432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.405344E+02    0.139839E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133790E+03   -0.421794E+02    0.164492E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133759E+03   -0.418176E+02    0.197642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.396721E+02    0.228065E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.362575E+02    0.249274E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693620.321209809     
  ps_ts2 prof sum =   693166.050861494     
  trcom prof sum =    693166.050861494     
  ps_ts2 cur sum  =   10446.2070747228     
  trcom cur sum  =    10446.2070747228     
  
  antenna # iant =            2
  powecha_use(iant) =    692601.996998575     
  ps_ts2 prof sum =   692137.926672301     
  trcom prof sum =    692137.926672301     
  ps_ts2 cur sum  =   12426.4876417734     
  trcom cur sum  =    12426.4876417734     
  
  antenna # iant =            3
  powecha_use(iant) =    500094.549287981     
  ps_ts2 prof sum =   499751.589797113     
  trcom prof sum =    499751.589797113     
  ps_ts2 cur sum  =   6540.01678904355     
  trcom cur sum  =    6540.01678904355     
  
  antenna # iant =            4
  powecha_use(iant) =    568172.644434648     
  ps_ts2 prof sum =   567775.304044929     
  trcom prof sum =    567775.304044928     
  ps_ts2 cur sum  =   9343.68805988811     
  trcom cur sum  =    9343.68805988810     
  
  antenna # iant =            5
  powecha_use(iant) =    552311.681356426     
  ps_ts2 prof sum =   551947.206872877     
  trcom prof sum =    551947.206858395     
  ps_ts2 cur sum  =   10840.0012939133     
  trcom cur sum  =    10840.0012939133     
  
  Total ECH heating:      3004778.07823423     
  Total Current Drive:    49596.4008593411     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    853
 TA= 1.16500E+00 CPU TIME= 1.46419E-01 SECONDS.  DT= 3.13523E-03
  
 TEC1=    1.16500000000000     
 TEC2=    1.17000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    1.99818861111089     
  %check_save_state: izleft hours =    77.9933333333333     
 --> plasma_hash("gframe"): TA= 1.165000E+00 NSTEP=   853 Hash code:    9741865
 ->PRGCHK: bdy curvature ratio at t= 1.1700E+00 seconds is:  5.3415E-02
% MHDEQ: TG1=     1.165000 ; TG2=     1.170000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7635E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3415E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.165000 TO TG2=    1.170000 @ NSTEP      853
   GFRAME TG2 MOMENTS CHECKSUM:  2.4537859255765D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.84470E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.72320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.25795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.36843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.34571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.12509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -3.17197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.57400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.60418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.57244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.86246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.10025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.91561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.81213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.82012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -3.64293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.32011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  3.31811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.79850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.17841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.17841E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1700E+00  1.1750E+00 total power(Watts):  3.0084E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.17000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.348209E+02    0.339479E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.330381E+02    0.341590E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.342446E+02    0.324087E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.364812E+02    0.325872E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.363617E+02    0.347328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.342746E+02    0.356540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.324929E+02    0.369696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.314043E+02    0.356399E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.312127E+02    0.338893E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.320027E+02    0.321444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.335040E+02    0.309212E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.354179E+02    0.304481E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.373478E+02    0.307726E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.385863E+02    0.320030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.388005E+02    0.338008E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.379672E+02    0.356277E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.363175E+02    0.369535E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.343788E+02    0.373792E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.325508E+02    0.398707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.298663E+02    0.383724E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.286137E+02    0.356483E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.289712E+02    0.325173E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.307951E+02    0.298785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.337626E+02    0.282166E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.373123E+02    0.278305E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.402547E+02    0.291435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.417365E+02    0.318321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133279E+03   -0.414701E+02    0.350902E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133731E+03   -0.393136E+02    0.380554E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.360055E+02    0.397821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.353440E+02    0.253043E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.335677E+02    0.255667E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.348308E+02    0.237112E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.368863E+02    0.239781E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.368963E+02    0.260081E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.348284E+02    0.269830E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.330689E+02    0.283274E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.319592E+02    0.270777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.317386E+02    0.253704E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.325041E+02    0.236098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.340670E+02    0.222538E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.359721E+02    0.217220E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.379050E+02    0.219621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.389721E+02    0.233195E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.393146E+02    0.249771E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.385173E+02    0.267818E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.368950E+02    0.281298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.347841E+02    0.287966E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.330929E+02    0.312137E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.304635E+02    0.297810E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.291716E+02    0.271659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.294805E+02    0.240664E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.313431E+02    0.212930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.343700E+02    0.194463E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.379135E+02    0.189330E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.408758E+02    0.201405E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.423039E+02    0.228476E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133598E+03   -0.420019E+02    0.261041E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.398120E+02    0.291254E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.364515E+02    0.310436E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.351204E+02    0.394527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.331489E+02    0.397421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.343778E+02    0.380161E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.366186E+02    0.382850E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.366616E+02    0.402844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.345499E+02    0.411322E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.326562E+02    0.424429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.314963E+02    0.411523E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.313225E+02    0.394204E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.320506E+02    0.377580E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.336528E+02    0.364659E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.356701E+02    0.359557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.375098E+02    0.364471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.387340E+02    0.377650E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.389313E+02    0.395763E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.381684E+02    0.412986E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.364943E+02    0.425691E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.345417E+02    0.429396E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.326776E+02    0.454553E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.300039E+02    0.437981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.287028E+02    0.410934E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.290137E+02    0.380657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.309473E+02    0.352994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.339436E+02    0.336454E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.375119E+02    0.333625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133644E+03   -0.404511E+02    0.348293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133008E+03   -0.420080E+02    0.376211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132586E+03   -0.417985E+02    0.408351E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133343E+03   -0.394856E+02    0.438261E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.362354E+02    0.454554E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.350387E+02    0.299151E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.331716E+02    0.302333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.344486E+02    0.284275E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.366860E+02    0.285490E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.366787E+02    0.305517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.344177E+02    0.316469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.327354E+02    0.328819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.316358E+02    0.316094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.314298E+02    0.299233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.322087E+02    0.281958E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.336975E+02    0.269496E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.356056E+02    0.264418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.375358E+02    0.267331E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.387847E+02    0.279329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.390156E+02    0.296724E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.381997E+02    0.314437E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.365623E+02    0.327724E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.344479E+02    0.333903E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.327304E+02    0.358685E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.301171E+02    0.343269E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.288438E+02    0.316613E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.291023E+02    0.286999E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.309827E+02    0.259273E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.340226E+02    0.241063E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.373839E+02    0.238498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.404242E+02    0.250325E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.420306E+02    0.276223E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.415925E+02    0.309220E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.394690E+02    0.338704E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.360893E+02    0.357709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.352459E+02    0.191331E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.333911E+02    0.195299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.347143E+02    0.175501E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.367684E+02    0.177773E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.367091E+02    0.198922E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.346603E+02    0.208949E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.329207E+02    0.222602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.318843E+02    0.209474E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.316461E+02    0.192694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.323953E+02    0.174914E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.339414E+02    0.160891E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.358326E+02    0.155197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.376696E+02    0.158251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.388394E+02    0.170717E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.390081E+02    0.189119E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.383304E+02    0.205923E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.365473E+02    0.221614E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.346372E+02    0.226899E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.328905E+02    0.252558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.303370E+02    0.237641E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.290190E+02    0.211914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.293800E+02    0.179988E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.312930E+02    0.150544E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.342998E+02    0.131566E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.376495E+02    0.127984E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.406986E+02    0.138201E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.421503E+02    0.165168E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.417880E+02    0.198360E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.396445E+02    0.228832E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.362299E+02    0.250065E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692300.412004054     
  ps_ts2 prof sum =   691843.321774671     
  trcom prof sum =    691843.321774670     
  ps_ts2 cur sum  =   10516.3214958115     
  trcom cur sum  =    10516.3214958115     
  
  antenna # iant =            2
  powecha_use(iant) =    693423.223957782     
  ps_ts2 prof sum =   692964.581047000     
  trcom prof sum =    692964.581047000     
  ps_ts2 cur sum  =   12540.4445381324     
  trcom cur sum  =    12540.4445381324     
  
  antenna # iant =            3
  powecha_use(iant) =    503347.649393354     
  ps_ts2 prof sum =   502991.460306006     
  trcom prof sum =    502991.460306006     
  ps_ts2 cur sum  =   6643.11177022461     
  trcom cur sum  =    6643.11177022460     
  
  antenna # iant =            4
  powecha_use(iant) =    568278.972958455     
  ps_ts2 prof sum =   567900.170001908     
  trcom prof sum =    567900.170001907     
  ps_ts2 cur sum  =   9421.18614328519     
  trcom cur sum  =    9421.18614328519     
  
  antenna # iant =            5
  powecha_use(iant) =    551027.670235982     
  ps_ts2 prof sum =   550663.364188044     
  trcom prof sum =    550663.364174135     
  ps_ts2 cur sum  =   10898.6574385613     
  trcom cur sum  =    10898.6574385613     
  
  Total ECH heating:      3006362.89730372     
  Total Current Drive:    50019.7213860150     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    855
 TA= 1.17000E+00 CPU TIME= 1.60037E-01 SECONDS.  DT= 2.33096E-03
  
 TEC1=    1.17000000000000     
 TEC2=    1.17500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.01419972222175     
  %check_save_state: izleft hours =    77.9775000000000     
 --> plasma_hash("gframe"): TA= 1.170000E+00 NSTEP=   855 Hash code:   80038756
 ->PRGCHK: bdy curvature ratio at t= 1.1750E+00 seconds is:  5.3403E-02
% MHDEQ: TG1=     1.170000 ; TG2=     1.175000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3403E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.170000 TO TG2=    1.175000 @ NSTEP      855
   GFRAME TG2 MOMENTS CHECKSUM:  2.4523667540808D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1750E+00  1.1800E+00 total power(Watts):  3.0075E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.17500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.347928E+02    0.340307E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.330110E+02    0.342411E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.342164E+02    0.324925E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.364519E+02    0.326727E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.363328E+02    0.348141E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.342468E+02    0.357309E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.324676E+02    0.370400E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.313781E+02    0.357170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.311862E+02    0.339716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.319783E+02    0.322256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.334766E+02    0.310019E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.353899E+02    0.305271E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.372241E+02    0.309372E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.385569E+02    0.320877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.387708E+02    0.338850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.379376E+02    0.357050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.361957E+02    0.370943E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.342609E+02    0.375184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.325229E+02    0.399315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.299188E+02    0.383719E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.285885E+02    0.357246E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.289468E+02    0.325995E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.307689E+02    0.299538E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.338224E+02    0.281991E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.371895E+02    0.279927E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.402248E+02    0.292204E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.418086E+02    0.318394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133428E+03   -0.414389E+02    0.351708E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.392825E+02    0.381243E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.358834E+02    0.399055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.354066E+02    0.252871E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.335410E+02    0.256440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.348034E+02    0.237900E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.368601E+02    0.240552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.368678E+02    0.260836E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.348006E+02    0.270573E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.330420E+02    0.283997E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.319333E+02    0.271517E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.317953E+02    0.253517E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.325619E+02    0.235885E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.340404E+02    0.223304E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.359449E+02    0.217975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.377828E+02    0.221385E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.391360E+02    0.232037E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.391880E+02    0.251482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.384881E+02    0.268552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.368663E+02    0.282030E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.347580E+02    0.288684E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.330660E+02    0.312943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.304381E+02    0.298560E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.291439E+02    0.272433E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.294560E+02    0.241458E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.313989E+02    0.212633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.343435E+02    0.195179E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.377922E+02    0.191084E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.408464E+02    0.202130E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.423763E+02    0.228292E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.419719E+02    0.261777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.397819E+02    0.292028E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.364232E+02    0.311245E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.350911E+02    0.395158E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.331206E+02    0.398036E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.343495E+02    0.380849E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.364957E+02    0.384171E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.366313E+02    0.403457E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.345205E+02    0.411929E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.326275E+02    0.425053E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.315520E+02    0.411524E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.312955E+02    0.394828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.321080E+02    0.377589E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.336251E+02    0.365399E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.355495E+02    0.361030E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.374803E+02    0.365216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134113E+03   -0.387086E+02    0.378315E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.389006E+02    0.396385E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.381367E+02    0.413611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.364634E+02    0.426344E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.345118E+02    0.430051E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.326479E+02    0.455332E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.299773E+02    0.438651E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.286763E+02    0.411524E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.290671E+02    0.380643E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.309205E+02    0.353779E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.339159E+02    0.337288E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.374830E+02    0.334468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.404207E+02    0.349106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.419763E+02    0.376922E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132961E+03   -0.416627E+02    0.409547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.394529E+02    0.439004E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.362042E+02    0.455358E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.350105E+02    0.299916E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.332306E+02    0.302247E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.344207E+02    0.285007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.366575E+02    0.286228E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.365570E+02    0.307153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.344788E+02    0.316474E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.327082E+02    0.329654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.316098E+02    0.316906E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.314033E+02    0.299990E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.321823E+02    0.282679E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.336705E+02    0.270237E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.355775E+02    0.265169E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.374124E+02    0.268984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.387553E+02    0.280063E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.389886E+02    0.297487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.381695E+02    0.315288E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.365329E+02    0.328579E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.344200E+02    0.334744E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.327036E+02    0.359448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.300916E+02    0.344078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.288197E+02    0.317417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.291552E+02    0.286818E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.310383E+02    0.259081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.339955E+02    0.241853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.375419E+02    0.237349E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.404937E+02    0.250167E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.420000E+02    0.276959E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133554E+03   -0.416644E+02    0.309256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.394388E+02    0.339546E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.362452E+02    0.357045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.352180E+02    0.192039E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.334492E+02    0.194947E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.346894E+02    0.176183E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.367405E+02    0.178474E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.367724E+02    0.198597E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.346334E+02    0.209686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.328947E+02    0.223367E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.318595E+02    0.210213E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.317016E+02    0.192334E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.324489E+02    0.174524E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.339162E+02    0.161551E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.358943E+02    0.154753E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.376413E+02    0.158933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.388107E+02    0.171412E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.391701E+02    0.187725E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.382075E+02    0.207680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.366108E+02    0.221372E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.346981E+02    0.226672E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.329489E+02    0.252378E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.303162E+02    0.238387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.289200E+02    0.213709E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.293569E+02    0.180707E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.312691E+02    0.151201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.342742E+02    0.132159E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.376215E+02    0.128560E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.406692E+02    0.138813E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.422210E+02    0.164787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134074E+03   -0.417583E+02    0.199079E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.396158E+02    0.229610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.362964E+02    0.249865E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688439.451218237     
  ps_ts2 prof sum =   687937.652840727     
  trcom prof sum =    687937.652840726     
  ps_ts2 cur sum  =   10546.1934315926     
  trcom cur sum  =    10546.1934315926     
  
  antenna # iant =            2
  powecha_use(iant) =    693962.827908066     
  ps_ts2 prof sum =   693484.251780831     
  trcom prof sum =    693484.251780831     
  ps_ts2 cur sum  =   12650.3249740633     
  trcom cur sum  =    12650.3249740633     
  
  antenna # iant =            3
  powecha_use(iant) =    506368.836910233     
  ps_ts2 prof sum =   505991.368049144     
  trcom prof sum =    505991.368049145     
  ps_ts2 cur sum  =   6742.22903459629     
  trcom cur sum  =    6742.22903459629     
  
  antenna # iant =            4
  powecha_use(iant) =    566023.816795698     
  ps_ts2 prof sum =   565654.013444467     
  trcom prof sum =    565654.013444466     
  ps_ts2 cur sum  =   9462.54774779198     
  trcom cur sum  =    9462.54774779198     
  
  antenna # iant =            5
  powecha_use(iant) =    552656.068561198     
  ps_ts2 prof sum =   552296.058780646     
  trcom prof sum =    552296.058767273     
  ps_ts2 cur sum  =   11014.8033969597     
  trcom cur sum  =    11014.8033969597     
  
  Total ECH heating:      3005363.34488244     
  Total Current Drive:    50416.0985850039     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    857
 TA= 1.17500E+00 CPU TIME= 1.60558E-01 SECONDS.  DT= 3.33629E-03
  
 TEC1=    1.17500000000000     
 TEC2=    1.18000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.02649416666623     
  %check_save_state: izleft hours =    77.9650000000000     
 --> plasma_hash("gframe"): TA= 1.175000E+00 NSTEP=   857 Hash code:   12077321
 ->PRGCHK: bdy curvature ratio at t= 1.1800E+00 seconds is:  5.3414E-02
% MHDEQ: TG1=     1.175000 ; TG2=     1.180000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7657E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3414E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.175000 TO TG2=    1.180000 @ NSTEP      857
   GFRAME TG2 MOMENTS CHECKSUM:  2.4509475825850D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.11191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.58013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.96614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.55680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.01278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  5.03494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.20364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.05422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.26066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.84716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.35667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.46512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.58007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.43170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -2.74726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.62100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.70646E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.83182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.83584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.83584E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.1800E+00  1.1850E+00 total power(Watts):  3.0139E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.18000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.347654E+02    0.341143E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.329838E+02    0.343238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.342776E+02    0.324970E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.363309E+02    0.328369E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.364908E+02    0.347482E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.342195E+02    0.358110E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.325237E+02    0.370484E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.314354E+02    0.357227E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.312426E+02    0.339769E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.319527E+02    0.323087E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.334510E+02    0.310822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.353629E+02    0.306078E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.371923E+02    0.310234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.385283E+02    0.321738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.387418E+02    0.339702E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.379080E+02    0.357870E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.361666E+02    0.371727E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.342332E+02    0.375953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.324956E+02    0.400042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.298943E+02    0.384453E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.285656E+02    0.358029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.289236E+02    0.326822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.308263E+02    0.299437E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.337968E+02    0.282739E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.371624E+02    0.280671E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.401956E+02    0.293000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.417788E+02    0.319273E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133578E+03   -0.414087E+02    0.352541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.392527E+02    0.382030E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.360391E+02    0.398575E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.353803E+02    0.253652E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.335155E+02    0.257214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.347774E+02    0.238695E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.370164E+02    0.239429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.370272E+02    0.259737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.347747E+02    0.271315E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.330165E+02    0.284749E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.319914E+02    0.271337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.317708E+02    0.254302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.325366E+02    0.236678E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.340154E+02    0.224063E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.359178E+02    0.218726E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.377556E+02    0.222150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.391073E+02    0.232832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.393552E+02    0.250384E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.383646E+02    0.270203E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.367462E+02    0.283663E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.348212E+02    0.288555E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.330402E+02    0.313759E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.304142E+02    0.299330E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.291208E+02    0.273179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.295101E+02    0.241252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.313749E+02    0.213362E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.344037E+02    0.194811E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.377660E+02    0.191765E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.408184E+02    0.202842E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.423477E+02    0.229083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.419431E+02    0.262529E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.398523E+02    0.291958E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.363948E+02    0.312081E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.349720E+02    0.396520E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.330929E+02    0.398765E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.344998E+02    0.380286E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.366538E+02    0.383646E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.366028E+02    0.404192E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.344032E+02    0.413232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.325988E+02    0.425794E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.315247E+02    0.412241E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.313521E+02    0.394915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.320819E+02    0.378347E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.335960E+02    0.366189E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.355217E+02    0.361827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.375466E+02    0.365320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.386783E+02    0.379106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.389687E+02    0.396535E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.381059E+02    0.414373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.365265E+02    0.426572E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.343930E+02    0.431335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.326190E+02    0.456065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.300299E+02    0.438872E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.287283E+02    0.411632E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.290417E+02    0.381393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.308949E+02    0.354575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.338883E+02    0.338129E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.374546E+02    0.335321E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133942E+03   -0.403903E+02    0.349945E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133310E+03   -0.419449E+02    0.377729E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133112E+03   -0.416306E+02    0.410326E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.394208E+02    0.439800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.361734E+02    0.456114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.349843E+02    0.300705E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.332052E+02    0.303034E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.344835E+02    0.284860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.365377E+02    0.287861E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.365290E+02    0.307974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.344521E+02    0.317306E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.326814E+02    0.330499E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.315850E+02    0.317726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.314617E+02    0.299896E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.321577E+02    0.283427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.337318E+02    0.270060E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.355511E+02    0.265923E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.373854E+02    0.269730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.387277E+02    0.280813E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.389573E+02    0.298317E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.381413E+02    0.316139E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.364118E+02    0.330215E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.344814E+02    0.334803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.326756E+02    0.360250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.300661E+02    0.344897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.287969E+02    0.318231E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.291324E+02    0.287559E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.310142E+02    0.259854E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.339698E+02    0.242651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.374218E+02    0.239112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.404658E+02    0.250942E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.419708E+02    0.277714E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.416347E+02    0.310111E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.395091E+02    0.339651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.362174E+02    0.357853E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.352807E+02    0.191666E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.334251E+02    0.195642E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.346655E+02    0.176885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.367145E+02    0.179167E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.367461E+02    0.199291E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.346950E+02    0.209372E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.329545E+02    0.223107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.318350E+02    0.210936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.316820E+02    0.192995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.324263E+02    0.175217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.339734E+02    0.161195E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.358700E+02    0.155470E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.376157E+02    0.159649E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.387836E+02    0.172112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.391425E+02    0.188402E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.381799E+02    0.208401E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.365842E+02    0.222137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.346722E+02    0.227444E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.329241E+02    0.253159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.302884E+02    0.239220E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.290504E+02    0.212329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.292564E+02    0.182527E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.313237E+02    0.150775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.342467E+02    0.132826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.376867E+02    0.128066E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.405450E+02    0.140612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.421928E+02    0.165477E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.418308E+02    0.198765E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.394900E+02    0.231375E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.362667E+02    0.250678E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690893.699049607     
  ps_ts2 prof sum =   690405.692992534     
  trcom prof sum =    690405.692992533     
  ps_ts2 cur sum  =   10681.6684450389     
  trcom cur sum  =    10681.6684450389     
  
  antenna # iant =            2
  powecha_use(iant) =    696762.991881453     
  ps_ts2 prof sum =   696296.685118441     
  trcom prof sum =    696296.685118441     
  ps_ts2 cur sum  =   12809.2192832591     
  trcom cur sum  =    12809.2192832591     
  
  antenna # iant =            3
  powecha_use(iant) =    507706.392493178     
  ps_ts2 prof sum =   507332.821955469     
  trcom prof sum =    507332.821955469     
  ps_ts2 cur sum  =   6821.41708239434     
  trcom cur sum  =    6821.41708239434     
  
  antenna # iant =            4
  powecha_use(iant) =    565206.980351264     
  ps_ts2 prof sum =   564819.296343515     
  trcom prof sum =    564819.296343515     
  ps_ts2 cur sum  =   9532.77234714873     
  trcom cur sum  =    9532.77234714873     
  
  antenna # iant =            5
  powecha_use(iant) =    553334.011211512     
  ps_ts2 prof sum =   552962.702791016     
  trcom prof sum =    552962.702777917     
  ps_ts2 cur sum  =   11117.1196571079     
  trcom cur sum  =    11117.1196571079     
  
  Total ECH heating:      3011817.19918787     
  Total Current Drive:    50962.1968149489     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    859
 TA= 1.18000E+00 CPU TIME= 1.69725E-01 SECONDS.  DT= 2.07963E-03
  
 TEC1=    1.18000000000000     
 TEC2=    1.18500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.03845277777759     
  %check_save_state: izleft hours =    77.9530555555556     
 --> plasma_hash("gframe"): TA= 1.180000E+00 NSTEP=   859 Hash code:   49453368
 ->PRGCHK: bdy curvature ratio at t= 1.1850E+00 seconds is:  5.3447E-02
% MHDEQ: TG1=     1.180000 ; TG2=     1.185000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7668E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3447E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.180000 TO TG2=    1.185000 @ NSTEP      859
   GFRAME TG2 MOMENTS CHECKSUM:  2.4495284110892D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1850E+00  1.1900E+00 total power(Watts):  3.0116E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.18500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.348274E+02    0.341207E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.329568E+02    0.344060E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.342503E+02    0.325812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.363021E+02    0.329219E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.364618E+02    0.348314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.341912E+02    0.358910E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.324968E+02    0.371266E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.314087E+02    0.358020E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.312169E+02    0.340586E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.319261E+02    0.323923E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.335111E+02    0.310807E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.353336E+02    0.306906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.373560E+02    0.309394E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.384988E+02    0.322600E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.388102E+02    0.339794E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.379702E+02    0.358007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.363247E+02    0.371152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.342039E+02    0.376749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.324686E+02    0.400812E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.298690E+02    0.385231E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.286181E+02    0.358066E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.288995E+02    0.327652E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.308007E+02    0.300228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.337701E+02    0.283488E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.373224E+02    0.279645E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.402659E+02    0.292948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.417477E+02    0.320141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.413784E+02    0.353366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.392226E+02    0.382834E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.360104E+02    0.399362E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.353531E+02    0.254432E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.335755E+02    0.257040E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.348392E+02    0.238508E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.368959E+02    0.241184E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.369061E+02    0.261434E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.348368E+02    0.271147E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.330762E+02    0.284597E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.319663E+02    0.272086E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.317456E+02    0.255081E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.325110E+02    0.237471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.340758E+02    0.223802E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.359812E+02    0.218445E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.379155E+02    0.220906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.390797E+02    0.233626E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.393265E+02    0.251166E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.385285E+02    0.269145E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.367179E+02    0.284420E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.347938E+02    0.289320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.330997E+02    0.313759E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.304697E+02    0.299237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.291749E+02    0.272992E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.294872E+02    0.242048E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.313498E+02    0.214065E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.343779E+02    0.195446E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.377374E+02    0.192391E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.407894E+02    0.203519E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.423179E+02    0.229881E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.419131E+02    0.263289E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.398228E+02    0.292761E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.365527E+02    0.311275E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.349436E+02    0.397298E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.331526E+02    0.398918E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.343832E+02    0.381734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.366251E+02    0.384440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.366661E+02    0.404412E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.343736E+02    0.414030E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.326561E+02    0.426019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.314984E+02    0.413010E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.313261E+02    0.395679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.320540E+02    0.379134E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.335697E+02    0.366969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.356759E+02    0.361211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.375169E+02    0.366127E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.387466E+02    0.379263E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.389374E+02    0.397355E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.380748E+02    0.415188E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.364963E+02    0.427364E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.343637E+02    0.432101E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.327625E+02    0.455784E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.300035E+02    0.439593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.287040E+02    0.412388E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.290171E+02    0.382166E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.309507E+02    0.354631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.339450E+02    0.338223E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.373297E+02    0.336931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.403599E+02    0.350779E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.419129E+02    0.378566E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133261E+03   -0.415981E+02    0.411170E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133797E+03   -0.393885E+02    0.440576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.361425E+02    0.456772E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.15 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.350465E+02    0.300648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.331784E+02    0.303835E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.344563E+02    0.285616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.365094E+02    0.288629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.365002E+02    0.308807E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.344243E+02    0.318146E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.327402E+02    0.330539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.316422E+02    0.317725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.314361E+02    0.300684E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.322140E+02    0.283289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.337054E+02    0.270811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.356144E+02    0.265756E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.375460E+02    0.268662E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.386014E+02    0.282457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.388303E+02    0.299973E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.380157E+02    0.317802E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.363830E+02    0.331065E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.344536E+02    0.335647E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.327354E+02    0.360311E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.301212E+02    0.344940E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.287727E+02    0.319050E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.291083E+02    0.288308E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.309895E+02    0.260624E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.340306E+02    0.242466E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.373938E+02    0.239899E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.404379E+02    0.251711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.419409E+02    0.278478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.416041E+02    0.310973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.394779E+02    0.340504E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.360961E+02    0.359368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.352543E+02    0.192299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.333985E+02    0.196282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.347252E+02    0.176442E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.367784E+02    0.178721E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.367186E+02    0.199941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.346687E+02    0.210061E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.329288E+02    0.223856E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.318914E+02    0.210583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.316550E+02    0.193664E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.324022E+02    0.175900E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.339487E+02    0.161885E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.358428E+02    0.156166E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.376796E+02    0.159228E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.389450E+02    0.170591E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.390190E+02    0.190072E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.383412E+02    0.207049E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.365566E+02    0.222889E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.346451E+02    0.228210E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.328979E+02    0.253942E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.303437E+02    0.239010E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.290271E+02    0.213018E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.293848E+02    0.180977E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.312978E+02    0.151488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.343062E+02    0.132359E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.376584E+02    0.128747E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.407107E+02    0.139068E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.421641E+02    0.166099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.418016E+02    0.199425E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.396568E+02    0.230217E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.362390E+02    0.251464E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689848.856341814     
  ps_ts2 prof sum =   689391.621274943     
  trcom prof sum =    689391.621274942     
  ps_ts2 cur sum  =   10757.8677350060     
  trcom cur sum  =    10757.8677350059     
  
  antenna # iant =            2
  powecha_use(iant) =    698538.204637754     
  ps_ts2 prof sum =   698102.597682463     
  trcom prof sum =    698102.597682462     
  ps_ts2 cur sum  =   12948.5512601477     
  trcom cur sum  =    12948.5512601477     
  
  antenna # iant =            3
  powecha_use(iant) =    509089.944131392     
  ps_ts2 prof sum =   508723.403941591     
  trcom prof sum =    508723.403941591     
  ps_ts2 cur sum  =   6898.60423992824     
  trcom cur sum  =    6898.60423992824     
  
  antenna # iant =            4
  powecha_use(iant) =    563985.012298159     
  ps_ts2 prof sum =   563591.104489477     
  trcom prof sum =    563591.104489477     
  ps_ts2 cur sum  =   9592.96822500974     
  trcom cur sum  =    9592.96822500974     
  
  antenna # iant =            5
  powecha_use(iant) =    550111.369829081     
  ps_ts2 prof sum =   549776.117638796     
  trcom prof sum =    549776.117625824     
  ps_ts2 cur sum  =   11138.9807680223     
  trcom cur sum  =    11138.9807680223     
  
  Total ECH heating:      3009584.84501430     
  Total Current Drive:    51336.9722281140     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    862
 TA= 1.18500E+00 CPU TIME= 1.60735E-01 SECONDS.  DT= 4.01034E-04
  
 TEC1=    1.18500000000000     
 TEC2=    1.19000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.05019527777745     
  %check_save_state: izleft hours =    77.9413888888889     
 --> plasma_hash("gframe"): TA= 1.185000E+00 NSTEP=   862 Hash code:   37189379
 ->PRGCHK: bdy curvature ratio at t= 1.1900E+00 seconds is:  5.3248E-02
% MHDEQ: TG1=     1.185000 ; TG2=     1.190000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3248E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.185000 TO TG2=    1.190000 @ NSTEP      862
   GFRAME TG2 MOMENTS CHECKSUM:  2.4481092395935D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.12924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       3= -8.48385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.91581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -8.60923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.90238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.86217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.38793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.06032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  5.99870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -1.90484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.16764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.35955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.54299E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.46740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.56984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.54619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.02449E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.43069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.87651E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.64613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.64613E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1900E+00  1.1950E+00 total power(Watts):  3.0082E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.19000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.348003E+02    0.342100E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.330170E+02    0.344178E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.342234E+02    0.326711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.364609E+02    0.328552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.363407E+02    0.349930E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.342533E+02    0.359049E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.324703E+02    0.372122E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.313834E+02    0.358877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.311919E+02    0.341460E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.319851E+02    0.323998E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.334853E+02    0.311684E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.353991E+02    0.306927E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.373285E+02    0.310290E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.385675E+02    0.322720E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.387808E+02    0.340705E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.379457E+02    0.358864E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.362951E+02    0.372043E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.342667E+02    0.376933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.325257E+02    0.401071E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.298433E+02    0.386079E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.285941E+02    0.358915E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.289530E+02    0.327705E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.307766E+02    0.301052E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.338319E+02    0.283386E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.372013E+02    0.281337E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.402380E+02    0.293810E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.417187E+02    0.321069E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.413478E+02    0.354286E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.392908E+02    0.383109E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.358878E+02    0.400873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.354175E+02    0.254312E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.335510E+02    0.257863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.348139E+02    0.239370E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.368697E+02    0.242053E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.368796E+02    0.262243E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.348115E+02    0.271938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.330510E+02    0.285394E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.319420E+02    0.272878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.318047E+02    0.254949E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.325716E+02    0.237334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.340513E+02    0.224638E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.359557E+02    0.219265E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.377950E+02    0.222746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.389562E+02    0.235463E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.392017E+02    0.252932E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.384981E+02    0.269978E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.368783E+02    0.283461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.347679E+02    0.290132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.330741E+02    0.314634E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.304454E+02    0.300065E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.291524E+02    0.273780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.293877E+02    0.243898E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.314078E+02    0.213808E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.344412E+02    0.195100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.378056E+02    0.192052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.408619E+02    0.203277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.423934E+02    0.229786E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.419884E+02    0.263190E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.397949E+02    0.293612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.364323E+02    0.312986E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.350957E+02    0.396954E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.331237E+02    0.399796E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.343562E+02    0.382594E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.365949E+02    0.385339E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.366356E+02    0.405324E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.345237E+02    0.413770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.326276E+02    0.426879E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.315538E+02    0.413298E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.312983E+02    0.396544E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.321125E+02    0.379313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.336304E+02    0.367123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.355562E+02    0.362789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.374887E+02    0.367011E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.387160E+02    0.380172E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.389059E+02    0.398279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.381405E+02    0.415552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.364651E+02    0.428259E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.345136E+02    0.431918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.326459E+02    0.457000E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.299754E+02    0.440405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.286773E+02    0.413249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.290704E+02    0.382326E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.309258E+02    0.355488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.339221E+02    0.339072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.374927E+02    0.336312E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.404316E+02    0.350965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.419864E+02    0.378842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133407E+03   -0.415655E+02    0.412119E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.394548E+02    0.440967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.362025E+02    0.457122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.350202E+02    0.301500E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.332396E+02    0.303836E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.344302E+02    0.286416E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.366691E+02    0.287693E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.365668E+02    0.308857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.344922E+02    0.318169E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.327148E+02    0.331425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.316172E+02    0.318614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.314112E+02    0.301523E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.321915E+02    0.284061E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.336806E+02    0.271603E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.355887E+02    0.266555E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.374246E+02    0.270369E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.387686E+02    0.281504E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.389982E+02    0.299161E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.381805E+02    0.317098E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.363551E+02    0.331970E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.344264E+02    0.336536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.327090E+02    0.361167E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.300968E+02    0.345805E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.288265E+02    0.319088E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.291631E+02    0.288193E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.310475E+02    0.260485E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.340035E+02    0.243350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.373674E+02    0.240771E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.405092E+02    0.251619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.420158E+02    0.278416E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.415754E+02    0.311894E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.394491E+02    0.341409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.360673E+02    0.360246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.352299E+02    0.193010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.334595E+02    0.195939E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.347014E+02    0.177156E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.367535E+02    0.179426E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.367853E+02    0.199634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.347323E+02    0.209803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.329894E+02    0.223670E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.318685E+02    0.211359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.317137E+02    0.193303E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.324610E+02    0.175522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.340105E+02    0.161533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.359078E+02    0.155827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.376588E+02    0.159938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.388251E+02    0.172380E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.391851E+02    0.188685E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.382201E+02    0.208854E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.366222E+02    0.222721E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.347129E+02    0.228027E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.329588E+02    0.253816E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.303214E+02    0.239870E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.289303E+02    0.214848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.292882E+02    0.182803E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.312768E+02    0.152290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.342848E+02    0.133155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.376336E+02    0.129536E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.406854E+02    0.139857E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.422389E+02    0.165738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.417749E+02    0.200173E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.396301E+02    0.231085E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.363049E+02    0.251348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689996.363673193     
  ps_ts2 prof sum =   689541.795863918     
  trcom prof sum =    689541.795863917     
  ps_ts2 cur sum  =   10851.8185435370     
  trcom cur sum  =    10851.8185435370     
  
  antenna # iant =            2
  powecha_use(iant) =    694849.985346525     
  ps_ts2 prof sum =   694380.115671694     
  trcom prof sum =    694380.115671694     
  ps_ts2 cur sum  =   12994.7023057618     
  trcom cur sum  =    12994.7023057618     
  
  antenna # iant =            3
  powecha_use(iant) =    508751.445836169     
  ps_ts2 prof sum =   508415.180886244     
  trcom prof sum =    508415.180886244     
  ps_ts2 cur sum  =   6949.13704668655     
  trcom cur sum  =    6949.13704668654     
  
  antenna # iant =            4
  powecha_use(iant) =    563106.008297449     
  ps_ts2 prof sum =   562736.083309057     
  trcom prof sum =    562736.083309056     
  ps_ts2 cur sum  =   9663.87761046782     
  trcom cur sum  =    9663.87761046783     
  
  antenna # iant =            5
  powecha_use(iant) =    551485.853071073     
  ps_ts2 prof sum =   551136.161149814     
  trcom prof sum =    551136.161135901     
  ps_ts2 cur sum  =   11264.2018971066     
  trcom cur sum  =    11264.2018971066     
  
  Total ECH heating:      3006209.33686681     
  Total Current Drive:    51723.7374035597     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    869
 TA= 1.19000E+00 CPU TIME= 1.59036E-01 SECONDS.  DT= 6.06059E-04
  
 TEC1=    1.19000000000000     
 TEC2=    1.19500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.06562305555531     
  %check_save_state: izleft hours =    77.9258333333333     
 --> plasma_hash("gframe"): TA= 1.190000E+00 NSTEP=   869 Hash code:  107331276
 ->PRGCHK: bdy curvature ratio at t= 1.1950E+00 seconds is:  5.3065E-02
% MHDEQ: TG1=     1.190000 ; TG2=     1.195000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0670E-03 SECONDS
   DATA R*BT AT EDGE:  2.7689E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3065E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.190000 TO TG2=    1.195000 @ NSTEP      869
   GFRAME TG2 MOMENTS CHECKSUM:  2.4466900680977D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.1950E+00  1.2000E+00 total power(Watts):  3.0107E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.19500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.347747E+02    0.342978E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.329923E+02    0.345045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.341983E+02    0.327609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.363418E+02    0.330237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.363132E+02    0.350812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.342267E+02    0.359912E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.325297E+02    0.372289E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.314418E+02    0.358993E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.312509E+02    0.341555E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.319610E+02    0.324891E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.334606E+02    0.312574E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.353734E+02    0.307822E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.372074E+02    0.312027E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.385411E+02    0.323645E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.387531E+02    0.341606E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.379181E+02    0.359746E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.361743E+02    0.373601E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.342393E+02    0.377807E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.324985E+02    0.402001E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.298986E+02    0.386279E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.285719E+02    0.359750E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.289312E+02    0.328591E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.308356E+02    0.301029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.338080E+02    0.284188E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.371755E+02    0.282144E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.402110E+02    0.294689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133875E+03   -0.417939E+02    0.321231E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.414216E+02    0.354487E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.392559E+02    0.384075E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.358586E+02    0.401830E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.353938E+02    0.255142E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.335275E+02    0.258684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.347903E+02    0.240240E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.370316E+02    0.240983E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.368548E+02    0.263054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.347871E+02    0.272732E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.330274E+02    0.286198E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.320030E+02    0.272738E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.317823E+02    0.255781E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.325485E+02    0.238211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.341136E+02    0.224507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.360219E+02    0.219107E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.377694E+02    0.223625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.391250E+02    0.234404E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.391763E+02    0.253766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.383793E+02    0.271642E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.367591E+02    0.285160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.348328E+02    0.290076E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.330495E+02    0.315533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.304232E+02    0.300909E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.291311E+02    0.274566E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.295215E+02    0.242773E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.313863E+02    0.214616E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.344178E+02    0.195829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.377811E+02    0.192775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.408371E+02    0.204068E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.423676E+02    0.230674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.419618E+02    0.264000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.398682E+02    0.293635E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.364066E+02    0.313892E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.349763E+02    0.398513E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.330961E+02    0.400726E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.343267E+02    0.383491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.364724E+02    0.386890E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.366087E+02    0.406295E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.344049E+02    0.415334E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.325997E+02    0.427856E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.315266E+02    0.414257E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.313551E+02    0.396817E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.320864E+02    0.380172E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.336044E+02    0.367980E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.355284E+02    0.363661E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.374599E+02    0.367899E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.386868E+02    0.381087E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.389741E+02    0.398665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.381094E+02    0.416586E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.364342E+02    0.429277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.343930E+02    0.433433E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.326159E+02    0.457874E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.299480E+02    0.441332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.287297E+02    0.413587E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.290462E+02    0.383179E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.309016E+02    0.356333E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.338973E+02    0.339957E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.374658E+02    0.337213E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.404028E+02    0.351869E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133536E+03   -0.419556E+02    0.379789E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133551E+03   -0.415332E+02    0.413179E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133865E+03   -0.394215E+02    0.441984E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.361677E+02    0.458035E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.349962E+02    0.302359E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.332152E+02    0.304709E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.344950E+02    0.286340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.365504E+02    0.289399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.365411E+02    0.309753E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.344623E+02    0.319117E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.326906E+02    0.332316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.315934E+02    0.319496E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.314712E+02    0.301505E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.321684E+02    0.284855E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.337439E+02    0.271472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.355641E+02    0.267355E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.373982E+02    0.271172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.387426E+02    0.282321E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.389716E+02    0.300057E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.381537E+02    0.318017E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.365163E+02    0.331308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.344015E+02    0.337428E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.326840E+02    0.362016E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.300736E+02    0.346661E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.288045E+02    0.319969E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.291414E+02    0.288990E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.310254E+02    0.261303E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.339824E+02    0.244186E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.374368E+02    0.240672E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.404836E+02    0.252451E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.419886E+02    0.279244E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.416507E+02    0.312029E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.394212E+02    0.342312E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.362263E+02    0.359690E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.352952E+02    0.192662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.334374E+02    0.196655E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.347654E+02    0.176765E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.368214E+02    0.179044E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.367608E+02    0.200389E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.347104E+02    0.210588E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.329665E+02    0.224534E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.318467E+02    0.212155E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.316921E+02    0.194018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.324397E+02    0.176230E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.339886E+02    0.162274E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.358848E+02    0.156583E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.376318E+02    0.160711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.389914E+02    0.170914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.390642E+02    0.190451E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.381953E+02    0.209667E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.365980E+02    0.223593E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.346849E+02    0.228941E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.329358E+02    0.254651E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.302999E+02    0.240744E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.290612E+02    0.213540E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.294210E+02    0.181294E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.313381E+02    0.151924E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.343478E+02    0.132792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.377008E+02    0.129190E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.405651E+02    0.141755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.422143E+02    0.166424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.418507E+02    0.199945E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.395068E+02    0.232943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.362808E+02    0.252188E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691517.790739335     
  ps_ts2 prof sum =   691039.967980133     
  trcom prof sum =    691039.967980133     
  ps_ts2 cur sum  =   10977.4764869891     
  trcom cur sum  =    10977.4764869891     
  
  antenna # iant =            2
  powecha_use(iant) =    693990.636259200     
  ps_ts2 prof sum =   693533.059668612     
  trcom prof sum =    693533.059668611     
  ps_ts2 cur sum  =   13102.6681451509     
  trcom cur sum  =    13102.6681451509     
  
  antenna # iant =            3
  powecha_use(iant) =    510852.457892000     
  ps_ts2 prof sum =   510482.857772266     
  trcom prof sum =    510482.857772266     
  ps_ts2 cur sum  =   7038.39410368868     
  trcom cur sum  =    7038.39410368868     
  
  antenna # iant =            4
  powecha_use(iant) =    562523.469591766     
  ps_ts2 prof sum =   562159.546663885     
  trcom prof sum =    562159.546663884     
  ps_ts2 cur sum  =   9746.37008949685     
  trcom cur sum  =    9746.37008949685     
  
  antenna # iant =            5
  powecha_use(iant) =    551851.265993854     
  ps_ts2 prof sum =   551513.736075680     
  trcom prof sum =    551513.736061229     
  ps_ts2 cur sum  =   11377.1927855393     
  trcom cur sum  =    11377.1927855393     
  
  Total ECH heating:      3008729.16814612     
  Total Current Drive:    52242.1016108648     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    875
 TA= 1.19500E+00 CPU TIME= 1.59836E-01 SECONDS.  DT= 3.25724E-05
  
 TEC1=    1.19500000000000     
 TEC2=    1.20000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.08152166666628     
  %check_save_state: izleft hours =    77.9100000000000     
 --> plasma_hash("gframe"): TA= 1.195000E+00 NSTEP=   875 Hash code:  105573234
 ->PRGCHK: bdy curvature ratio at t= 1.2000E+00 seconds is:  5.2902E-02
% MHDEQ: TG1=     1.195000 ; TG2=     1.200000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7700E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2902E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.195000 TO TG2=    1.200000 @ NSTEP      875
   GFRAME TG2 MOMENTS CHECKSUM:  2.4452708966019D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.20757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.39040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.80652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.34857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.04225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.63553E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.72091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.28107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -1.72636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  7.82246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.11848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.40613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.46888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.45952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.01719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  4.79175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.10804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.40293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.13684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.91843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.92346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.92346E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.2000E+00  1.2050E+00 total power(Watts):  3.0185E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.20000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.348378E+02    0.343106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.329659E+02    0.345916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.342611E+02    0.327709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.363140E+02    0.331152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.364728E+02    0.350221E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.341990E+02    0.360772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.325032E+02    0.373140E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.314162E+02    0.359841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.312255E+02    0.342426E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.320203E+02    0.324972E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.335222E+02    0.312641E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.354378E+02    0.307888E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.371800E+02    0.312936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.385126E+02    0.324574E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.387243E+02    0.342508E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.377912E+02    0.361332E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.361452E+02    0.374474E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.342112E+02    0.378675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.324703E+02    0.402932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.298729E+02    0.387136E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.286270E+02    0.359826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.288302E+02    0.330287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.308112E+02    0.301893E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.337821E+02    0.284994E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.373378E+02    0.281181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.402833E+02    0.294734E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.417645E+02    0.322172E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.413914E+02    0.355387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.392301E+02    0.384977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.360141E+02    0.401594E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.24 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.353687E+02    0.255969E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.335901E+02    0.258552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.348550E+02    0.240154E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.369127E+02    0.242835E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.369258E+02    0.262897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.348505E+02    0.272611E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.330881E+02    0.286111E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.319791E+02    0.273530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.318418E+02    0.255654E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.325255E+02    0.239110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.340902E+02    0.225400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.359966E+02    0.220000E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.379335E+02    0.222542E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.390011E+02    0.236281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.393450E+02    0.252730E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.383519E+02    0.272446E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.367322E+02    0.285983E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.348067E+02    0.290912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.331089E+02    0.315621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.304798E+02    0.300897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.291858E+02    0.274419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.294991E+02    0.243661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.314447E+02    0.214416E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.343948E+02    0.196548E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.378493E+02    0.192450E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.407095E+02    0.205939E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.423396E+02    0.231591E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.420369E+02    0.263904E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.398399E+02    0.294525E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.365661E+02    0.313161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.349468E+02    0.399452E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.331547E+02    0.401046E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.343880E+02    0.383718E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.366307E+02    0.386531E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.364809E+02    0.407880E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.343747E+02    0.416317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.326558E+02    0.428286E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.314988E+02    0.415208E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.313280E+02    0.397726E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.320597E+02    0.381029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.335769E+02    0.368837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.355004E+02    0.364517E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.375268E+02    0.368095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.386563E+02    0.382001E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.389426E+02    0.399654E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.380776E+02    0.417610E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.364964E+02    0.429759E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.343622E+02    0.434402E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.325845E+02    0.458734E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.300007E+02    0.441725E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.287038E+02    0.414523E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.290209E+02    0.384024E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.309589E+02    0.356444E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.339590E+02    0.340070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.373416E+02    0.338878E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.403729E+02    0.352763E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133684E+03   -0.419237E+02    0.380731E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133475E+03   -0.416028E+02    0.413696E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.393883E+02    0.442962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.361375E+02    0.458923E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.350592E+02    0.302399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.331898E+02    0.305586E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.344697E+02    0.287150E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.365233E+02    0.290240E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.365135E+02    0.310666E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.344359E+02    0.320023E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.327505E+02    0.332418E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.316519E+02    0.319568E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.314464E+02    0.302373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.322274E+02    0.284765E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.337191E+02    0.272266E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.356295E+02    0.267232E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.375619E+02    0.270144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.386174E+02    0.284028E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.388457E+02    0.301797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.381260E+02    0.318942E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.363948E+02    0.333000E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.344641E+02    0.337543E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.327432E+02    0.362149E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.301291E+02    0.346760E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.287042E+02    0.321693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.290408E+02    0.290703E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.310837E+02    0.261165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.340448E+02    0.244092E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.374109E+02    0.241560E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.404561E+02    0.253284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.419605E+02    0.280077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.416213E+02    0.312974E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.394918E+02    0.342475E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.361043E+02    0.361277E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.352703E+02    0.193381E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.334983E+02    0.196325E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.347411E+02    0.177448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.367965E+02    0.179726E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.367355E+02    0.201161E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.346840E+02    0.211442E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.329444E+02    0.225413E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.319049E+02    0.211941E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.317498E+02    0.193659E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.324989E+02    0.175812E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.339651E+02    0.162989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.358612E+02    0.157305E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.376990E+02    0.160317E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.388708E+02    0.172671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.390382E+02    0.191172E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.383589E+02    0.208474E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.365726E+02    0.224506E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.346601E+02    0.229853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.329117E+02    0.255488E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.303572E+02    0.240636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.289620E+02    0.215427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.293234E+02    0.183096E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.313155E+02    0.152703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.343249E+02    0.133596E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.376781E+02    0.129978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.407342E+02    0.140286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.421845E+02    0.167134E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.418228E+02    0.200779E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.396761E+02    0.231912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.362553E+02    0.253024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695276.002450860     
  ps_ts2 prof sum =   694800.246978496     
  trcom prof sum =    694800.246978495     
  ps_ts2 cur sum  =   11130.8197010034     
  trcom cur sum  =    11130.8197010034     
  
  antenna # iant =            2
  powecha_use(iant) =    696216.098483879     
  ps_ts2 prof sum =   695779.270222116     
  trcom prof sum =    695779.270222116     
  ps_ts2 cur sum  =   13259.9434244824     
  trcom cur sum  =    13259.9434244824     
  
  antenna # iant =            3
  powecha_use(iant) =    511796.501025367     
  ps_ts2 prof sum =   511425.966699170     
  trcom prof sum =    511425.966699170     
  ps_ts2 cur sum  =   7108.22192133668     
  trcom cur sum  =    7108.22192133668     
  
  antenna # iant =            4
  powecha_use(iant) =    563368.794071659     
  ps_ts2 prof sum =   562977.207948861     
  trcom prof sum =    562977.207948860     
  ps_ts2 cur sum  =   9844.04690033633     
  trcom cur sum  =    9844.04690033633     
  
  antenna # iant =            5
  powecha_use(iant) =    551819.088440977     
  ps_ts2 prof sum =   551458.323622952     
  trcom prof sum =    551458.323607718     
  ps_ts2 cur sum  =   11476.7372467374     
  trcom cur sum  =    11476.7372467374     
  
  Total ECH heating:      3016441.01545636     
  Total Current Drive:    52819.7691938963     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    892
 TA= 1.20000E+00 CPU TIME= 1.60223E-01 SECONDS.  DT= 6.26844E-04
  
 TEC1=    1.20000000000000     
 TEC2=    1.20500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.09682444444411     
  %check_save_state: izleft hours =    77.8947222222222     
 --> plasma_hash("gframe"): TA= 1.200000E+00 NSTEP=   892 Hash code:   81178873
 ->PRGCHK: bdy curvature ratio at t= 1.2050E+00 seconds is:  5.2761E-02
% MHDEQ: TG1=     1.200000 ; TG2=     1.205000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7711E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2761E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.200000 TO TG2=    1.205000 @ NSTEP      892
   GFRAME TG2 MOMENTS CHECKSUM:  2.4438517251062D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2050E+00  1.2100E+00 total power(Watts):  3.0088E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.20500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.348119E+02    0.343998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.330276E+02    0.346045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.342359E+02    0.328624E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.362875E+02    0.332067E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.364461E+02    0.351112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.342626E+02    0.360923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.324814E+02    0.373963E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.313919E+02    0.360692E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.312019E+02    0.343309E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.319964E+02    0.325882E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.334978E+02    0.313557E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.354130E+02    0.308796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.373441E+02    0.312224E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.383884E+02    0.326292E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.387955E+02    0.342677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.379579E+02    0.360813E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.363047E+02    0.374009E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.341840E+02    0.379548E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.325294E+02    0.403279E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.298479E+02    0.388015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.286021E+02    0.360693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.289636E+02    0.329560E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.307884E+02    0.302756E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.338464E+02    0.284878E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.372177E+02    0.282855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.402567E+02    0.295631E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.417370E+02    0.323126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.413628E+02    0.356294E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.392004E+02    0.385923E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.359850E+02    0.402589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.354349E+02    0.255736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.335668E+02    0.259261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.348314E+02    0.240902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.368884E+02    0.243569E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.368973E+02    0.263638E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.348267E+02    0.273333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.330647E+02    0.286894E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.319558E+02    0.274248E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.318198E+02    0.256360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.325870E+02    0.238879E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.340673E+02    0.226208E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.359732E+02    0.220822E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.378146E+02    0.224346E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.389768E+02    0.237028E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.393202E+02    0.253437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.385205E+02    0.271371E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.367073E+02    0.286784E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.347821E+02    0.291737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.330863E+02    0.316519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.304572E+02    0.301756E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.291652E+02    0.275134E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.294009E+02    0.245402E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.314235E+02    0.215237E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.344584E+02    0.196306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.378254E+02    0.193254E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.408850E+02    0.204731E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.423147E+02    0.232340E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.420078E+02    0.264652E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.398110E+02    0.295431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.364466E+02    0.314908E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.349186E+02    0.400414E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.331276E+02    0.402000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.343606E+02    0.384612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.366024E+02    0.387459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.364515E+02    0.408885E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.343458E+02    0.417312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.326278E+02    0.429262E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.314718E+02    0.416183E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.313017E+02    0.398653E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.321189E+02    0.381230E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.336390E+02    0.369001E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.356587E+02    0.363991E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.374991E+02    0.368977E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.387262E+02    0.382283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.389126E+02    0.400669E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.380468E+02    0.418651E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.364658E+02    0.430774E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.343322E+02    0.435372E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.326412E+02    0.459148E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.299737E+02    0.442617E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.286793E+02    0.415470E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.290761E+02    0.384212E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.309345E+02    0.357304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.339338E+02    0.340970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.373152E+02    0.339785E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.404468E+02    0.352956E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.418935E+02    0.381682E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133619E+03   -0.415708E+02    0.414780E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.393553E+02    0.443943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.361058E+02    0.459813E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.350341E+02    0.303295E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.332520E+02    0.305624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.344426E+02    0.287977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.364979E+02    0.291071E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.366754E+02    0.309931E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.345002E+02    0.320133E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.327257E+02    0.333324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.316299E+02    0.320467E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.314233E+02    0.303242E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.322046E+02    0.285534E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.336950E+02    0.272985E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.356048E+02    0.267939E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.374424E+02    0.271779E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.385915E+02    0.284832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.388191E+02    0.302707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.380025E+02    0.320686E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.363729E+02    0.333873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.344385E+02    0.338449E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.327180E+02    0.363007E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.301062E+02    0.347627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.288371E+02    0.320920E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.291746E+02    0.289684E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.310620E+02    0.261867E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.340225E+02    0.244827E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.373878E+02    0.242283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.404310E+02    0.253990E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.419337E+02    0.280885E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.415941E+02    0.313924E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.394643E+02    0.343390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.360776E+02    0.362151E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.352479E+02    0.194184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.334752E+02    0.197144E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.347197E+02    0.178250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.367729E+02    0.180524E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.368037E+02    0.200930E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.347490E+02    0.211229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.330051E+02    0.225230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.318842E+02    0.212761E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.317292E+02    0.194459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.324787E+02    0.176620E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.340297E+02    0.162690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.359281E+02    0.157016E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.376768E+02    0.161133E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.388466E+02    0.173471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.392065E+02    0.189875E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.382401E+02    0.210318E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.366409E+02    0.224310E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.347257E+02    0.229643E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.329745E+02    0.255236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.303355E+02    0.241393E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.289432E+02    0.216249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.293044E+02    0.183902E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.312164E+02    0.154685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.343036E+02    0.134422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.377468E+02    0.129648E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.407106E+02    0.141113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.422651E+02    0.166825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.417984E+02    0.201601E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.396520E+02    0.232669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.362306E+02    0.253742E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      19.33 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686342.358818663     
  ps_ts2 prof sum =   685917.080524676     
  trcom prof sum =    685917.080524675     
  ps_ts2 cur sum  =   11090.7494051647     
  trcom cur sum  =    11090.7494051647     
  
  antenna # iant =            2
  powecha_use(iant) =    695919.729302418     
  ps_ts2 prof sum =   695472.032973740     
  trcom prof sum =    695472.032973740     
  ps_ts2 cur sum  =   13380.4180912176     
  trcom cur sum  =    13380.4180912176     
  
  antenna # iant =            3
  powecha_use(iant) =    513290.915716001     
  ps_ts2 prof sum =   512936.659729065     
  trcom prof sum =    512936.659729065     
  ps_ts2 cur sum  =   7194.04572824597     
  trcom cur sum  =    7194.04572824597     
  
  antenna # iant =            4
  powecha_use(iant) =    560578.857190649     
  ps_ts2 prof sum =   560204.377308951     
  trcom prof sum =    560204.377308951     
  ps_ts2 cur sum  =   9888.44954455106     
  trcom cur sum  =    9888.44954455105     
  
  antenna # iant =            5
  powecha_use(iant) =    552675.363452136     
  ps_ts2 prof sum =   552327.957905038     
  trcom prof sum =    552327.957889430     
  ps_ts2 cur sum  =   11602.3415698818     
  trcom cur sum  =    11602.3415698818     
  
  Total ECH heating:      3006858.10842586     
  Total Current Drive:    53156.0043390612     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    897
 TA= 1.20500E+00 CPU TIME= 1.59538E-01 SECONDS.  DT= 1.73232E-03
  
 TEC1=    1.20500000000000     
 TEC2=    1.21000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.11529277777731     
  %check_save_state: izleft hours =    77.8763888888889     
 --> plasma_hash("gframe"): TA= 1.205000E+00 NSTEP=   897 Hash code:  111333928
 ->PRGCHK: bdy curvature ratio at t= 1.2100E+00 seconds is:  5.2634E-02
% MHDEQ: TG1=     1.205000 ; TG2=     1.210000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7713E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2634E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.205000 TO TG2=    1.210000 @ NSTEP      897
   GFRAME TG2 MOMENTS CHECKSUM:  2.4448866885191D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.99651E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.60188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.37275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.16487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.13386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.65929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.48806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.75677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       6=  3.57028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  7.94797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.52949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.86426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.80071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.46739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.34137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  2.94898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11= -1.66997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.46815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.40533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.83427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.80164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.80164E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2100E+00  1.2150E+00 total power(Watts):  2.9972E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.21000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.348214E+02    0.344744E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.330371E+02    0.346793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.342463E+02    0.329308E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.364854E+02    0.331230E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.363616E+02    0.352648E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.342709E+02    0.361758E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.324851E+02    0.374870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.314003E+02    0.361495E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.312941E+02    0.343259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.320071E+02    0.326543E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.335081E+02    0.314211E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.354241E+02    0.309449E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.372599E+02    0.313720E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.385901E+02    0.325472E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.388051E+02    0.343473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.379661E+02    0.361702E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.362186E+02    0.375606E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.342812E+02    0.379790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.325354E+02    0.404133E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.299357E+02    0.388219E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.286109E+02    0.361469E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.289735E+02    0.330208E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.308814E+02    0.302538E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.338585E+02    0.285592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.372303E+02    0.283588E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.402687E+02    0.296330E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.418521E+02    0.323084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133974E+03   -0.414749E+02    0.356503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.393071E+02    0.386261E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.358978E+02    0.404074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.354471E+02    0.256469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.335783E+02    0.259992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.348430E+02    0.241563E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.369004E+02    0.244257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.369097E+02    0.264398E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.348388E+02    0.274083E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.330767E+02    0.287600E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.320516E+02    0.274058E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.318313E+02    0.257072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.325983E+02    0.239517E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.341665E+02    0.225779E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.360764E+02    0.220381E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.378269E+02    0.224947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.391835E+02    0.235768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.392348E+02    0.255128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.385329E+02    0.272142E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.368127E+02    0.286625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.348837E+02    0.291553E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.331003E+02    0.317137E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.304684E+02    0.302405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.291762E+02    0.275856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.295680E+02    0.244050E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.314341E+02    0.215797E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.344695E+02    0.196894E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.378373E+02    0.193852E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.408956E+02    0.205335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.424314E+02    0.232070E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.420241E+02    0.265421E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.398253E+02    0.296113E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.364574E+02    0.315578E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.349247E+02    0.401301E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.331336E+02    0.402863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.343677E+02    0.385521E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.366094E+02    0.388393E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.366451E+02    0.408626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.343505E+02    0.418165E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.326312E+02    0.430114E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.315610E+02    0.416431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.313918E+02    0.398886E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.321262E+02    0.382118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.336470E+02    0.369871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.355740E+02    0.365561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.375070E+02    0.369907E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.387289E+02    0.383281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.389182E+02    0.401602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.381485E+02    0.419015E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.364697E+02    0.431679E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.345160E+02    0.435256E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.326431E+02    0.460134E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.299772E+02    0.443500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.287639E+02    0.415677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.290832E+02    0.385073E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.309438E+02    0.358084E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.339435E+02    0.341700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.375165E+02    0.339028E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.404555E+02    0.353835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133694E+03   -0.420049E+02    0.382062E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.415753E+02    0.415722E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.394572E+02    0.444500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.362004E+02    0.460430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.350459E+02    0.303958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.332636E+02    0.306279E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.345462E+02    0.287776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.366034E+02    0.290901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.365924E+02    0.311428E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.345107E+02    0.320793E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.327359E+02    0.334008E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.316392E+02    0.321124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.315174E+02    0.303026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.322157E+02    0.286244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.337946E+02    0.272808E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.356171E+02    0.268695E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.374547E+02    0.272543E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.387996E+02    0.283811E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.390274E+02    0.301716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.382075E+02    0.319777E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.363785E+02    0.334633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.344483E+02    0.339166E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.327263E+02    0.363834E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.301183E+02    0.348327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.288467E+02    0.321551E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.291855E+02    0.290366E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.310725E+02    0.262596E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.340340E+02    0.245500E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.374930E+02    0.242016E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.405443E+02    0.253828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.420479E+02    0.280797E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.416056E+02    0.314628E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.394740E+02    0.344195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.360858E+02    0.363012E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.353480E+02    0.193713E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.334873E+02    0.197718E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.348182E+02    0.177740E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.368759E+02    0.180034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.368156E+02    0.201518E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.347607E+02    0.211797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.330167E+02    0.225803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.318950E+02    0.213320E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.317405E+02    0.195039E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.324891E+02    0.177189E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.340397E+02    0.163236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.359383E+02    0.157553E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.376874E+02    0.161690E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.388581E+02    0.174062E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.391223E+02    0.191527E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.382523E+02    0.210895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.366531E+02    0.224904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.347376E+02    0.230250E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.329860E+02    0.255951E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.303472E+02    0.242025E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.291067E+02    0.214690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.294671E+02    0.182250E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.313853E+02    0.152896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.343997E+02    0.133766E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.377576E+02    0.130165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.406248E+02    0.142752E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.422775E+02    0.167419E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.419132E+02    0.201171E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.396644E+02    0.233335E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.363353E+02    0.253522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.34 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681467.347074355     
  ps_ts2 prof sum =   681034.385709591     
  trcom prof sum =    681034.385709590     
  ps_ts2 cur sum  =   11031.8279704088     
  trcom cur sum  =    11031.8279704088     
  
  antenna # iant =            2
  powecha_use(iant) =    692065.638982470     
  ps_ts2 prof sum =   691628.580008188     
  trcom prof sum =    691628.580008188     
  ps_ts2 cur sum  =   13336.0105365797     
  trcom cur sum  =    13336.0105365797     
  
  antenna # iant =            3
  powecha_use(iant) =    514800.109228123     
  ps_ts2 prof sum =   514461.593442348     
  trcom prof sum =    514461.593442348     
  ps_ts2 cur sum  =   7222.08068918487     
  trcom cur sum  =    7222.08068918486     
  
  antenna # iant =            4
  powecha_use(iant) =    556975.154635242     
  ps_ts2 prof sum =   556620.753812184     
  trcom prof sum =    556620.753812183     
  ps_ts2 cur sum  =   9845.62733860026     
  trcom cur sum  =    9845.62733860026     
  
  antenna # iant =            5
  powecha_use(iant) =    551908.244900491     
  ps_ts2 prof sum =   551578.694071172     
  trcom prof sum =    551578.694053028     
  ps_ts2 cur sum  =   11612.9023476281     
  trcom cur sum  =    11612.9023476281     
  
  Total ECH heating:      2995324.00702534     
  Total Current Drive:    53048.4488824018     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    900
 TA= 1.21000E+00 CPU TIME= 1.61623E-01 SECONDS.  DT= 1.37786E-03
  
 TEC1=    1.21000000000000     
 TEC2=    1.21500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.13078444444432     
  %check_save_state: izleft hours =    77.8608333333333     
 --> plasma_hash("gframe"): TA= 1.210000E+00 NSTEP=   900 Hash code:   14201905
 ->PRGCHK: bdy curvature ratio at t= 1.2150E+00 seconds is:  5.2524E-02
% MHDEQ: TG1=     1.210000 ; TG2=     1.215000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2524E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.210000 TO TG2=    1.215000 @ NSTEP      900
   GFRAME TG2 MOMENTS CHECKSUM:  2.4459216519321D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.2150E+00  1.2200E+00 total power(Watts):  2.9974E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.21500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.348308E+02    0.345500E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.330461E+02    0.347539E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.343463E+02    0.329207E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.364018E+02    0.332720E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.363704E+02    0.353468E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.342797E+02    0.362598E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.325790E+02    0.375068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.314929E+02    0.361583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.313041E+02    0.343979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.320172E+02    0.327210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.335198E+02    0.314859E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.354357E+02    0.310123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.372713E+02    0.314402E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.386052E+02    0.326158E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.388149E+02    0.344276E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.379747E+02    0.362596E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.362262E+02    0.376534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.342894E+02    0.380706E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.325416E+02    0.405021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.299425E+02    0.389106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.285422E+02    0.362979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.289835E+02    0.330866E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.308932E+02    0.303196E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.338701E+02    0.286301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.372424E+02    0.284314E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.402820E+02    0.297043E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.418634E+02    0.323831E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134058E+03   -0.414838E+02    0.357422E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.393155E+02    0.387248E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.359035E+02    0.404993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.354598E+02    0.257090E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.336779E+02    0.259670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.349451E+02    0.241118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.370072E+02    0.243853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.370166E+02    0.264149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.349413E+02    0.273868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.331746E+02    0.287412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.320637E+02    0.274740E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.318434E+02    0.257674E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.326115E+02    0.240029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.341797E+02    0.226286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.360898E+02    0.220909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.378399E+02    0.225462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.391980E+02    0.236311E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.394450E+02    0.253910E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.384488E+02    0.273769E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.368264E+02    0.287336E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.348960E+02    0.292255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.331080E+02    0.317822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.304804E+02    0.303060E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.291101E+02    0.277453E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.295803E+02    0.244568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.315288E+02    0.215312E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.344829E+02    0.197561E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.378514E+02    0.194535E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.409124E+02    0.205913E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.424458E+02    0.232620E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.420377E+02    0.266153E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.399376E+02    0.295992E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.364690E+02    0.316258E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.350216E+02    0.401623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.331399E+02    0.403761E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.343750E+02    0.386447E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.365216E+02    0.389981E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.366505E+02    0.409544E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.344451E+02    0.418486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.326355E+02    0.430961E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.315656E+02    0.417281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.313983E+02    0.399771E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.321338E+02    0.383019E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.336548E+02    0.370742E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.355827E+02    0.366437E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.374188E+02    0.371503E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.387396E+02    0.384246E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.390227E+02    0.401985E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.381525E+02    0.419935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.363791E+02    0.433087E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.344289E+02    0.436654E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.326445E+02    0.461121E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.300611E+02    0.443888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.287676E+02    0.416508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.290900E+02    0.385952E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.309519E+02    0.358874E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.339530E+02    0.342431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.375264E+02    0.339794E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.404643E+02    0.354720E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.420121E+02    0.383090E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.415782E+02    0.416694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.394587E+02    0.445524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.361999E+02    0.461479E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.350572E+02    0.304631E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.332748E+02    0.306940E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.345579E+02    0.288487E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.366139E+02    0.291635E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.366042E+02    0.312105E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.345218E+02    0.321469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.327490E+02    0.334665E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.317335E+02    0.320956E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.315289E+02    0.303689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.323125E+02    0.286045E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.338069E+02    0.273500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.357208E+02    0.268455E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.374674E+02    0.273259E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.388120E+02    0.284548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.390394E+02    0.302419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.382184E+02    0.320477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.364825E+02    0.334582E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.345480E+02    0.339125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.327347E+02    0.364672E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.301246E+02    0.349088E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.288573E+02    0.322187E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.291974E+02    0.291049E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.310855E+02    0.263208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.341343E+02    0.245073E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.375063E+02    0.242575E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.405580E+02    0.254493E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.420635E+02    0.281531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.417211E+02    0.314553E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.395834E+02    0.344282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.360926E+02    0.363892E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.353615E+02    0.194395E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.335861E+02    0.197317E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.348306E+02    0.178438E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.368897E+02    0.180743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.368295E+02    0.202157E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.347742E+02    0.212376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.330302E+02    0.226310E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.319908E+02    0.212849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.317527E+02    0.195718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.325841E+02    0.176766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.340518E+02    0.163874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.359505E+02    0.158177E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.377893E+02    0.161288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.389676E+02    0.173694E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.391366E+02    0.192219E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.382662E+02    0.211477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.366663E+02    0.225412E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.347505E+02    0.230752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.329985E+02    0.256555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.304393E+02    0.241540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.291187E+02    0.215258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.294788E+02    0.182928E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.313969E+02    0.153470E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.344111E+02    0.134308E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.377694E+02    0.130710E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.406372E+02    0.143337E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.422921E+02    0.168138E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.419281E+02    0.201792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.395799E+02    0.234845E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.363482E+02    0.254135E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678896.847281672     
  ps_ts2 prof sum =   678430.932506002     
  trcom prof sum =    678430.932506001     
  ps_ts2 cur sum  =   11006.5328395788     
  trcom cur sum  =    11006.5328395787     
  
  antenna # iant =            2
  powecha_use(iant) =    693040.560708483     
  ps_ts2 prof sum =   692601.846108876     
  trcom prof sum =    692601.846108875     
  ps_ts2 cur sum  =   13381.4903361185     
  trcom cur sum  =    13381.4903361185     
  
  antenna # iant =            3
  powecha_use(iant) =    513534.045738956     
  ps_ts2 prof sum =   513168.730883874     
  trcom prof sum =    513168.730883874     
  ps_ts2 cur sum  =   7213.13251480185     
  trcom cur sum  =    7213.13251480186     
  
  antenna # iant =            4
  powecha_use(iant) =    558149.265116706     
  ps_ts2 prof sum =   557799.866877728     
  trcom prof sum =    557799.866877728     
  ps_ts2 cur sum  =   9882.31825743351     
  trcom cur sum  =    9882.31825743350     
  
  antenna # iant =            5
  powecha_use(iant) =    553796.198549745     
  ps_ts2 prof sum =   553453.747206236     
  trcom prof sum =    553453.747206236     
  ps_ts2 cur sum  =   11682.0304768696     
  trcom cur sum  =    11682.0304768696     
  
  Total ECH heating:      2995455.12358272     
  Total Current Drive:    53165.5044248022     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    903
 TA= 1.21500E+00 CPU TIME= 1.59836E-01 SECONDS.  DT= 2.37477E-03
  
 TEC1=    1.21500000000000     
 TEC2=    1.22000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.14467972222178     
  %check_save_state: izleft hours =    77.8469444444444     
 --> plasma_hash("gframe"): TA= 1.215000E+00 NSTEP=   903 Hash code:  100431879
 ->PRGCHK: bdy curvature ratio at t= 1.2200E+00 seconds is:  5.2434E-02
% MHDEQ: TG1=     1.215000 ; TG2=     1.220000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7717E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2434E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.215000 TO TG2=    1.220000 @ NSTEP      903
   GFRAME TG2 MOMENTS CHECKSUM:  2.4469566258771D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.45343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.65567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.22512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.85630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -1.41857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.45957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.19603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.59930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.15015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.77043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.46538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.53892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.20875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.23763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.26883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.62597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.63772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.63772E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.2200E+00  1.2250E+00 total power(Watts):  2.9925E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.22000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.349311E+02    0.345528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.330555E+02    0.348309E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.343563E+02    0.329917E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.364121E+02    0.333456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.363793E+02    0.354302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.342879E+02    0.363458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.325866E+02    0.375967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.314984E+02    0.362433E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.313130E+02    0.344714E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.321122E+02    0.327092E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.336185E+02    0.314721E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.354470E+02    0.310827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.372828E+02    0.315116E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.386161E+02    0.326899E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.388246E+02    0.345100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.378858E+02    0.364199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.362332E+02    0.377484E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.342956E+02    0.381653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.325496E+02    0.405916E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.299495E+02    0.390020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.287043E+02    0.362329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.289156E+02    0.332342E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.309043E+02    0.303890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.338823E+02    0.287037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.372551E+02    0.285073E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.403950E+02    0.296962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.418748E+02    0.324599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.414924E+02    0.358359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.393203E+02    0.388285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.359090E+02    0.405945E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.354726E+02    0.257734E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.336904E+02    0.260313E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.349584E+02    0.241684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.370204E+02    0.244440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.370294E+02    0.264844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.349537E+02    0.274589E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.331869E+02    0.288143E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.320757E+02    0.275444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.319392E+02    0.257328E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.327086E+02    0.239587E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.341928E+02    0.226857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.361024E+02    0.221499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.380447E+02    0.224037E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.391140E+02    0.237855E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.394584E+02    0.254579E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.384618E+02    0.274514E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.368377E+02    0.288099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.349080E+02    0.292993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.332058E+02    0.317685E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.305730E+02    0.302881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.292776E+02    0.276279E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.295919E+02    0.245118E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.315416E+02    0.215936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.344960E+02    0.198270E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.379591E+02    0.194205E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.408267E+02    0.207591E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.424603E+02    0.233206E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.420513E+02    0.266915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.399506E+02    0.296740E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.364799E+02    0.316965E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.350277E+02    0.402571E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.331455E+02    0.404682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.344716E+02    0.386765E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.365278E+02    0.390969E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.365617E+02    0.411052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.344503E+02    0.419377E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.326396E+02    0.431820E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.315710E+02    0.418142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.314045E+02    0.400689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.321410E+02    0.383940E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.336629E+02    0.371633E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.355912E+02    0.367331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.374261E+02    0.372450E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.387463E+02    0.385255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.390284E+02    0.402987E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.381570E+02    0.420869E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.363820E+02    0.434001E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.344327E+02    0.437531E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.326464E+02    0.462109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.300648E+02    0.444750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.287733E+02    0.417348E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.290971E+02    0.386848E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.310434E+02    0.358952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.340516E+02    0.342422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.374405E+02    0.341327E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.404734E+02    0.355619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.420190E+02    0.384147E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.416876E+02    0.417151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.394604E+02    0.446529E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.362024E+02    0.462527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.351595E+02    0.304499E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.332862E+02    0.307638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.345702E+02    0.289226E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.366282E+02    0.292362E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.366154E+02    0.312815E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.345332E+02    0.322161E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.328420E+02    0.334627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.317441E+02    0.321632E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.315406E+02    0.304386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.323246E+02    0.286771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.338192E+02    0.274209E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.357337E+02    0.269163E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.374801E+02    0.273994E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.387267E+02    0.286189E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.390523E+02    0.303148E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.382297E+02    0.321202E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.364927E+02    0.335327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.345578E+02    0.339870E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.328295E+02    0.364821E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.302141E+02    0.349080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.287879E+02    0.323702E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.291305E+02    0.292655E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.311795E+02    0.262900E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.341471E+02    0.245647E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.375195E+02    0.243163E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.405717E+02    0.255175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.420770E+02    0.282320E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.417298E+02    0.315323E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.395931E+02    0.345116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.362896E+02    0.363379E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.353742E+02    0.195113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.335992E+02    0.198023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.348434E+02    0.179135E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.369026E+02    0.181463E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.368429E+02    0.202851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.347875E+02    0.213017E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.330427E+02    0.226882E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.320036E+02    0.213486E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.318471E+02    0.195343E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.325967E+02    0.177441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.341500E+02    0.163372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.360526E+02    0.157655E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.378056E+02    0.161877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.389803E+02    0.174399E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.391501E+02    0.192950E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.384715E+02    0.210079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.366802E+02    0.225990E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.347637E+02    0.231313E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.330109E+02    0.257171E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.304512E+02    0.242087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.290546E+02    0.216935E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.294142E+02    0.184712E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.314081E+02    0.154028E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.344227E+02    0.134873E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.377817E+02    0.131286E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.408466E+02    0.141671E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.423059E+02    0.168856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.419430E+02    0.202472E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.397912E+02    0.233471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.363612E+02    0.254769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672962.691130602     
  ps_ts2 prof sum =   672492.676593754     
  trcom prof sum =    672492.676593754     
  ps_ts2 cur sum  =   10928.8913923486     
  trcom cur sum  =    10928.8913923486     
  
  antenna # iant =            2
  powecha_use(iant) =    693255.886957004     
  ps_ts2 prof sum =   692832.057270671     
  trcom prof sum =    692832.057270671     
  ps_ts2 cur sum  =   13425.7602497999     
  trcom cur sum  =    13425.7602497999     
  
  antenna # iant =            3
  powecha_use(iant) =    513836.748253178     
  ps_ts2 prof sum =   513457.231324005     
  trcom prof sum =    513457.231324005     
  ps_ts2 cur sum  =   7223.78818197202     
  trcom cur sum  =    7223.78818197202     
  
  antenna # iant =            4
  powecha_use(iant) =    559678.288407258     
  ps_ts2 prof sum =   559313.312756867     
  trcom prof sum =    559313.312756867     
  ps_ts2 cur sum  =   9933.28375920413     
  trcom cur sum  =    9933.28375920412     
  
  antenna # iant =            5
  powecha_use(iant) =    552811.980899427     
  ps_ts2 prof sum =   552473.310597148     
  trcom prof sum =    552473.310597148     
  ps_ts2 cur sum  =   11701.0784328018     
  trcom cur sum  =    11701.0784328018     
  
  Total ECH heating:      2990568.58854244     
  Total Current Drive:    53212.8020161265     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    905
 TA= 1.22000E+00 CPU TIME= 1.67992E-01 SECONDS.  DT= 3.28153E-03
  
 TEC1=    1.22000000000000     
 TEC2=    1.22500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.15857472222183     
  %check_save_state: izleft hours =    77.8330555555556     
 --> plasma_hash("gframe"): TA= 1.220000E+00 NSTEP=   905 Hash code:   28681973
 ->PRGCHK: bdy curvature ratio at t= 1.2250E+00 seconds is:  5.2363E-02
% MHDEQ: TG1=     1.220000 ; TG2=     1.225000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7719E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2363E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.220000 TO TG2=    1.225000 @ NSTEP      905
   GFRAME TG2 MOMENTS CHECKSUM:  2.4479915998221D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2250E+00  1.2300E+00 total power(Watts):  2.9839E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.22500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.349406E+02    0.346310E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.330649E+02    0.349080E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.343667E+02    0.330638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.364226E+02    0.334204E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.365759E+02    0.353702E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.343857E+02    0.363625E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.325939E+02    0.376880E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.315099E+02    0.363245E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.313226E+02    0.345457E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.321227E+02    0.327798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.336300E+02    0.315436E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.355503E+02    0.310731E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.372943E+02    0.315852E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.385285E+02    0.328436E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.387353E+02    0.346660E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.378947E+02    0.365120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.362405E+02    0.378441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.343027E+02    0.382602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.325517E+02    0.406904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.299553E+02    0.390952E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.287132E+02    0.363141E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.289253E+02    0.333029E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.309155E+02    0.304614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.338942E+02    0.287793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.374577E+02    0.284090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.404076E+02    0.297749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.418890E+02    0.325360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.415007E+02    0.359308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.393262E+02    0.389340E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.361004E+02    0.405798E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.355730E+02    0.257457E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.337030E+02    0.260957E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.349711E+02    0.242267E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.370336E+02    0.245044E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.370421E+02    0.265536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.349661E+02    0.275321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.331973E+02    0.288915E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.320876E+02    0.276151E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.319512E+02    0.257943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.327221E+02    0.240155E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.342059E+02    0.227472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.361170E+02    0.222145E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.379619E+02    0.225665E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.391277E+02    0.238456E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.394721E+02    0.255243E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.384748E+02    0.275275E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.368501E+02    0.288880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.349200E+02    0.293759E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.332166E+02    0.318398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.305835E+02    0.303614E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.292894E+02    0.276972E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.295243E+02    0.246706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.315541E+02    0.216601E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.345087E+02    0.198999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.379727E+02    0.194956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.408412E+02    0.208300E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.424751E+02    0.233817E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.421690E+02    0.266784E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.399632E+02    0.297525E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.365853E+02    0.316880E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.350322E+02    0.403579E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.332375E+02    0.405073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.344788E+02    0.387734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.365337E+02    0.391980E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.365662E+02    0.412062E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.344543E+02    0.420340E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.327297E+02    0.432246E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.315750E+02    0.419080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.314106E+02    0.401650E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.321475E+02    0.384868E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.336705E+02    0.372538E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.355986E+02    0.368237E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.374375E+02    0.373383E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.386538E+02    0.386914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.390334E+02    0.404046E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.381606E+02    0.421891E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.365732E+02    0.434007E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.344357E+02    0.438515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.326479E+02    0.463231E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.300675E+02    0.445708E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.287782E+02    0.418254E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.291046E+02    0.387757E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.310519E+02    0.359765E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.340614E+02    0.343180E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.374499E+02    0.342115E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.404821E+02    0.356533E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.420210E+02    0.385253E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.416918E+02    0.418222E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.394626E+02    0.447626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.362039E+02    0.463705E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.351712E+02    0.305241E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.332976E+02    0.308363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.345821E+02    0.289989E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.366401E+02    0.293139E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.366269E+02    0.313550E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.345436E+02    0.322879E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.328521E+02    0.335351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.317544E+02    0.322333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.315519E+02    0.305111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.323362E+02    0.287519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.338316E+02    0.274929E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.357464E+02    0.269870E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.376839E+02    0.272936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.387394E+02    0.286979E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.389655E+02    0.304751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.381439E+02    0.322742E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.365031E+02    0.336083E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.345678E+02    0.340620E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.328370E+02    0.365686E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.302234E+02    0.349834E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.288008E+02    0.324356E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.291424E+02    0.293385E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.311913E+02    0.263539E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.341601E+02    0.246234E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.375330E+02    0.243763E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.405855E+02    0.255852E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.420903E+02    0.283136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.417451E+02    0.316069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.396030E+02    0.345956E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.362040E+02    0.364975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.353877E+02    0.195847E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.336119E+02    0.198749E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.348560E+02    0.179812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.369159E+02    0.182170E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.369490E+02    0.202538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.348010E+02    0.213700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.330557E+02    0.227498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.320166E+02    0.214160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.318603E+02    0.196061E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.326092E+02    0.178103E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.341627E+02    0.163959E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.360651E+02    0.158236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.378187E+02    0.162481E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.389940E+02    0.175091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.391613E+02    0.193732E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.383897E+02    0.211792E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.367866E+02    0.225612E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.347766E+02    0.231907E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.331091E+02    0.256833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.304640E+02    0.242644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.290678E+02    0.217598E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.294262E+02    0.185379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.313401E+02    0.155734E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.344367E+02    0.135437E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.378867E+02    0.130726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.408602E+02    0.142251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.422180E+02    0.170630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.419578E+02    0.203199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.398056E+02    0.234068E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.363738E+02    0.255400E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665794.963502039     
  ps_ts2 prof sum =   665343.603111486     
  trcom prof sum =    665343.603111485     
  ps_ts2 cur sum  =   10838.1053690500     
  trcom cur sum  =    10838.1053690500     
  
  antenna # iant =            2
  powecha_use(iant) =    693004.720508197     
  ps_ts2 prof sum =   692559.956249997     
  trcom prof sum =    692559.956249997     
  ps_ts2 cur sum  =   13461.3428068520     
  trcom cur sum  =    13461.3428068520     
  
  antenna # iant =            3
  powecha_use(iant) =    515053.639248912     
  ps_ts2 prof sum =   514669.088613556     
  trcom prof sum =    514669.088613556     
  ps_ts2 cur sum  =   7251.49718241895     
  trcom cur sum  =    7251.49718241895     
  
  antenna # iant =            4
  powecha_use(iant) =    557010.108603440     
  ps_ts2 prof sum =   556624.052809824     
  trcom prof sum =    556624.052809823     
  ps_ts2 cur sum  =   9913.69312196305     
  trcom cur sum  =    9913.69312196304     
  
  antenna # iant =            5
  powecha_use(iant) =    552996.953779946     
  ps_ts2 prof sum =   552639.402323724     
  trcom prof sum =    552639.402323724     
  ps_ts2 cur sum  =   11742.2929979507     
  trcom cur sum  =    11742.2929979507     
  
  Total ECH heating:      2981836.10310859     
  Total Current Drive:    53206.9314782347     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    907
 TA= 1.22500E+00 CPU TIME= 1.63923E-01 SECONDS.  DT= 2.14808E-03
  
 TEC1=    1.22500000000000     
 TEC2=    1.23000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.17267083333309     
  %check_save_state: izleft hours =    77.8188888888889     
 --> plasma_hash("gframe"): TA= 1.225000E+00 NSTEP=   907 Hash code:   16695409
 ->PRGCHK: bdy curvature ratio at t= 1.2300E+00 seconds is:  5.2182E-02
% MHDEQ: TG1=     1.225000 ; TG2=     1.230000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2182E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.225000 TO TG2=    1.230000 @ NSTEP      907
   GFRAME TG2 MOMENTS CHECKSUM:  2.4490265737671D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.90273E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  4.32793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       3=  5.87998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.30104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.23263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.56192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.61090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.95418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -2.25905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.99600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.47505E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.33875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.45124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.03269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.58732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.55379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  4.04371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.01095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.13459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.42114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.42628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.42628E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.2300E+00  1.2350E+00 total power(Watts):  3.0045E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.23000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.349501E+02    0.347144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.331611E+02    0.349165E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.343769E+02    0.331419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.364368E+02    0.334969E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.364903E+02    0.355322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.343932E+02    0.364551E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.326004E+02    0.377850E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.315177E+02    0.364133E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.313316E+02    0.346251E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.321326E+02    0.328560E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.336405E+02    0.316214E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.355615E+02    0.311529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.374968E+02    0.315033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.385396E+02    0.329247E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.389417E+02    0.346091E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.380959E+02    0.364741E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.364350E+02    0.378154E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.343095E+02    0.383597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.326427E+02    0.407345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.299613E+02    0.391921E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.287210E+02    0.363998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.290908E+02    0.332168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.310086E+02    0.304531E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.339946E+02    0.287716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.373752E+02    0.285806E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.404201E+02    0.298605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.418970E+02    0.326229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.415087E+02    0.360313E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.393319E+02    0.390441E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.361047E+02    0.406875E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.355892E+02    0.258100E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.337152E+02    0.261632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.349851E+02    0.242865E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.370475E+02    0.245657E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.370552E+02    0.266282E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.349784E+02    0.276097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.332105E+02    0.289704E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.321838E+02    0.275985E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.319640E+02    0.258587E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.327348E+02    0.240748E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.342196E+02    0.228067E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.361311E+02    0.222746E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.379781E+02    0.226268E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.391420E+02    0.239071E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.393871E+02    0.256877E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.386825E+02    0.274294E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.368625E+02    0.289716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.349319E+02    0.294578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.332273E+02    0.319166E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.305946E+02    0.304390E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.293006E+02    0.277710E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.295383E+02    0.247253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.315679E+02    0.217203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.346104E+02    0.198560E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.379875E+02    0.195588E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.410581E+02    0.206905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.425945E+02    0.233487E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.421792E+02    0.267631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.399757E+02    0.298378E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.365967E+02    0.317676E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.350374E+02    0.404630E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.332427E+02    0.406100E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.344841E+02    0.388756E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.367313E+02    0.391795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.365701E+02    0.413128E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.344580E+02    0.421364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.327322E+02    0.433238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.316634E+02    0.419515E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.314141E+02    0.402665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.322396E+02    0.385204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.337657E+02    0.372823E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.356983E+02    0.368520E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.376334E+02    0.373099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.388564E+02    0.386757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.390377E+02    0.405164E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.382610E+02    0.422449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.365755E+02    0.435052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.344377E+02    0.439527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.327352E+02    0.463928E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.300696E+02    0.446686E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.287812E+02    0.419218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.291889E+02    0.388065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.310602E+02    0.360629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.340709E+02    0.343992E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.374596E+02    0.342961E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.405917E+02    0.356816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.420311E+02    0.386356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.416947E+02    0.419362E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.395623E+02    0.448318E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.362969E+02    0.464494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.351828E+02    0.306050E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.333960E+02    0.308314E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.345943E+02    0.290810E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.366524E+02    0.293972E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.367323E+02    0.313529E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.346440E+02    0.322856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.328620E+02    0.336123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.317652E+02    0.323094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.315630E+02    0.305889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.323481E+02    0.288318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.338436E+02    0.275691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.357609E+02    0.270606E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.376012E+02    0.274635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.387521E+02    0.287829E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.389818E+02    0.305546E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.381549E+02    0.323546E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.365095E+02    0.336925E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.345775E+02    0.341430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.328449E+02    0.366599E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.302321E+02    0.350638E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.289663E+02    0.323446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.293094E+02    0.292374E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.312036E+02    0.264212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.341736E+02    0.246837E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.375476E+02    0.244368E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.404986E+02    0.257497E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.422080E+02    0.283157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.417567E+02    0.316907E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.396116E+02    0.346861E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.362115E+02    0.365929E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.354912E+02    0.195407E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.336256E+02    0.199365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.348707E+02    0.180392E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.369300E+02    0.182771E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.369635E+02    0.203169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.349037E+02    0.213283E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.331547E+02    0.227074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.320301E+02    0.214770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.318737E+02    0.196667E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.326226E+02    0.178662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.341766E+02    0.164515E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.360802E+02    0.158810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.378333E+02    0.163046E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.390095E+02    0.175675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.393732E+02    0.192242E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.384046E+02    0.212418E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.368009E+02    0.226215E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.348800E+02    0.231500E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.331218E+02    0.257480E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.304763E+02    0.243231E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.290798E+02    0.218197E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.294402E+02    0.185941E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.315143E+02    0.154022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.345350E+02    0.134961E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.379015E+02    0.131409E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.407769E+02    0.143997E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.424386E+02    0.169073E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.419739E+02    0.203844E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.398200E+02    0.234690E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.364800E+02    0.255114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.70 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680212.393997116     
  ps_ts2 prof sum =   679792.842452237     
  trcom prof sum =    679792.842452236     
  ps_ts2 cur sum  =   11093.8271827227     
  trcom cur sum  =    11093.8271827227     
  
  antenna # iant =            2
  powecha_use(iant) =    693852.696412128     
  ps_ts2 prof sum =   693407.871558862     
  trcom prof sum =    693407.871558861     
  ps_ts2 cur sum  =   13513.4441511378     
  trcom cur sum  =    13513.4441511378     
  
  antenna # iant =            3
  powecha_use(iant) =    514974.216010452     
  ps_ts2 prof sum =   514628.522142928     
  trcom prof sum =    514628.522142929     
  ps_ts2 cur sum  =   7258.85566420167     
  trcom cur sum  =    7258.85566420167     
  
  antenna # iant =            4
  powecha_use(iant) =    562071.737066051     
  ps_ts2 prof sum =   561690.838274495     
  trcom prof sum =    561690.838274495     
  ps_ts2 cur sum  =   10026.3313515341     
  trcom cur sum  =    10026.3313515341     
  
  antenna # iant =            5
  powecha_use(iant) =    553391.922649669     
  ps_ts2 prof sum =   553062.316094010     
  trcom prof sum =    553062.316094010     
  ps_ts2 cur sum  =   11790.0785680392     
  trcom cur sum  =    11790.0785680392     
  
  Total ECH heating:      3002582.39052253     
  Total Current Drive:    53682.5369176354     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    910
 TA= 1.23000E+00 CPU TIME= 1.59292E-01 SECONDS.  DT= 2.08515E-04
  
 TEC1=    1.23000000000000     
 TEC2=    1.23500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.18808722222184     
  %check_save_state: izleft hours =    77.8036111111111     
 --> plasma_hash("gframe"): TA= 1.230000E+00 NSTEP=   910 Hash code:   37823106
 ->PRGCHK: bdy curvature ratio at t= 1.2350E+00 seconds is:  5.1925E-02
% MHDEQ: TG1=     1.230000 ; TG2=     1.235000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7722E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1925E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.230000 TO TG2=    1.235000 @ NSTEP      910
   GFRAME TG2 MOMENTS CHECKSUM:  2.4500615477121D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2350E+00  1.2400E+00 total power(Watts):  3.0077E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.23500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.349571E+02    0.347974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.331687E+02    0.349982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.343854E+02    0.332196E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.365351E+02    0.335047E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.364974E+02    0.356217E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.343998E+02    0.365475E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.326923E+02    0.378163E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.316071E+02    0.364317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.314229E+02    0.346283E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.321435E+02    0.329297E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.336500E+02    0.316996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.355712E+02    0.312330E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.374105E+02    0.316651E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.387446E+02    0.328519E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.389494E+02    0.346967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.381014E+02    0.365728E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.363458E+02    0.379842E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.344042E+02    0.383987E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.326466E+02    0.408457E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.300476E+02    0.392297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.287237E+02    0.364882E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.290996E+02    0.332907E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.310185E+02    0.305331E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.340053E+02    0.288531E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.373859E+02    0.286640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.404313E+02    0.299471E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.420108E+02    0.326306E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.416188E+02    0.360643E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.394354E+02    0.390987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.360164E+02    0.408597E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.356008E+02    0.258736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.338141E+02    0.261328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.350865E+02    0.242463E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.371537E+02    0.245282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.370667E+02    0.266986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.349894E+02    0.276858E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.333080E+02    0.289631E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.321946E+02    0.276724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.319751E+02    0.259198E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.327441E+02    0.241338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.343199E+02    0.227629E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.362355E+02    0.222322E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.379907E+02    0.226851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.393511E+02    0.237723E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.393990E+02    0.257542E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.385960E+02    0.275992E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.369673E+02    0.289683E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.350328E+02    0.294542E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.332331E+02    0.319979E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.306044E+02    0.305187E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.292328E+02    0.279357E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.297066E+02    0.245822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.315798E+02    0.217781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.346238E+02    0.199149E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.380005E+02    0.196184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.410722E+02    0.207508E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.426079E+02    0.234089E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.421950E+02    0.268392E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.398865E+02    0.300076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.366063E+02    0.318482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.350410E+02    0.405772E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.332463E+02    0.407227E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.344884E+02    0.389814E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.366385E+02    0.393528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.367619E+02    0.413211E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.345466E+02    0.422005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.327360E+02    0.434315E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.316665E+02    0.420624E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.315028E+02    0.403143E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.322437E+02    0.386222E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.337716E+02    0.373789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.357043E+02    0.369487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.376382E+02    0.374131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.388616E+02    0.387873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.390408E+02    0.406378E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.382632E+02    0.423652E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.365772E+02    0.436191E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.345296E+02    0.440136E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.327355E+02    0.464908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.300716E+02    0.447682E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.288632E+02    0.419729E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.291945E+02    0.389055E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.310663E+02    0.361492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.340788E+02    0.344796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.376595E+02    0.342317E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.405984E+02    0.357789E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.421394E+02    0.386925E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.416966E+02    0.420632E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.395629E+02    0.449446E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.362963E+02    0.465536E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.351926E+02    0.306859E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.334058E+02    0.309114E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.346946E+02    0.290753E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.367570E+02    0.293951E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.367421E+02    0.314339E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.346529E+02    0.323636E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.328703E+02    0.336896E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.317741E+02    0.323855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.316562E+02    0.305835E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.323587E+02    0.289117E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.339425E+02    0.275523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.358621E+02    0.270431E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.376120E+02    0.275419E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.389593E+02    0.286951E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.391856E+02    0.304773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.383588E+02    0.322784E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.365217E+02    0.337699E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.345856E+02    0.342225E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.328513E+02    0.367515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.302398E+02    0.351439E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.289753E+02    0.324191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.293196E+02    0.293160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.312110E+02    0.264888E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.342736E+02    0.246444E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.376541E+02    0.244001E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.407128E+02    0.256330E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.422157E+02    0.284068E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.418705E+02    0.316968E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.396191E+02    0.347748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.362175E+02    0.366889E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.355047E+02    0.195998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.336377E+02    0.199955E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.349706E+02    0.179855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.370358E+02    0.182251E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.369762E+02    0.203770E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.349161E+02    0.213873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.331666E+02    0.227645E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.321252E+02    0.214308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.318851E+02    0.197248E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.327190E+02    0.178098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.341891E+02    0.165093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.360925E+02    0.159405E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.379399E+02    0.162520E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.392151E+02    0.174080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.392894E+02    0.193896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.384175E+02    0.213016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.368137E+02    0.226794E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.348922E+02    0.232077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.331333E+02    0.258093E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.304077E+02    0.244784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.292451E+02    0.216666E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.296039E+02    0.184266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.315261E+02    0.154644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.345471E+02    0.135657E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.379141E+02    0.132121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.407911E+02    0.144649E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.424521E+02    0.169643E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.420902E+02    0.203439E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.397339E+02    0.236250E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.364918E+02    0.255737E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680515.252103632     
  ps_ts2 prof sum =   680092.003263996     
  trcom prof sum =    680092.003263996     
  ps_ts2 cur sum  =   11100.3992109900     
  trcom cur sum  =    11100.3992109900     
  
  antenna # iant =            2
  powecha_use(iant) =    694168.437830949     
  ps_ts2 prof sum =   693724.691169087     
  trcom prof sum =    693724.691169087     
  ps_ts2 cur sum  =   13539.7636187745     
  trcom cur sum  =    13539.7636187745     
  
  antenna # iant =            3
  powecha_use(iant) =    515334.924899603     
  ps_ts2 prof sum =   514994.578110829     
  trcom prof sum =    514994.578110830     
  ps_ts2 cur sum  =   7260.27180246528     
  trcom cur sum  =    7260.27180246528     
  
  antenna # iant =            4
  powecha_use(iant) =    566068.086845597     
  ps_ts2 prof sum =   565723.155769473     
  trcom prof sum =    565723.155769472     
  ps_ts2 cur sum  =   10106.1890762687     
  trcom cur sum  =    10106.1890762687     
  
  antenna # iant =            5
  powecha_use(iant) =    551627.110971918     
  ps_ts2 prof sum =   551298.946595790     
  trcom prof sum =    551298.946595790     
  ps_ts2 cur sum  =   11776.2442892977     
  trcom cur sum  =    11776.2442892977     
  
  Total ECH heating:      3005833.37490917     
  Total Current Drive:    53782.8679977962     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    919
 TA= 1.23500E+00 CPU TIME= 1.60135E-01 SECONDS.  DT= 1.07836E-03
  
 TEC1=    1.23500000000000     
 TEC2=    1.24000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.20075388888881     
  %check_save_state: izleft hours =    77.7908333333333     
 --> plasma_hash("gframe"): TA= 1.235000E+00 NSTEP=   919 Hash code:   31567991
 ->PRGCHK: bdy curvature ratio at t= 1.2400E+00 seconds is:  5.1691E-02
% MHDEQ: TG1=     1.235000 ; TG2=     1.240000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7724E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1691E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.235000 TO TG2=    1.240000 @ NSTEP      919
   GFRAME TG2 MOMENTS CHECKSUM:  2.4510965216571D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.36727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.24283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.77850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.34561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.28325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.51201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.72189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.05538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -3.12806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.48276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.76355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.06936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.03652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.23600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.71340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.60309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.18275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.77659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.99581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.20937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.51831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.51831E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2400E+00  1.2450E+00 total power(Watts):  2.9948E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.24000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.350546E+02    0.348202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.331736E+02    0.350943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.344823E+02    0.332337E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.365425E+02    0.335985E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.365021E+02    0.357258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.344038E+02    0.366548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.326953E+02    0.379290E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.316118E+02    0.365345E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.314287E+02    0.347207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.322343E+02    0.329422E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.337469E+02    0.317114E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.355795E+02    0.313292E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.374196E+02    0.317620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.387520E+02    0.329488E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.389555E+02    0.347997E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.380090E+02    0.367540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.363487E+02    0.381036E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.344061E+02    0.385168E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.326476E+02    0.409709E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.300493E+02    0.393450E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.286545E+02    0.366551E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.290294E+02    0.334567E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.310274E+02    0.306274E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.340151E+02    0.289481E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.373963E+02    0.287624E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.405421E+02    0.299681E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.420176E+02    0.327321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.416227E+02    0.361819E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.394364E+02    0.392296E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.360152E+02    0.409919E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.356126E+02    0.259474E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.338259E+02    0.262068E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.350993E+02    0.243157E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.371667E+02    0.245992E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.371722E+02    0.266889E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.350900E+02    0.276842E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.333178E+02    0.290580E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.322052E+02    0.277577E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.320699E+02    0.258952E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.328443E+02    0.241003E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.343336E+02    0.228307E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.362495E+02    0.223007E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.381000E+02    0.226554E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.392663E+02    0.239404E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.396050E+02    0.256494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.386071E+02    0.276924E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.369766E+02    0.290676E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.350426E+02    0.295520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.333325E+02    0.320053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.306947E+02    0.305270E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.292434E+02    0.280184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.297187E+02    0.246488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.316755E+02    0.217409E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.346374E+02    0.199821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.381110E+02    0.195821E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.409857E+02    0.209244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.426221E+02    0.234819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.423107E+02    0.268433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.400967E+02    0.299437E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.366147E+02    0.319434E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.351331E+02    0.406477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.332474E+02    0.408481E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.345808E+02    0.390397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.366395E+02    0.394793E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.366672E+02    0.415093E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.345502E+02    0.423265E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.327344E+02    0.435533E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.316669E+02    0.421869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.315049E+02    0.404359E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.322466E+02    0.387379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.337750E+02    0.374905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.357075E+02    0.370614E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.375451E+02    0.375970E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.388629E+02    0.389164E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.391393E+02    0.407197E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.382619E+02    0.425011E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.364819E+02    0.437929E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.345281E+02    0.441341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.327323E+02    0.465900E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.301514E+02    0.448304E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.288643E+02    0.420940E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.291971E+02    0.390180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.311538E+02    0.361782E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.341741E+02    0.344996E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.375703E+02    0.344034E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.406028E+02    0.358925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.421407E+02    0.388273E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133730E+03   -0.417987E+02    0.421552E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.395594E+02    0.450674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.362918E+02    0.466584E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.352921E+02    0.307005E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.334146E+02    0.310062E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.347044E+02    0.291720E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.367669E+02    0.294945E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.367513E+02    0.315308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.346608E+02    0.324566E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.329601E+02    0.337068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.318666E+02    0.323948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.316652E+02    0.306785E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.324535E+02    0.289165E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.339528E+02    0.276388E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.358727E+02    0.271279E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.376228E+02    0.276325E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.388718E+02    0.288818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.391948E+02    0.305785E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.383668E+02    0.323753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.366223E+02    0.337890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.346823E+02    0.342415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.329423E+02    0.367888E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.303261E+02    0.351621E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.289052E+02    0.325887E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.292512E+02    0.294968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.313079E+02    0.264644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.342857E+02    0.247135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.376673E+02    0.244710E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.407251E+02    0.257128E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.422304E+02    0.285079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.418787E+02    0.317981E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.397250E+02    0.348078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.364086E+02    0.366645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.355186E+02    0.196667E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.337380E+02    0.199557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.349857E+02    0.180488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.370509E+02    0.182900E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.370846E+02    0.203414E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.349304E+02    0.214551E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.331804E+02    0.228316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.321388E+02    0.214980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.319825E+02    0.196820E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.327339E+02    0.178728E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.342913E+02    0.164644E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.361987E+02    0.158980E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.379589E+02    0.163166E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.391345E+02    0.175808E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.393050E+02    0.194584E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.385285E+02    0.212697E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.369205E+02    0.226486E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.349056E+02    0.232756E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.332307E+02    0.257853E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.305808E+02    0.243465E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.291808E+02    0.218377E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.295420E+02    0.185991E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.314598E+02    0.156511E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.345609E+02    0.136438E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.380223E+02    0.131754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.410045E+02    0.143169E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.423667E+02    0.171378E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.421056E+02    0.204161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.399460E+02    0.235023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.365041E+02    0.256467E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672844.114165122     
  ps_ts2 prof sum =   672373.420726553     
  trcom prof sum =    672373.420726553     
  ps_ts2 cur sum  =   10975.3436848944     
  trcom cur sum  =    10975.3436848944     
  
  antenna # iant =            2
  powecha_use(iant) =    689815.911627304     
  ps_ts2 prof sum =   689379.018606658     
  trcom prof sum =    689379.018606658     
  ps_ts2 cur sum  =   13481.8499917556     
  trcom cur sum  =    13481.8499917556     
  
  antenna # iant =            3
  powecha_use(iant) =    516627.946817229     
  ps_ts2 prof sum =   516258.481521610     
  trcom prof sum =    516258.481521610     
  ps_ts2 cur sum  =   7266.99357118909     
  trcom cur sum  =    7266.99357118909     
  
  antenna # iant =            4
  powecha_use(iant) =    563724.999545219     
  ps_ts2 prof sum =   563368.130049802     
  trcom prof sum =    563368.130049802     
  ps_ts2 cur sum  =   10074.9176956032     
  trcom cur sum  =    10074.9176956032     
  
  antenna # iant =            5
  powecha_use(iant) =    551807.329430004     
  ps_ts2 prof sum =   551464.908314580     
  trcom prof sum =    551464.908314581     
  ps_ts2 cur sum  =   11812.1301609894     
  trcom cur sum  =    11812.1301609894     
  
  Total ECH heating:      2992843.95921920     
  Total Current Drive:    53611.2351044317     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    923
 TA= 1.24000E+00 CPU TIME= 1.46045E-01 SECONDS.  DT= 1.11096E-03
  
 TEC1=    1.24000000000000     
 TEC2=    1.24500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.21331305555555     
  %check_save_state: izleft hours =    77.7783333333333     
 --> plasma_hash("gframe"): TA= 1.240000E+00 NSTEP=   923 Hash code:  119457546
 ->PRGCHK: bdy curvature ratio at t= 1.2450E+00 seconds is:  5.1481E-02
% MHDEQ: TG1=     1.240000 ; TG2=     1.245000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7726E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1481E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.240000 TO TG2=    1.245000 @ NSTEP      923
   GFRAME TG2 MOMENTS CHECKSUM:  2.4521314956021D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2450E+00  1.2500E+00 total power(Watts):  3.0033E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.24500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.350601E+02    0.349249E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.332682E+02    0.351229E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.344903E+02    0.333370E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.365496E+02    0.337037E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.366963E+02    0.356946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.344984E+02    0.366958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.326990E+02    0.380404E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.316167E+02    0.366399E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.314361E+02    0.348200E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.322425E+02    0.330443E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.337559E+02    0.318169E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.356817E+02    0.313553E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.374284E+02    0.318712E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.386621E+02    0.331334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.388652E+02    0.349798E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.380127E+02    0.368701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.363520E+02    0.382205E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.344093E+02    0.386320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.326494E+02    0.410882E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.300523E+02    0.394559E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.288151E+02    0.366149E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.290372E+02    0.335539E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.310367E+02    0.307304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.341139E+02    0.289586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.375023E+02    0.287768E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.405525E+02    0.300820E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.420264E+02    0.328453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.416273E+02    0.363026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.394384E+02    0.393551E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.362021E+02    0.410046E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.357163E+02    0.259261E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.338380E+02    0.262792E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.351128E+02    0.243840E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.371796E+02    0.246691E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.371842E+02    0.267688E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.351019E+02    0.277722E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.333280E+02    0.291562E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.322160E+02    0.278429E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.320827E+02    0.259649E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.328574E+02    0.241673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.343470E+02    0.228986E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.362640E+02    0.223697E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.381149E+02    0.227252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.392806E+02    0.240106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.395232E+02    0.258147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.388138E+02    0.276084E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.369882E+02    0.291706E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.350529E+02    0.296560E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.333413E+02    0.321102E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.307003E+02    0.306334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.294104E+02    0.279160E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.296524E+02    0.248134E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.316897E+02    0.218086E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.347411E+02    0.199442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.381231E+02    0.196550E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.412040E+02    0.207937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.427416E+02    0.234585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.423234E+02    0.269363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.401071E+02    0.300575E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.367177E+02    0.319714E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.351347E+02    0.407675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.333366E+02    0.409092E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.345868E+02    0.391538E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.366419E+02    0.395992E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.366674E+02    0.416359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.345502E+02    0.424506E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.328197E+02    0.436252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.316676E+02    0.423062E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.315072E+02    0.405502E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.322496E+02    0.388502E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.338675E+02    0.375357E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.357123E+02    0.371735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.375489E+02    0.377146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.389635E+02    0.389804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.391397E+02    0.408493E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.382603E+02    0.426332E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.366683E+02    0.438248E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.345274E+02    0.442543E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.328163E+02    0.466520E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.301506E+02    0.449407E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.288659E+02    0.422093E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.291995E+02    0.391275E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.311593E+02    0.362813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.341806E+02    0.346024E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.375765E+02    0.345104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.407094E+02    0.359423E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.421426E+02    0.389569E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133801E+03   -0.417974E+02    0.422940E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.396557E+02    0.451504E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.361956E+02    0.468029E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.353028E+02    0.308072E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.335117E+02    0.310286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.347148E+02    0.292732E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.367773E+02    0.296004E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.367604E+02    0.316394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.347603E+02    0.324821E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.329713E+02    0.338043E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.318747E+02    0.324973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.316746E+02    0.307823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.324637E+02    0.290131E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.339642E+02    0.277246E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.358847E+02    0.272106E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.377308E+02    0.276342E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.388825E+02    0.289877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.391058E+02    0.307733E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.382777E+02    0.325626E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.366298E+02    0.338937E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.346889E+02    0.343444E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.329477E+02    0.368970E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.303333E+02    0.352614E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.289143E+02    0.326877E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.292612E+02    0.295925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.313197E+02    0.265360E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.342991E+02    0.247820E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.376810E+02    0.245407E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.406346E+02    0.258839E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.423464E+02    0.285320E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.418871E+02    0.319136E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.397309E+02    0.349199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.363196E+02    0.368449E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.356239E+02    0.196288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.337536E+02    0.200234E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.350897E+02    0.180064E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.370666E+02    0.183572E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.370991E+02    0.204118E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.350335E+02    0.214213E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.332795E+02    0.227977E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.321531E+02    0.215660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.319969E+02    0.197491E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.327485E+02    0.179392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.343062E+02    0.165317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.362141E+02    0.159664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.379720E+02    0.163888E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.391508E+02    0.176486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.395154E+02    0.193193E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.385436E+02    0.213404E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.369352E+02    0.227178E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.350090E+02    0.232439E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.332437E+02    0.258556E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.305931E+02    0.244120E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.291948E+02    0.219045E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.295559E+02    0.186631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.316363E+02    0.154873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.346639E+02    0.135927E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.380387E+02    0.132417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.409227E+02    0.144985E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.425892E+02    0.169928E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.421222E+02    0.204890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.399607E+02    0.235727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.366095E+02    0.256250E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681729.409216396     
  ps_ts2 prof sum =   681265.220782618     
  trcom prof sum =    681265.220782618     
  ps_ts2 cur sum  =   11125.2317285705     
  trcom cur sum  =    11125.2317285705     
  
  antenna # iant =            2
  powecha_use(iant) =    689122.710148820     
  ps_ts2 prof sum =   688683.469871687     
  trcom prof sum =    688683.469871686     
  ps_ts2 cur sum  =   13498.9800899146     
  trcom cur sum  =    13498.9800899146     
  
  antenna # iant =            3
  powecha_use(iant) =    517316.437311238     
  ps_ts2 prof sum =   516944.221899551     
  trcom prof sum =    516944.221899551     
  ps_ts2 cur sum  =   7268.56521482071     
  trcom cur sum  =    7268.56521482071     
  
  antenna # iant =            4
  powecha_use(iant) =    565916.136415368     
  ps_ts2 prof sum =   565514.358644641     
  trcom prof sum =    565514.358644641     
  ps_ts2 cur sum  =   10127.7585272709     
  trcom cur sum  =    10127.7585272709     
  
  antenna # iant =            5
  powecha_use(iant) =    549262.923781916     
  ps_ts2 prof sum =   548937.186198334     
  trcom prof sum =    548937.186198333     
  ps_ts2 cur sum  =   11790.4137387219     
  trcom cur sum  =    11790.4137387219     
  
  Total ECH heating:      3001344.45739683     
  Total Current Drive:    53810.9492992987     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    927
 TA= 1.24500E+00 CPU TIME= 1.64211E-01 SECONDS.  DT= 9.55578E-04
  
 TEC1=    1.24500000000000     
 TEC2=    1.25000000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.22884666666641     
  %check_save_state: izleft hours =    77.7627777777778     
 --> plasma_hash("gframe"): TA= 1.245000E+00 NSTEP=   927 Hash code:   96010504
 ->PRGCHK: bdy curvature ratio at t= 1.2500E+00 seconds is:  5.1294E-02
% MHDEQ: TG1=     1.245000 ; TG2=     1.250000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7728E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1294E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.245000 TO TG2=    1.250000 @ NSTEP      927
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531664690928D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.82419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.19107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.49558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.40585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.33305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.46291E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.89670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.15491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -3.98280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  1.99436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.04731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.80440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.61220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.46879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.83740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.63517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.55426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.54607E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.85930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.00107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.95062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.95062E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2500E+00  1.2550E+00 total power(Watts):  3.0195E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.25000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.350668E+02    0.350412E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.332739E+02    0.352363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.344982E+02    0.334597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.366509E+02    0.337527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.366081E+02    0.358791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.345048E+02    0.368038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.327040E+02    0.381423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.316227E+02    0.367455E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.315256E+02    0.348589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.322502E+02    0.331652E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.337640E+02    0.319413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.356900E+02    0.314814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.375326E+02    0.319217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.388652E+02    0.331124E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.390661E+02    0.349614E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.382122E+02    0.368511E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.364501E+02    0.382632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.345034E+02    0.386718E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.327368E+02    0.411338E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.301368E+02    0.394906E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.288212E+02    0.367179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.291975E+02    0.335163E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.311282E+02    0.307614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.341233E+02    0.290609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.375122E+02    0.288824E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.405607E+02    0.302113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.421362E+02    0.329076E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.417360E+02    0.363574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.395396E+02    0.394070E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.361098E+02    0.411668E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.54 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.357244E+02    0.259998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.339372E+02    0.262552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.352159E+02    0.243532E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.372874E+02    0.246411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.372903E+02    0.267537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.351119E+02    0.278582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.334213E+02    0.291752E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.323111E+02    0.278332E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.320942E+02    0.260323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.328701E+02    0.242330E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.344492E+02    0.228660E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.363700E+02    0.223389E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.381290E+02    0.227948E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.394916E+02    0.238862E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.395357E+02    0.258872E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.387268E+02    0.277888E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.370922E+02    0.291936E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.351528E+02    0.296825E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.333493E+02    0.322345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.307134E+02    0.307446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.293423E+02    0.280876E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.298221E+02    0.246800E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.316206E+02    0.219818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.347550E+02    0.200154E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.381414E+02    0.197240E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.412194E+02    0.208684E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.427565E+02    0.235285E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.423350E+02    0.270256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.400157E+02    0.302669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.367256E+02    0.321007E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.351356E+02    0.408719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.333370E+02    0.410117E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.345871E+02    0.392578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.368326E+02    0.395869E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.368560E+02    0.416405E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.345500E+02    0.425615E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.328192E+02    0.437376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.317543E+02    0.423583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.315921E+02    0.405917E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.323393E+02    0.388868E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.338729E+02    0.376406E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.358103E+02    0.372160E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.377458E+02    0.376965E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.389658E+02    0.390897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.391401E+02    0.409607E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.383569E+02    0.427023E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.366659E+02    0.439453E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.347049E+02    0.442790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.328133E+02    0.467563E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.301494E+02    0.450498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.289441E+02    0.422580E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.292825E+02    0.391601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.311653E+02    0.363883E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.341877E+02    0.347187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.377759E+02    0.344870E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.407153E+02    0.360622E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.422493E+02    0.390127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.417954E+02    0.424182E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.396514E+02    0.452748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.363774E+02    0.468367E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.353115E+02    0.309310E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.335207E+02    0.311507E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.348142E+02    0.292936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.368807E+02    0.296295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.368629E+02    0.316875E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.347681E+02    0.326078E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.329788E+02    0.339233E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.318827E+02    0.326198E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.317681E+02    0.308142E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.324736E+02    0.291131E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.340634E+02    0.277169E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.359872E+02    0.271985E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.377415E+02    0.277222E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.390888E+02    0.289279E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.393126E+02    0.307403E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.382850E+02    0.326931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.366368E+02    0.340169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.346953E+02    0.344631E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.329525E+02    0.370030E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.303391E+02    0.353713E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.290776E+02    0.326445E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.294267E+02    0.295167E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.313308E+02    0.266056E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.344001E+02    0.247511E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.377892E+02    0.245132E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.408523E+02    0.257732E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.423566E+02    0.286469E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.419993E+02    0.319745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.397373E+02    0.350425E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.363253E+02    0.369550E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.356383E+02    0.196992E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.338538E+02    0.199873E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.351049E+02    0.180751E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.371746E+02    0.183201E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.371143E+02    0.204844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.350482E+02    0.214927E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.332932E+02    0.228656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.322500E+02    0.215316E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.320104E+02    0.198172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.328464E+02    0.178957E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.343212E+02    0.165970E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.362285E+02    0.160310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.380823E+02    0.163450E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.392634E+02    0.176118E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.394346E+02    0.194954E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.385546E+02    0.214173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.369489E+02    0.227871E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.350225E+02    0.233118E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.332552E+02    0.259235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.305252E+02    0.245761E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.293621E+02    0.217631E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.297237E+02    0.185086E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.316505E+02    0.155474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.346790E+02    0.136453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.380546E+02    0.132950E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.411384E+02    0.143355E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.426059E+02    0.170650E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.422412E+02    0.204625E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.398756E+02    0.237382E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.366223E+02    0.256948E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686359.508824847     
  ps_ts2 prof sum =   685939.159128509     
  trcom prof sum =    685939.159128509     
  ps_ts2 cur sum  =   11193.3518619740     
  trcom cur sum  =    11193.3518619740     
  
  antenna # iant =            2
  powecha_use(iant) =    696357.567652888     
  ps_ts2 prof sum =   695904.460487067     
  trcom prof sum =    695904.460487067     
  ps_ts2 cur sum  =   13656.5980160842     
  trcom cur sum  =    13656.5980160842     
  
  antenna # iant =            3
  powecha_use(iant) =    516541.610538382     
  ps_ts2 prof sum =   516214.865870931     
  trcom prof sum =    516214.865870931     
  ps_ts2 cur sum  =   7248.87639148437     
  trcom cur sum  =    7248.87639148437     
  
  antenna # iant =            4
  powecha_use(iant) =    571260.702374523     
  ps_ts2 prof sum =   570913.227016496     
  trcom prof sum =    570913.227016495     
  ps_ts2 cur sum  =   10222.4106689890     
  trcom cur sum  =    10222.4106689890     
  
  antenna # iant =            5
  powecha_use(iant) =    548956.159230139     
  ps_ts2 prof sum =   548625.813465228     
  trcom prof sum =    548625.813465228     
  ps_ts2 cur sum  =   11815.2274492364     
  trcom cur sum  =    11815.2274492364     
  
  Total ECH heating:      3017597.52596823     
  Total Current Drive:    54136.4643877679     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    931
 TA= 1.25000E+00 CPU TIME= 1.59396E-01 SECONDS.  DT= 1.69607E-03
  
 TEC1=    1.25000000000000     
 TEC2=    1.25500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.24412694444413     
  %check_save_state: izleft hours =    77.7475000000000     
 --> plasma_hash("gframe"): TA= 1.250000E+00 NSTEP=   931 Hash code:   11204494
 ->PRGCHK: bdy curvature ratio at t= 1.2550E+00 seconds is:  5.1130E-02
% MHDEQ: TG1=     1.250000 ; TG2=     1.255000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7730E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1130E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.250000 TO TG2=    1.255000 @ NSTEP      931
   GFRAME TG2 MOMENTS CHECKSUM:  2.4542014425835D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2550E+00  1.2600E+00 total power(Watts):  2.9965E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.25500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.351656E+02    0.350876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.332814E+02    0.353517E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.345945E+02    0.335117E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.366552E+02    0.338844E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.366144E+02    0.359957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.345098E+02    0.369140E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.327948E+02    0.381804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.317124E+02    0.367834E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.315328E+02    0.349746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.322580E+02    0.332911E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.338604E+02    0.319896E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.356987E+02    0.316109E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.375396E+02    0.320562E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.388737E+02    0.332465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.390730E+02    0.350856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.382171E+02    0.369657E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.364535E+02    0.383714E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.345072E+02    0.387755E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.327385E+02    0.412370E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.301403E+02    0.395889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.287495E+02    0.368911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.292083E+02    0.336338E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.311365E+02    0.308792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.341334E+02    0.291613E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.375223E+02    0.289862E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.404699E+02    0.304223E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.421462E+02    0.330463E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.417414E+02    0.364789E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.395421E+02    0.395181E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.361111E+02    0.412747E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.358327E+02    0.259730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.339493E+02    0.263255E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.352288E+02    0.244212E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.373011E+02    0.247103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.373028E+02    0.268294E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.352142E+02    0.278502E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.334344E+02    0.292736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.323211E+02    0.279127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.321903E+02    0.260053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.329690E+02    0.242019E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.344626E+02    0.229368E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.363841E+02    0.224115E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.382394E+02    0.227671E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.394069E+02    0.240542E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.397470E+02    0.257767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.387390E+02    0.278765E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.371025E+02    0.293019E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.351623E+02    0.297937E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.333572E+02    0.323622E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.306403E+02    0.309450E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.293507E+02    0.281652E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.297561E+02    0.248442E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.317995E+02    0.218449E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.348589E+02    0.199805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.382526E+02    0.196913E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.411340E+02    0.210452E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.428759E+02    0.235071E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.424510E+02    0.270239E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.402262E+02    0.302323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.367328E+02    0.322340E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.21 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.352285E+02    0.409226E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.333396E+02    0.411147E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.346799E+02    0.393014E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.367410E+02    0.397523E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.368565E+02    0.417523E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.346398E+02    0.426224E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.328180E+02    0.438509E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.317528E+02    0.424666E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.315943E+02    0.406926E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.323431E+02    0.389881E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.338777E+02    0.377462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.358154E+02    0.373254E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.376535E+02    0.378708E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.389687E+02    0.392004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.392397E+02    0.410206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.383554E+02    0.428225E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.365700E+02    0.441116E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.346132E+02    0.444423E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.328122E+02    0.468619E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.302287E+02    0.451155E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.289455E+02    0.423608E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.292864E+02    0.392575E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.311716E+02    0.364953E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.341948E+02    0.348382E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.376864E+02    0.346841E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.407206E+02    0.361835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.422517E+02    0.391289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133725E+03   -0.418970E+02    0.424950E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.396473E+02    0.454005E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.363726E+02    0.469492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.354119E+02    0.309740E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.335290E+02    0.312750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.348239E+02    0.293990E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.368907E+02    0.297433E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.368702E+02    0.318206E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.347751E+02    0.327389E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.330731E+02    0.339711E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.319753E+02    0.326669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.317761E+02    0.309343E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.325682E+02    0.291231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.340736E+02    0.277976E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.360025E+02    0.272743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.377521E+02    0.278069E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.390011E+02    0.291219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.393232E+02    0.308719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.384876E+02    0.326752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.367382E+02    0.340703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.347935E+02    0.345111E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.330445E+02    0.370434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.304272E+02    0.354100E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.290853E+02    0.327673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.293576E+02    0.297032E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.314248E+02    0.265810E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.344129E+02    0.248192E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.378044E+02    0.245804E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.408647E+02    0.258489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.423674E+02    0.287597E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.420084E+02    0.321165E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.396442E+02    0.352369E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.363306E+02    0.370664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.356540E+02    0.197704E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.338706E+02    0.200563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.351205E+02    0.181444E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.371904E+02    0.183909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.372228E+02    0.204533E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.351522E+02    0.214622E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.333932E+02    0.228344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.322635E+02    0.216025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.321082E+02    0.197795E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.328620E+02    0.179637E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.344234E+02    0.165486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.363362E+02    0.159808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.380986E+02    0.164103E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.392798E+02    0.176825E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.394494E+02    0.195694E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.386695E+02    0.213857E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.370565E+02    0.227595E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.351256E+02    0.232823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.333541E+02    0.258972E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.306994E+02    0.244441E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.292981E+02    0.219377E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.296612E+02    0.186873E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.315856E+02    0.157200E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.347823E+02    0.135792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.381644E+02    0.132307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.410565E+02    0.145069E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.427266E+02    0.170296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.422572E+02    0.205391E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.400881E+02    0.236174E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.366349E+02    0.257648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677818.926078363     
  ps_ts2 prof sum =   677373.365142019     
  trcom prof sum =    677373.365142018     
  ps_ts2 cur sum  =   11047.3926977514     
  trcom cur sum  =    11047.3926977514     
  
  antenna # iant =            2
  powecha_use(iant) =    690232.495009980     
  ps_ts2 prof sum =   689783.597188907     
  trcom prof sum =    689783.597188906     
  ps_ts2 cur sum  =   13562.2758667395     
  trcom cur sum  =    13562.2758667395     
  
  antenna # iant =            3
  powecha_use(iant) =    518041.161021198     
  ps_ts2 prof sum =   517680.520277285     
  trcom prof sum =    517680.520277285     
  ps_ts2 cur sum  =   7259.81375675059     
  trcom cur sum  =    7259.81375675060     
  
  antenna # iant =            4
  powecha_use(iant) =    559547.003993983     
  ps_ts2 prof sum =   559200.239697293     
  trcom prof sum =    559200.239697292     
  ps_ts2 cur sum  =   10016.9397167719     
  trcom cur sum  =    10016.9397167719     
  
  antenna # iant =            5
  powecha_use(iant) =    550822.359163106     
  ps_ts2 prof sum =   550494.439507168     
  trcom prof sum =    550494.439507168     
  ps_ts2 cur sum  =   11887.1734248435     
  trcom cur sum  =    11887.1734248435     
  
  Total ECH heating:      2994532.16181267     
  Total Current Drive:    53773.5954628570     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    934
 TA= 1.25500E+00 CPU TIME= 1.59416E-01 SECONDS.  DT= 1.47979E-03
  
 TEC1=    1.25500000000000     
 TEC2=    1.25999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.25740749999954     
  %check_save_state: izleft hours =    77.7341666666667     
 --> plasma_hash("gframe"): TA= 1.255000E+00 NSTEP=   934 Hash code:   59849807
 ->PRGCHK: bdy curvature ratio at t= 1.2600E+00 seconds is:  5.1186E-02
% MHDEQ: TG1=     1.255000 ; TG2=     1.260000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1186E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.255000 TO TG2=    1.260000 @ NSTEP      934
   GFRAME TG2 MOMENTS CHECKSUM:  2.4542836911726D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.11612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.74835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.63938E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.62177E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.32637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.78428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.06743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.73138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -7.14015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.82087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.73063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.60420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.60890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -4.63609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.66844E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.30310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.71976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.14984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.71103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.71103E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2600E+00  1.2650E+00 total power(Watts):  2.9928E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.26000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.352014E+02    0.351066E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.333149E+02    0.353706E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.346301E+02    0.335272E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.366945E+02    0.338998E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.366499E+02    0.360174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.346331E+02    0.368689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.328260E+02    0.382023E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.317438E+02    0.368033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.315655E+02    0.349919E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.323775E+02    0.332269E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.338967E+02    0.320012E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.358289E+02    0.315436E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.375789E+02    0.320714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.388146E+02    0.333398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.390127E+02    0.351778E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.381566E+02    0.370542E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.364876E+02    0.383948E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.345393E+02    0.387982E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.327677E+02    0.412607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.301701E+02    0.396089E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.287785E+02    0.369089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.291623E+02    0.337239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.311716E+02    0.308882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.341710E+02    0.291724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.375638E+02    0.289990E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.407151E+02    0.302737E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.421882E+02    0.330665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.417808E+02    0.365050E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.395774E+02    0.395457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.361427E+02    0.413006E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.358733E+02    0.259862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.339880E+02    0.263380E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.352701E+02    0.244314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.373434E+02    0.247221E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.373444E+02    0.268442E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.352528E+02    0.278634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.334712E+02    0.292844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.323586E+02    0.279243E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.322275E+02    0.260167E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.330064E+02    0.242102E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.345034E+02    0.229421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.364271E+02    0.224161E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.382840E+02    0.227746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.394515E+02    0.240658E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.396918E+02    0.258840E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.387812E+02    0.278917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.371431E+02    0.293135E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.352013E+02    0.298049E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.334804E+02    0.322951E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.308379E+02    0.307861E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.295425E+02    0.279926E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.297912E+02    0.248515E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.318381E+02    0.218459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.348999E+02    0.199796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.382980E+02    0.196917E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.413851E+02    0.208476E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.429239E+02    0.235203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.424981E+02    0.270410E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.402687E+02    0.302458E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.368654E+02    0.321706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.352601E+02    0.409477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.334567E+02    0.410840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.347122E+02    0.393249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.367743E+02    0.397771E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.367945E+02    0.418302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.346699E+02    0.426476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.329321E+02    0.438275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.317808E+02    0.424900E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.316234E+02    0.407153E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.323738E+02    0.390094E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.339103E+02    0.377679E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.358496E+02    0.373477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.376888E+02    0.378949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.389056E+02    0.392850E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.392739E+02    0.410483E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.383890E+02    0.428494E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.367911E+02    0.440461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.346418E+02    0.444673E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.329211E+02    0.468517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.302540E+02    0.451382E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.289719E+02    0.423831E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.293146E+02    0.392777E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.312853E+02    0.364455E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.343187E+02    0.347845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.377238E+02    0.347047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.408610E+02    0.361430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.422896E+02    0.391574E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133722E+03   -0.419320E+02    0.425248E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.396782E+02    0.454300E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.363074E+02    0.470155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.354498E+02    0.309852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.335653E+02    0.312857E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.348629E+02    0.294098E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.369308E+02    0.297554E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.369089E+02    0.318345E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.348111E+02    0.327528E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.331071E+02    0.339869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.320096E+02    0.326788E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.318110E+02    0.309442E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.326044E+02    0.291342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.341123E+02    0.278098E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.360368E+02    0.272924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.378901E+02    0.277332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.390432E+02    0.291361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.392599E+02    0.309706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.384293E+02    0.327684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.367743E+02    0.340894E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.348292E+02    0.345295E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.330808E+02    0.370614E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.304579E+02    0.354280E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.290395E+02    0.328575E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.293912E+02    0.297122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.314612E+02    0.265923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.344529E+02    0.248293E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.379374E+02    0.245033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.408090E+02    0.259558E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.424125E+02    0.287752E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.420509E+02    0.321343E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.398828E+02    0.351211E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.364589E+02    0.370233E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.357877E+02    0.196633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.339091E+02    0.200567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.352525E+02    0.180318E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.373289E+02    0.182802E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.372674E+02    0.204544E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.351940E+02    0.214641E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.334324E+02    0.228397E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.323035E+02    0.216038E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.321478E+02    0.197774E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.329021E+02    0.179590E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.344659E+02    0.165424E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.363805E+02    0.159749E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.381443E+02    0.164053E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.393274E+02    0.176794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.395942E+02    0.194650E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.387153E+02    0.213897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.371005E+02    0.227652E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.351670E+02    0.232892E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.333924E+02    0.259090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.307358E+02    0.244516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.293345E+02    0.219375E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.296987E+02    0.186817E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.317874E+02    0.154815E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.348258E+02    0.135688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.382128E+02    0.132205E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.411060E+02    0.145007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.427777E+02    0.170282E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.422033E+02    0.206447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.400345E+02    0.237252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.367699E+02    0.256842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678640.746816988     
  ps_ts2 prof sum =   678156.937076828     
  trcom prof sum =    678156.937076828     
  ps_ts2 cur sum  =   11176.7524161466     
  trcom cur sum  =    11176.7524161466     
  
  antenna # iant =            2
  powecha_use(iant) =    689966.888770495     
  ps_ts2 prof sum =   689532.028472042     
  trcom prof sum =    689532.028472042     
  ps_ts2 cur sum  =   13687.6280820822     
  trcom cur sum  =    13687.6280820822     
  
  antenna # iant =            3
  powecha_use(iant) =    518174.361934877     
  ps_ts2 prof sum =   517805.051415459     
  trcom prof sum =    517805.051415460     
  ps_ts2 cur sum  =   7338.34826334609     
  trcom cur sum  =    7338.34826334609     
  
  antenna # iant =            4
  powecha_use(iant) =    554889.281625540     
  ps_ts2 prof sum =   554515.920047436     
  trcom prof sum =    554515.920047435     
  ps_ts2 cur sum  =   10034.1133906718     
  trcom cur sum  =    10034.1133906718     
  
  antenna # iant =            5
  powecha_use(iant) =    551158.103003445     
  ps_ts2 prof sum =   550822.306513525     
  trcom prof sum =    550822.306513525     
  ps_ts2 cur sum  =   12003.8497488673     
  trcom cur sum  =    12003.8497488673     
  
  Total ECH heating:      2990832.24352529     
  Total Current Drive:    54240.6919011139     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    937
 TA= 1.26000E+00 CPU TIME= 1.67630E-01 SECONDS.  DT= 2.08809E-03
  
 TEC1=    1.25999999999999     
 TEC2=    1.26499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.26966611111084     
  %check_save_state: izleft hours =    77.7219444444444     
 --> plasma_hash("gframe"): TA= 1.260000E+00 NSTEP=   937 Hash code:   82385643
 ->PRGCHK: bdy curvature ratio at t= 1.2650E+00 seconds is:  5.1250E-02
% MHDEQ: TG1=     1.260000 ; TG2=     1.265000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7702E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1250E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.260000 TO TG2=    1.265000 @ NSTEP      937
   GFRAME TG2 MOMENTS CHECKSUM:  2.4543659397617D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2650E+00  1.2700E+00 total power(Watts):  3.0112E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.26500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.352305E+02    0.351290E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.334342E+02    0.353172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.346652E+02    0.335410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.367308E+02    0.339156E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.367791E+02    0.359695E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.346661E+02    0.368895E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.328570E+02    0.382223E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.317744E+02    0.368220E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.315969E+02    0.350073E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.324102E+02    0.332393E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.339316E+02    0.320116E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.358644E+02    0.315542E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.376169E+02    0.320834E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.388531E+02    0.333554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.392471E+02    0.350598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.383862E+02    0.369478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.367091E+02    0.382943E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.345712E+02    0.388202E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.328833E+02    0.412278E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.301945E+02    0.396316E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.289622E+02    0.367885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.291920E+02    0.337352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.311220E+02    0.309793E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.343000E+02    0.290926E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.376995E+02    0.289238E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.407556E+02    0.302869E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.423335E+02    0.330116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.418192E+02    0.365303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.397119E+02    0.395145E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.363605E+02    0.412178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.359126E+02    0.259968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.341136E+02    0.262549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.353998E+02    0.243422E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.374805E+02    0.246348E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.373848E+02    0.268564E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.352924E+02    0.278742E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.335079E+02    0.292934E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.324790E+02    0.278444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.322635E+02    0.260258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.330447E+02    0.242163E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.346324E+02    0.228452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.365610E+02    0.223190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.383265E+02    0.227808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.396924E+02    0.238836E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.397347E+02    0.258968E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.389205E+02    0.278168E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.372773E+02    0.292388E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.352381E+02    0.298141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.335144E+02    0.323061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.308706E+02    0.307929E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.295770E+02    0.280010E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.299842E+02    0.246602E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.318755E+02    0.218459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.349411E+02    0.199775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.383412E+02    0.196909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.413298E+02    0.209515E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.429707E+02    0.235311E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.425431E+02    0.270560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.403100E+02    0.302569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.369029E+02    0.321821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.352910E+02    0.409707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.334865E+02    0.411061E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.347439E+02    0.393470E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.369959E+02    0.396858E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.368261E+02    0.418547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.346996E+02    0.426709E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.329601E+02    0.438504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.318925E+02    0.424605E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.316523E+02    0.407365E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.324890E+02    0.389684E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.340308E+02    0.377240E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.359758E+02    0.373044E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.379162E+02    0.377932E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.391372E+02    0.391937E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.393074E+02    0.410750E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.385141E+02    0.428301E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.368173E+02    0.440735E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.346700E+02    0.444914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.329431E+02    0.468789E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.302792E+02    0.451605E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.289974E+02    0.424035E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.292637E+02    0.393580E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.313161E+02    0.364639E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.343522E+02    0.348012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.377608E+02    0.347230E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.408992E+02    0.361668E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.424309E+02    0.391280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.419665E+02    0.425538E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.398089E+02    0.454184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.365213E+02    0.469704E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.354867E+02    0.309950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.336882E+02    0.312126E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.348993E+02    0.294190E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.370643E+02    0.296808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.370413E+02    0.317664E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.349371E+02    0.326868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.331392E+02    0.340021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.320423E+02    0.326892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.318447E+02    0.309517E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.326407E+02    0.291424E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.342381E+02    0.277306E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.361713E+02    0.272117E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.379310E+02    0.277458E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.390839E+02    0.291470E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.393024E+02    0.309796E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.384678E+02    0.327823E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.368106E+02    0.341061E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.348637E+02    0.345455E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.331076E+02    0.370845E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.304884E+02    0.354438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.290696E+02    0.328673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.295811E+02    0.295441E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.314962E+02    0.266018E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.345802E+02    0.247408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.379834E+02    0.245082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.410561E+02    0.257873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.425610E+02    0.287048E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.420926E+02    0.321507E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.399203E+02    0.351430E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.364933E+02    0.370447E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.358292E+02    0.196613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.340362E+02    0.199481E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.352942E+02    0.180269E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.373726E+02    0.182770E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.373104E+02    0.204542E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.352350E+02    0.214650E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.334716E+02    0.228423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.324251E+02    0.214993E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.321863E+02    0.197735E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.330273E+02    0.178427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.345091E+02    0.165359E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.365152E+02    0.158556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.382848E+02    0.162886E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.394701E+02    0.175683E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.396389E+02    0.194644E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.387590E+02    0.213919E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.371425E+02    0.227704E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.352076E+02    0.232939E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.334295E+02    0.259183E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.306918E+02    0.245540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.295249E+02    0.217264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.298910E+02    0.184533E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.318273E+02    0.154721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.348691E+02    0.135576E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.383525E+02    0.130941E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.413547E+02    0.142682E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.427237E+02    0.171326E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.424570E+02    0.204452E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.400785E+02    0.237339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.368107E+02    0.256944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687131.061732773     
  ps_ts2 prof sum =   686685.199360733     
  trcom prof sum =    686685.199360732     
  ps_ts2 cur sum  =   11424.0204508650     
  trcom cur sum  =    11424.0204508650     
  
  antenna # iant =            2
  powecha_use(iant) =    693506.142739371     
  ps_ts2 prof sum =   693085.946024846     
  trcom prof sum =    693085.946024846     
  ps_ts2 cur sum  =   13877.7177426890     
  trcom cur sum  =    13877.7177426890     
  
  antenna # iant =            3
  powecha_use(iant) =    518237.167457652     
  ps_ts2 prof sum =   517889.054816307     
  trcom prof sum =    517889.054816307     
  ps_ts2 cur sum  =   7407.45494838654     
  trcom cur sum  =    7407.45494838655     
  
  antenna # iant =            4
  powecha_use(iant) =    562097.071311169     
  ps_ts2 prof sum =   561738.545717410     
  trcom prof sum =    561738.545717410     
  ps_ts2 cur sum  =   10259.2600612875     
  trcom cur sum  =    10259.2600612875     
  
  antenna # iant =            5
  powecha_use(iant) =    550253.080558762     
  ps_ts2 prof sum =   549932.904098870     
  trcom prof sum =    549932.904098870     
  ps_ts2 cur sum  =   12079.7869151914     
  trcom cur sum  =    12079.7869151914     
  
  Total ECH heating:      3009331.65001816     
  Total Current Drive:    55048.2401184195     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    940
 TA= 1.26500E+00 CPU TIME= 1.57904E-01 SECONDS.  DT= 3.77256E-04
  
 TEC1=    1.26499999999999     
 TEC2=    1.26999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.28192472222213     
  %check_save_state: izleft hours =    77.7097222222222     
 --> plasma_hash("gframe"): TA= 1.265000E+00 NSTEP=   940 Hash code:   72751961
 ->PRGCHK: bdy curvature ratio at t= 1.2700E+00 seconds is:  5.1322E-02
% MHDEQ: TG1=     1.265000 ; TG2=     1.270000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7688E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1322E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.265000 TO TG2=    1.270000 @ NSTEP      940
   GFRAME TG2 MOMENTS CHECKSUM:  2.4544481883509D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.24306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.91465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.20990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.99335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.26319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.38466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.79293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.37378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.58807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.76025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.84808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.01252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.65634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.49669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.60585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.88629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.04769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.57721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.65569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.85840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.85840E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.2700E+00  1.2750E+00 total power(Watts):  3.0169E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.27000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.352708E+02    0.351444E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.334690E+02    0.353354E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.347015E+02    0.335563E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.368632E+02    0.338593E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.368161E+02    0.359912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.347007E+02    0.369109E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.328893E+02    0.382448E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.318069E+02    0.368412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.317139E+02    0.349511E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.324447E+02    0.332521E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.339686E+02    0.320227E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.359032E+02    0.315658E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.377529E+02    0.320184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.390899E+02    0.332247E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.392868E+02    0.350818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.384235E+02    0.369727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.366505E+02    0.383805E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.346946E+02    0.387833E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.329135E+02    0.412526E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.303071E+02    0.395910E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.289921E+02    0.368066E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.293806E+02    0.335925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.313222E+02    0.308208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.343338E+02    0.291072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.377413E+02    0.289358E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.407994E+02    0.302998E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.423770E+02    0.330310E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.419634E+02    0.364923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.397485E+02    0.395428E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.363004E+02    0.412975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.359549E+02    0.260094E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.341541E+02    0.262666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.354423E+02    0.243515E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.375235E+02    0.246475E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.375231E+02    0.267792E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.354231E+02    0.277985E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.336332E+02    0.292164E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.325173E+02    0.278556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.323024E+02    0.260361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.331707E+02    0.241256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.346735E+02    0.228502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.366053E+02    0.223236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.384706E+02    0.226864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.396399E+02    0.239908E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.399791E+02    0.257279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.389642E+02    0.278305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.373186E+02    0.292502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.353688E+02    0.297395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.335513E+02    0.323174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.309054E+02    0.308013E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.295322E+02    0.281024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.300204E+02    0.246674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.318318E+02    0.219503E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.349846E+02    0.199763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.384845E+02    0.195858E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.413787E+02    0.209558E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.431250E+02    0.234495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.425904E+02    0.270724E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.402514E+02    0.303523E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.369422E+02    0.321954E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.353235E+02    0.409958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.335177E+02    0.411309E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.347771E+02    0.393706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.369361E+02    0.397690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.370478E+02    0.417798E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.347308E+02    0.426961E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.329891E+02    0.438748E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.319217E+02    0.424845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.317659E+02    0.407032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.325207E+02    0.389916E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.340644E+02    0.377465E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.360111E+02    0.373275E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.379527E+02    0.378182E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.391738E+02    0.392207E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.393425E+02    0.411040E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.385500E+02    0.428575E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.367509E+02    0.441476E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.347900E+02    0.444731E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.329744E+02    0.469041E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.303053E+02    0.451842E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.289470E+02    0.424781E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.294501E+02    0.392564E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.313482E+02    0.364820E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.343881E+02    0.348188E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.379921E+02    0.346009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.409393E+02    0.361918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133721E+03   -0.424700E+02    0.391583E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.420025E+02    0.425850E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.398410E+02    0.454492E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.365499E+02    0.470014E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.355242E+02    0.310061E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.337253E+02    0.312229E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.350288E+02    0.293438E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.371051E+02    0.296919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.370810E+02    0.317791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.349744E+02    0.327004E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.331741E+02    0.340171E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.320771E+02    0.327007E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.319642E+02    0.308770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.326780E+02    0.291525E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.342781E+02    0.277426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.362131E+02    0.272247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.379740E+02    0.277592E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.393246E+02    0.289901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.395432E+02    0.308323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.385080E+02    0.327982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.368487E+02    0.341243E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.348998E+02    0.345632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.331417E+02    0.371048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.305202E+02    0.354612E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.292584E+02    0.327177E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.296155E+02    0.295521E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.315343E+02    0.266122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.346219E+02    0.247507E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.380280E+02    0.245198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.411032E+02    0.258026E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.426076E+02    0.287191E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.422405E+02    0.320922E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.399605E+02    0.351656E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.365292E+02    0.370682E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.358721E+02    0.196603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.340783E+02    0.199469E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.353386E+02    0.180231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.374188E+02    0.182747E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.374495E+02    0.203510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.352773E+02    0.214667E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.335116E+02    0.228467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.324651E+02    0.214995E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.321430E+02    0.198786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.330681E+02    0.178376E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.346393E+02    0.164169E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.365618E+02    0.158493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.383329E+02    0.162838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.395190E+02    0.175657E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.396879E+02    0.194650E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.389029E+02    0.212941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.371862E+02    0.227766E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.352491E+02    0.233006E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.334696E+02    0.259294E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.308895E+02    0.243653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.294840E+02    0.218305E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.298506E+02    0.185593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.317868E+02    0.155784E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.350008E+02    0.134301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.384015E+02    0.130845E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.413066E+02    0.143742E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.429827E+02    0.169168E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.425075E+02    0.204492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.401252E+02    0.237452E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.368531E+02    0.257079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.21 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689636.513092551     
  ps_ts2 prof sum =   689227.552720204     
  trcom prof sum =    689227.552720203     
  ps_ts2 cur sum  =   11587.8250746216     
  trcom cur sum  =    11587.8250746216     
  
  antenna # iant =            2
  powecha_use(iant) =    694071.620461145     
  ps_ts2 prof sum =   693640.134321933     
  trcom prof sum =    693640.134321933     
  ps_ts2 cur sum  =   14027.8497983726     
  trcom cur sum  =    14027.8497983726     
  
  antenna # iant =            3
  powecha_use(iant) =    520778.486169443     
  ps_ts2 prof sum =   520428.558213716     
  trcom prof sum =    520428.558213717     
  ps_ts2 cur sum  =   7522.19195910853     
  trcom cur sum  =    7522.19195910853     
  
  antenna # iant =            4
  powecha_use(iant) =    562128.416769710     
  ps_ts2 prof sum =   561793.624533454     
  trcom prof sum =    561793.624519559     
  ps_ts2 cur sum  =   10368.0421125456     
  trcom cur sum  =    10368.0421125456     
  
  antenna # iant =            5
  powecha_use(iant) =    550302.241824138     
  ps_ts2 prof sum =   549954.236604017     
  trcom prof sum =    549954.236604017     
  ps_ts2 cur sum  =   12190.9331930944     
  trcom cur sum  =    12190.9331930944     
  
  Total ECH heating:      3015044.10637943     
  Total Current Drive:    55696.8421377426     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    947
 TA= 1.27000E+00 CPU TIME= 1.59005E-01 SECONDS.  DT= 9.40697E-04
  
 TEC1=    1.26999999999999     
 TEC2=    1.27499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.29742777777756     
  %check_save_state: izleft hours =    77.6941666666667     
 --> plasma_hash("gframe"): TA= 1.270000E+00 NSTEP=   947 Hash code:   48577910
 ->PRGCHK: bdy curvature ratio at t= 1.2750E+00 seconds is:  5.1400E-02
% MHDEQ: TG1=     1.270000 ; TG2=     1.275000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1400E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.270000 TO TG2=    1.275000 @ NSTEP      947
   GFRAME TG2 MOMENTS CHECKSUM:  2.4545304369400D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2750E+00  1.2800E+00 total power(Watts):  3.0168E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.27500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.353072E+02    0.351652E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.335036E+02    0.353549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.348289E+02    0.334971E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.369019E+02    0.338784E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.368534E+02    0.360136E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.347359E+02    0.369327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.330083E+02    0.382038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.319236E+02    0.367943E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.317472E+02    0.349689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.324790E+02    0.332670E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.340046E+02    0.320352E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.359425E+02    0.315780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.377930E+02    0.320332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.391308E+02    0.332440E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.393265E+02    0.351050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.384613E+02    0.369982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.366860E+02    0.384056E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.347278E+02    0.388075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.329445E+02    0.412773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.303369E+02    0.396130E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.290227E+02    0.368254E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.294130E+02    0.336060E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.313577E+02    0.308304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.343756E+02    0.291159E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.377838E+02    0.289485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.407422E+02    0.303946E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.424208E+02    0.330526E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.420045E+02    0.365199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.397856E+02    0.395717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.363340E+02    0.413245E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.359969E+02    0.260223E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.341949E+02    0.262786E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.354844E+02    0.243612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.375675E+02    0.246593E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.375661E+02    0.267937E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.354641E+02    0.278109E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.336722E+02    0.292268E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.325548E+02    0.278672E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.324259E+02    0.259524E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.332107E+02    0.241336E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.347160E+02    0.228556E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.366497E+02    0.223289E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.385145E+02    0.226964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.396864E+02    0.240021E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.400259E+02    0.257431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.390070E+02    0.278456E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.373605E+02    0.292626E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.354089E+02    0.297504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.335867E+02    0.323303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.309409E+02    0.308101E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.295683E+02    0.281115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.300573E+02    0.246744E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.320392E+02    0.217431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.351183E+02    0.198703E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.385319E+02    0.195872E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.416327E+02    0.207594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.431758E+02    0.234630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.427437E+02    0.270020E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.402953E+02    0.303657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.369819E+02    0.322093E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.354477E+02    0.409686E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.335491E+02    0.411559E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.348107E+02    0.393954E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.369711E+02    0.397956E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.370810E+02    0.418077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.348516E+02    0.426733E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.330181E+02    0.439004E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.319507E+02    0.425092E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.317963E+02    0.407270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.325527E+02    0.390142E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.340981E+02    0.377693E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.360467E+02    0.373514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.378934E+02    0.379057E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.392105E+02    0.392494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.394770E+02    0.410811E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.385838E+02    0.428862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.367868E+02    0.441725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.348199E+02    0.444993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.330011E+02    0.469321E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.304126E+02    0.451651E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.291295E+02    0.423964E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.294793E+02    0.392777E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.313808E+02    0.365023E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.344240E+02    0.348378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.379346E+02    0.346933E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.409797E+02    0.362181E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133714E+03   -0.425115E+02    0.391877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133490E+03   -0.421427E+02    0.425701E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.398734E+02    0.454804E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.365784E+02    0.470333E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.355635E+02    0.310176E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.337628E+02    0.312335E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.350690E+02    0.293544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.371467E+02    0.297035E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.371210E+02    0.317924E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.350122E+02    0.327145E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.332098E+02    0.340332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.321972E+02    0.326348E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.320004E+02    0.308874E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.328013E+02    0.290750E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.343178E+02    0.277547E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.362549E+02    0.272378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.380156E+02    0.277740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.392697E+02    0.290876E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.395860E+02    0.308465E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.387443E+02    0.326637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.369819E+02    0.340696E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.350268E+02    0.345094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.331754E+02    0.371260E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.305525E+02    0.354790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.292910E+02    0.327290E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.296501E+02    0.295609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.314891E+02    0.267160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.346629E+02    0.247606E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.380727E+02    0.245315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.411504E+02    0.258185E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.426547E+02    0.287340E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.422851E+02    0.321101E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.399006E+02    0.352584E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.365655E+02    0.370916E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.360095E+02    0.195538E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.341226E+02    0.199461E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.353840E+02    0.180203E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.374660E+02    0.182729E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.374962E+02    0.203530E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.354113E+02    0.213666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.336396E+02    0.227507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.325058E+02    0.215009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.323509E+02    0.196621E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.331113E+02    0.178337E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.346823E+02    0.164126E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.366092E+02    0.158441E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.383815E+02    0.162798E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.395688E+02    0.175641E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.397368E+02    0.194665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.389503E+02    0.212982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.373253E+02    0.226841E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.353821E+02    0.232085E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.335963E+02    0.258466E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.309272E+02    0.243725E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.295213E+02    0.218309E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.298901E+02    0.185543E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.318287E+02    0.155703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.350472E+02    0.134203E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.384515E+02    0.130757E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.413593E+02    0.143687E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.430359E+02    0.169163E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.425589E+02    0.204544E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.403728E+02    0.235644E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.368963E+02    0.257208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686392.569154989     
  ps_ts2 prof sum =   685969.039413067     
  trcom prof sum =    685969.039413067     
  ps_ts2 cur sum  =   11659.4231157552     
  trcom cur sum  =    11659.4231157552     
  
  antenna # iant =            2
  powecha_use(iant) =    695665.632300586     
  ps_ts2 prof sum =   695250.611340379     
  trcom prof sum =    695250.611340379     
  ps_ts2 cur sum  =   14207.3177646593     
  trcom cur sum  =    14207.3177646593     
  
  antenna # iant =            3
  powecha_use(iant) =    522976.788063114     
  ps_ts2 prof sum =   522625.866935511     
  trcom prof sum =    522625.866935512     
  ps_ts2 cur sum  =   7636.06975057449     
  trcom cur sum  =    7636.06975057449     
  
  antenna # iant =            4
  powecha_use(iant) =    562049.206900425     
  ps_ts2 prof sum =   561699.631167563     
  trcom prof sum =    561699.631167563     
  ps_ts2 cur sum  =   10479.1856285787     
  trcom cur sum  =    10479.1856285787     
  
  antenna # iant =            5
  powecha_use(iant) =    549729.901912066     
  ps_ts2 prof sum =   549407.189815039     
  trcom prof sum =    549407.189815039     
  ps_ts2 cur sum  =   12298.2450006990     
  trcom cur sum  =    12298.2450006990     
  
  Total ECH heating:      3014952.33867156     
  Total Current Drive:    56280.2412602667     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    951
 TA= 1.27500E+00 CPU TIME= 1.46371E-01 SECONDS.  DT= 1.76699E-03
  
 TEC1=    1.27499999999999     
 TEC2=    1.27999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.31324666666615     
  %check_save_state: izleft hours =    77.6783333333333     
 --> plasma_hash("gframe"): TA= 1.275000E+00 NSTEP=   951 Hash code:    4519335
 ->PRGCHK: bdy curvature ratio at t= 1.2800E+00 seconds is:  5.1485E-02
% MHDEQ: TG1=     1.275000 ; TG2=     1.280000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1485E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.275000 TO TG2=    1.280000 @ NSTEP      951
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546126855291D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.35701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.06392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.42929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.20649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.59276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.54655E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.95038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.19496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.02787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.95349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.48145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.49406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.25572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.68113E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.05620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.81843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.44926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.10973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.95279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.95279E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2800E+00  1.2850E+00 total power(Watts):  3.0314E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.28000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.354327E+02    0.351157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.335366E+02    0.353751E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.348638E+02    0.335146E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.369381E+02    0.338982E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.368883E+02    0.360370E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.347685E+02    0.369563E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.330387E+02    0.382284E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.319542E+02    0.368163E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.317788E+02    0.349881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.325121E+02    0.332823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.341282E+02    0.319699E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.359796E+02    0.315921E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.378316E+02    0.320491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.391693E+02    0.332642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.392649E+02    0.351988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.383994E+02    0.370887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.367191E+02    0.384321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.347594E+02    0.388329E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.329725E+02    0.413043E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.303642E+02    0.396376E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.289730E+02    0.369129E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.294472E+02    0.336169E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.313916E+02    0.308404E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.344126E+02    0.291281E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.378239E+02    0.289621E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.407840E+02    0.304103E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.424620E+02    0.330755E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.420428E+02    0.365489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.398200E+02    0.396023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.363644E+02    0.413535E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.361302E+02    0.259428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.342334E+02    0.262916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.355249E+02    0.243730E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.376105E+02    0.246717E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.376058E+02    0.268101E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.355028E+02    0.278250E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.337110E+02    0.292373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.325915E+02    0.278797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.324621E+02    0.259646E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.332493E+02    0.241427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.347562E+02    0.228628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.366918E+02    0.223359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.385593E+02    0.227052E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.397309E+02    0.240161E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.399694E+02    0.258515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.390491E+02    0.278615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.373999E+02    0.292760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.354469E+02    0.297628E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.337088E+02    0.322658E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.308920E+02    0.309038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.296021E+02    0.281238E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.300095E+02    0.247838E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.320766E+02    0.217476E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.351606E+02    0.198712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.385781E+02    0.195891E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.416811E+02    0.207657E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.432235E+02    0.234781E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.427890E+02    0.270209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.405389E+02    0.302198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.370196E+02    0.322255E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.354781E+02    0.409968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.335776E+02    0.411833E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.349319E+02    0.393630E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.370034E+02    0.398239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.370174E+02    0.418887E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.348807E+02    0.427018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.331309E+02    0.438817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.319779E+02    0.425355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.318243E+02    0.407529E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.325824E+02    0.390389E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.341297E+02    0.377937E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.360801E+02    0.373764E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.379305E+02    0.379310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.392447E+02    0.392790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.395098E+02    0.411133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.386147E+02    0.429179E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.368155E+02    0.442030E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.348470E+02    0.445283E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.330250E+02    0.469626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.304365E+02    0.451916E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.291549E+02    0.424217E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.295066E+02    0.393008E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.314942E+02    0.364548E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.345473E+02    0.347863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.379712E+02    0.347161E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.410174E+02    0.362456E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.425421E+02    0.392239E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133485E+03   -0.421760E+02    0.426048E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133784E+03   -0.400020E+02    0.454757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.365115E+02    0.471009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.356926E+02    0.309487E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.337970E+02    0.312461E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.351069E+02    0.293668E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.371855E+02    0.297170E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.371591E+02    0.318076E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.350479E+02    0.327300E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.333300E+02    0.339769E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.322290E+02    0.326496E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.320345E+02    0.308984E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.328373E+02    0.290862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.343556E+02    0.277692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.362951E+02    0.272531E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.381534E+02    0.277015E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.393112E+02    0.291026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.395273E+02    0.309414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.386851E+02    0.327578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.370181E+02    0.340907E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.350605E+02    0.345298E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.332936E+02    0.370828E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.306643E+02    0.354264E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.292434E+02    0.328204E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.296052E+02    0.296572E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.316908E+02    0.265421E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.347027E+02    0.247724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.381156E+02    0.245447E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.410926E+02    0.259274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.426994E+02    0.287507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.423269E+02    0.321301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.401388E+02    0.351468E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.365994E+02    0.371165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.360522E+02    0.195552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.341636E+02    0.199465E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.355156E+02    0.179093E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.376047E+02    0.181647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.375402E+02    0.203557E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.354533E+02    0.213699E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.336790E+02    0.227573E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.325448E+02    0.215035E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.323901E+02    0.196614E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.331522E+02    0.178302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.347269E+02    0.164074E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.366540E+02    0.158398E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.385235E+02    0.161664E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.396157E+02    0.175632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.398851E+02    0.193619E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.389925E+02    0.213055E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.373681E+02    0.226923E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.354228E+02    0.232170E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.336349E+02    0.258591E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.309629E+02    0.243811E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.295576E+02    0.218318E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.299274E+02    0.185505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.320324E+02    0.153334E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.350914E+02    0.134118E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.384994E+02    0.130680E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.414094E+02    0.143645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.430871E+02    0.169170E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.425044E+02    0.205613E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.403176E+02    0.236741E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.370320E+02    0.256418E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.46 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691164.238032264     
  ps_ts2 prof sum =   690696.753249211     
  trcom prof sum =    690696.753249211     
  ps_ts2 cur sum  =   11866.5004391200     
  trcom cur sum  =    11866.5004391200     
  
  antenna # iant =            2
  powecha_use(iant) =    696633.456332056     
  ps_ts2 prof sum =   696181.257769304     
  trcom prof sum =    696181.257769304     
  ps_ts2 cur sum  =   14374.4982569991     
  trcom cur sum  =    14374.4982569991     
  
  antenna # iant =            3
  powecha_use(iant) =    524548.769535693     
  ps_ts2 prof sum =   524184.554753284     
  trcom prof sum =    524184.554753284     
  ps_ts2 cur sum  =   7740.37987866521     
  trcom cur sum  =    7740.37987866522     
  
  antenna # iant =            4
  powecha_use(iant) =    569491.319865264     
  ps_ts2 prof sum =   569125.564420272     
  trcom prof sum =    569125.564420271     
  ps_ts2 cur sum  =   10730.1012450546     
  trcom cur sum  =    10730.1012450546     
  
  antenna # iant =            5
  powecha_use(iant) =    549518.580924819     
  ps_ts2 prof sum =   549197.748086453     
  trcom prof sum =    549197.748086453     
  ps_ts2 cur sum  =   12412.8711433608     
  trcom cur sum  =    12412.8711433608     
  
  Total ECH heating:      3029385.87827852     
  Total Current Drive:    57124.3509631998     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    954
 TA= 1.28000E+00 CPU TIME= 1.74400E-01 SECONDS.  DT= 1.28034E-03
  
 TEC1=    1.27999999999999     
 TEC2=    1.28499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.32707805555515     
  %check_save_state: izleft hours =    77.6644444444444     
 --> plasma_hash("gframe"): TA= 1.280000E+00 NSTEP=   954 Hash code:   69684448
 ->PRGCHK: bdy curvature ratio at t= 1.2850E+00 seconds is:  5.1577E-02
% MHDEQ: TG1=     1.280000 ; TG2=     1.285000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1577E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.280000 TO TG2=    1.285000 @ NSTEP      954
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546949341182D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.2850E+00  1.2900E+00 total power(Watts):  3.0372E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.28500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.354662E+02    0.351356E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.336557E+02    0.353242E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.348980E+02    0.335308E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.369738E+02    0.339162E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.370166E+02    0.359916E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.348908E+02    0.369121E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.330685E+02    0.382503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.319839E+02    0.368365E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.318094E+02    0.350056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.326299E+02    0.332202E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.341625E+02    0.319822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.361085E+02    0.315249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.378695E+02    0.320633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.391081E+02    0.333565E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.393014E+02    0.352209E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.384337E+02    0.371132E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.367517E+02    0.384568E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.347902E+02    0.388572E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.330009E+02    0.413292E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.303914E+02    0.396596E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.290005E+02    0.369312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.293926E+02    0.337123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.314242E+02    0.308499E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.345381E+02    0.290529E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.379599E+02    0.288889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.410289E+02    0.302636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.425025E+02    0.330956E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.420803E+02    0.365750E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.398536E+02    0.396309E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.365806E+02    0.412772E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.361671E+02    0.259568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.342707E+02    0.263042E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.356557E+02    0.242860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.377472E+02    0.245886E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.376461E+02    0.268241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.355402E+02    0.278383E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.337439E+02    0.292492E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.327115E+02    0.278015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.324985E+02    0.259754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.332863E+02    0.241514E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.348845E+02    0.227686E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.368263E+02    0.222408E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.386017E+02    0.227130E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.399723E+02    0.238369E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.400117E+02    0.258668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.392867E+02    0.277015E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.374389E+02    0.292880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.354835E+02    0.297737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.337428E+02    0.322786E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.310880E+02    0.307464E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.297924E+02    0.279519E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.300470E+02    0.247888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.321133E+02    0.217487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.352013E+02    0.198711E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.386213E+02    0.195901E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.416243E+02    0.208717E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.432696E+02    0.234927E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.428325E+02    0.270382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.405796E+02    0.302342E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.371513E+02    0.321621E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.355078E+02    0.410233E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.336940E+02    0.411547E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.349626E+02    0.393876E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.370348E+02    0.398502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.370461E+02    0.419182E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.349085E+02    0.427289E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.331570E+02    0.439081E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.320041E+02    0.425607E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.318516E+02    0.407770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.326112E+02    0.390618E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.342495E+02    0.377523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.361128E+02    0.373993E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.379593E+02    0.379592E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.393767E+02    0.392500E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.395421E+02    0.411432E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.387418E+02    0.429015E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.370313E+02    0.441444E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.348738E+02    0.445556E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.331342E+02    0.469555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.304599E+02    0.452167E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.291794E+02    0.424453E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.295328E+02    0.393233E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.315238E+02    0.364742E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.345800E+02    0.348053E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.380069E+02    0.347366E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.411562E+02    0.362069E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133486E+03   -0.426866E+02    0.391962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133480E+03   -0.422088E+02    0.426373E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.400306E+02    0.455081E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.367223E+02    0.470641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.357287E+02    0.309604E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.339195E+02    0.311758E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.351436E+02    0.293777E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.372240E+02    0.297290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.371962E+02    0.318210E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.351733E+02    0.326677E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.333625E+02    0.339935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.322613E+02    0.326623E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.320671E+02    0.309072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.328717E+02    0.290967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.343922E+02    0.277812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.363334E+02    0.272665E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.381933E+02    0.277156E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.393515E+02    0.291152E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.395669E+02    0.309549E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.387229E+02    0.327744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.370534E+02    0.341095E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.350966E+02    0.345464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.333242E+02    0.371042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.306937E+02    0.354441E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.292734E+02    0.328316E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.296360E+02    0.296657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.317260E+02    0.265535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.348307E+02    0.246865E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.382531E+02    0.244616E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.413404E+02    0.257621E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.428477E+02    0.286827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.423677E+02    0.321485E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.401760E+02    0.351703E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.367265E+02    0.370751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.360941E+02    0.195549E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.342907E+02    0.198401E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.355575E+02    0.179062E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.376479E+02    0.181629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.375822E+02    0.203573E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.354933E+02    0.213728E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.337173E+02    0.227622E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.324982E+02    0.216083E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.324290E+02    0.196593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.332760E+02    0.177160E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.348561E+02    0.162901E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.367894E+02    0.157223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.385686E+02    0.161624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.397593E+02    0.174541E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.399236E+02    0.193697E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.390387E+02    0.213084E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.374103E+02    0.226992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.354627E+02    0.232243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.336717E+02    0.258706E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.309171E+02    0.244868E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.295922E+02    0.218320E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.301200E+02    0.183249E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.320718E+02    0.153261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.351352E+02    0.134021E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.386399E+02    0.129438E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.415584E+02    0.142471E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.430319E+02    0.170233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.427588E+02    0.203647E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.403613E+02    0.236853E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.370699E+02    0.256555E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688773.853235272     
  ps_ts2 prof sum =   688309.607888259     
  trcom prof sum =    688309.607888258     
  ps_ts2 cur sum  =   11940.0434511376     
  trcom cur sum  =    11940.0434511376     
  
  antenna # iant =            2
  powecha_use(iant) =    699667.465431439     
  ps_ts2 prof sum =   699251.877058402     
  trcom prof sum =    699251.877058402     
  ps_ts2 cur sum  =   14566.6367544912     
  trcom cur sum  =    14566.6367544912     
  
  antenna # iant =            3
  powecha_use(iant) =    525715.935957115     
  ps_ts2 prof sum =   525363.358985276     
  trcom prof sum =    525363.358985276     
  ps_ts2 cur sum  =   7833.88861768229     
  trcom cur sum  =    7833.88861768230     
  
  antenna # iant =            4
  powecha_use(iant) =    574350.982937824     
  ps_ts2 prof sum =   573981.248648693     
  trcom prof sum =    573981.248648693     
  ps_ts2 cur sum  =   10922.1287587418     
  trcom cur sum  =    10922.1287587417     
  
  antenna # iant =            5
  powecha_use(iant) =    548662.899216862     
  ps_ts2 prof sum =   548327.981415221     
  trcom prof sum =    548327.981415221     
  ps_ts2 cur sum  =   12499.9639839015     
  trcom cur sum  =    12499.9639839015     
  
  Total ECH heating:      3035234.07399585     
  Total Current Drive:    57762.6615659544     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    958
 TA= 1.28500E+00 CPU TIME= 1.47016E-01 SECONDS.  DT= 1.48372E-04
  
 TEC1=    1.28499999999999     
 TEC2=    1.28999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.33851583333285     
  %check_save_state: izleft hours =    77.6530555555556     
 --> plasma_hash("gframe"): TA= 1.285000E+00 NSTEP=   958 Hash code:   41784971
 ->PRGCHK: bdy curvature ratio at t= 1.2900E+00 seconds is:  5.1675E-02
% MHDEQ: TG1=     1.285000 ; TG2=     1.290000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7631E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1675E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.285000 TO TG2=    1.290000 @ NSTEP      958
   GFRAME TG2 MOMENTS CHECKSUM:  2.4547771827073D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.49611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.24616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  9.92956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.13727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.66332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.69147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.24575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.65432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.49417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -2.74969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.08218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.84714E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.32989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96152E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.55218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.28576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.53854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.29305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.66404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.11538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.11538E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2900E+00  1.2950E+00 total power(Watts):  3.0295E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.29000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.354922E+02    0.351634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.336807E+02    0.353508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.349247E+02    0.335551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.370017E+02    0.339431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.370431E+02    0.360215E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.349152E+02    0.369410E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.330908E+02    0.382795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.320072E+02    0.368628E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.318320E+02    0.350314E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.326555E+02    0.332424E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.341904E+02    0.320029E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.361378E+02    0.315464E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.379960E+02    0.320092E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.391374E+02    0.333841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.395279E+02    0.351155E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.386548E+02    0.370180E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.368699E+02    0.384289E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.349027E+02    0.388286E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.331068E+02    0.413085E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.304917E+02    0.396297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.291782E+02    0.368210E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.294173E+02    0.337314E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.315331E+02    0.307850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.345682E+02    0.290725E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.379926E+02    0.289107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.410625E+02    0.302871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133892E+03   -0.426392E+02    0.330534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133774E+03   -0.422130E+02    0.365468E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.399779E+02    0.396121E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.365090E+02    0.413646E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.361998E+02    0.259788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.343883E+02    0.262331E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.356895E+02    0.243051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.377809E+02    0.246103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.377752E+02    0.267567E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.355710E+02    0.278595E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.337734E+02    0.292681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.327414E+02    0.278213E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.325288E+02    0.259951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.333182E+02    0.241682E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.349184E+02    0.227829E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.368617E+02    0.222552E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.387349E+02    0.226315E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.399105E+02    0.239537E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.402473E+02    0.257099E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.392225E+02    0.278119E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.375668E+02    0.292245E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.356035E+02    0.297097E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.337700E+02    0.322995E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.311143E+02    0.307642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.297406E+02    0.280609E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.302351E+02    0.246089E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.320622E+02    0.218613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.352364E+02    0.198790E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.387565E+02    0.194948E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.416648E+02    0.208853E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.434156E+02    0.234210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.429745E+02    0.269787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.405119E+02    0.303371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.371843E+02    0.321824E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.355291E+02    0.410575E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.337141E+02    0.411877E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.349847E+02    0.394197E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.372471E+02    0.397722E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.372570E+02    0.418538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.349280E+02    0.427637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.331744E+02    0.439420E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.321066E+02    0.425436E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.318713E+02    0.408081E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.327181E+02    0.390315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.342728E+02    0.377818E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.362303E+02    0.373662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.381792E+02    0.378683E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.394016E+02    0.392860E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.395650E+02    0.411813E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.387625E+02    0.429409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.370500E+02    0.441831E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.349810E+02    0.445488E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.331483E+02    0.469941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.304749E+02    0.452505E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.291963E+02    0.424761E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.294735E+02    0.394113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.315465E+02    0.365006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.346058E+02    0.348320E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.380349E+02    0.347656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.411848E+02    0.362407E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133475E+03   -0.427132E+02    0.392351E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133246E+03   -0.423351E+02    0.426336E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133769E+03   -0.400487E+02    0.455511E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.367371E+02    0.471074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.357582E+02    0.309808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.339488E+02    0.311950E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.352648E+02    0.293127E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.373492E+02    0.296663E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.373211E+02    0.317656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.352011E+02    0.326904E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.333887E+02    0.340173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.322883E+02    0.326826E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.321757E+02    0.308470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.329011E+02    0.291148E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.345143E+02    0.277113E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.364591E+02    0.271992E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.382282E+02    0.277380E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.395832E+02    0.289696E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.397981E+02    0.308200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.387526E+02    0.327998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.370819E+02    0.341361E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.351182E+02    0.345769E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.333475E+02    0.371322E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.307168E+02    0.354690E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.292969E+02    0.328505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.298202E+02    0.295089E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.317546E+02    0.265736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.348634E+02    0.247055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.382886E+02    0.244825E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.413774E+02    0.257878E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.428840E+02    0.287077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.425050E+02    0.321015E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.402048E+02    0.352019E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.367518E+02    0.371056E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.361300E+02    0.195627E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.343256E+02    0.198475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.355947E+02    0.179116E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.376868E+02    0.181697E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.377148E+02    0.202631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.355285E+02    0.213836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.337499E+02    0.227757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.327003E+02    0.214105E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.323791E+02    0.197718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.333133E+02    0.177177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.348936E+02    0.162935E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.368286E+02    0.157260E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.386094E+02    0.161670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.397999E+02    0.174610E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.399670E+02    0.193754E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.391742E+02    0.212204E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.374457E+02    0.227150E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.354966E+02    0.232400E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.337029E+02    0.258908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.309468E+02    0.245026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.297002E+02    0.217350E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.300737E+02    0.184386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.320243E+02    0.154418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.352603E+02    0.132857E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.386817E+02    0.129446E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.416043E+02    0.142486E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.432842E+02    0.168182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.428005E+02    0.203785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.403990E+02    0.237062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.371056E+02    0.256772E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684019.128796452     
  ps_ts2 prof sum =   683596.114758035     
  trcom prof sum =    683596.114758035     
  ps_ts2 cur sum  =   11982.9758334682     
  trcom cur sum  =    11982.9758334682     
  
  antenna # iant =            2
  powecha_use(iant) =    700502.512694599     
  ps_ts2 prof sum =   700074.636328448     
  trcom prof sum =    700074.636328448     
  ps_ts2 cur sum  =   14727.3238532195     
  trcom cur sum  =    14727.3238532195     
  
  antenna # iant =            3
  powecha_use(iant) =    526870.463507161     
  ps_ts2 prof sum =   526526.042246864     
  trcom prof sum =    526526.042246864     
  ps_ts2 cur sum  =   7934.74627400901     
  trcom cur sum  =    7934.74627400901     
  
  antenna # iant =            4
  powecha_use(iant) =    569597.972877869     
  ps_ts2 prof sum =   569262.351083830     
  trcom prof sum =    569262.351083829     
  ps_ts2 cur sum  =   10943.8505024612     
  trcom cur sum  =    10943.8505024612     
  
  antenna # iant =            5
  powecha_use(iant) =    548462.094731198     
  ps_ts2 prof sum =   548103.707197070     
  trcom prof sum =    548103.707197070     
  ps_ts2 cur sum  =   12611.4304133168     
  trcom cur sum  =    12611.4304133168     
  
  Total ECH heating:      3027562.85161425     
  Total Current Drive:    58200.3268764747     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    969
 TA= 1.29000E+00 CPU TIME= 1.59645E-01 SECONDS.  DT= 8.27440E-05
  
 TEC1=    1.28999999999999     
 TEC2=    1.29499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.35222305555544     
  %check_save_state: izleft hours =    77.6394444444445     
 --> plasma_hash("gframe"): TA= 1.290000E+00 NSTEP=   969 Hash code:   79741618
 ->PRGCHK: bdy curvature ratio at t= 1.2950E+00 seconds is:  5.1779E-02
% MHDEQ: TG1=     1.290000 ; TG2=     1.295000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7617E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1779E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.290000 TO TG2=    1.295000 @ NSTEP      969
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548594312964D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.2950E+00  1.3000E+00 total power(Watts):  3.0326E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.29500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.355189E+02    0.351909E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.337059E+02    0.353776E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.350427E+02    0.335050E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.371251E+02    0.338965E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.370702E+02    0.360513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.349396E+02    0.369706E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.332002E+02    0.382473E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.321144E+02    0.368240E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.319414E+02    0.349840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.326817E+02    0.332644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.342185E+02    0.320230E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.361677E+02    0.315670E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.380265E+02    0.320327E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.393653E+02    0.332654E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.395568E+02    0.351471E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.386818E+02    0.370505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.368945E+02    0.384615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.349264E+02    0.388597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.331270E+02    0.413414E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.305122E+02    0.396591E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.291996E+02    0.368457E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.295982E+02    0.335996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.315603E+02    0.308022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.345986E+02    0.290910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.380256E+02    0.289315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.409945E+02    0.303900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.426719E+02    0.330840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133763E+03   -0.422425E+02    0.365821E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.400032E+02    0.396494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.365299E+02    0.414009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.363261E+02    0.259080E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.344223E+02    0.262533E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.357234E+02    0.243233E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.378164E+02    0.246308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.378108E+02    0.267796E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.356946E+02    0.277920E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.338909E+02    0.292005E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.327713E+02    0.278409E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.326434E+02    0.259209E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.334370E+02    0.240874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.349531E+02    0.227967E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.368979E+02    0.222683E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.387723E+02    0.226479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.399481E+02    0.239742E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.401838E+02    0.258249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.392572E+02    0.278346E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.375989E+02    0.292446E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.356353E+02    0.297287E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.337975E+02    0.323204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.311413E+02    0.307807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.297681E+02    0.280780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.301851E+02    0.247221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.322610E+02    0.216653E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.353633E+02    0.197809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.387962E+02    0.195036E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.419101E+02    0.206987E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.434591E+02    0.234418E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.430128E+02    0.270048E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.405457E+02    0.303597E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.372084E+02    0.322105E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.46 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.356421E+02    0.410389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.337348E+02    0.412210E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.350077E+02    0.394523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.371763E+02    0.398629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.372787E+02    0.418906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.350379E+02    0.427507E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.331924E+02    0.439764E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.321267E+02    0.425753E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.319751E+02    0.407845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.327401E+02    0.390618E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.342966E+02    0.378113E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.362556E+02    0.373968E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.381087E+02    0.379622E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.394268E+02    0.393224E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.396874E+02    0.411693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.387839E+02    0.429798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.369762E+02    0.442629E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.349998E+02    0.445847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.331628E+02    0.470325E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.305707E+02    0.452421E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.292917E+02    0.424553E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.296547E+02    0.393168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.315692E+02    0.365272E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.346315E+02    0.348586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.381598E+02    0.347253E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.412139E+02    0.362743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133464E+03   -0.427403E+02    0.392742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133236E+03   -0.423582E+02    0.426764E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133758E+03   -0.400671E+02    0.455944E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.367526E+02    0.471498E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.358802E+02    0.309200E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.339773E+02    0.312140E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.352956E+02    0.293312E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.373813E+02    0.296863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.373563E+02    0.317836E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.352293E+02    0.327130E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.334151E+02    0.340416E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.323994E+02    0.326256E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.322062E+02    0.308617E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.330156E+02    0.290462E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.345397E+02    0.277358E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.364920E+02    0.272211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.382617E+02    0.277602E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.395180E+02    0.290756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.398308E+02    0.308423E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.389791E+02    0.326761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.372061E+02    0.340901E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.352387E+02    0.345295E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.333712E+02    0.371604E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.307396E+02    0.354943E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.294779E+02    0.327124E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.298470E+02    0.295249E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.317013E+02    0.266847E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.348960E+02    0.247246E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.383247E+02    0.245032E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.413129E+02    0.259029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.429206E+02    0.287319E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133953E+03   -0.425381E+02    0.321296E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.401334E+02    0.353015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.367776E+02    0.371361E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.362591E+02    0.194647E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.343618E+02    0.198543E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.357216E+02    0.178081E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.378200E+02    0.180690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.377527E+02    0.202731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.356543E+02    0.212920E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.338708E+02    0.226885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.327336E+02    0.214196E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.325792E+02    0.195648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.333472E+02    0.177243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.349300E+02    0.162970E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.368674E+02    0.157295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.387452E+02    0.160620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.398412E+02    0.174679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.401062E+02    0.192807E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.392127E+02    0.212335E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.375789E+02    0.226292E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.356220E+02    0.231570E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.338214E+02    0.258175E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.311403E+02    0.243221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.297301E+02    0.217435E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.301062E+02    0.184417E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.322231E+02    0.152122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.352994E+02    0.132860E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.387237E+02    0.129460E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.416465E+02    0.142560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.433290E+02    0.168267E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.427378E+02    0.204933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.406384E+02    0.235360E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.372344E+02    0.256061E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684741.980853655     
  ps_ts2 prof sum =   684330.556623937     
  trcom prof sum =    684330.556623936     
  ps_ts2 cur sum  =   12122.6915581700     
  trcom cur sum  =    12122.6915581699     
  
  antenna # iant =            2
  powecha_use(iant) =    702073.640157186     
  ps_ts2 prof sum =   701645.192041561     
  trcom prof sum =    701645.192041561     
  ps_ts2 cur sum  =   14907.4411640834     
  trcom cur sum  =    14907.4411640834     
  
  antenna # iant =            3
  powecha_use(iant) =    525299.647638998     
  ps_ts2 prof sum =   524952.470580670     
  trcom prof sum =    524952.470580671     
  ps_ts2 cur sum  =   7994.14728694409     
  trcom cur sum  =    7994.14728694410     
  
  antenna # iant =            4
  powecha_use(iant) =    572915.786464764     
  ps_ts2 prof sum =   572565.675023738     
  trcom prof sum =    572565.675023737     
  ps_ts2 cur sum  =   11121.5116445037     
  trcom cur sum  =    11121.5116445036     
  
  antenna # iant =            5
  powecha_use(iant) =    547618.915046335     
  ps_ts2 prof sum =   547315.148340047     
  trcom prof sum =    547315.148340047     
  ps_ts2 cur sum  =   12709.0975424188     
  trcom cur sum  =    12709.0975424188     
  
  Total ECH heating:      3030809.04260995     
  Total Current Drive:    58854.8891961198     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    982
 TA= 1.29500E+00 CPU TIME= 1.83888E-01 SECONDS.  DT= 6.43302E-04
  
 TEC1=    1.29499999999999     
 TEC2=    1.29999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.36785833333329     
  %check_save_state: izleft hours =    77.6236111111111     
 --> plasma_hash("gframe"): TA= 1.295000E+00 NSTEP=   982 Hash code:   52631018
 ->PRGCHK: bdy curvature ratio at t= 1.3000E+00 seconds is:  5.1890E-02
% MHDEQ: TG1=     1.295000 ; TG2=     1.300000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7670E-03 SECONDS
   DATA R*BT AT EDGE:  2.7603E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1890E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.295000 TO TG2=    1.300000 @ NSTEP      982
   GFRAME TG2 MOMENTS CHECKSUM:  2.4549416937050D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.62390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.41356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.07853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -1.67800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.07368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.72814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.17926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.96944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.30097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.42155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -8.05700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.20040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.38184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.68412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.69127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  2.99709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.75239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.28144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.28622E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.17323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.99601E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.99601E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.3000E+00  1.3050E+00 total power(Watts):  3.0407E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.30000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.356378E+02    0.351488E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.337319E+02    0.354040E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.350709E+02    0.335288E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.371556E+02    0.339217E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.370971E+02    0.360812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.349648E+02    0.369997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.332234E+02    0.382765E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.321380E+02    0.368509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.319650E+02    0.350097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.327943E+02    0.332095E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.343365E+02    0.319646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.362916E+02    0.315094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.380576E+02    0.320556E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.392975E+02    0.333651E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.394871E+02    0.352455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.386118E+02    0.371459E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.369243E+02    0.384913E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.349503E+02    0.388912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.331477E+02    0.413737E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.305328E+02    0.396883E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.291437E+02    0.369375E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.296239E+02    0.336192E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.315900E+02    0.308173E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.346292E+02    0.291094E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.381555E+02    0.288682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.412334E+02    0.302540E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133869E+03   -0.427056E+02    0.331133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133751E+03   -0.422725E+02    0.366172E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.400289E+02    0.396866E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.365540E+02    0.414346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.26 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.363613E+02    0.259292E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.344543E+02    0.262737E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.357573E+02    0.243416E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.379483E+02    0.245565E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.378463E+02    0.268021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.357288E+02    0.278122E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.339209E+02    0.292184E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.328014E+02    0.278594E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.326748E+02    0.259397E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.334690E+02    0.241031E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.350771E+02    0.227104E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.370281E+02    0.221819E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.388109E+02    0.226637E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.399860E+02    0.239945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.402211E+02    0.258486E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.392933E+02    0.278569E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.376310E+02    0.292653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.356665E+02    0.297480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.339142E+02    0.322627E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.310874E+02    0.308800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.297960E+02    0.280951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.302151E+02    0.247373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.322941E+02    0.216742E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.354001E+02    0.197879E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.388360E+02    0.195121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.418508E+02    0.208117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.434928E+02    0.234714E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.430509E+02    0.270308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.407826E+02    0.302230E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.373361E+02    0.321542E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.356644E+02    0.410730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.337585E+02    0.412521E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.351213E+02    0.394260E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.372009E+02    0.398965E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.372066E+02    0.419764E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.350582E+02    0.427856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.332972E+02    0.439661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.321412E+02    0.426109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.319958E+02    0.408154E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.327624E+02    0.390923E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.343207E+02    0.378416E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.362817E+02    0.374273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.381352E+02    0.379949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.393543E+02    0.394134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134058E+03   -0.397118E+02    0.412065E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.388053E+02    0.430187E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.371820E+02    0.442177E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.350171E+02    0.446221E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.332638E+02    0.470357E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.305865E+02    0.452759E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.293093E+02    0.424861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.296710E+02    0.393479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.316771E+02    0.364856E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.347474E+02    0.348148E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.381888E+02    0.347542E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133892E+03   -0.413457E+02    0.362445E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.427679E+02    0.393133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133225E+03   -0.423821E+02    0.427186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.401856E+02    0.456004E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.366761E+02    0.472255E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.359114E+02    0.309399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.340064E+02    0.312325E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.353262E+02    0.293505E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.374147E+02    0.297070E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.373813E+02    0.318109E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.352583E+02    0.327351E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.335297E+02    0.339910E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.324272E+02    0.326451E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.322350E+02    0.308786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.330499E+02    0.290612E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.345744E+02    0.277533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.365247E+02    0.272431E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.383933E+02    0.276954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.395516E+02    0.290974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.397646E+02    0.309442E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.389125E+02    0.327761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.372351E+02    0.341172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.352655E+02    0.345560E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.334825E+02    0.371240E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.306819E+02    0.355891E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.294256E+02    0.328081E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.297955E+02    0.296269E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.318986E+02    0.265184E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.349297E+02    0.247431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.384580E+02    0.244288E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.413509E+02    0.259276E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.430631E+02    0.286738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.425722E+02    0.321571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.403639E+02    0.351990E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.368982E+02    0.371033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.362975E+02    0.194716E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.343959E+02    0.198613E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.357602E+02    0.178125E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.378599E+02    0.180749E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.377911E+02    0.202822E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.356905E+02    0.213021E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.339047E+02    0.227013E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.327656E+02    0.214282E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.326134E+02    0.195700E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.332969E+02    0.178375E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.349684E+02    0.162996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.369992E+02    0.156204E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.387866E+02    0.160661E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.399838E+02    0.173641E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.401472E+02    0.192898E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.392528E+02    0.212453E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.376138E+02    0.226466E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.356571E+02    0.231723E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.338529E+02    0.258371E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.311711E+02    0.243372E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.297615E+02    0.217502E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.301375E+02    0.184449E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.322591E+02    0.152130E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.353382E+02    0.132852E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.388609E+02    0.128306E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.417923E+02    0.141474E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.432692E+02    0.169412E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.429896E+02    0.203054E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.405764E+02    0.236513E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.372688E+02    0.256282E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.79 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683551.307617185     
  ps_ts2 prof sum =   683112.146906613     
  trcom prof sum =    683112.146906613     
  ps_ts2 cur sum  =   12230.0703174869     
  trcom cur sum  =    12230.0703174869     
  
  antenna # iant =            2
  powecha_use(iant) =    706049.711501465     
  ps_ts2 prof sum =   705595.735792016     
  trcom prof sum =    705595.735792016     
  ps_ts2 cur sum  =   15138.4982304312     
  trcom cur sum  =    15138.4982304312     
  
  antenna # iant =            3
  powecha_use(iant) =    525089.849838559     
  ps_ts2 prof sum =   524733.432126532     
  trcom prof sum =    524733.432115089     
  ps_ts2 cur sum  =   8075.52727874945     
  trcom cur sum  =    8075.52727874945     
  
  antenna # iant =            4
  powecha_use(iant) =    579822.471962654     
  ps_ts2 prof sum =   579448.194565405     
  trcom prof sum =    579448.194565404     
  ps_ts2 cur sum  =   11371.5095889672     
  trcom cur sum  =    11371.5095889671     
  
  antenna # iant =            5
  powecha_use(iant) =    546207.603925853     
  ps_ts2 prof sum =   545875.237981116     
  trcom prof sum =    545875.237981116     
  ps_ts2 cur sum  =   12792.3285479808     
  trcom cur sum  =    12792.3285479808     
  
  Total ECH heating:      3038764.74736024     
  Total Current Drive:    59607.9339636154     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    987
 TA= 1.30000E+00 CPU TIME= 1.58815E-01 SECONDS.  DT= 1.61370E-03
  
 TEC1=    1.29999999999999     
 TEC2=    1.30499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.38490361111099     
  %check_save_state: izleft hours =    77.6066666666667     
 --> plasma_hash("gframe"): TA= 1.300000E+00 NSTEP=   987 Hash code:  120422192
 ->PRGCHK: bdy curvature ratio at t= 1.3050E+00 seconds is:  5.2007E-02
% MHDEQ: TG1=     1.300000 ; TG2=     1.305000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7588E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2007E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.300000 TO TG2=    1.305000 @ NSTEP      987
   GFRAME TG2 MOMENTS CHECKSUM:  2.4550239561136D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3050E+00  1.3100E+00 total power(Watts):  3.0260E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.30500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.356653E+02    0.351770E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.338474E+02    0.353605E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.351011E+02    0.335517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.371854E+02    0.339484E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.372201E+02    0.360451E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.350811E+02    0.369649E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.332473E+02    0.383065E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.321625E+02    0.368782E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.319903E+02    0.350349E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.328229E+02    0.332316E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.343666E+02    0.319852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.363233E+02    0.315293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.380915E+02    0.320777E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.393291E+02    0.333922E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.395171E+02    0.352769E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.386401E+02    0.371782E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.369449E+02    0.385271E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.349747E+02    0.389229E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.332559E+02    0.413538E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.305535E+02    0.397187E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.291657E+02    0.369630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.295699E+02    0.337157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.316132E+02    0.308401E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.347509E+02    0.290424E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.381899E+02    0.288880E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134327E+03   -0.412689E+02    0.302775E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.428439E+02    0.330725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.424069E+02    0.365915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.399561E+02    0.397772E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.367630E+02    0.413690E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.363960E+02    0.259501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.345762E+02    0.262017E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.358839E+02    0.242635E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.379860E+02    0.245758E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.378824E+02    0.268235E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.357612E+02    0.278322E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.339525E+02    0.292365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.329180E+02    0.277892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.327069E+02    0.259584E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.335029E+02    0.241191E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.351128E+02    0.227243E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.370653E+02    0.221958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.388498E+02    0.226791E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.401255E+02    0.239194E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.402590E+02    0.258718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.394289E+02    0.277923E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.377615E+02    0.292010E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.356992E+02    0.297658E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.339442E+02    0.322829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.312789E+02    0.307323E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.299826E+02    0.279328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.302445E+02    0.247519E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.322439E+02    0.217860E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.354360E+02    0.197959E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.389729E+02    0.194181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.418929E+02    0.208255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.434333E+02    0.235825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.430912E+02    0.270558E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.408178E+02    0.302457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.373693E+02    0.321762E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.356873E+02    0.411075E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.338631E+02    0.412352E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.351454E+02    0.394588E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.372254E+02    0.399310E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.372295E+02    0.420127E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.350792E+02    0.428205E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.333158E+02    0.440006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.322480E+02    0.425923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.320165E+02    0.408474E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.327856E+02    0.391221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.344344E+02    0.378095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.363076E+02    0.374586E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.381622E+02    0.380286E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.395776E+02    0.393390E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.397409E+02    0.412438E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.389247E+02    0.430124E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.372024E+02    0.442562E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.350364E+02    0.446587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.332796E+02    0.470744E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.306029E+02    0.453095E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.293274E+02    0.425176E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.296925E+02    0.393762E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.317009E+02    0.365131E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.347747E+02    0.348416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.382186E+02    0.347829E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.413765E+02    0.362787E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133220E+03   -0.429006E+02    0.392993E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133214E+03   -0.424064E+02    0.427610E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133503E+03   -0.402076E+02    0.456437E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.368779E+02    0.472021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.359436E+02    0.309592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.341241E+02    0.311720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.353588E+02    0.293683E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.375441E+02    0.296428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.375112E+02    0.317527E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.353805E+02    0.326803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.335559E+02    0.340160E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.324544E+02    0.326660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.322631E+02    0.308967E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.330746E+02    0.290840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.346975E+02    0.276839E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.365598E+02    0.272638E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.384295E+02    0.277164E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.395875E+02    0.291185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.397985E+02    0.309662E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.389445E+02    0.328017E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.372640E+02    0.341448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.352934E+02    0.345825E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.335069E+02    0.371531E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.308694E+02    0.354734E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.294525E+02    0.328246E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.298227E+02    0.296428E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.319295E+02    0.265369E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.350537E+02    0.246658E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.384963E+02    0.244481E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.415949E+02    0.257726E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133881E+03   -0.431003E+02    0.286990E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.426067E+02    0.321856E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.403949E+02    0.352312E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.369250E+02    0.371345E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.363343E+02    0.194794E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.345203E+02    0.197630E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.357981E+02    0.178184E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.379004E+02    0.180816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.379248E+02    0.201890E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.357278E+02    0.213122E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.339390E+02    0.227139E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.327156E+02    0.215401E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.325642E+02    0.196825E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.335043E+02    0.176224E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.350952E+02    0.161909E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.370395E+02    0.156242E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.388284E+02    0.160708E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.400236E+02    0.173741E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.401888E+02    0.192997E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.393897E+02    0.211572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.376513E+02    0.226618E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.356921E+02    0.231871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.338867E+02    0.258557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.311203E+02    0.244496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.299491E+02    0.215505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.302500E+02    0.183374E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.322133E+02    0.153286E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.354664E+02    0.131687E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.389045E+02    0.128322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.418376E+02    0.141517E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.435238E+02    0.167369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.430339E+02    0.203191E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.406170E+02    0.236707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.373043E+02    0.256492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680387.019635548     
  ps_ts2 prof sum =   679940.490306449     
  trcom prof sum =    679940.490306449     
  ps_ts2 cur sum  =   12302.2744314180     
  trcom cur sum  =    12302.2744314180     
  
  antenna # iant =            2
  powecha_use(iant) =    705213.005643476     
  ps_ts2 prof sum =   704775.053643563     
  trcom prof sum =    704775.053643562     
  ps_ts2 cur sum  =   15272.2736234190     
  trcom cur sum  =    15272.2736234190     
  
  antenna # iant =            3
  powecha_use(iant) =    524183.586663413     
  ps_ts2 prof sum =   523835.588497751     
  trcom prof sum =    523835.588497752     
  ps_ts2 cur sum  =   8146.03934237808     
  trcom cur sum  =    8146.03934237809     
  
  antenna # iant =            4
  powecha_use(iant) =    571860.200534955     
  ps_ts2 prof sum =   571509.836277639     
  trcom prof sum =    571509.836277638     
  ps_ts2 cur sum  =   11332.3150737303     
  trcom cur sum  =    11332.3150737303     
  
  antenna # iant =            5
  powecha_use(iant) =    544343.606769294     
  ps_ts2 prof sum =   544005.532904697     
  trcom prof sum =    544005.532904697     
  ps_ts2 cur sum  =   12868.0226243396     
  trcom cur sum  =    12868.0226243396     
  
  Total ECH heating:      3024066.50163010     
  Total Current Drive:    59920.9250952851     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    990
 TA= 1.30500E+00 CPU TIME= 1.67716E-01 SECONDS.  DT= 1.71146E-03
  
 TEC1=    1.30499999999999     
 TEC2=    1.30999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.39807805555529     
  %check_save_state: izleft hours =    77.5936111111111     
 --> plasma_hash("gframe"): TA= 1.305000E+00 NSTEP=   990 Hash code:   80362283
 ->PRGCHK: bdy curvature ratio at t= 1.3100E+00 seconds is:  5.2207E-02
% MHDEQ: TG1=     1.305000 ; TG2=     1.310000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7613E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2207E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.305000 TO TG2=    1.310000 @ NSTEP      990
   GFRAME TG2 MOMENTS CHECKSUM:  2.4577408942263D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.60293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.31102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.85926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2=  6.05093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.00793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.74931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.42473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.83199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.90511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -4.51429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.45127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.16525E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -1.67057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.78838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.51115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       8=  6.02987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.78575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.38999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.91229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.38473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.85675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.85675E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3100E+00  1.3150E+00 total power(Watts):  3.0170E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.31000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.355899E+02    0.353325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.337729E+02    0.355155E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.351156E+02    0.336443E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.372007E+02    0.340425E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.371411E+02    0.361973E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.350064E+02    0.371094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.332601E+02    0.383830E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.321754E+02    0.369577E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.320065E+02    0.351181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.327537E+02    0.333953E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.343839E+02    0.320754E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.362484E+02    0.317001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.381081E+02    0.321741E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.394458E+02    0.334170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.396332E+02    0.353017E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.387523E+02    0.372019E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.369594E+02    0.386065E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.349874E+02    0.390005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.331791E+02    0.414843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.305652E+02    0.397904E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.292550E+02    0.369732E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.296626E+02    0.337264E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.316335E+02    0.309204E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.346809E+02    0.292038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.381134E+02    0.290521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.410849E+02    0.305305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133903E+03   -0.427604E+02    0.332442E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.423195E+02    0.367445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.400688E+02    0.398067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.365876E+02    0.415522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.364181E+02    0.260064E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.345085E+02    0.263489E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.358162E+02    0.244126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.379132E+02    0.247249E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.379027E+02    0.268858E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.357822E+02    0.278981E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.339712E+02    0.293133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.328517E+02    0.279410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.327277E+02    0.260119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.335249E+02    0.241707E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.351367E+02    0.227781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.370910E+02    0.222516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.388756E+02    0.227349E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.400506E+02    0.240700E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.402830E+02    0.259310E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.393514E+02    0.279499E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.376857E+02    0.293667E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.357176E+02    0.298491E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.338727E+02    0.324507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.311308E+02    0.309796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.298425E+02    0.281726E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.302659E+02    0.248021E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.323513E+02    0.217371E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.354640E+02    0.198496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.389043E+02    0.195777E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.420243E+02    0.207850E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.435670E+02    0.235475E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.431144E+02    0.271278E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.406353E+02    0.304983E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.372904E+02    0.323476E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.356983E+02    0.411874E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.337881E+02    0.413648E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.351579E+02    0.395359E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.372377E+02    0.400111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.373331E+02    0.420506E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.350882E+02    0.429074E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.332374E+02    0.441336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.321734E+02    0.427229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.320275E+02    0.409227E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.327977E+02    0.391970E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.343593E+02    0.379497E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.363224E+02    0.375399E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.381772E+02    0.381103E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.394926E+02    0.394765E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.397481E+02    0.413319E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.388370E+02    0.431514E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.370233E+02    0.444344E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.350440E+02    0.447515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.331989E+02    0.471982E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.306087E+02    0.453988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.293356E+02    0.425970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.297036E+02    0.394480E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.316307E+02    0.366586E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.347018E+02    0.349981E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.382354E+02    0.348747E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.412905E+02    0.364333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133505E+03   -0.428057E+02    0.394423E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133269E+03   -0.424165E+02    0.428589E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.401134E+02    0.457827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.367903E+02    0.473302E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.359618E+02    0.310491E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.340538E+02    0.313400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.353779E+02    0.294482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.374680E+02    0.298106E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.374339E+02    0.319249E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.353060E+02    0.328491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.334859E+02    0.341762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.324711E+02    0.327553E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.322817E+02    0.309804E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.330951E+02    0.291564E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.346276E+02    0.278370E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.365815E+02    0.273260E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.384505E+02    0.277858E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.396090E+02    0.292015E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.399180E+02    0.309837E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.390608E+02    0.328247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.372819E+02    0.342365E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.353138E+02    0.346677E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.334346E+02    0.372956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.308010E+02    0.356253E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.295439E+02    0.328353E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.298400E+02    0.297160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.317816E+02    0.267764E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.349869E+02    0.248137E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.385197E+02    0.245037E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.414137E+02    0.260128E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.430174E+02    0.288679E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133979E+03   -0.426270E+02    0.322871E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.402109E+02    0.354566E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.368458E+02    0.372805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.363613E+02    0.195336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.344584E+02    0.199219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.358253E+02    0.178703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.379288E+02    0.181357E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.378568E+02    0.203485E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.357525E+02    0.213678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.339624E+02    0.227677E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.328241E+02    0.214909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.326759E+02    0.196260E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.333627E+02    0.178878E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.350348E+02    0.163500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.370692E+02    0.156714E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.388588E+02    0.161212E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.400538E+02    0.174274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.402179E+02    0.193566E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.393196E+02    0.213150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.376774E+02    0.227165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.357171E+02    0.232410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.339080E+02    0.259099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.312237E+02    0.244026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.298143E+02    0.218096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.301952E+02    0.184964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.323229E+02    0.152563E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.354085E+02    0.133244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.389368E+02    0.128725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.419741E+02    0.140833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.433479E+02    0.170051E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.430638E+02    0.203792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.406422E+02    0.237272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.373279E+02    0.257055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681821.024781674     
  ps_ts2 prof sum =   681421.915969972     
  trcom prof sum =    681421.915969971     
  ps_ts2 cur sum  =   12475.3375757629     
  trcom cur sum  =    12475.3375757629     
  
  antenna # iant =            2
  powecha_use(iant) =    701087.443569544     
  ps_ts2 prof sum =   700651.131957866     
  trcom prof sum =    700651.131957866     
  ps_ts2 cur sum  =   15337.2037418626     
  trcom cur sum  =    15337.2037418626     
  
  antenna # iant =            3
  powecha_use(iant) =    524063.212877513     
  ps_ts2 prof sum =   523723.737988985     
  trcom prof sum =    523723.737988985     
  ps_ts2 cur sum  =   8254.87251573719     
  trcom cur sum  =    8254.87251573719     
  
  antenna # iant =            4
  powecha_use(iant) =    565952.144219101     
  ps_ts2 prof sum =   565609.567379777     
  trcom prof sum =    565609.567379776     
  ps_ts2 cur sum  =   11337.7854707830     
  trcom cur sum  =    11337.7854707830     
  
  antenna # iant =            5
  powecha_use(iant) =    544083.176252645     
  ps_ts2 prof sum =   543778.921551342     
  trcom prof sum =    543778.921551342     
  ps_ts2 cur sum  =   12980.7172580838     
  trcom cur sum  =    12980.7172580838     
  
  Total ECH heating:      3015185.27484794     
  Total Current Drive:    60385.9165622294     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    993
 TA= 1.31000E+00 CPU TIME= 1.59530E-01 SECONDS.  DT= 1.43652E-03
  
 TEC1=    1.30999999999999     
 TEC2=    1.31499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.41301722222215     
  %check_save_state: izleft hours =    77.5786111111111     
 --> plasma_hash("gframe"): TA= 1.310000E+00 NSTEP=   993 Hash code:  103773216
 ->PRGCHK: bdy curvature ratio at t= 1.3150E+00 seconds is:  5.2346E-02
% MHDEQ: TG1=     1.310000 ; TG2=     1.315000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7638E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2346E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.310000 TO TG2=    1.315000 @ NSTEP      993
   GFRAME TG2 MOMENTS CHECKSUM:  2.4604578323390D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3150E+00  1.3200E+00 total power(Watts):  3.0314E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.31500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.356053E+02    0.354197E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.337889E+02    0.355998E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.350422E+02    0.338085E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.371232E+02    0.342059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.371570E+02    0.362830E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.350201E+02    0.371909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.331872E+02    0.385194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.321054E+02    0.371003E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.319379E+02    0.352719E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.327692E+02    0.334850E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.343125E+02    0.322438E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.362668E+02    0.317914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.380313E+02    0.323439E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.392663E+02    0.336568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.394522E+02    0.355260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.385734E+02    0.374092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.368798E+02    0.387443E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.349110E+02    0.391353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.331908E+02    0.415613E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.305009E+02    0.399170E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.292699E+02    0.370479E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.295214E+02    0.339601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.314848E+02    0.311657E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.347009E+02    0.292775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.381344E+02    0.291289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.412082E+02    0.305453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.427778E+02    0.333471E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.422324E+02    0.368964E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.398833E+02    0.399968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.366922E+02    0.415846E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.363481E+02    0.261541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.345299E+02    0.264052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.358403E+02    0.244656E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.379382E+02    0.247803E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.379265E+02    0.269457E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.357089E+02    0.280512E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.339030E+02    0.294715E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.328720E+02    0.280024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.326635E+02    0.261587E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.335483E+02    0.242236E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.350715E+02    0.229317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.370215E+02    0.224065E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.389030E+02    0.227903E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.400769E+02    0.241267E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.402067E+02    0.260806E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.393728E+02    0.280185E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.377061E+02    0.294462E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.357376E+02    0.299300E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.338900E+02    0.325413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.312317E+02    0.309790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.298624E+02    0.282305E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.303665E+02    0.247554E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.322066E+02    0.219951E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.354881E+02    0.199043E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.389333E+02    0.196329E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.418478E+02    0.210434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.435953E+02    0.236065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.430347E+02    0.272808E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.407578E+02    0.305117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.373102E+02    0.324418E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.356194E+02    0.413175E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.337999E+02    0.414418E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.350806E+02    0.396694E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.371563E+02    0.401445E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.371554E+02    0.422320E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.350082E+02    0.430395E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.332464E+02    0.442218E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.321828E+02    0.428049E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.319547E+02    0.410514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.328105E+02    0.392717E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.343734E+02    0.380277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.363368E+02    0.376207E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.380954E+02    0.382515E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.393095E+02    0.396680E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.396612E+02    0.414681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.386531E+02    0.433323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.371260E+02    0.444879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.349620E+02    0.448851E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.332047E+02    0.472890E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.305357E+02    0.455270E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.292677E+02    0.427239E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.295582E+02    0.396362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.316454E+02    0.367378E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.347189E+02    0.350842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.381568E+02    0.350330E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.413076E+02    0.365229E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133552E+03   -0.428255E+02    0.395264E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133547E+03   -0.423241E+02    0.429991E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.401209E+02    0.458851E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.367963E+02    0.474260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.358881E+02    0.312177E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.340716E+02    0.314277E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.353972E+02    0.295256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.374884E+02    0.298937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.374526E+02    0.320190E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.353235E+02    0.329412E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.335011E+02    0.342655E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.324022E+02    0.329215E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.322138E+02    0.311462E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.330282E+02    0.293136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.346488E+02    0.278990E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.366035E+02    0.273867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.383766E+02    0.279379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.395295E+02    0.293657E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.397383E+02    0.312342E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.388829E+02    0.330684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.372022E+02    0.344004E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.352361E+02    0.348293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.334523E+02    0.373720E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.308155E+02    0.357068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.294023E+02    0.330758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.297779E+02    0.298733E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.318850E+02    0.267388E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.350104E+02    0.248667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.384480E+02    0.246532E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.415413E+02    0.259849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.430403E+02    0.289522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.425422E+02    0.324624E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.403290E+02    0.354825E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.368606E+02    0.373625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.363885E+02    0.195876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.344844E+02    0.199752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.357626E+02    0.180300E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.378619E+02    0.182959E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.378847E+02    0.204045E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.357789E+02    0.214231E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.338990E+02    0.229209E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.328454E+02    0.215464E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.325302E+02    0.198923E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.334721E+02    0.178313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.350642E+02    0.163960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.370051E+02    0.158298E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.388893E+02    0.161704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.399854E+02    0.175887E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.401484E+02    0.195153E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.393467E+02    0.213727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.377035E+02    0.227719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.356501E+02    0.233931E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.338417E+02    0.260571E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.310812E+02    0.246481E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.298370E+02    0.218615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.302196E+02    0.185444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.321852E+02    0.155277E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.354374E+02    0.133632E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.388732E+02    0.130274E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.418018E+02    0.143555E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.434848E+02    0.169548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.429887E+02    0.205393E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.405680E+02    0.238784E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.372563E+02    0.258537E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683069.209710884     
  ps_ts2 prof sum =   682622.209999222     
  trcom prof sum =    682622.209999221     
  ps_ts2 cur sum  =   12642.3161731974     
  trcom cur sum  =    12642.3161731974     
  
  antenna # iant =            2
  powecha_use(iant) =    703944.834262907     
  ps_ts2 prof sum =   703537.533015338     
  trcom prof sum =    703537.532998140     
  ps_ts2 cur sum  =   15549.7574091288     
  trcom cur sum  =    15549.7574091288     
  
  antenna # iant =            3
  powecha_use(iant) =    523156.881451591     
  ps_ts2 prof sum =   522793.638320533     
  trcom prof sum =    522793.638320534     
  ps_ts2 cur sum  =   8349.95870156465     
  trcom cur sum  =    8349.95870156466     
  
  antenna # iant =            4
  powecha_use(iant) =    576047.881659323     
  ps_ts2 prof sum =   575699.296767748     
  trcom prof sum =    575699.296767747     
  ps_ts2 cur sum  =   11661.7554497379     
  trcom cur sum  =    11661.7554497378     
  
  antenna # iant =            5
  powecha_use(iant) =    545152.967409423     
  ps_ts2 prof sum =   544812.121634866     
  trcom prof sum =    544812.121634866     
  ps_ts2 cur sum  =   13118.2021756868     
  trcom cur sum  =    13118.2021756868     
  
  Total ECH heating:      3029464.79972051     
  Total Current Drive:    61321.9899093155     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    996
 TA= 1.31500E+00 CPU TIME= 1.46208E-01 SECONDS.  DT= 2.20980E-03
  
 TEC1=    1.31499999999999     
 TEC2=    1.31999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.42981805555564     
  %check_save_state: izleft hours =    77.5616666666667     
 --> plasma_hash("gframe"): TA= 1.315000E+00 NSTEP=   996 Hash code:   48263295
 ->PRGCHK: bdy curvature ratio at t= 1.3200E+00 seconds is:  5.2494E-02
% MHDEQ: TG1=     1.315000 ; TG2=     1.320000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7663E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2494E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.315000 TO TG2=    1.320000 @ NSTEP      996
   GFRAME TG2 MOMENTS CHECKSUM:  2.4631747704518D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.43452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.94068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.99087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.93980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.72731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.43106E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.83159E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.18331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -3.63267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.36603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.97804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -1.30071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.64539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.41964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -3.30184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.39002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.86118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.94386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.30211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.88122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.88122E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.3200E+00  1.3250E+00 total power(Watts):  3.0298E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.32000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.356243E+02    0.355083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.337181E+02    0.357545E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.350619E+02    0.339007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.371420E+02    0.343005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.370796E+02    0.364364E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.349461E+02    0.373376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.332006E+02    0.385986E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.321208E+02    0.371813E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.319553E+02    0.353574E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.327014E+02    0.336500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.343314E+02    0.323354E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.361937E+02    0.319611E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.380519E+02    0.324403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.393852E+02    0.336843E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.395704E+02    0.355531E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.386878E+02    0.374348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.368951E+02    0.388264E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.349255E+02    0.392145E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.331164E+02    0.416924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.305092E+02    0.399949E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.291269E+02    0.372578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.296159E+02    0.339733E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.315866E+02    0.311684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.346322E+02    0.294356E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.380605E+02    0.292887E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.410260E+02    0.307958E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.426939E+02    0.335212E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.422509E+02    0.369896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.399980E+02    0.400305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.365190E+02    0.417670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.363746E+02    0.262102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.344659E+02    0.265516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.357739E+02    0.246166E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.378696E+02    0.249301E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.378538E+02    0.270958E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.357338E+02    0.281138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.339240E+02    0.295456E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.328073E+02    0.281519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.326863E+02    0.262130E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.334863E+02    0.243740E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.350972E+02    0.229875E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.370506E+02    0.224636E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.388325E+02    0.229471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.400048E+02    0.242790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.402346E+02    0.261407E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.392994E+02    0.281721E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.376329E+02    0.296082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.356667E+02    0.300930E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.338205E+02    0.327096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.310850E+02    0.312247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.298012E+02    0.283789E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.302293E+02    0.250010E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.323165E+02    0.219470E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.354266E+02    0.200627E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.388669E+02    0.197929E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.419809E+02    0.210047E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.435193E+02    0.237611E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.430611E+02    0.273505E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.405807E+02    0.307593E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.372351E+02    0.326122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.356318E+02    0.414003E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.337245E+02    0.415734E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.350946E+02    0.397490E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.371708E+02    0.402266E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.371689E+02    0.423174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.350199E+02    0.431257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.332553E+02    0.443128E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.321092E+02    0.429356E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.319672E+02    0.411283E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.327389E+02    0.394070E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.343000E+02    0.381691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.362603E+02    0.377661E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.381114E+02    0.383359E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.394232E+02    0.396998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.394772E+02    0.416530E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.387615E+02    0.433826E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.369482E+02    0.446656E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.349720E+02    0.449784E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.332118E+02    0.473814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.305435E+02    0.456166E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.292788E+02    0.428024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.296497E+02    0.396522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.315771E+02    0.368847E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.346464E+02    0.352435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.381733E+02    0.351287E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.412259E+02    0.366771E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.427370E+02    0.396699E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133602E+03   -0.423361E+02    0.430978E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.400308E+02    0.460247E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.366182E+02    0.475869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.359086E+02    0.313073E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.340029E+02    0.315954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.353254E+02    0.296868E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.374149E+02    0.300578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.373773E+02    0.321904E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.352513E+02    0.331099E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.335187E+02    0.343556E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.324177E+02    0.330140E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.322325E+02    0.312313E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.330482E+02    0.293860E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.345812E+02    0.280493E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.365329E+02    0.275377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.383999E+02    0.280049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.395541E+02    0.294458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.398601E+02    0.312514E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.388064E+02    0.332382E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.372259E+02    0.344911E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.352515E+02    0.349220E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.334639E+02    0.374557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.306701E+02    0.359266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.294980E+02    0.330856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.297968E+02    0.299444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.319079E+02    0.267942E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.349447E+02    0.250168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.384759E+02    0.247098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.413633E+02    0.262237E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.429592E+02    0.291183E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.425651E+02    0.325650E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.401472E+02    0.357080E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.367834E+02    0.375094E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.363252E+02    0.197472E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.345123E+02    0.200279E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.357933E+02    0.180819E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.378927E+02    0.183496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.378188E+02    0.205640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.357154E+02    0.215812E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.339246E+02    0.229758E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.327888E+02    0.217019E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.326405E+02    0.198386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.334997E+02    0.178821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.350924E+02    0.164454E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.370378E+02    0.158774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.388250E+02    0.163302E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.400177E+02    0.176429E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.401798E+02    0.195729E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.392782E+02    0.215315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.376357E+02    0.229276E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.356766E+02    0.234484E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.338662E+02    0.261115E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.311866E+02    0.246039E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.297823E+02    0.220179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.303245E+02    0.184846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.322125E+02    0.155713E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.354693E+02    0.134030E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.389075E+02    0.130686E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.418383E+02    0.144020E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.433097E+02    0.172227E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.430200E+02    0.206004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.405964E+02    0.239374E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.372832E+02    0.259101E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684181.035364704     
  ps_ts2 prof sum =   683785.622228015     
  trcom prof sum =    683785.622228014     
  ps_ts2 cur sum  =   12817.4868570016     
  trcom cur sum  =    12817.4868570015     
  
  antenna # iant =            2
  powecha_use(iant) =    702878.221651363     
  ps_ts2 prof sum =   702436.177196130     
  trcom prof sum =    702436.177196129     
  ps_ts2 cur sum  =   15689.2463694055     
  trcom cur sum  =    15689.2463694055     
  
  antenna # iant =            3
  powecha_use(iant) =    523124.365982111     
  ps_ts2 prof sum =   522783.957447067     
  trcom prof sum =    522783.957447067     
  ps_ts2 cur sum  =   8465.27962256546     
  trcom cur sum  =    8465.27962256546     
  
  antenna # iant =            4
  powecha_use(iant) =    574772.090622512     
  ps_ts2 prof sum =   574430.902287756     
  trcom prof sum =    574430.902287755     
  ps_ts2 cur sum  =   11767.0784880434     
  trcom cur sum  =    11767.0784880434     
  
  antenna # iant =            5
  powecha_use(iant) =    544877.433259264     
  ps_ts2 prof sum =   544587.478707810     
  trcom prof sum =    544587.478707810     
  ps_ts2 cur sum  =   13235.4382159796     
  trcom cur sum  =    13235.4382159796     
  
  Total ECH heating:      3028024.13786678     
  Total Current Drive:    61974.5295529955     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=    999
 TA= 1.32000E+00 CPU TIME= 1.63337E-01 SECONDS.  DT= 3.49448E-05
  
 TEC1=    1.31999999999999     
 TEC2=    1.32499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.44561194444395     
  %check_save_state: izleft hours =    77.5458333333333     
 --> plasma_hash("gframe"): TA= 1.320000E+00 NSTEP=   999 Hash code:   21904943
 ->PRGCHK: bdy curvature ratio at t= 1.3250E+00 seconds is:  5.2653E-02
% MHDEQ: TG1=     1.320000 ; TG2=     1.325000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7688E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2653E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.320000 TO TG2=    1.325000 @ NSTEP      999
   GFRAME TG2 MOMENTS CHECKSUM:  2.4658917085645D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.3250E+00  1.3300E+00 total power(Watts):  3.0200E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.32500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.355517E+02    0.356612E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.337366E+02    0.358379E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.349917E+02    0.340515E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.370693E+02    0.344535E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.370030E+02    0.365891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.349635E+02    0.374231E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.331310E+02    0.387393E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.320519E+02    0.373283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.318869E+02    0.355090E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.327210E+02    0.337244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.342635E+02    0.324805E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.362164E+02    0.320296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.379779E+02    0.325889E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.392094E+02    0.339096E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.393911E+02    0.357764E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.385109E+02    0.376469E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.368177E+02    0.389700E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.348514E+02    0.393549E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.331297E+02    0.417738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.304422E+02    0.401288E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.290656E+02    0.374014E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.294760E+02    0.341943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.314419E+02    0.313885E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.346557E+02    0.294956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.380870E+02    0.293509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.411545E+02    0.307869E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.426121E+02    0.336792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.421667E+02    0.371458E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.399147E+02    0.401724E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.364387E+02    0.419021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.82 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.363079E+02    0.263789E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.344914E+02    0.266266E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.358016E+02    0.246983E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.378983E+02    0.250134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.377889E+02    0.272552E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.356678E+02    0.282660E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.338586E+02    0.296888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.328326E+02    0.282156E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.326268E+02    0.263801E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.334263E+02    0.245500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.350358E+02    0.231637E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.369865E+02    0.226396E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.387653E+02    0.231261E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.400355E+02    0.243642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.401633E+02    0.263100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.393273E+02    0.282392E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.376584E+02    0.296698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.356010E+02    0.302335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.338412E+02    0.327793E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.311893E+02    0.312018E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.298242E+02    0.284405E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.303341E+02    0.249812E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.321758E+02    0.222195E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.354574E+02    0.201218E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.388994E+02    0.198538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.418093E+02    0.212786E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.434459E+02    0.239433E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.429862E+02    0.275092E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.407046E+02    0.307517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.372574E+02    0.326855E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.355545E+02    0.415344E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.337380E+02    0.416552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.350202E+02    0.398870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.370919E+02    0.403647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.370884E+02    0.424518E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.349420E+02    0.432592E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.331781E+02    0.444462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.321213E+02    0.430191E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.318968E+02    0.412601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.327540E+02    0.394873E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.343191E+02    0.382512E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.361846E+02    0.379136E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.380323E+02    0.384827E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.392424E+02    0.398955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.395910E+02    0.416941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.385801E+02    0.435632E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.370524E+02    0.447239E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.348924E+02    0.451135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.331340E+02    0.475089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.304728E+02    0.457466E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.292117E+02    0.429312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.295062E+02    0.398438E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.315931E+02    0.369667E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.346637E+02    0.353278E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.380969E+02    0.352837E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.410388E+02    0.368960E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134103E+03   -0.426497E+02    0.398167E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.422471E+02    0.432383E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.400406E+02    0.461319E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.367184E+02    0.476579E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.358397E+02    0.314499E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.340250E+02    0.316592E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.352608E+02    0.298286E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.373444E+02    0.302013E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.373049E+02    0.323366E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.352725E+02    0.331840E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.334508E+02    0.345063E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.323545E+02    0.331581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.321701E+02    0.313715E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.329858E+02    0.295287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.346065E+02    0.281148E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.365599E+02    0.276074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.383303E+02    0.281579E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.394811E+02    0.295908E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.396861E+02    0.314741E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.388288E+02    0.333177E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.371481E+02    0.346480E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.351806E+02    0.350741E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.333936E+02    0.376022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.307691E+02    0.359383E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.293594E+02    0.333058E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.297387E+02    0.300844E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.318493E+02    0.269569E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.349722E+02    0.250970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.384074E+02    0.248875E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.412907E+02    0.263933E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.429879E+02    0.291852E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.424834E+02    0.327201E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.400658E+02    0.358657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.368013E+02    0.375968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.362649E+02    0.199095E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.344537E+02    0.201915E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.357340E+02    0.182411E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.378313E+02    0.185098E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.378502E+02    0.206286E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.356542E+02    0.217521E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.338622E+02    0.231542E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.328165E+02    0.217693E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.325014E+02    0.201059E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.334440E+02    0.180407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.350358E+02    0.166035E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.369819E+02    0.160310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.387635E+02    0.164885E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.399529E+02    0.178027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.401137E+02    0.197374E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.393098E+02    0.216056E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.375697E+02    0.231059E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.356136E+02    0.236261E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.338038E+02    0.262802E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.310481E+02    0.248743E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.298081E+02    0.220828E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.301939E+02    0.187522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.321610E+02    0.157285E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.354142E+02    0.135609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.388480E+02    0.132259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.417743E+02    0.145607E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.432443E+02    0.173810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.429507E+02    0.207743E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.405265E+02    0.241173E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.372163E+02    0.260807E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682764.025255280     
  ps_ts2 prof sum =   682314.807721719     
  trcom prof sum =    682314.807721718     
  ps_ts2 cur sum  =   12957.1185065919     
  trcom cur sum  =    12957.1185065919     
  
  antenna # iant =            2
  powecha_use(iant) =    701142.410350631     
  ps_ts2 prof sum =   700741.827379822     
  trcom prof sum =    700741.827379822     
  ps_ts2 cur sum  =   15826.2552366387     
  trcom cur sum  =    15826.2552366387     
  
  antenna # iant =            3
  powecha_use(iant) =    525462.958537524     
  ps_ts2 prof sum =   525103.648337856     
  trcom prof sum =    525103.648337856     
  ps_ts2 cur sum  =   8626.05513613876     
  trcom cur sum  =    8626.05513613876     
  
  antenna # iant =            4
  powecha_use(iant) =    566295.133957131     
  ps_ts2 prof sum =   565942.086439875     
  trcom prof sum =    565942.086439874     
  ps_ts2 cur sum  =   11735.1802674754     
  trcom cur sum  =    11735.1802674754     
  
  antenna # iant =            5
  powecha_use(iant) =    544312.531127964     
  ps_ts2 prof sum =   543966.880448906     
  trcom prof sum =    543966.880448906     
  ps_ts2 cur sum  =   13357.4117960315     
  trcom cur sum  =    13357.4117960315     
  
  Total ECH heating:      3018069.25032818     
  Total Current Drive:    62502.0209428762     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1016
 TA= 1.32500E+00 CPU TIME= 1.70591E-01 SECONDS.  DT= 2.17280E-04
  
 TEC1=    1.32499999999999     
 TEC2=    1.32999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.46078999999986     
  %check_save_state: izleft hours =    77.5308333333333     
 --> plasma_hash("gframe"): TA= 1.325000E+00 NSTEP=  1016 Hash code:   76207023
 ->PRGCHK: bdy curvature ratio at t= 1.3300E+00 seconds is:  5.2822E-02
% MHDEQ: TG1=     1.325000 ; TG2=     1.330000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7713E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2822E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.325000 TO TG2=    1.330000 @ NSTEP     1016
   GFRAME TG2 MOMENTS CHECKSUM:  2.4686086466772D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.26517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.56826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.12322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.87128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.70519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.43743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.83118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.26259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -2.74611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.28032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.78977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  4.84360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.50161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.32761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -5.51334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  5.17377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.33502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.97561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.21902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.71693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.71693E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3300E+00  1.3350E+00 total power(Watts):  3.0228E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.33000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.354747E+02    0.358101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.336633E+02    0.359843E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.350091E+02    0.341265E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.370872E+02    0.345321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.370167E+02    0.366742E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.348877E+02    0.375665E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.331437E+02    0.388176E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.320663E+02    0.374063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.319026E+02    0.355854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.326521E+02    0.338687E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.341935E+02    0.326227E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.361434E+02    0.321721E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.379976E+02    0.326601E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.391292E+02    0.340590E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.393091E+02    0.359270E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.384293E+02    0.377922E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.368322E+02    0.390514E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.348646E+02    0.394340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.330544E+02    0.419012E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.304533E+02    0.402032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.290793E+02    0.374759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.295710E+02    0.341892E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.315445E+02    0.313667E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.345878E+02    0.296383E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.380133E+02    0.294953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.410760E+02    0.309302E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.426325E+02    0.337628E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.421839E+02    0.372365E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.397294E+02    0.403610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.364515E+02    0.419829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.363326E+02    0.264546E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.344249E+02    0.267907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.357342E+02    0.248717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.378278E+02    0.251867E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.378109E+02    0.273293E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.356913E+02    0.283313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.338797E+02    0.297476E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.327682E+02    0.283674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.326472E+02    0.264558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.334497E+02    0.246266E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.349707E+02    0.233366E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.369193E+02    0.228126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.387919E+02    0.232044E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.399620E+02    0.245405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.400902E+02    0.264766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.392522E+02    0.283916E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.375848E+02    0.298132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.356207E+02    0.302946E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.337716E+02    0.329217E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.310429E+02    0.314214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.297653E+02    0.285905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.301957E+02    0.252475E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.322835E+02    0.221835E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.353938E+02    0.202844E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.388304E+02    0.200171E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.417351E+02    0.214496E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.432622E+02    0.242142E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.427994E+02    0.277527E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.405248E+02    0.309725E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.371814E+02    0.328312E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.355662E+02    0.416142E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.336616E+02    0.417830E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.349428E+02    0.400209E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.371051E+02    0.404461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.370050E+02    0.425816E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.349522E+02    0.433422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.331033E+02    0.445720E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.320473E+02    0.431444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.319083E+02    0.413355E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.326809E+02    0.396209E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.342414E+02    0.383925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.361996E+02    0.379958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.381441E+02    0.385083E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.393553E+02    0.399266E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.394058E+02    0.418746E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.386881E+02    0.436088E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.368746E+02    0.448945E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.349007E+02    0.452041E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.331408E+02    0.476005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.304804E+02    0.458334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.292243E+02    0.430051E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.295962E+02    0.398603E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.315253E+02    0.371087E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.345903E+02    0.354751E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.380209E+02    0.354310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.411583E+02    0.369236E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.426647E+02    0.399054E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.421546E+02    0.433746E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.399485E+02    0.462692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.366330E+02    0.477849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.357676E+02    0.315913E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.339561E+02    0.317997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.352837E+02    0.298871E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.373662E+02    0.302622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.373249E+02    0.324052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.351998E+02    0.333285E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.333799E+02    0.346524E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.323726E+02    0.332252E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.321888E+02    0.314310E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.330064E+02    0.295867E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.345400E+02    0.282671E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.364896E+02    0.277647E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.382566E+02    0.283108E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.395044E+02    0.296536E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.396077E+02    0.316181E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.387498E+02    0.334654E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.370707E+02    0.347962E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.351974E+02    0.351536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.333199E+02    0.377444E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.306193E+02    0.361509E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.294549E+02    0.332944E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.297576E+02    0.301400E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.317033E+02    0.272089E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.349057E+02    0.252689E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.383363E+02    0.250609E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.414217E+02    0.263834E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.429077E+02    0.293316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.422948E+02    0.329418E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.401841E+02    0.358876E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.367223E+02    0.377412E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.362948E+02    0.199641E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.343913E+02    0.203540E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.357610E+02    0.182935E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.378593E+02    0.185639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.377829E+02    0.207933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.356798E+02    0.218193E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.338895E+02    0.232244E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.327555E+02    0.219359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.326106E+02    0.200551E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.332987E+02    0.183088E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.349747E+02    0.167620E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.370082E+02    0.160834E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.387938E+02    0.165387E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.399833E+02    0.178573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.401420E+02    0.197988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.392399E+02    0.217760E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.375963E+02    0.231830E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.356385E+02    0.237036E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.338264E+02    0.263549E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.311520E+02    0.248526E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138439E+03   -0.297519E+02    0.222483E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138487E+03   -0.301382E+02    0.189112E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.322703E+02    0.156577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.353550E+02    0.137199E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.388821E+02    0.132682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.417059E+02    0.147202E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.433790E+02    0.173341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.427704E+02    0.210433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.404565E+02    0.242906E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.372404E+02    0.261585E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681782.403411627     
  ps_ts2 prof sum =   681371.042185615     
  trcom prof sum =    681371.042185614     
  ps_ts2 cur sum  =   13106.0843682190     
  trcom cur sum  =    13106.0843682190     
  
  antenna # iant =            2
  powecha_use(iant) =    697294.334654608     
  ps_ts2 prof sum =   696847.744261897     
  trcom prof sum =    696847.744261896     
  ps_ts2 cur sum  =   15907.0849543873     
  trcom cur sum  =    15907.0849543873     
  
  antenna # iant =            3
  powecha_use(iant) =    523861.308515382     
  ps_ts2 prof sum =   523534.887417728     
  trcom prof sum =    523534.887417728     
  ps_ts2 cur sum  =   8725.02643028250     
  trcom cur sum  =    8725.02643028251     
  
  antenna # iant =            4
  powecha_use(iant) =    575931.891195579     
  ps_ts2 prof sum =   575571.004565867     
  trcom prof sum =    575571.004565867     
  ps_ts2 cur sum  =   12076.3932940705     
  trcom cur sum  =    12076.3932940705     
  
  antenna # iant =            5
  powecha_use(iant) =    543935.119118856     
  ps_ts2 prof sum =   543632.081419022     
  trcom prof sum =    543632.081419022     
  ps_ts2 cur sum  =   13475.2061941645     
  trcom cur sum  =    13475.2061941645     
  
  Total ECH heating:      3020956.75985013     
  Total Current Drive:    63289.7952411238     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1025
 TA= 1.33000E+00 CPU TIME= 1.63980E-01 SECONDS.  DT= 8.60953E-04
  
 TEC1=    1.32999999999999     
 TEC2=    1.33499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.47460861111063     
  %check_save_state: izleft hours =    77.5169444444444     
 --> plasma_hash("gframe"): TA= 1.330000E+00 NSTEP=  1025 Hash code:  121818049
 ->PRGCHK: bdy curvature ratio at t= 1.3350E+00 seconds is:  5.3001E-02
% MHDEQ: TG1=     1.330000 ; TG2=     1.335000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3001E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.330000 TO TG2=    1.335000 @ NSTEP     1025
   GFRAME TG2 MOMENTS CHECKSUM:  2.4713255847899D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3350E+00  1.3400E+00 total power(Watts):  3.0176E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.33500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.354902E+02    0.358904E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.336781E+02    0.360637E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.349350E+02    0.342722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.370088E+02    0.346800E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.369406E+02    0.368187E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.349010E+02    0.376481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.330700E+02    0.389547E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.319964E+02    0.375473E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.318331E+02    0.357304E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.326684E+02    0.339395E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.342114E+02    0.326889E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.361617E+02    0.322392E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.379196E+02    0.328044E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.391473E+02    0.341376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.393267E+02    0.360112E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.384441E+02    0.378771E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.367511E+02    0.391905E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.347835E+02    0.395713E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.330649E+02    0.419778E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.303029E+02    0.403885E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.291704E+02    0.374865E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.294272E+02    0.344049E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.313950E+02    0.315868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.346075E+02    0.296996E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.380303E+02    0.295622E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.408920E+02    0.311525E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.425462E+02    0.339150E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.420957E+02    0.373866E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.398431E+02    0.403937E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.363690E+02    0.421115E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.362616E+02    0.266201E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.344469E+02    0.268642E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.357574E+02    0.249484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.378508E+02    0.252659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.377383E+02    0.274896E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.356203E+02    0.284843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.338114E+02    0.298906E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.327874E+02    0.284332E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.325846E+02    0.266179E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.333858E+02    0.247963E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.349943E+02    0.234091E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.369432E+02    0.228844E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.387205E+02    0.233762E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.398872E+02    0.247135E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.401092E+02    0.265589E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.391758E+02    0.285451E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.375112E+02    0.299566E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.355484E+02    0.304376E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.337891E+02    0.329891E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.311432E+02    0.314003E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.297841E+02    0.286534E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.301367E+02    0.254149E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.321379E+02    0.224492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.354191E+02    0.203413E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.388570E+02    0.200763E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.417632E+02    0.215178E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.433960E+02    0.242060E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.429311E+02    0.277426E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.406479E+02    0.309622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.372000E+02    0.329011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.354859E+02    0.417429E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.336722E+02    0.418603E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.349548E+02    0.400999E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.370227E+02    0.405797E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.370207E+02    0.426611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.348712E+02    0.434682E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.331114E+02    0.446555E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.320566E+02    0.432221E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.318351E+02    0.414623E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.326926E+02    0.396981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.342546E+02    0.384726E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.361236E+02    0.381357E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.379647E+02    0.387078E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.391710E+02    0.401165E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.395161E+02    0.419122E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.385037E+02    0.437806E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.367892E+02    0.450231E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.348189E+02    0.453313E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.330607E+02    0.477228E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.304875E+02    0.459193E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.290740E+02    0.431764E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.294495E+02    0.400474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.315391E+02    0.371862E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.346066E+02    0.355533E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.380349E+02    0.355158E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.410725E+02    0.370732E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.425739E+02    0.400459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.421655E+02    0.434659E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.399569E+02    0.463683E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.364540E+02    0.479398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.357865E+02    0.316554E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.339741E+02    0.318633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.352117E+02    0.300309E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.373840E+02    0.303266E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.372479E+02    0.325492E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.352170E+02    0.333996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.333925E+02    0.347292E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.323041E+02    0.333680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.321223E+02    0.315710E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.329390E+02    0.297312E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.345603E+02    0.283343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.365122E+02    0.278345E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.382795E+02    0.283797E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.394270E+02    0.297990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.396279E+02    0.316864E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.387681E+02    0.335410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.370873E+02    0.348756E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.351228E+02    0.353001E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.333335E+02    0.378239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.307149E+02    0.361590E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.293130E+02    0.335111E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.296960E+02    0.302807E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.318070E+02    0.271883E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.349292E+02    0.253444E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.383598E+02    0.251408E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.412397E+02    0.266387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.427199E+02    0.295593E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.424197E+02    0.329483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.400007E+02    0.361012E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.367366E+02    0.378244E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.362255E+02    0.201281E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.344158E+02    0.204099E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.356967E+02    0.184524E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.377941E+02    0.187212E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.378090E+02    0.208544E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.356115E+02    0.219846E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.338237E+02    0.233940E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.327787E+02    0.219982E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.324646E+02    0.203199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.334092E+02    0.182492E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.350013E+02    0.168099E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.369435E+02    0.162417E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.387253E+02    0.166984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.399134E+02    0.180166E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.400703E+02    0.199604E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.392661E+02    0.218438E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.375254E+02    0.233543E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.355716E+02    0.238740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.337601E+02    0.265204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.310103E+02    0.251174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.297737E+02    0.223078E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.301655E+02    0.189545E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.321301E+02    0.159299E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.353836E+02    0.137617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.388152E+02    0.134280E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.417371E+02    0.147675E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.431997E+02    0.176001E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.429043E+02    0.210127E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.404782E+02    0.243746E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.371683E+02    0.263257E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678288.489467121     
  ps_ts2 prof sum =   677850.304166179     
  trcom prof sum =    677850.304166178     
  ps_ts2 cur sum  =   13192.3505346385     
  trcom cur sum  =    13192.3505346385     
  
  antenna # iant =            2
  powecha_use(iant) =    697690.449326052     
  ps_ts2 prof sum =   697269.378586116     
  trcom prof sum =    697269.378586115     
  ps_ts2 cur sum  =   16073.0780059236     
  trcom cur sum  =    16073.0780059236     
  
  antenna # iant =            3
  powecha_use(iant) =    523960.618234610     
  ps_ts2 prof sum =   523597.021792367     
  trcom prof sum =    523597.021792367     
  ps_ts2 cur sum  =   8843.55827542324     
  trcom cur sum  =    8843.55827542325     
  
  antenna # iant =            4
  powecha_use(iant) =    573480.220664588     
  ps_ts2 prof sum =   573129.969577549     
  trcom prof sum =    573129.969577548     
  ps_ts2 cur sum  =   12154.5740541810     
  trcom cur sum  =    12154.5740541810     
  
  antenna # iant =            5
  powecha_use(iant) =    544204.051860678     
  ps_ts2 prof sum =   543864.686661429     
  trcom prof sum =    543864.686661429     
  ps_ts2 cur sum  =   13603.4004632481     
  trcom cur sum  =    13603.4004632481     
  
  Total ECH heating:      3015711.36078364     
  Total Current Drive:    63866.9613334144     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1030
 TA= 1.33500E+00 CPU TIME= 1.60595E-01 SECONDS.  DT= 4.50827E-05
  
 TEC1=    1.33499999999999     
 TEC2=    1.33999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.48934027777750     
  %check_save_state: izleft hours =    77.5022222222222     
 --> plasma_hash("gframe"): TA= 1.335000E+00 NSTEP=  1030 Hash code:    2051681
 ->PRGCHK: bdy curvature ratio at t= 1.3400E+00 seconds is:  5.3191E-02
% MHDEQ: TG1=     1.335000 ; TG2=     1.340000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7763E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3191E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.335000 TO TG2=    1.340000 @ NSTEP     1030
   GFRAME TG2 MOMENTS CHECKSUM:  2.4740425229026D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.09721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.19892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.25448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.48954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.80333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.68326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.44374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.83078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.34122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -1.86688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.19531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.60306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  2.91996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.35901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.23635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.32454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.11561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.80494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.00709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.13663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.20596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.20596E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3400E+00  1.3450E+00 total power(Watts):  3.0021E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.34000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.354989E+02    0.359615E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.335983E+02    0.362000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.349436E+02    0.343398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.370174E+02    0.347506E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.369480E+02    0.368920E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.348184E+02    0.377795E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.330759E+02    0.390224E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.320035E+02    0.376156E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.318414E+02    0.357980E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.325908E+02    0.340765E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.342207E+02    0.327510E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.360789E+02    0.323764E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.379295E+02    0.328697E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.390572E+02    0.342782E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.392350E+02    0.361512E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.383530E+02    0.380103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.367571E+02    0.392606E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.347929E+02    0.396376E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.329829E+02    0.420920E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.303895E+02    0.403964E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.290198E+02    0.376812E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.294352E+02    0.344676E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.314871E+02    0.315640E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.345289E+02    0.298432E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.379498E+02    0.297039E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.410065E+02    0.311392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.425560E+02    0.339894E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.421037E+02    0.374647E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.396481E+02    0.405689E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.363735E+02    0.421792E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.362750E+02    0.266944E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.343702E+02    0.270259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.356798E+02    0.251177E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.377693E+02    0.254352E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.377505E+02    0.275622E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.356321E+02    0.285513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.338222E+02    0.299502E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.327165E+02    0.285816E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.325969E+02    0.266895E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.333981E+02    0.248701E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.350100E+02    0.234794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.369583E+02    0.229544E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.387350E+02    0.234505E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.399022E+02    0.247925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.400267E+02    0.267207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.391892E+02    0.286130E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.375219E+02    0.300189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.355596E+02    0.304961E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.337982E+02    0.330516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.309865E+02    0.316173E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.297149E+02    0.288041E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138540E+03   -0.301477E+02    0.254862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.322362E+02    0.224105E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.353439E+02    0.205037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.387767E+02    0.202392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.416769E+02    0.216851E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.431986E+02    0.244716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.427339E+02    0.279840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.404560E+02    0.311797E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.371144E+02    0.330398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.354907E+02    0.418099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.335891E+02    0.419750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.349569E+02    0.401693E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.370281E+02    0.406483E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.371142E+02    0.426869E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.348752E+02    0.435360E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.331147E+02    0.447259E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.319759E+02    0.433335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.318395E+02    0.415264E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.326127E+02    0.398206E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.341719E+02    0.386015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.361266E+02    0.382094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.379714E+02    0.387799E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.392756E+02    0.401362E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.393228E+02    0.420773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.386040E+02    0.438122E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.367916E+02    0.450987E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.348209E+02    0.454064E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.330613E+02    0.478021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.304090E+02    0.460302E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.291551E+02    0.431925E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.295338E+02    0.400538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.313790E+02    0.373826E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.345242E+02    0.356910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.379450E+02    0.356556E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.410800E+02    0.371512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.425802E+02    0.401210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.420655E+02    0.435833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.398592E+02    0.464868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.364539E+02    0.480234E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.357969E+02    0.317163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.338951E+02    0.320002E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.352209E+02    0.300917E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.373036E+02    0.304652E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.372580E+02    0.326133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.351346E+02    0.335382E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.334038E+02    0.347946E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.323126E+02    0.334303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.321322E+02    0.316287E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.329499E+02    0.297906E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.344825E+02    0.284870E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.364307E+02    0.279913E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.381946E+02    0.285331E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.394390E+02    0.298624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.395388E+02    0.318257E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.386790E+02    0.336808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.370956E+02    0.349472E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.351310E+02    0.353700E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.333415E+02    0.378923E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138112E+03   -0.305596E+02    0.363607E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138408E+03   -0.293214E+02    0.335708E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138486E+03   -0.297060E+02    0.303367E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.318194E+02    0.272576E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.348520E+02    0.255136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.382774E+02    0.253103E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.413571E+02    0.266291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.428392E+02    0.295457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.422198E+02    0.331614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.401090E+02    0.361147E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.366495E+02    0.379566E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.362414E+02    0.201867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.344310E+02    0.204682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.357136E+02    0.185062E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.378090E+02    0.187800E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.377289E+02    0.210189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.356277E+02    0.220484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.338396E+02    0.234633E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.326224E+02    0.222627E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.325653E+02    0.202703E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.334259E+02    0.183018E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.350194E+02    0.168607E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.369621E+02    0.162936E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.387450E+02    0.167508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.399321E+02    0.180734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.400876E+02    0.200210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.391833E+02    0.220103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.375404E+02    0.234271E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.355859E+02    0.239468E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.337730E+02    0.265926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.310214E+02    0.251889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.297059E+02    0.224731E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138599E+03   -0.301773E+02    0.190105E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.321471E+02    0.159777E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.354022E+02    0.138089E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.388355E+02    0.134778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.417584E+02    0.148196E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.433253E+02    0.175526E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.427120E+02    0.212782E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.403922E+02    0.245468E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.371820E+02    0.264011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.67 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678739.329688751     
  ps_ts2 prof sum =   678324.621946410     
  trcom prof sum =    678324.621929660     
  ps_ts2 cur sum  =   13366.4310529130     
  trcom cur sum  =    13366.4310529130     
  
  antenna # iant =            2
  powecha_use(iant) =    690359.236081466     
  ps_ts2 prof sum =   689922.104004540     
  trcom prof sum =    689922.104004541     
  ps_ts2 cur sum  =   16067.0414532444     
  trcom cur sum  =    16067.0414532444     
  
  antenna # iant =            3
  powecha_use(iant) =    523537.662533147     
  ps_ts2 prof sum =   523209.134242835     
  trcom prof sum =    523209.134242836     
  ps_ts2 cur sum  =   8963.10305090380     
  trcom cur sum  =    8963.10305090380     
  
  antenna # iant =            4
  powecha_use(iant) =    564689.752804905     
  ps_ts2 prof sum =   564352.226228381     
  trcom prof sum =    564352.226228380     
  ps_ts2 cur sum  =   12105.1290595338     
  trcom cur sum  =    12105.1290595338     
  
  antenna # iant =            5
  powecha_use(iant) =    544725.243774233     
  ps_ts2 prof sum =   544417.531936585     
  trcom prof sum =    544417.531936585     
  ps_ts2 cur sum  =   13741.9939117990     
  trcom cur sum  =    13741.9939117990     
  
  Total ECH heating:      3000225.61834200     
  Total Current Drive:    64243.6985283941     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1046
 TA= 1.34000E+00 CPU TIME= 1.59325E-01 SECONDS.  DT= 6.87719E-05
  
 TEC1=    1.33999999999999     
 TEC2=    1.34499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.50350500000013     
  %check_save_state: izleft hours =    77.4880555555556     
 --> plasma_hash("gframe"): TA= 1.340000E+00 NSTEP=  1046 Hash code:   45539470
 ->PRGCHK: bdy curvature ratio at t= 1.3450E+00 seconds is:  5.3390E-02
% MHDEQ: TG1=     1.340000 ; TG2=     1.345000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7788E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3390E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.340000 TO TG2=    1.345000 @ NSTEP     1046
   GFRAME TG2 MOMENTS CHECKSUM:  2.4767594610153D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3450E+00  1.3500E+00 total power(Watts):  3.0016E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.34500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.354148E+02    0.361001E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.336032E+02    0.362730E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.348622E+02    0.344777E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.369312E+02    0.348904E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.369558E+02    0.369671E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.348260E+02    0.378517E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.329956E+02    0.391494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.319258E+02    0.377483E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.316809E+02    0.360026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.325997E+02    0.341417E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.341413E+02    0.328887E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.360893E+02    0.324392E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.378433E+02    0.330088E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.390682E+02    0.343490E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.392427E+02    0.362282E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.383613E+02    0.380851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.366664E+02    0.393900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.347990E+02    0.397077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.329878E+02    0.421578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.303960E+02    0.404606E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.291050E+02    0.376849E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.293643E+02    0.346035E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.313305E+02    0.317809E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.345410E+02    0.299052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.379630E+02    0.297685E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.408136E+02    0.313575E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.424612E+02    0.341331E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.420071E+02    0.376042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.397542E+02    0.405912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.363786E+02    0.422479E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.361956E+02    0.268562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.343835E+02    0.270970E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.356939E+02    0.251885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.377841E+02    0.255086E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.376680E+02    0.277213E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.355530E+02    0.287038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.338341E+02    0.300116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.327256E+02    0.286506E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.324390E+02    0.269415E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.332392E+02    0.251279E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.349336E+02    0.236420E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.368801E+02    0.231166E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.386536E+02    0.236147E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.398179E+02    0.249592E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.400415E+02    0.267961E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.392027E+02    0.286831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.375345E+02    0.300822E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.355713E+02    0.305574E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.337195E+02    0.331892E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.310797E+02    0.315948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.297262E+02    0.288676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138587E+03   -0.301610E+02    0.255534E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.322510E+02    0.224691E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.353607E+02    0.205616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.387948E+02    0.202990E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.416950E+02    0.217501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.433221E+02    0.244576E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.428549E+02    0.279747E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.405704E+02    0.311679E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.371249E+02    0.331054E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.354042E+02    0.419267E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.335941E+02    0.420413E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.348754E+02    0.402907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.369392E+02    0.407707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.369301E+02    0.428477E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.347892E+02    0.436488E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.330308E+02    0.448380E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.319800E+02    0.434000E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.318446E+02    0.415917E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.326188E+02    0.398879E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.341782E+02    0.386724E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.361350E+02    0.382815E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.378813E+02    0.389113E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.390842E+02    0.403138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.394309E+02    0.421011E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.384142E+02    0.439681E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.367008E+02    0.452124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.348239E+02    0.454815E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.329770E+02    0.479130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.304109E+02    0.461043E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.290034E+02    0.433497E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.293813E+02    0.402310E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.314695E+02    0.373886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.345326E+02    0.357620E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.379539E+02    0.357302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.409850E+02    0.372913E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.424820E+02    0.402490E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.420700E+02    0.436603E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.398639E+02    0.465724E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.363623E+02    0.481365E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.357151E+02    0.318547E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.339057E+02    0.320604E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.352346E+02    0.301527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.373153E+02    0.305277E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.372689E+02    0.326772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.351448E+02    0.336028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.333250E+02    0.349322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.322366E+02    0.335673E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.319716E+02    0.318456E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.328758E+02    0.299353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.344955E+02    0.285542E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.364441E+02    0.280613E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.382082E+02    0.286023E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.393520E+02    0.300079E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.395507E+02    0.318899E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.386891E+02    0.337499E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.370092E+02    0.350865E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.350480E+02    0.355092E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.332611E+02    0.380245E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.306490E+02    0.363624E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.292492E+02    0.337074E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138536E+03   -0.297169E+02    0.303949E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.316638E+02    0.275068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.348658E+02    0.255842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.382925E+02    0.253842E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.411660E+02    0.268801E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.426411E+02    0.297732E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.423372E+02    0.331614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.399149E+02    0.363198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.366572E+02    0.380300E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.362588E+02    0.202450E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.343592E+02    0.206290E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.357315E+02    0.185635E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.378279E+02    0.188385E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.377468E+02    0.210784E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.356440E+02    0.221091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.337656E+02    0.236254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.327233E+02    0.222202E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.325810E+02    0.203265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.333574E+02    0.184662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.349485E+02    0.170272E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.368884E+02    0.164601E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.387652E+02    0.168081E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.398534E+02    0.182378E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.400065E+02    0.201839E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.392004E+02    0.220737E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.374620E+02    0.235901E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.355090E+02    0.241113E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.336984E+02    0.267543E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.309526E+02    0.253511E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138806E+03   -0.297220E+02    0.225272E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138861E+03   -0.301140E+02    0.191736E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.322476E+02    0.159163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.353335E+02    0.139759E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.387612E+02    0.136452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.416786E+02    0.149876E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.431355E+02    0.178243E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.428360E+02    0.212449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.404079E+02    0.246213E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.371012E+02    0.265643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.34 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675873.836935727     
  ps_ts2 prof sum =   675450.883978102     
  trcom prof sum =    675450.883978101     
  ps_ts2 cur sum  =   13479.4800093815     
  trcom cur sum  =    13479.4800093815     
  
  antenna # iant =            2
  powecha_use(iant) =    687810.859733109     
  ps_ts2 prof sum =   687413.985047766     
  trcom prof sum =    687413.985047766     
  ps_ts2 cur sum  =   16176.4464988235     
  trcom cur sum  =    16176.4464988235     
  
  antenna # iant =            3
  powecha_use(iant) =    522475.537823812     
  ps_ts2 prof sum =   522121.277448635     
  trcom prof sum =    522121.277448636     
  ps_ts2 cur sum  =   9074.95193342314     
  trcom cur sum  =    9074.95193342314     
  
  antenna # iant =            4
  powecha_use(iant) =    569344.792936672     
  ps_ts2 prof sum =   568988.676099258     
  trcom prof sum =    568988.676099258     
  ps_ts2 cur sum  =   12346.5462603266     
  trcom cur sum  =    12346.5462603266     
  
  antenna # iant =            5
  powecha_use(iant) =    546051.359703783     
  ps_ts2 prof sum =   545745.472864787     
  trcom prof sum =    545745.472864787     
  ps_ts2 cur sum  =   13906.0193870857     
  trcom cur sum  =    13906.0193870857     
  
  Total ECH heating:      2999720.29543855     
  Total Current Drive:    64983.4440890405     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1060
 TA= 1.34500E+00 CPU TIME= 1.67337E-01 SECONDS.  DT= 3.39090E-04
  
 TEC1=    1.34499999999999     
 TEC2=    1.34999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.51688805555546     
  %check_save_state: izleft hours =    77.4747222222222     
 --> plasma_hash("gframe"): TA= 1.345000E+00 NSTEP=  1060 Hash code:   92867350
 ->PRGCHK: bdy curvature ratio at t= 1.3500E+00 seconds is:  5.3601E-02
% MHDEQ: TG1=     1.345000 ; TG2=     1.350000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7813E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3601E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.345000 TO TG2=    1.350000 @ NSTEP     1060
   GFRAME TG2 MOMENTS CHECKSUM:  2.4794763991280D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.92740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.82550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.38719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.85883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.66108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.45013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.83038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.42071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  5.09996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.94017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.41428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      10= -4.89758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.21484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.24447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.70566E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -5.19720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.28005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.03893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.05332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.56249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.56249E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3500E+00  1.3550E+00 total power(Watts):  3.0081E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.35000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.354236E+02    0.361732E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.335265E+02    0.364089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.348718E+02    0.345460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.369413E+02    0.349615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.368696E+02    0.371052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.347430E+02    0.379861E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.330027E+02    0.392196E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.319335E+02    0.378196E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.317736E+02    0.360040E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.326097E+02    0.342065E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.341523E+02    0.329516E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.360071E+02    0.325780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.378546E+02    0.330753E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.389791E+02    0.344900E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.391523E+02    0.363693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.382716E+02    0.382206E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.366767E+02    0.394623E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.347156E+02    0.398337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.329070E+02    0.422738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.303208E+02    0.405815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138672E+03   -0.289559E+02    0.378806E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138678E+03   -0.293695E+02    0.346699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.314256E+02    0.317606E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.344637E+02    0.300515E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.378790E+02    0.299165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.409293E+02    0.313477E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.422649E+02    0.343418E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.418074E+02    0.378022E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.395613E+02    0.407670E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.362907E+02    0.423657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.362101E+02    0.269230E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.343081E+02    0.272520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.356174E+02    0.253421E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.377034E+02    0.256636E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.376826E+02    0.277904E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.355663E+02    0.287711E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.337584E+02    0.301571E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.325660E+02    0.288881E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.325381E+02    0.269139E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.333401E+02    0.250904E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.349498E+02    0.236948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.368971E+02    0.231697E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.386707E+02    0.236700E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.398342E+02    0.250218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.399561E+02    0.269536E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.391178E+02    0.288358E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.374514E+02    0.302284E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.354915E+02    0.307011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.337298E+02    0.332526E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138557E+03   -0.309252E+02    0.318126E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.298180E+02    0.288432E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138855E+03   -0.300943E+02    0.257045E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.320983E+02    0.227206E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.352882E+02    0.207205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.387167E+02    0.204590E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.416112E+02    0.219032E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.431270E+02    0.247049E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.426582E+02    0.282149E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.403793E+02    0.313874E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.370403E+02    0.332442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.354101E+02    0.419959E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.335996E+02    0.421095E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.348824E+02    0.403608E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.369459E+02    0.408418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.369355E+02    0.429190E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.347938E+02    0.437189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.330347E+02    0.449095E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.319847E+02    0.434674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.317664E+02    0.417082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.325396E+02    0.400124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.340974E+02    0.388019E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.360486E+02    0.384154E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.378874E+02    0.389875E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.391902E+02    0.403364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.392352E+02    0.422687E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.385160E+02    0.440019E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.367046E+02    0.452882E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.347376E+02    0.455941E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.329784E+02    0.479935E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.303339E+02    0.462148E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.290860E+02    0.433676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.293875E+02    0.402964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.314772E+02    0.374599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.345413E+02    0.358338E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.378661E+02    0.358702E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.409949E+02    0.373707E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.424846E+02    0.403300E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.419713E+02    0.437791E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.397648E+02    0.466906E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.363636E+02    0.482210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.357268E+02    0.319173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.338279E+02    0.321991E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.351561E+02    0.302975E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.372305E+02    0.306723E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.371845E+02    0.328162E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.350637E+02    0.337411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.333344E+02    0.350008E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.322467E+02    0.336307E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.320658E+02    0.318279E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.328880E+02    0.299979E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.344220E+02    0.287033E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.363641E+02    0.282156E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.381247E+02    0.287557E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.393660E+02    0.300747E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.394625E+02    0.320318E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.386013E+02    0.338905E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.370191E+02    0.351587E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.350588E+02    0.355788E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.332687E+02    0.380967E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.304932E+02    0.365647E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138735E+03   -0.292592E+02    0.337676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138808E+03   -0.296485E+02    0.305379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.317615E+02    0.274807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.347906E+02    0.257383E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.382111E+02    0.255392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.412851E+02    0.268647E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.427616E+02    0.297640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.421385E+02    0.333745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.400253E+02    0.363352E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.365706E+02    0.381647E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.361846E+02    0.204054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.343770E+02    0.206845E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.356595E+02    0.187340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.377526E+02    0.190074E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.376697E+02    0.212344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.355696E+02    0.222607E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.337813E+02    0.236770E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.325685E+02    0.224725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.324283E+02    0.205918E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.333759E+02    0.185287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.349680E+02    0.170924E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.369085E+02    0.165261E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.386892E+02    0.169851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.398737E+02    0.183050E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.400265E+02    0.202426E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.391204E+02    0.222257E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.374779E+02    0.236447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.355246E+02    0.241660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.337123E+02    0.268184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.309669E+02    0.254071E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138859E+03   -0.297374E+02    0.225761E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138910E+03   -0.301311E+02    0.192332E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.321004E+02    0.162049E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.353510E+02    0.140388E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.387841E+02    0.137050E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.417010E+02    0.150547E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.432635E+02    0.177887E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.426456E+02    0.214977E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.403238E+02    0.247750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.371161E+02    0.266309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674144.961323546     
  ps_ts2 prof sum =   673715.659157566     
  trcom prof sum =    673715.659157565     
  ps_ts2 cur sum  =   13616.5051607629     
  trcom cur sum  =    13616.5051607628     
  
  antenna # iant =            2
  powecha_use(iant) =    691036.850452089     
  ps_ts2 prof sum =   690596.112460327     
  trcom prof sum =    690596.112460327     
  ps_ts2 cur sum  =   16427.4186689496     
  trcom cur sum  =    16427.4186689496     
  
  antenna # iant =            3
  powecha_use(iant) =    521037.259180164     
  ps_ts2 prof sum =   520723.961846688     
  trcom prof sum =    520723.961846688     
  ps_ts2 cur sum  =   9182.67451967106     
  trcom cur sum  =    9182.67451967107     
  
  antenna # iant =            4
  powecha_use(iant) =    575897.316368473     
  ps_ts2 prof sum =   575553.936529939     
  trcom prof sum =    575553.936529938     
  ps_ts2 cur sum  =   12635.5568584568     
  trcom cur sum  =    12635.5568584568     
  
  antenna # iant =            5
  powecha_use(iant) =    545998.437502329     
  ps_ts2 prof sum =   545686.551673943     
  trcom prof sum =    545686.551673944     
  ps_ts2 cur sum  =   14036.1560611599     
  trcom cur sum  =    14036.1560611598     
  
  Total ECH heating:      3006276.22166846     
  Total Current Drive:    65898.3112690001     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1067
 TA= 1.35000E+00 CPU TIME= 1.67953E-01 SECONDS.  DT= 1.47782E-03
  
 TEC1=    1.34999999999999     
 TEC2=    1.35499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.53123861111089     
  %check_save_state: izleft hours =    77.4602777777778     
 --> plasma_hash("gframe"): TA= 1.350000E+00 NSTEP=  1067 Hash code:   65129284
 ->PRGCHK: bdy curvature ratio at t= 1.3550E+00 seconds is:  5.3822E-02
% MHDEQ: TG1=     1.350000 ; TG2=     1.355000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7838E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3822E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.350000 TO TG2=    1.355000 @ NSTEP     1067
   GFRAME TG2 MOMENTS CHECKSUM:  2.4821933372407D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3550E+00  1.3600E+00 total power(Watts):  3.0091E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.35500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.353384E+02    0.363146E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.335356E+02    0.364809E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.347907E+02    0.346852E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.368563E+02    0.351013E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.368770E+02    0.371830E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.347515E+02    0.380608E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.330114E+02    0.392904E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.317718E+02    0.380160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.316138E+02    0.362083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.325333E+02    0.343446E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.340735E+02    0.330900E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.360186E+02    0.326427E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.377689E+02    0.332151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.389900E+02    0.345622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.391621E+02    0.364473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.382804E+02    0.382982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.365898E+02    0.395921E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.347231E+02    0.399062E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.329128E+02    0.423420E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.303267E+02    0.406496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138723E+03   -0.289637E+02    0.379502E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.294616E+02    0.346584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.314370E+02    0.318200E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.344734E+02    0.301193E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.378926E+02    0.299842E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.407373E+02    0.315669E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.423794E+02    0.343517E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.419215E+02    0.378262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.396687E+02    0.407928E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.362970E+02    0.424373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.361319E+02    0.270791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.343227E+02    0.273182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.356332E+02    0.254026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.377198E+02    0.257272E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.376009E+02    0.279465E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.354880E+02    0.289240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.337707E+02    0.302211E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.326652E+02    0.288679E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138525E+03   -0.323812E+02    0.271591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.331812E+02    0.253370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.348766E+02    0.238462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.368206E+02    0.233218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.385941E+02    0.238190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.397511E+02    0.251762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.399724E+02    0.270242E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.390326E+02    0.289897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.374649E+02    0.302951E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.355043E+02    0.307649E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.336521E+02    0.333909E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.309362E+02    0.318720E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138971E+03   -0.296706E+02    0.290814E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138907E+03   -0.301088E+02    0.257610E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.321999E+02    0.226725E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.353065E+02    0.207782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.387364E+02    0.205190E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.416311E+02    0.219614E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.432521E+02    0.246795E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.427801E+02    0.282067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.402907E+02    0.315305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.370517E+02    0.333111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.353247E+02    0.421149E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.335181E+02    0.422265E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.347989E+02    0.404853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.368579E+02    0.409664E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.368467E+02    0.430363E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.347989E+02    0.437905E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.329529E+02    0.450214E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.319056E+02    0.435805E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.317727E+02    0.417758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.325469E+02    0.400820E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.341039E+02    0.388761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.360577E+02    0.384904E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.378008E+02    0.391188E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.389998E+02    0.405155E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.393407E+02    0.422975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.383265E+02    0.441598E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.366147E+02    0.454027E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.347417E+02    0.456699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.328948E+02    0.481046E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.303367E+02    0.462899E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138576E+03   -0.289356E+02    0.435251E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.294751E+02    0.403068E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.314016E+02    0.375952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.344607E+02    0.359726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.378769E+02    0.359452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.409016E+02    0.375123E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.423923E+02    0.404577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.419769E+02    0.438589E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.397679E+02    0.467773E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.362732E+02    0.483344E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.356461E+02    0.320575E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.338394E+02    0.322612E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.351687E+02    0.303629E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.372456E+02    0.307373E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.371960E+02    0.328826E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.350733E+02    0.338079E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.332565E+02    0.351388E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.321714E+02    0.337680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.319092E+02    0.320431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.327268E+02    0.302278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.344323E+02    0.287736E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.363787E+02    0.282847E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.381393E+02    0.288255E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.392800E+02    0.302233E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.394753E+02    0.320975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.386119E+02    0.339608E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.369339E+02    0.352993E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.349756E+02    0.357195E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.331900E+02    0.382300E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.305838E+02    0.365683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.293483E+02    0.337541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138859E+03   -0.296599E+02    0.305989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138639E+03   -0.316070E+02    0.277245E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.348061E+02    0.257993E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.382277E+02    0.256027E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.410949E+02    0.271098E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.425644E+02    0.299939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.422558E+02    0.333771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.398332E+02    0.365401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.365791E+02    0.382413E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.68 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.362036E+02    0.204645E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.343060E+02    0.208453E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.356792E+02    0.187973E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.376772E+02    0.191765E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.376887E+02    0.212916E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.355874E+02    0.223157E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.336216E+02    0.239249E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.326699E+02    0.224248E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.325309E+02    0.205441E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.332220E+02    0.188072E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.349030E+02    0.172610E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.368366E+02    0.167009E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.387104E+02    0.170513E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.397953E+02    0.184767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.399467E+02    0.204054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.391391E+02    0.222831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.373996E+02    0.237966E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.354498E+02    0.243174E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.336389E+02    0.269735E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138905E+03   -0.308994E+02    0.255584E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139126E+03   -0.296738E+02    0.227287E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139170E+03   -0.300691E+02    0.194016E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.322024E+02    0.161512E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.352865E+02    0.142070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.387103E+02    0.138779E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.416222E+02    0.152299E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.430752E+02    0.180668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.425609E+02    0.216547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.403416E+02    0.248369E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.370363E+02    0.267873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680184.860644352     
  ps_ts2 prof sum =   679786.942947227     
  trcom prof sum =    679786.942947226     
  ps_ts2 cur sum  =   13915.9325003282     
  trcom cur sum  =    13915.9325003282     
  
  antenna # iant =            2
  powecha_use(iant) =    691220.696564969     
  ps_ts2 prof sum =   690801.965383284     
  trcom prof sum =    690801.965383284     
  ps_ts2 cur sum  =   16609.6089046445     
  trcom cur sum  =    16609.6089046445     
  
  antenna # iant =            3
  powecha_use(iant) =    522145.342546779     
  ps_ts2 prof sum =   521816.983674078     
  trcom prof sum =    521816.983674079     
  ps_ts2 cur sum  =   9336.74081846202     
  trcom cur sum  =    9336.74081846201     
  
  antenna # iant =            4
  powecha_use(iant) =    568932.438746586     
  ps_ts2 prof sum =   568590.854790791     
  trcom prof sum =    568590.854790790     
  ps_ts2 cur sum  =   12630.9024579940     
  trcom cur sum  =    12630.9024579940     
  
  antenna # iant =            5
  powecha_use(iant) =    546646.383200477     
  ps_ts2 prof sum =   546314.731286153     
  trcom prof sum =    546314.731286153     
  ps_ts2 cur sum  =   14189.9388027461     
  trcom cur sum  =    14189.9388027461     
  
  Total ECH heating:      3007311.47808153     
  Total Current Drive:    66683.1234841748     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1070
 TA= 1.35500E+00 CPU TIME= 1.59813E-01 SECONDS.  DT= 2.09362E-03
  
 TEC1=    1.35499999999999     
 TEC2=    1.35999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.54411388888889     
  %check_save_state: izleft hours =    77.4475000000000     
 --> plasma_hash("gframe"): TA= 1.355000E+00 NSTEP=  1070 Hash code:  108630055
 ->PRGCHK: bdy curvature ratio at t= 1.3600E+00 seconds is:  5.3911E-02
% MHDEQ: TG1=     1.355000 ; TG2=     1.360000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7831E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3911E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.355000 TO TG2=    1.360000 @ NSTEP     1070
   GFRAME TG2 MOMENTS CHECKSUM:  2.4815358913807D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.51273E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.72011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.90904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.62905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.22219E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.89709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.40204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  2.69654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -5.01615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.30471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -4.75125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.02539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.26193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.45025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.21021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.84333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.18601E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.81490E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.77732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.77732E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.3600E+00  1.3650E+00 total power(Watts):  3.0052E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.36000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.353653E+02    0.363387E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.335584E+02    0.365064E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.348160E+02    0.347115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.368824E+02    0.351295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.369025E+02    0.372104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.347737E+02    0.380881E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.330312E+02    0.393186E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.319621E+02    0.379176E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.318046E+02    0.360986E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.325573E+02    0.343702E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.340990E+02    0.331171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.360462E+02    0.326711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.377970E+02    0.332452E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.390178E+02    0.345925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.391893E+02    0.364763E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.383043E+02    0.383290E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.366120E+02    0.396229E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.347434E+02    0.399360E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.329303E+02    0.423729E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.303440E+02    0.406773E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.289828E+02    0.379733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138459E+03   -0.294832E+02    0.346822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.314609E+02    0.318456E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.345044E+02    0.301395E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.379233E+02    0.300092E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.407684E+02    0.315985E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.424093E+02    0.343855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.419478E+02    0.378593E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.396906E+02    0.408285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.363159E+02    0.424709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.65 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.361650E+02    0.270940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.343524E+02    0.273341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.356657E+02    0.254176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.377536E+02    0.257440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.377298E+02    0.278799E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.356101E+02    0.288591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.338006E+02    0.302425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.326930E+02    0.288857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.324096E+02    0.271732E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.333864E+02    0.251619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.349092E+02    0.238590E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.368553E+02    0.233348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.387245E+02    0.237428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.398876E+02    0.251027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.400068E+02    0.270435E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.391645E+02    0.289297E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.374950E+02    0.303209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.355329E+02    0.307905E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.336771E+02    0.334176E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.309610E+02    0.318960E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138939E+03   -0.296961E+02    0.290968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138881E+03   -0.301343E+02    0.257753E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.322270E+02    0.226858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.353417E+02    0.207829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.387743E+02    0.205247E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.416707E+02    0.219743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.432907E+02    0.246996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.428156E+02    0.282317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.403218E+02    0.315610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.370793E+02    0.333406E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.353438E+02    0.421473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.335359E+02    0.422578E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.348188E+02    0.405162E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.368788E+02    0.409990E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.368656E+02    0.430709E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.348158E+02    0.438238E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.329678E+02    0.450540E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.319217E+02    0.436112E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.317898E+02    0.418060E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.325665E+02    0.401105E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.341265E+02    0.389032E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.360801E+02    0.385197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.378239E+02    0.391497E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.390221E+02    0.405493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.393611E+02    0.423341E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.383437E+02    0.441965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.368208E+02    0.453641E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.347574E+02    0.457037E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.329060E+02    0.481403E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.303502E+02    0.463207E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.291063E+02    0.434623E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.294916E+02    0.403337E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.314222E+02    0.376197E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.344844E+02    0.359988E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.379029E+02    0.359737E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.408250E+02    0.376034E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.424162E+02    0.404952E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.419968E+02    0.438992E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.397834E+02    0.468181E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.364706E+02    0.483192E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.29 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.356734E+02    0.320853E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.338654E+02    0.322879E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.351973E+02    0.303871E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.372755E+02    0.307639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.372240E+02    0.329121E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.351003E+02    0.338354E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.332801E+02    0.351637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.321099E+02    0.338668E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.321044E+02    0.319121E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.327536E+02    0.302493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.344615E+02    0.287925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.364097E+02    0.283038E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.381713E+02    0.288471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.393114E+02    0.302501E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.395054E+02    0.321286E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.386399E+02    0.339912E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.369598E+02    0.353275E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.349999E+02    0.357460E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.332107E+02    0.382568E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.305229E+02    0.366581E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.292917E+02    0.338519E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138825E+03   -0.296845E+02    0.306190E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138607E+03   -0.316345E+02    0.277390E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.348374E+02    0.258145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.382620E+02    0.256198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.411304E+02    0.271305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.425983E+02    0.300234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.422860E+02    0.334118E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.398599E+02    0.365703E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.366021E+02    0.382697E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.362396E+02    0.204688E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.343403E+02    0.208494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.357155E+02    0.187955E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.378101E+02    0.190713E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.377253E+02    0.212998E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.356216E+02    0.223256E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.338292E+02    0.237428E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.327026E+02    0.224333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.325638E+02    0.205463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138500E+03   -0.332564E+02    0.188034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.349348E+02    0.172601E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.368747E+02    0.166947E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.387502E+02    0.170465E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.398353E+02    0.184756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.399858E+02    0.204115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.391788E+02    0.222928E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.375306E+02    0.237156E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.355743E+02    0.242360E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.337566E+02    0.268984E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.310924E+02    0.253811E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139097E+03   -0.297034E+02    0.227358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138934E+03   -0.301791E+02    0.192891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138683E+03   -0.321544E+02    0.162563E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.353235E+02    0.141986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.388483E+02    0.137562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.416653E+02    0.152245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.431185E+02    0.180669E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.428123E+02    0.214723E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.403784E+02    0.248551E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.370688E+02    0.268041E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680973.522276373     
  ps_ts2 prof sum =   680591.773295811     
  trcom prof sum =    680591.773295811     
  ps_ts2 cur sum  =   14010.8225138343     
  trcom cur sum  =    14010.8225138343     
  
  antenna # iant =            2
  powecha_use(iant) =    690516.829528989     
  ps_ts2 prof sum =   690128.700265414     
  trcom prof sum =    690128.700265413     
  ps_ts2 cur sum  =   16687.2220697225     
  trcom cur sum  =    16687.2220697225     
  
  antenna # iant =            3
  powecha_use(iant) =    521751.211669012     
  ps_ts2 prof sum =   521433.602729829     
  trcom prof sum =    521433.602729829     
  ps_ts2 cur sum  =   9381.50640331299     
  trcom cur sum  =    9381.50640331300     
  
  antenna # iant =            4
  powecha_use(iant) =    564926.321826403     
  ps_ts2 prof sum =   564560.846850312     
  trcom prof sum =    564560.846850311     
  ps_ts2 cur sum  =   12613.0088841267     
  trcom cur sum  =    12613.0088841267     
  
  antenna # iant =            5
  powecha_use(iant) =    547075.847007886     
  ps_ts2 prof sum =   546786.211094502     
  trcom prof sum =    546786.211094501     
  ps_ts2 cur sum  =   14281.1133993196     
  trcom cur sum  =    14281.1133993196     
  
  Total ECH heating:      3003501.13423587     
  Total Current Drive:    66973.6732703160     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1073
 TA= 1.36000E+00 CPU TIME= 1.59695E-01 SECONDS.  DT= 3.61696E-04
  
 TEC1=    1.35999999999999     
 TEC2=    1.36499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.55971222222183     
  %check_save_state: izleft hours =    77.4319444444444     
 --> plasma_hash("gframe"): TA= 1.360000E+00 NSTEP=  1073 Hash code:   49975086
 ->PRGCHK: bdy curvature ratio at t= 1.3650E+00 seconds is:  5.4004E-02
% MHDEQ: TG1=     1.360000 ; TG2=     1.365000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7824E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4004E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.360000 TO TG2=    1.365000 @ NSTEP     1073
   GFRAME TG2 MOMENTS CHECKSUM:  2.4808784455206D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3650E+00  1.3700E+00 total power(Watts):  3.0161E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.36500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.353886E+02    0.363651E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.335809E+02    0.365310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.348406E+02    0.347370E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.369082E+02    0.351563E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.369265E+02    0.372377E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.347955E+02    0.381147E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.330517E+02    0.393454E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.319824E+02    0.379424E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.318260E+02    0.361220E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.325806E+02    0.343943E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.341245E+02    0.331422E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.360728E+02    0.326976E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.379219E+02    0.332004E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.390452E+02    0.346212E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.392151E+02    0.365050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.383278E+02    0.383584E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.367284E+02    0.395980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.347646E+02    0.399645E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.329476E+02    0.424030E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.303616E+02    0.407048E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138659E+03   -0.290015E+02    0.379955E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138662E+03   -0.294218E+02    0.347787E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.314856E+02    0.318678E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.345325E+02    0.301605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.379536E+02    0.300328E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.407993E+02    0.316280E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.424418E+02    0.344152E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.419736E+02    0.378922E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.396127E+02    0.409121E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.363346E+02    0.425038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.361943E+02    0.271108E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.343819E+02    0.273488E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.356973E+02    0.254308E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.377865E+02    0.257585E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.377613E+02    0.278974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.356392E+02    0.288782E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.338254E+02    0.302655E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.327201E+02    0.289025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138463E+03   -0.324378E+02    0.271858E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.334159E+02    0.251736E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.349409E+02    0.238707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.368884E+02    0.233463E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.387597E+02    0.237560E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.399224E+02    0.251178E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.400407E+02    0.270611E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.391963E+02    0.289514E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.375247E+02    0.303449E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.355603E+02    0.308143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.337021E+02    0.334428E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.309851E+02    0.319182E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138907E+03   -0.297213E+02    0.291118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138845E+03   -0.301632E+02    0.257834E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.322605E+02    0.226890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.353756E+02    0.207858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.388114E+02    0.205291E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.417090E+02    0.219855E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.433284E+02    0.247170E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.428502E+02    0.282551E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.405565E+02    0.314390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.371062E+02    0.333679E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.354539E+02    0.421314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.335537E+02    0.422883E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.348388E+02    0.405461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.369940E+02    0.409802E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.368843E+02    0.431036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.348327E+02    0.438561E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.330685E+02    0.450467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.319372E+02    0.436416E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.318068E+02    0.418350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.325852E+02    0.401385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.341471E+02    0.389308E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.361022E+02    0.385480E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.378452E+02    0.391812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.390440E+02    0.405826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.393810E+02    0.423699E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.383632E+02    0.442310E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.367413E+02    0.454365E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.347718E+02    0.457383E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.330035E+02    0.481460E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.303627E+02    0.463517E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.291205E+02    0.434905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.295082E+02    0.403610E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.314429E+02    0.376431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.345081E+02    0.360236E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.379284E+02    0.360013E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.408507E+02    0.376343E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.424364E+02    0.405335E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.420163E+02    0.439387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.397982E+02    0.468580E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.364826E+02    0.483582E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.357005E+02    0.321112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.338911E+02    0.323131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.352251E+02    0.304097E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.373040E+02    0.307891E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.372512E+02    0.329396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.351252E+02    0.338613E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.333033E+02    0.351881E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.321337E+02    0.338902E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.321272E+02    0.319371E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.329538E+02    0.301044E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.344934E+02    0.288073E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.364399E+02    0.283217E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.382025E+02    0.288675E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.393426E+02    0.302750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.395349E+02    0.321574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.386683E+02    0.340193E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.369855E+02    0.353540E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.350259E+02    0.357692E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.332312E+02    0.382822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.305435E+02    0.366803E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138720E+03   -0.293129E+02    0.338740E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138793E+03   -0.297087E+02    0.306380E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.316620E+02    0.277522E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.348680E+02    0.258273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.382954E+02    0.256344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.411651E+02    0.271491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.426316E+02    0.300508E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.423167E+02    0.334432E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.398868E+02    0.365987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.366249E+02    0.382979E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.15 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.362746E+02    0.204713E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.343732E+02    0.208518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.357508E+02    0.187921E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.378476E+02    0.190699E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.377610E+02    0.213061E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.356552E+02    0.223342E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.338607E+02    0.237535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.327331E+02    0.224401E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.325986E+02    0.205435E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.332896E+02    0.187981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.350593E+02    0.171428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.370052E+02    0.165772E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.387888E+02    0.170404E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.399737E+02    0.183684E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.401242E+02    0.203147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.392126E+02    0.223051E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.375645E+02    0.237287E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.356065E+02    0.242485E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.337857E+02    0.269121E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.311203E+02    0.253919E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139068E+03   -0.297321E+02    0.227415E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138909E+03   -0.302091E+02    0.192840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138661E+03   -0.321876E+02    0.162467E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.354511E+02    0.140733E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.388885E+02    0.137471E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.417081E+02    0.152180E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.433717E+02    0.178566E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.428516E+02    0.214835E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.404138E+02    0.248701E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.371006E+02    0.268194E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.15 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680097.804307096     
  ps_ts2 prof sum =   679696.101605048     
  trcom prof sum =    679696.101605047     
  ps_ts2 cur sum  =   14065.6681853005     
  trcom cur sum  =    14065.6681853005     
  
  antenna # iant =            2
  powecha_use(iant) =    692288.021197915     
  ps_ts2 prof sum =   691893.043435424     
  trcom prof sum =    691893.043435424     
  ps_ts2 cur sum  =   16815.2176099504     
  trcom cur sum  =    16815.2176099504     
  
  antenna # iant =            3
  powecha_use(iant) =    521591.926630275     
  ps_ts2 prof sum =   521272.351615235     
  trcom prof sum =    521272.351615235     
  ps_ts2 cur sum  =   9426.36988251648     
  trcom cur sum  =    9426.36988251648     
  
  antenna # iant =            4
  powecha_use(iant) =    574471.427533011     
  ps_ts2 prof sum =   574098.023241213     
  trcom prof sum =    574098.023241213     
  ps_ts2 cur sum  =   12892.0905202038     
  trcom cur sum  =    12892.0905202038     
  
  antenna # iant =            5
  powecha_use(iant) =    547684.230838373     
  ps_ts2 prof sum =   547406.516042978     
  trcom prof sum =    547406.516042978     
  ps_ts2 cur sum  =   14368.8624129743     
  trcom cur sum  =    14368.8624129743     
  
  Total ECH heating:      3014366.03593990     
  Total Current Drive:    67568.2086109454     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1080
 TA= 1.36500E+00 CPU TIME= 1.62130E-01 SECONDS.  DT= 1.15967E-03
  
 TEC1=    1.36499999999999     
 TEC2=    1.36999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.57341194444393     
  %check_save_state: izleft hours =    77.4180555555556     
 --> plasma_hash("gframe"): TA= 1.365000E+00 NSTEP=  1080 Hash code:  108632069
 ->PRGCHK: bdy curvature ratio at t= 1.3700E+00 seconds is:  5.4101E-02
% MHDEQ: TG1=     1.365000 ; TG2=     1.370000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7817E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4101E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.365000 TO TG2=    1.370000 @ NSTEP     1080
   GFRAME TG2 MOMENTS CHECKSUM:  2.4802209932244D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.83198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.88565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.78735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.60417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.79326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.74579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.03501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.28206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  2.49430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -2.41203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.27234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.79225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.73547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.59949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -3.10141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.70514E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.51745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.34840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.40882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.75670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.75670E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3700E+00  1.3750E+00 total power(Watts):  3.0206E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.37000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.354130E+02    0.363914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.336037E+02    0.365568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.349564E+02    0.346950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.369344E+02    0.351844E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.369506E+02    0.372661E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.348174E+02    0.381432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.330700E+02    0.393756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.320032E+02    0.379684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.318479E+02    0.361466E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.326045E+02    0.344199E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.341501E+02    0.331697E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.361002E+02    0.327257E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.379501E+02    0.332305E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.390732E+02    0.346511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.392409E+02    0.365353E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.383524E+02    0.383895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.367493E+02    0.396308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.347841E+02    0.399962E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.329648E+02    0.424346E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.303792E+02    0.407332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138628E+03   -0.290206E+02    0.380191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138620E+03   -0.294470E+02    0.347992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.315104E+02    0.318929E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.345607E+02    0.301840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.379843E+02    0.300585E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.408307E+02    0.316598E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.424683E+02    0.344508E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.419997E+02    0.379271E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.396349E+02    0.409481E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.363535E+02    0.425380E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.362261E+02    0.271281E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.344119E+02    0.273653E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.357293E+02    0.254460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.378205E+02    0.257748E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.377936E+02    0.279171E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.356692E+02    0.288989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.338526E+02    0.302888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.327484E+02    0.289210E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.326375E+02    0.270211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.334468E+02    0.251875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.349738E+02    0.238845E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.369229E+02    0.233611E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.387957E+02    0.237729E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.399585E+02    0.251353E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.400755E+02    0.270808E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.392289E+02    0.289750E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.375546E+02    0.303712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.355887E+02    0.308403E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.337272E+02    0.334695E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.310097E+02    0.319423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138876E+03   -0.297467E+02    0.291285E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138814E+03   -0.301918E+02    0.257957E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.322920E+02    0.226994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.354103E+02    0.207922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.388498E+02    0.205365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.417488E+02    0.220004E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.433712E+02    0.247337E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.428857E+02    0.282808E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.405876E+02    0.314708E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.371303E+02    0.333994E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.354727E+02    0.421646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.335713E+02    0.423200E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.348586E+02    0.405782E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.370148E+02    0.410142E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.369031E+02    0.431381E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.348497E+02    0.438893E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.330840E+02    0.450790E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.319572E+02    0.436705E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.318236E+02    0.418656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.326039E+02    0.401684E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.341683E+02    0.389600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.361249E+02    0.385780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.378697E+02    0.392122E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.390664E+02    0.406177E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.394014E+02    0.424068E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.383816E+02    0.442672E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.367576E+02    0.454722E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.347866E+02    0.457728E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.330157E+02    0.481815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.303751E+02    0.463830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.291353E+02    0.435198E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.295275E+02    0.403876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.314635E+02    0.376685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.345308E+02    0.360506E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.379544E+02    0.360299E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.408767E+02    0.376663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.424633E+02    0.405707E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.420361E+02    0.439790E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.398137E+02    0.468983E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.364950E+02    0.483975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.357281E+02    0.321389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.339173E+02    0.323395E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.352534E+02    0.304342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.373336E+02    0.308164E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.372824E+02    0.329664E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.351511E+02    0.338891E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.333267E+02    0.352146E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.321578E+02    0.339155E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.321542E+02    0.319611E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.329809E+02    0.301267E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.345195E+02    0.288298E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.364708E+02    0.283416E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.382343E+02    0.288903E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.393738E+02    0.303026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.395650E+02    0.321887E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.386964E+02    0.340493E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.370116E+02    0.353818E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.350486E+02    0.357974E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.332524E+02    0.383099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.305644E+02    0.367038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.293355E+02    0.338974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138760E+03   -0.297328E+02    0.306586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.316899E+02    0.277670E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.348997E+02    0.258422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.383298E+02    0.256510E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.412006E+02    0.271698E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.428778E+02    0.299255E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.423473E+02    0.334771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.399133E+02    0.366294E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.366480E+02    0.383276E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.363106E+02    0.204769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.343190E+02    0.209603E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.357874E+02    0.187908E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.378857E+02    0.190709E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.377975E+02    0.213159E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.356890E+02    0.223455E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.338925E+02    0.237675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.327650E+02    0.224501E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.326281E+02    0.205503E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.333236E+02    0.187946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.350959E+02    0.171367E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.370438E+02    0.165715E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.388290E+02    0.170354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.400146E+02    0.183678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.401637E+02    0.203224E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.392498E+02    0.223190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.376006E+02    0.237423E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.356399E+02    0.242632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.338159E+02    0.269280E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.311495E+02    0.254048E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139038E+03   -0.297614E+02    0.227499E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138884E+03   -0.302404E+02    0.192808E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138638E+03   -0.322213E+02    0.162379E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.354899E+02    0.140647E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.389297E+02    0.137388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.417516E+02    0.152114E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.434152E+02    0.178578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.428925E+02    0.214983E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.404504E+02    0.248881E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.371334E+02    0.268370E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681247.037524225     
  ps_ts2 prof sum =   680841.991871272     
  trcom prof sum =    680841.991871271     
  ps_ts2 cur sum  =   14165.1502540134     
  trcom cur sum  =    14165.1502540134     
  
  antenna # iant =            2
  powecha_use(iant) =    694486.799295018     
  ps_ts2 prof sum =   694100.054039949     
  trcom prof sum =    694100.054039948     
  ps_ts2 cur sum  =   16962.2174129861     
  trcom cur sum  =    16962.2174129861     
  
  antenna # iant =            3
  powecha_use(iant) =    521359.515608662     
  ps_ts2 prof sum =   521031.612744358     
  trcom prof sum =    521031.612744358     
  ps_ts2 cur sum  =   9470.65169846792     
  trcom cur sum  =    9470.65169846793     
  
  antenna # iant =            4
  powecha_use(iant) =    577121.192212600     
  ps_ts2 prof sum =   576749.236216216     
  trcom prof sum =    576749.236216215     
  ps_ts2 cur sum  =   13021.8509894688     
  trcom cur sum  =    13021.8509894688     
  
  antenna # iant =            5
  powecha_use(iant) =    546337.686208864     
  ps_ts2 prof sum =   546041.000369826     
  trcom prof sum =    546041.000369827     
  ps_ts2 cur sum  =   14413.2071396276     
  trcom cur sum  =    14413.2071396276     
  
  Total ECH heating:      3018763.89524162     
  Total Current Drive:    68033.0774945638     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1084
 TA= 1.37000E+00 CPU TIME= 1.59594E-01 SECONDS.  DT= 7.23433E-04
  
 TEC1=    1.36999999999999     
 TEC2=    1.37499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.59040055555556     
  %check_save_state: izleft hours =    77.4011111111111     
 --> plasma_hash("gframe"): TA= 1.370000E+00 NSTEP=  1084 Hash code:   87719922
 ->PRGCHK: bdy curvature ratio at t= 1.3750E+00 seconds is:  5.4201E-02
% MHDEQ: TG1=     1.370000 ; TG2=     1.375000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7809E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4201E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.370000 TO TG2=    1.375000 @ NSTEP     1084
   GFRAME TG2 MOMENTS CHECKSUM:  2.4795635409282D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3750E+00  1.3800E+00 total power(Watts):  3.0161E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.37500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.354377E+02    0.364194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.336269E+02    0.365837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.349821E+02    0.347237E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.369611E+02    0.352138E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.369754E+02    0.372962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.348400E+02    0.381726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.330909E+02    0.394059E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.320257E+02    0.379947E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.318704E+02    0.361725E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.326287E+02    0.344465E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.341767E+02    0.331974E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.361283E+02    0.327553E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.379789E+02    0.332617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.391018E+02    0.346824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.392681E+02    0.365665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.383766E+02    0.384224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.367709E+02    0.396643E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.348052E+02    0.400284E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.329826E+02    0.424671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.303971E+02    0.407629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.290399E+02    0.380432E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.294689E+02    0.348231E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.315358E+02    0.319190E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.345893E+02    0.302083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.380158E+02    0.300854E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.408630E+02    0.316928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.424989E+02    0.344856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.420264E+02    0.379631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.396575E+02    0.409857E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.363730E+02    0.425731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.362588E+02    0.271462E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.344435E+02    0.273823E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.357624E+02    0.254626E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.378556E+02    0.257927E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.378267E+02    0.279381E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.356999E+02    0.289207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.338809E+02    0.303133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.327764E+02    0.289409E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.326685E+02    0.270371E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.334788E+02    0.252034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.350076E+02    0.238997E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.369597E+02    0.233765E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.388315E+02    0.237904E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.399955E+02    0.251544E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.401111E+02    0.271016E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.392623E+02    0.289998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.375857E+02    0.303988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.356176E+02    0.308675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.337531E+02    0.334973E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.310351E+02    0.319672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138845E+03   -0.297733E+02    0.291460E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.302206E+02    0.258093E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.323239E+02    0.227113E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.354462E+02    0.207997E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.388920E+02    0.205423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.417894E+02    0.220166E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.434072E+02    0.247588E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.429222E+02    0.283076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.406196E+02    0.315041E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.371621E+02    0.334275E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.354922E+02    0.421987E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.335881E+02    0.423533E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.348797E+02    0.406095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.370357E+02    0.410491E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.369223E+02    0.431739E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.348676E+02    0.439232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.330996E+02    0.451127E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.319695E+02    0.437044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.318424E+02    0.418963E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.326238E+02    0.401991E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.341900E+02    0.389902E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.361480E+02    0.386089E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.378931E+02    0.392455E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.390892E+02    0.406541E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.394220E+02    0.424455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.384004E+02    0.443047E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.367743E+02    0.455088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.348020E+02    0.458081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.330278E+02    0.482182E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.303879E+02    0.464153E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.291504E+02    0.435496E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.295436E+02    0.404172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.314845E+02    0.376945E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.345563E+02    0.360770E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.379812E+02    0.360594E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.409035E+02    0.377007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.424877E+02    0.406109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.420567E+02    0.440203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.398294E+02    0.469398E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.364164E+02    0.484637E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.357565E+02    0.321678E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.339441E+02    0.323674E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.352826E+02    0.304602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.373638E+02    0.308454E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.373078E+02    0.330000E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.351777E+02    0.339176E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.333509E+02    0.352409E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.321822E+02    0.339418E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.321800E+02    0.319877E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.330047E+02    0.301535E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.345490E+02    0.288507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.365026E+02    0.283625E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.382671E+02    0.289137E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.394063E+02    0.303313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.395959E+02    0.322210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.387252E+02    0.340806E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.370382E+02    0.354111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.350735E+02    0.358252E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.332741E+02    0.383383E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.305857E+02    0.367281E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138654E+03   -0.293583E+02    0.339220E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138728E+03   -0.297580E+02    0.306803E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.317188E+02    0.277826E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.349312E+02    0.258586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.383651E+02    0.256692E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.412370E+02    0.271918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.427007E+02    0.301121E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.423789E+02    0.335120E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.399362E+02    0.366632E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.366716E+02    0.383593E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.363472E+02    0.204843E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.343541E+02    0.209673E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.358251E+02    0.187899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.379250E+02    0.190727E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.378356E+02    0.213268E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.357243E+02    0.223591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.339254E+02    0.237822E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.327975E+02    0.224615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138228E+03   -0.326620E+02    0.205550E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.333600E+02    0.187914E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.351345E+02    0.171310E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.370844E+02    0.165653E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.388708E+02    0.170312E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.400538E+02    0.183703E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.402040E+02    0.203315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.392886E+02    0.223347E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.376356E+02    0.237606E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.356739E+02    0.242791E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.338467E+02    0.269443E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.311793E+02    0.254192E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139009E+03   -0.297911E+02    0.227594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.302735E+02    0.192781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.322569E+02    0.162296E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.355286E+02    0.140568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.389730E+02    0.137323E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.417976E+02    0.152066E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.434602E+02    0.178603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.429344E+02    0.215151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.404880E+02    0.249067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.371674E+02    0.268551E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.32 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681929.772616885     
  ps_ts2 prof sum =   681524.833796512     
  trcom prof sum =    681524.833796512     
  ps_ts2 cur sum  =   14265.4548918000     
  trcom cur sum  =    14265.4548918000     
  
  antenna # iant =            2
  powecha_use(iant) =    694950.164827706     
  ps_ts2 prof sum =   694568.206502571     
  trcom prof sum =    694568.206502570     
  ps_ts2 cur sum  =   17073.0784214095     
  trcom cur sum  =    17073.0784214095     
  
  antenna # iant =            3
  powecha_use(iant) =    521753.435659801     
  ps_ts2 prof sum =   521415.394199598     
  trcom prof sum =    521415.394199599     
  ps_ts2 cur sum  =   9533.23654306630     
  trcom cur sum  =    9533.23654306631     
  
  antenna # iant =            4
  powecha_use(iant) =    572037.709896100     
  ps_ts2 prof sum =   571661.620458998     
  trcom prof sum =    571661.620458998     
  ps_ts2 cur sum  =   12984.2231551493     
  trcom cur sum  =    12984.2231551493     
  
  antenna # iant =            5
  powecha_use(iant) =    545478.449945545     
  ps_ts2 prof sum =   545184.000647605     
  trcom prof sum =    545184.000647604     
  ps_ts2 cur sum  =   14476.7593985878     
  trcom cur sum  =    14476.7593985878     
  
  Total ECH heating:      3014354.05560528     
  Total Current Drive:    68332.7524100129     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1089
 TA= 1.37500E+00 CPU TIME= 1.59418E-01 SECONDS.  DT= 1.03620E-03
  
 TEC1=    1.37499999999999     
 TEC2=    1.37999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    2.60286861111081     
  %check_save_state: izleft hours =    77.3886111111111     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  1.3750000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 1.375000E+00 NSTEP=  1089 Hash code:  104026498
 ->PRGCHK: bdy curvature ratio at t= 1.3800E+00 seconds is:  5.4304E-02
% MHDEQ: TG1=     1.375000 ; TG2=     1.380000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7802E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4304E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.375000 TO TG2=    1.380000 @ NSTEP     1089
   GFRAME TG2 MOMENTS CHECKSUM:  2.4789060886320D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.09037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.06599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  8.77725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.27918E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.86133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.18526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.24071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  2.27398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.26049E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.23707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.84162E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.33023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  2.71219E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.23164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.25183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.52531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.96643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.55475E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.55475E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3800E+00  1.3850E+00 total power(Watts):  3.0224E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.38000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.354619E+02    0.364390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.336498E+02    0.366025E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.349195E+02    0.348095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.369871E+02    0.352345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.370000E+02    0.373175E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.348625E+02    0.381939E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.331123E+02    0.394277E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.320444E+02    0.380154E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.318923E+02    0.361903E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.326521E+02    0.344654E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.342022E+02    0.332178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.361555E+02    0.327773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.380067E+02    0.332847E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.391294E+02    0.347049E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.392948E+02    0.365877E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.384010E+02    0.384464E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.367943E+02    0.396891E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.348260E+02    0.400530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.330016E+02    0.424914E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.304151E+02    0.407857E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.290588E+02    0.380615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138558E+03   -0.294901E+02    0.348398E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.315600E+02    0.319382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.346171E+02    0.302262E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.380459E+02    0.301052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.408943E+02    0.317177E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.425289E+02    0.345108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.420529E+02    0.379896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.396801E+02    0.410146E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.363928E+02    0.426007E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.362897E+02    0.271557E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.344739E+02    0.273905E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.357958E+02    0.254689E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.378879E+02    0.258014E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.378581E+02    0.279512E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.357293E+02    0.289352E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.339079E+02    0.303311E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.328037E+02    0.289538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.326965E+02    0.270445E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.335088E+02    0.252092E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.350397E+02    0.239057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.369965E+02    0.233812E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.388678E+02    0.237976E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.400309E+02    0.251634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.401450E+02    0.271134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.392941E+02    0.290171E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.376152E+02    0.304193E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.356459E+02    0.308877E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.337781E+02    0.335171E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.310591E+02    0.319857E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138816E+03   -0.297982E+02    0.291566E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138757E+03   -0.302478E+02    0.258136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.323554E+02    0.227148E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.354801E+02    0.208030E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.389255E+02    0.205500E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.418278E+02    0.220253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.434449E+02    0.247699E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.429569E+02    0.283262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.406505E+02    0.315294E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.371892E+02    0.334498E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.355112E+02    0.422262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.336087E+02    0.423777E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.349002E+02    0.406347E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.370572E+02    0.410762E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.369418E+02    0.432021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.348852E+02    0.439511E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.331155E+02    0.451399E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.319867E+02    0.437291E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.318604E+02    0.419208E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.326433E+02    0.402224E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.342113E+02    0.390126E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.361708E+02    0.386320E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.379159E+02    0.392714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.391118E+02    0.406825E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.394397E+02    0.424771E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.384195E+02    0.443350E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.367914E+02    0.455387E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.348180E+02    0.458369E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.330405E+02    0.482488E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.304015E+02    0.464408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.291663E+02    0.435733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.295622E+02    0.404387E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.314218E+02    0.377746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.345801E+02    0.360960E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.380074E+02    0.360805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.409298E+02    0.377254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.425121E+02    0.406424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.420776E+02    0.440535E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.398432E+02    0.469736E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.364303E+02    0.484970E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.357838E+02    0.321895E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.339700E+02    0.323878E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.353105E+02    0.304793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.373933E+02    0.308668E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.373356E+02    0.330223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.352033E+02    0.339382E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.333749E+02    0.352596E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.322061E+02    0.339604E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.322048E+02    0.320074E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.330350E+02    0.301670E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.345778E+02    0.288644E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.365328E+02    0.283759E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.382982E+02    0.289298E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.394373E+02    0.303528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.396258E+02    0.322449E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.387530E+02    0.341033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.370640E+02    0.354314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.350979E+02    0.358444E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.332944E+02    0.383589E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.306070E+02    0.367447E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.293796E+02    0.339399E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.297824E+02    0.306959E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.317464E+02    0.277913E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.349631E+02    0.258653E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.383983E+02    0.256777E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.412670E+02    0.272085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.427339E+02    0.301359E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.424094E+02    0.335379E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.399677E+02    0.366829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.366952E+02    0.383816E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.363821E+02    0.204876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.343872E+02    0.209695E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.358603E+02    0.187895E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.379620E+02    0.190738E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.378711E+02    0.213331E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.357577E+02    0.223649E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.339565E+02    0.237879E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.328296E+02    0.224649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.326930E+02    0.205565E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138408E+03   -0.333932E+02    0.187896E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.351700E+02    0.171276E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.371220E+02    0.165619E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.389098E+02    0.170293E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.400950E+02    0.183699E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.402422E+02    0.203366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.393251E+02    0.223422E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.376697E+02    0.237679E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.357062E+02    0.242855E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.338758E+02    0.269525E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.312073E+02    0.254241E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138981E+03   -0.298192E+02    0.227623E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138835E+03   -0.303039E+02    0.192757E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.322903E+02    0.162236E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.355650E+02    0.140502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.390133E+02    0.137268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.418398E+02    0.152033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.435025E+02    0.178626E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.429736E+02    0.215239E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.405243E+02    0.249157E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.371990E+02    0.268647E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680677.402135751     
  ps_ts2 prof sum =   680265.639650473     
  trcom prof sum =    680265.639650472     
  ps_ts2 cur sum  =   14325.0671590255     
  trcom cur sum  =    14325.0671590255     
  
  antenna # iant =            2
  powecha_use(iant) =    695270.356241669     
  ps_ts2 prof sum =   694887.895104135     
  trcom prof sum =    694887.895104135     
  ps_ts2 cur sum  =   17184.8543067150     
  trcom cur sum  =    17184.8543067150     
  
  antenna # iant =            3
  powecha_use(iant) =    522203.990536599     
  ps_ts2 prof sum =   521850.764203375     
  trcom prof sum =    521850.764203375     
  ps_ts2 cur sum  =   9597.75843618716     
  trcom cur sum  =    9597.75843618717     
  
  antenna # iant =            4
  powecha_use(iant) =    579298.165907336     
  ps_ts2 prof sum =   578916.577386521     
  trcom prof sum =    578916.577386520     
  ps_ts2 cur sum  =   13229.1671660484     
  trcom cur sum  =    13229.1671660484     
  
  antenna # iant =            5
  powecha_use(iant) =    544921.286455252     
  ps_ts2 prof sum =   544626.204704800     
  trcom prof sum =    544626.204704800     
  ps_ts2 cur sum  =   14547.5854567033     
  trcom cur sum  =    14547.5854567033     
  
  Total ECH heating:      3020547.08104930     
  Total Current Drive:    68884.4325246793     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1093
 TA= 1.38000E+00 CPU TIME= 1.68960E-01 SECONDS.  DT= 1.31188E-03
  
 TEC1=    1.37999999999999     
 TEC2=    1.38499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.61463055555510     
  %check_save_state: izleft hours =    77.3769444444444     
 --> plasma_hash("gframe"): TA= 1.380000E+00 NSTEP=  1093 Hash code:   80472952
 ->PRGCHK: bdy curvature ratio at t= 1.3850E+00 seconds is:  5.4412E-02
% MHDEQ: TG1=     1.380000 ; TG2=     1.385000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7795E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4412E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.380000 TO TG2=    1.385000 @ NSTEP     1093
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782486363358D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.3850E+00  1.3900E+00 total power(Watts):  3.0254E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.38500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.354848E+02    0.364576E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.336711E+02    0.366202E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.350306E+02    0.347623E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.371065E+02    0.351874E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.370229E+02    0.373376E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.348838E+02    0.382138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.331314E+02    0.394492E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.320643E+02    0.380337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.319130E+02    0.362070E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.326746E+02    0.344827E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.343154E+02    0.331646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.361811E+02    0.327979E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.380330E+02    0.333066E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.391556E+02    0.347260E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.393165E+02    0.366108E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.384239E+02    0.384691E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.368154E+02    0.397128E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.348458E+02    0.400761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.330183E+02    0.425154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.304331E+02    0.408067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.290769E+02    0.380782E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.295109E+02    0.348550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.315835E+02    0.319570E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.346432E+02    0.302437E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.380744E+02    0.301245E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.411286E+02    0.315944E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.425570E+02    0.345347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.420780E+02    0.380142E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.397018E+02    0.410418E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.364109E+02    0.426269E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.364116E+02    0.270761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.345004E+02    0.273994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.358251E+02    0.254731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.379200E+02    0.258064E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.378881E+02    0.279627E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.357569E+02    0.289494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.339336E+02    0.303486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.328334E+02    0.289620E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.327233E+02    0.270504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.335373E+02    0.252118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.351606E+02    0.238131E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.370261E+02    0.233876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.389013E+02    0.238021E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.400634E+02    0.251692E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.401773E+02    0.271239E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.393239E+02    0.290340E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.376432E+02    0.304396E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.356715E+02    0.309078E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.338014E+02    0.335365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.310825E+02    0.320038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138788E+03   -0.298218E+02    0.291667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138731E+03   -0.302738E+02    0.258148E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.323833E+02    0.227178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.355129E+02    0.208065E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.389609E+02    0.205540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.418649E+02    0.220316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.434812E+02    0.247771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.429899E+02    0.283433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.405774E+02    0.316283E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.372150E+02    0.334709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.355300E+02    0.422511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.337130E+02    0.423560E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.350112E+02    0.406067E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.370771E+02    0.411022E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.369601E+02    0.432293E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.349017E+02    0.439768E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.331304E+02    0.451652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.320015E+02    0.437539E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.318768E+02    0.419439E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.326627E+02    0.402437E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.342314E+02    0.390338E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.361920E+02    0.386540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.379378E+02    0.392953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.391333E+02    0.407087E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.394629E+02    0.425041E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.386290E+02    0.442887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.368071E+02    0.455671E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.348306E+02    0.458639E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.330526E+02    0.482773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.304142E+02    0.464652E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.291804E+02    0.435953E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.295788E+02    0.404593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.314414E+02    0.377918E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.346024E+02    0.361141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.380319E+02    0.361003E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.409548E+02    0.377483E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.426386E+02    0.406246E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.420967E+02    0.440856E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.398615E+02    0.470048E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.364432E+02    0.485287E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.358095E+02    0.322102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.339944E+02    0.324072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.353368E+02    0.304982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.374207E+02    0.308877E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.373618E+02    0.330435E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.352275E+02    0.339581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.334845E+02    0.352098E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.323987E+02    0.338355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.322282E+02    0.320259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.330598E+02    0.301834E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.346043E+02    0.288772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.365615E+02    0.283879E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.383279E+02    0.289452E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.394666E+02    0.303738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.396539E+02    0.322681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.387794E+02    0.341246E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.370885E+02    0.354508E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.352116E+02    0.357977E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.334029E+02    0.383203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.306271E+02    0.367606E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.294011E+02    0.339558E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138668E+03   -0.298033E+02    0.307113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138463E+03   -0.317719E+02    0.277969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.349925E+02    0.258697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.384308E+02    0.256827E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.413047E+02    0.272159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.429775E+02    0.300052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.424379E+02    0.335631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.401939E+02    0.365836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.367171E+02    0.384031E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.364153E+02    0.204896E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.345959E+02    0.207669E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.358940E+02    0.187902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.379969E+02    0.190756E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.379024E+02    0.213383E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.357895E+02    0.223681E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.339862E+02    0.237903E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.327727E+02    0.225674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.326384E+02    0.206615E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.335976E+02    0.185744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.352039E+02    0.171262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.371581E+02    0.165610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.389465E+02    0.170301E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.401323E+02    0.183716E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.402784E+02    0.203412E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.393595E+02    0.223475E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.377023E+02    0.237718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.357366E+02    0.242879E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.339035E+02    0.269586E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.312340E+02    0.254260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138749E+03   -0.299226E+02    0.226661E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138808E+03   -0.303329E+02    0.192745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.323225E+02    0.162200E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.356011E+02    0.140451E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.390509E+02    0.137229E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.419829E+02    0.150940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.435427E+02    0.178655E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.429062E+02    0.216273E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.405573E+02    0.249217E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.372283E+02    0.268723E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.27 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681083.745105226     
  ps_ts2 prof sum =   680682.760843896     
  trcom prof sum =    680682.760843896     
  ps_ts2 cur sum  =   14408.4056853021     
  trcom cur sum  =    14408.4056853020     
  
  antenna # iant =            2
  powecha_use(iant) =    699827.319749105     
  ps_ts2 prof sum =   699427.264133740     
  trcom prof sum =    699427.264133740     
  ps_ts2 cur sum  =   17388.0890143900     
  trcom cur sum  =    17388.0890143900     
  
  antenna # iant =            3
  powecha_use(iant) =    522594.522608129     
  ps_ts2 prof sum =   522246.141026300     
  trcom prof sum =    522246.141026300     
  ps_ts2 cur sum  =   9653.55548847530     
  trcom cur sum  =    9653.55548847530     
  
  antenna # iant =            4
  powecha_use(iant) =    579314.021740939     
  ps_ts2 prof sum =   578964.500625973     
  trcom prof sum =    578964.500625972     
  ps_ts2 cur sum  =   13298.7857353216     
  trcom cur sum  =    13298.7857353216     
  
  antenna # iant =            5
  powecha_use(iant) =    542571.396308074     
  ps_ts2 prof sum =   542279.815598662     
  trcom prof sum =    542279.815598662     
  ps_ts2 cur sum  =   14556.4508063585     
  trcom cur sum  =    14556.4508063585     
  
  Total ECH heating:      3023600.48222857     
  Total Current Drive:    69305.2867298475     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1096
 TA= 1.38500E+00 CPU TIME= 1.59407E-01 SECONDS.  DT= 2.56033E-03
  
 TEC1=    1.38499999999999     
 TEC2=    1.38999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.62763333333328     
  %check_save_state: izleft hours =    77.3638888888889     
 --> plasma_hash("gframe"): TA= 1.385000E+00 NSTEP=  1096 Hash code:   82290133
 ->PRGCHK: bdy curvature ratio at t= 1.3900E+00 seconds is:  5.4523E-02
% MHDEQ: TG1=     1.385000 ; TG2=     1.390000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7788E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4523E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.385000 TO TG2=    1.390000 @ NSTEP     1096
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775911840396D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.38933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.23646E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -9.15581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.80784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.49404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.50815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.32730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.35637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  2.06572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.65121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.20374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.23965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.00187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.31482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.41069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.72431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.94604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.69255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.54825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.55475E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.55475E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3900E+00  1.3950E+00 total power(Watts):  3.0158E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.39000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.355978E+02    0.363906E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.336919E+02    0.366154E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.350525E+02    0.347589E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.371294E+02    0.351841E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.370451E+02    0.373345E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.349045E+02    0.382118E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.331506E+02    0.394494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.320832E+02    0.380314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.319330E+02    0.362024E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.327816E+02    0.344095E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.343376E+02    0.331636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.362038E+02    0.327983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.380569E+02    0.333058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.391799E+02    0.347234E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.393436E+02    0.366053E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.384465E+02    0.384687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.368367E+02    0.397141E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.348664E+02    0.400771E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.331219E+02    0.424732E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.304498E+02    0.408080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.290956E+02    0.380737E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.295299E+02    0.348508E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.316030E+02    0.319568E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.346653E+02    0.302432E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.380994E+02    0.301251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.411548E+02    0.315968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.424781E+02    0.345981E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.419989E+02    0.380690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.397237E+02    0.410457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.364314E+02    0.426305E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.364377E+02    0.270694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.345242E+02    0.273929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.358504E+02    0.254659E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.379466E+02    0.257993E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.379137E+02    0.279581E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.357802E+02    0.289463E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.339552E+02    0.303481E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.327656E+02    0.290459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.327462E+02    0.270429E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.335614E+02    0.252039E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.351862E+02    0.238071E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.371474E+02    0.232869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.389291E+02    0.237969E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.400924E+02    0.251624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.402045E+02    0.271179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.393458E+02    0.290354E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.376668E+02    0.304408E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.356953E+02    0.309089E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.339118E+02    0.334628E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.311018E+02    0.320035E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138764E+03   -0.298423E+02    0.291621E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138708E+03   -0.302955E+02    0.258063E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.323219E+02    0.228125E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.355394E+02    0.208033E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.389906E+02    0.205524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.418949E+02    0.220305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.434041E+02    0.248610E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.430184E+02    0.283415E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.406035E+02    0.316299E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.372386E+02    0.334702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.355494E+02    0.422550E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.337314E+02    0.423595E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.350297E+02    0.406096E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.370978E+02    0.411051E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.370740E+02    0.431913E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.349197E+02    0.439817E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.331474E+02    0.451703E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.321022E+02    0.437147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.318949E+02    0.419464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.326814E+02    0.402454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.342515E+02    0.390334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.362135E+02    0.386533E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.380564E+02    0.392420E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.393514E+02    0.406146E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.393856E+02    0.425527E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.386489E+02    0.442941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.368255E+02    0.455731E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.348504E+02    0.458690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.330678E+02    0.482861E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.304292E+02    0.464704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.291190E+02    0.436416E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.295169E+02    0.405136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.316267E+02    0.376662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.347136E+02    0.360453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.380552E+02    0.360965E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.411829E+02    0.376331E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.426622E+02    0.406292E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.422207E+02    0.440554E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.398803E+02    0.470132E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.364596E+02    0.485391E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.359254E+02    0.321357E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.340167E+02    0.324072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.353588E+02    0.304981E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.374452E+02    0.308891E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.373853E+02    0.330433E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.352476E+02    0.339573E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.335052E+02    0.352059E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.324198E+02    0.338326E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.322484E+02    0.320260E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.330808E+02    0.301829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.346280E+02    0.288736E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.365855E+02    0.283841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.383533E+02    0.289428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.395915E+02    0.302973E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.396793E+02    0.322693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.388038E+02    0.341229E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.372063E+02    0.353823E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.352335E+02    0.357938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.334224E+02    0.383186E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.306462E+02    0.367557E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138571E+03   -0.294190E+02    0.339529E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138644E+03   -0.298246E+02    0.307094E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.319627E+02    0.276143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.350170E+02    0.258617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.384578E+02    0.256758E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.415390E+02    0.270415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.430052E+02    0.300083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.424643E+02    0.335630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.402180E+02    0.365806E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.367389E+02    0.384019E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.364428E+02    0.204875E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.346222E+02    0.207652E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.359220E+02    0.187877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.380259E+02    0.190746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.379337E+02    0.213344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.358150E+02    0.223652E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.340111E+02    0.237844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.327977E+02    0.225633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.326641E+02    0.206580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.336239E+02    0.185711E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.352317E+02    0.171227E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.371872E+02    0.165579E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.389774E+02    0.170271E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.401629E+02    0.183712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.403087E+02    0.203408E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.393873E+02    0.223455E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.377297E+02    0.237665E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.357630E+02    0.242806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.339302E+02    0.269477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.311742E+02    0.255109E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138714E+03   -0.299486E+02    0.226578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.303569E+02    0.192699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138543E+03   -0.323493E+02    0.162157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.356302E+02    0.140403E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.390836E+02    0.137187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.420163E+02    0.150915E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.434700E+02    0.179692E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.429376E+02    0.216265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.405865E+02    0.249151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.373503E+02    0.267784E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.18 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680677.458034584     
  ps_ts2 prof sum =   680250.515064586     
  trcom prof sum =    680250.515064586     
  ps_ts2 cur sum  =   14484.9239799223     
  trcom cur sum  =    14484.9239799223     
  
  antenna # iant =            2
  powecha_use(iant) =    699630.681487124     
  ps_ts2 prof sum =   699179.447085952     
  trcom prof sum =    699179.447085952     
  ps_ts2 cur sum  =   17480.8102731405     
  trcom cur sum  =    17480.8102731405     
  
  antenna # iant =            3
  powecha_use(iant) =    523143.043000769     
  ps_ts2 prof sum =   522804.902455198     
  trcom prof sum =    522804.902455198     
  ps_ts2 cur sum  =   9724.02460851202     
  trcom cur sum  =    9724.02460851202     
  
  antenna # iant =            4
  powecha_use(iant) =    569749.115852597     
  ps_ts2 prof sum =   569423.448705778     
  trcom prof sum =    569423.448705777     
  ps_ts2 cur sum  =   13154.6191425253     
  trcom cur sum  =    13154.6191425253     
  
  antenna # iant =            5
  powecha_use(iant) =    542590.556488163     
  ps_ts2 prof sum =   542266.035427930     
  trcom prof sum =    542266.035427930     
  ps_ts2 cur sum  =   14633.4116828558     
  trcom cur sum  =    14633.4116828558     
  
  Total ECH heating:      3013924.34873944     
  Total Current Drive:    69477.7896869558     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1098
 TA= 1.39000E+00 CPU TIME= 1.59898E-01 SECONDS.  DT= 3.04959E-03
  
 TEC1=    1.38999999999999     
 TEC2=    1.39499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.64447972222183     
  %check_save_state: izleft hours =    77.3469444444444     
 --> plasma_hash("gframe"): TA= 1.390000E+00 NSTEP=  1098 Hash code:   70225936
 ->PRGCHK: bdy curvature ratio at t= 1.3950E+00 seconds is:  5.4638E-02
% MHDEQ: TG1=     1.390000 ; TG2=     1.395000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7780E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4638E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.390000 TO TG2=    1.395000 @ NSTEP     1098
   GFRAME TG2 MOMENTS CHECKSUM:  2.4769337317434D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.3950E+00  1.4000E+00 total power(Watts):  3.0161E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.39500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.356198E+02    0.363870E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.337133E+02    0.366110E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.350751E+02    0.347555E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.371528E+02    0.351806E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.370675E+02    0.373318E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.349254E+02    0.382105E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.331703E+02    0.394501E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.321031E+02    0.380287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.319533E+02    0.361973E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.328023E+02    0.344069E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.343599E+02    0.331624E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.363209E+02    0.327253E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.380820E+02    0.333049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.392045E+02    0.347213E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.393677E+02    0.366022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.384694E+02    0.384687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.368589E+02    0.397154E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.348890E+02    0.400772E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.331402E+02    0.424768E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.304669E+02    0.408107E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.291135E+02    0.380705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.295482E+02    0.348469E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.316248E+02    0.319566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.347791E+02    0.301623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.381228E+02    0.301265E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.410792E+02    0.316721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.427146E+02    0.344668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.422310E+02    0.379585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.399438E+02    0.409555E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.364511E+02    0.426350E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.364629E+02    0.270623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.345487E+02    0.273850E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.358761E+02    0.254572E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.379730E+02    0.257915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.379398E+02    0.279531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.358050E+02    0.289430E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.339786E+02    0.303477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.327872E+02    0.290416E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.327693E+02    0.270345E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.335856E+02    0.251948E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.352120E+02    0.238003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.371746E+02    0.232810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.389577E+02    0.237908E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.401209E+02    0.251547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.403313E+02    0.270281E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.393765E+02    0.290306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.376964E+02    0.304387E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.357190E+02    0.309095E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.339334E+02    0.334613E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138369E+03   -0.311237E+02    0.320029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138521E+03   -0.299429E+02    0.290720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.303174E+02    0.257958E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.323476E+02    0.228068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.355667E+02    0.208007E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.391175E+02    0.204505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.421336E+02    0.218357E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.434353E+02    0.248542E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.429411E+02    0.284210E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.406300E+02    0.316316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.372630E+02    0.334686E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.355689E+02    0.422593E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.337504E+02    0.423634E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.350499E+02    0.406126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.371189E+02    0.411093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.370939E+02    0.431962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.349383E+02    0.439866E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.331643E+02    0.451753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.321195E+02    0.437192E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.319128E+02    0.419501E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.327847E+02    0.401946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.342720E+02    0.390334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.362350E+02    0.386529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.380791E+02    0.392430E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.393737E+02    0.406186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.394078E+02    0.425573E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.386699E+02    0.442988E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.368441E+02    0.455797E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.348681E+02    0.458749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.330837E+02    0.482948E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.305233E+02    0.464423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.291358E+02    0.436449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.295343E+02    0.405147E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.316463E+02    0.376634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.347353E+02    0.360410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.381754E+02    0.360299E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.412070E+02    0.376323E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.426860E+02    0.406341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.422425E+02    0.440627E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.399967E+02    0.469940E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.364802E+02    0.485494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.359486E+02    0.321366E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.340388E+02    0.324073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.353828E+02    0.304982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.374700E+02    0.308896E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.374098E+02    0.330428E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.352727E+02    0.339534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.335290E+02    0.351999E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.324408E+02    0.338299E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.322692E+02    0.320260E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.331041E+02    0.301811E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.346516E+02    0.288696E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.366113E+02    0.283795E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.384767E+02    0.288588E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.396184E+02    0.302986E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.397051E+02    0.322708E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.388284E+02    0.341213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.372297E+02    0.353791E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.352556E+02    0.357892E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.334426E+02    0.383165E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.308279E+02    0.366231E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.294378E+02    0.339500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138620E+03   -0.298441E+02    0.307084E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.319844E+02    0.276066E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.351322E+02    0.257621E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.385822E+02    0.255787E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.414644E+02    0.271203E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.430327E+02    0.300109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.423863E+02    0.336302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.402425E+02    0.365778E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.367622E+02    0.384010E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.364707E+02    0.204852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.346488E+02    0.207615E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.359493E+02    0.187846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.380553E+02    0.190717E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.379618E+02    0.213321E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.358432E+02    0.223604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.340361E+02    0.237770E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.328222E+02    0.225580E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.326889E+02    0.206540E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.336497E+02    0.185672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.352594E+02    0.171189E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.372163E+02    0.165543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.390041E+02    0.170288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.401940E+02    0.183691E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.403389E+02    0.203391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.394173E+02    0.223419E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.377570E+02    0.237599E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.357883E+02    0.242737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.339510E+02    0.269431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.311970E+02    0.255011E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.299696E+02    0.226525E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138751E+03   -0.303820E+02    0.192631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138518E+03   -0.323754E+02    0.162093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.356606E+02    0.140351E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.391157E+02    0.137144E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.420490E+02    0.150883E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.435029E+02    0.179678E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.429686E+02    0.216254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.407170E+02    0.248173E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.373762E+02    0.267703E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681247.073991415     
  ps_ts2 prof sum =   680838.996408185     
  trcom prof sum =    680838.996408184     
  ps_ts2 cur sum  =   14586.3679877949     
  trcom cur sum  =    14586.3679877948     
  
  antenna # iant =            2
  powecha_use(iant) =    701214.371191187     
  ps_ts2 prof sum =   700768.972239196     
  trcom prof sum =    700768.972239195     
  ps_ts2 cur sum  =   17620.2776796767     
  trcom cur sum  =    17620.2776791883     
  
  antenna # iant =            3
  powecha_use(iant) =    521246.239151734     
  ps_ts2 prof sum =   520909.491590114     
  trcom prof sum =    520909.491590114     
  ps_ts2 cur sum  =   9751.74570867427     
  trcom cur sum  =    9751.74570867428     
  
  antenna # iant =            4
  powecha_use(iant) =    570608.761539567     
  ps_ts2 prof sum =   570283.927915285     
  trcom prof sum =    570283.927915284     
  ps_ts2 cur sum  =   13252.0766099171     
  trcom cur sum  =    13252.0766099171     
  
  antenna # iant =            5
  powecha_use(iant) =    541808.907329355     
  ps_ts2 prof sum =   541471.861697392     
  trcom prof sum =    541471.861697391     
  ps_ts2 cur sum  =   14690.9099554357     
  trcom cur sum  =    14690.9099554357     
  
  Total ECH heating:      3014273.24985017     
  Total Current Drive:    69901.3779410102     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1100
 TA= 1.39500E+00 CPU TIME= 1.64247E-01 SECONDS.  DT= 2.43802E-03
  
 TEC1=    1.39499999999999     
 TEC2=    1.39999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.66429277777797     
  %check_save_state: izleft hours =    77.3272222222222     
 --> plasma_hash("gframe"): TA= 1.395000E+00 NSTEP=  1100 Hash code:   17107346
 ->PRGCHK: bdy curvature ratio at t= 1.4000E+00 seconds is:  5.4757E-02
% MHDEQ: TG1=     1.395000 ; TG2=     1.400000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7773E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4757E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.395000 TO TG2=    1.400000 @ NSTEP     1100
   GFRAME TG2 MOMENTS CHECKSUM:  2.4762762827615D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.68830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.40693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.74488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.33649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.99003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.44946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.83825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.46933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.47203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.85745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.42774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.17040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.59391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.68303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.66243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.35522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.21697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.21430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.85979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.13007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.12452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.12452E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4000E+00  1.4050E+00 total power(Watts):  3.0269E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.40000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.356421E+02    0.363827E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.338213E+02    0.365447E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.350972E+02    0.347529E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.371761E+02    0.351780E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.370898E+02    0.373299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.350363E+02    0.381518E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.331892E+02    0.394516E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.321230E+02    0.380261E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.319733E+02    0.361931E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.328231E+02    0.344042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.343808E+02    0.331628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.363442E+02    0.327262E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.381063E+02    0.333050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.392297E+02    0.347186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.395902E+02    0.364779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.385893E+02    0.384129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.368801E+02    0.397180E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.349066E+02    0.400814E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.331587E+02    0.424810E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.304043E+02    0.408644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.291305E+02    0.380684E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.295676E+02    0.348433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.315618E+02    0.320339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.348020E+02    0.301637E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.382465E+02    0.300485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.411055E+02    0.316759E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.427412E+02    0.344656E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.422558E+02    0.379594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.399645E+02    0.409614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.364712E+02    0.426398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.364887E+02    0.270556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.346621E+02    0.272913E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.359940E+02    0.253578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.380970E+02    0.256941E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.379663E+02    0.279483E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.358298E+02    0.289406E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.340015E+02    0.303482E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.328106E+02    0.290377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.327924E+02    0.270263E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.336098E+02    0.251856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.352393E+02    0.237920E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.372020E+02    0.232753E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.389857E+02    0.237847E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.401495E+02    0.251476E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.403618E+02    0.270211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.394033E+02    0.290297E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.377172E+02    0.304438E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.357428E+02    0.309120E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.339543E+02    0.334611E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.313084E+02    0.318497E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138498E+03   -0.299638E+02    0.290680E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138664E+03   -0.303399E+02    0.257862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.323726E+02    0.228022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.356852E+02    0.206970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.391474E+02    0.204494E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.420610E+02    0.219305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.436799E+02    0.246704E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.429700E+02    0.284204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.406563E+02    0.316354E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.372867E+02    0.334688E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.355889E+02    0.422633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.337690E+02    0.423674E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.350697E+02    0.406160E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.371404E+02    0.411129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.371171E+02    0.432000E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.349577E+02    0.439906E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.331817E+02    0.451805E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.321372E+02    0.437229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.319309E+02    0.419528E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.328041E+02    0.401964E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.343800E+02    0.389789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.362560E+02    0.386533E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.381013E+02    0.392447E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.393961E+02    0.406230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.394288E+02    0.425633E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.386893E+02    0.443063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.368628E+02    0.455864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.348856E+02    0.458811E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.330988E+02    0.483046E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.305398E+02    0.464467E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.291514E+02    0.436483E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.295518E+02    0.405164E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.316649E+02    0.376612E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.347569E+02    0.360378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.381981E+02    0.360279E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.412319E+02    0.376318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.427098E+02    0.406399E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.422633E+02    0.440705E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.400152E+02    0.470037E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.366744E+02    0.485128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.359761E+02    0.321353E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.341486E+02    0.323341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.354071E+02    0.305004E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.374938E+02    0.308930E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.374338E+02    0.330435E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.352953E+02    0.339526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.335481E+02    0.351984E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.324609E+02    0.338287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.322910E+02    0.320270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.331253E+02    0.301824E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.347655E+02    0.287827E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.366368E+02    0.283750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.385030E+02    0.288571E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.396444E+02    0.303013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.397307E+02    0.322732E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.388532E+02    0.341199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.372534E+02    0.353754E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.352778E+02    0.357854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.334629E+02    0.383160E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.308473E+02    0.366184E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138525E+03   -0.294588E+02    0.339470E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.298656E+02    0.307087E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.320069E+02    0.275994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.351574E+02    0.257536E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.386100E+02    0.255707E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.414931E+02    0.271158E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.430607E+02    0.300146E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.424132E+02    0.336305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.401671E+02    0.366349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.368764E+02    0.383451E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.364990E+02    0.204831E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.346757E+02    0.207591E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.359777E+02    0.187813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.380853E+02    0.190703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.380867E+02    0.212307E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.358699E+02    0.223571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.340616E+02    0.237700E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.328474E+02    0.225538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.327146E+02    0.206517E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.336770E+02    0.185634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.352883E+02    0.171148E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.372466E+02    0.165503E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.390391E+02    0.170213E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.402253E+02    0.183669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.403697E+02    0.203395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.394465E+02    0.223386E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.377848E+02    0.237540E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.358149E+02    0.242669E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.339750E+02    0.269354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138448E+03   -0.312196E+02    0.254910E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138664E+03   -0.299949E+02    0.226471E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138731E+03   -0.304055E+02    0.192606E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.325699E+02    0.159796E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.356903E+02    0.140304E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.391488E+02    0.137108E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.420833E+02    0.150864E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.435368E+02    0.179686E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.430032E+02    0.216223E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.407463E+02    0.248105E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.374025E+02    0.267634E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684348.568105269     
  ps_ts2 prof sum =   683934.883988257     
  trcom prof sum =    683934.883988257     
  ps_ts2 cur sum  =   14744.0444934744     
  trcom cur sum  =    14744.0444934743     
  
  antenna # iant =            2
  powecha_use(iant) =    701681.661500601     
  ps_ts2 prof sum =   701261.461232644     
  trcom prof sum =    701261.461232643     
  ps_ts2 cur sum  =   17731.5076421935     
  trcom cur sum  =    17731.5076421935     
  
  antenna # iant =            3
  powecha_use(iant) =    521866.748402683     
  ps_ts2 prof sum =   521529.087886838     
  trcom prof sum =    521529.087886839     
  ps_ts2 cur sum  =   9827.54064350304     
  trcom cur sum  =    9827.54064350304     
  
  antenna # iant =            4
  powecha_use(iant) =    576862.355077982     
  ps_ts2 prof sum =   576527.075581438     
  trcom prof sum =    576527.075581437     
  ps_ts2 cur sum  =   13475.5577868210     
  trcom cur sum  =    13475.5577868210     
  
  antenna # iant =            5
  powecha_use(iant) =    542181.513691847     
  ps_ts2 prof sum =   541848.242073971     
  trcom prof sum =    541848.242073970     
  ps_ts2 cur sum  =   14780.7938456226     
  trcom cur sum  =    14780.7938456226     
  
  Total ECH heating:      3025100.75076315     
  Total Current Drive:    70559.4444116144     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1102
 TA= 1.40000E+00 CPU TIME= 3.07879E-01 SECONDS.  DT= 3.20248E-03
  
 TEC1=    1.39999999999999     
 TEC2=    1.40499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.67645833333313     
  %check_save_state: izleft hours =    77.3150000000000     
 --> plasma_hash("gframe"): TA= 1.400000E+00 NSTEP=  1102 Hash code:   12324420
 ->PRGCHK: bdy curvature ratio at t= 1.4050E+00 seconds is:  5.4838E-02
% MHDEQ: TG1=     1.400000 ; TG2=     1.405000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7766E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4838E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.400000 TO TG2=    1.405000 @ NSTEP     1102
   GFRAME TG2 MOMENTS CHECKSUM:  2.4756188337797D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4050E+00  1.4100E+00 total power(Watts):  3.0122E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.40500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.356644E+02    0.363796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.338426E+02    0.365410E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.351195E+02    0.347504E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.371998E+02    0.351755E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.371132E+02    0.373270E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.350580E+02    0.381505E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.332090E+02    0.394523E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.321423E+02    0.380249E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.319907E+02    0.361910E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.328447E+02    0.344016E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.344043E+02    0.331622E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.363681E+02    0.327273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.381307E+02    0.333061E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.392543E+02    0.347174E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.396139E+02    0.364761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.386119E+02    0.384137E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.369015E+02    0.397201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.349269E+02    0.400845E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.331760E+02    0.424857E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.304226E+02    0.408664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.293046E+02    0.379449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138439E+03   -0.295877E+02    0.348395E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.315838E+02    0.320349E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.348258E+02    0.301655E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.382725E+02    0.300513E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.411321E+02    0.316803E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.427681E+02    0.344654E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.422804E+02    0.379608E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.399889E+02    0.409656E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.364916E+02    0.426452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.365138E+02    0.270496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.346863E+02    0.272846E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.360201E+02    0.253493E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.381242E+02    0.256865E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.379921E+02    0.279448E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.358542E+02    0.289393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.340239E+02    0.303498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.330056E+02    0.288679E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.328166E+02    0.270183E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.336346E+02    0.251770E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.352644E+02    0.237865E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.372299E+02    0.232702E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.390148E+02    0.237782E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.401785E+02    0.251404E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.403899E+02    0.270158E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.394300E+02    0.290297E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.377428E+02    0.304468E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.357663E+02    0.309148E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.339769E+02    0.334601E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.313302E+02    0.318510E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138476E+03   -0.299849E+02    0.290641E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138643E+03   -0.303625E+02    0.257763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.323975E+02    0.227971E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.357127E+02    0.206950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.391775E+02    0.204488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.420926E+02    0.219292E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.437107E+02    0.246645E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.429991E+02    0.284206E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.406826E+02    0.316397E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.374058E+02    0.333985E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.65 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.356088E+02    0.422678E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.337868E+02    0.423722E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.350899E+02    0.406194E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.371608E+02    0.411178E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.371339E+02    0.432074E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.349761E+02    0.439966E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.331989E+02    0.451863E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.321544E+02    0.437281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.320338E+02    0.419083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.328232E+02    0.401991E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.344007E+02    0.389789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.362778E+02    0.386540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.381233E+02    0.392471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.393202E+02    0.406763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.396458E+02    0.424848E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.386138E+02    0.443504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.370657E+02    0.455258E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.349923E+02    0.458535E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.331139E+02    0.483155E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.305549E+02    0.464529E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.291678E+02    0.436520E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.295697E+02    0.405179E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.316848E+02    0.376581E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.347789E+02    0.360340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.382230E+02    0.360242E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.412560E+02    0.376320E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.427341E+02    0.406452E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.422857E+02    0.440787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.400339E+02    0.470141E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.366907E+02    0.485250E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.359954E+02    0.321406E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.341718E+02    0.323353E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.354307E+02    0.305022E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.375191E+02    0.308959E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.374584E+02    0.330444E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.354088E+02    0.338816E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.335696E+02    0.351948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.324825E+02    0.338273E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.323130E+02    0.320276E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.331487E+02    0.301833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.347888E+02    0.287809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.366612E+02    0.283728E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.385293E+02    0.288568E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.396709E+02    0.303052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.398564E+02    0.322041E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.388780E+02    0.341195E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.372766E+02    0.353731E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.353001E+02    0.357823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.334831E+02    0.383149E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.308667E+02    0.366148E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138503E+03   -0.294784E+02    0.339449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.298884E+02    0.307067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.320299E+02    0.275932E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.351829E+02    0.257454E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.386377E+02    0.255631E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.415220E+02    0.271112E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.430897E+02    0.300196E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.426497E+02    0.334973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.401913E+02    0.366332E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.368981E+02    0.383452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.365301E+02    0.204795E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.347027E+02    0.207564E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.360978E+02    0.186742E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.381148E+02    0.190684E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.381159E+02    0.212301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.358974E+02    0.223536E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.340870E+02    0.237632E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.330435E+02    0.223510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.327409E+02    0.206481E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.337044E+02    0.185596E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.353171E+02    0.171108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.372772E+02    0.165468E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.391680E+02    0.169119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.402572E+02    0.183666E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.404009E+02    0.203390E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.394765E+02    0.223359E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.378129E+02    0.237476E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.358412E+02    0.242594E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.339993E+02    0.269276E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.312430E+02    0.254817E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138640E+03   -0.300177E+02    0.226413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138705E+03   -0.304302E+02    0.192563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.325971E+02    0.159741E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.357203E+02    0.140255E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.392749E+02    0.135970E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.421179E+02    0.150836E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.435711E+02    0.179685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.430333E+02    0.216241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.407755E+02    0.248036E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.374289E+02    0.267567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681903.884470981     
  ps_ts2 prof sum =   681494.196306102     
  trcom prof sum =    681494.196306102     
  ps_ts2 cur sum  =   14785.4365360715     
  trcom cur sum  =    14785.4365360715     
  
  antenna # iant =            2
  powecha_use(iant) =    699247.357053954     
  ps_ts2 prof sum =   698837.185783561     
  trcom prof sum =    698837.185783560     
  ps_ts2 cur sum  =   17774.5912006029     
  trcom cur sum  =    17774.5912006029     
  
  antenna # iant =            3
  powecha_use(iant) =    521551.820554459     
  ps_ts2 prof sum =   521217.381837489     
  trcom prof sum =    521217.381837490     
  ps_ts2 cur sum  =   9886.45088423307     
  trcom cur sum  =    9886.45088423308     
  
  antenna # iant =            4
  powecha_use(iant) =    567797.717639306     
  ps_ts2 prof sum =   567475.743782578     
  trcom prof sum =    567475.743782578     
  ps_ts2 cur sum  =   13345.5571534227     
  trcom cur sum  =    13345.5571534227     
  
  antenna # iant =            5
  powecha_use(iant) =    541731.566306273     
  ps_ts2 prof sum =   541414.323834993     
  trcom prof sum =    541414.323834993     
  ps_ts2 cur sum  =   14850.6449976129     
  trcom cur sum  =    14850.6449976129     
  
  Total ECH heating:      3010438.83154472     
  Total Current Drive:    70642.6807719430     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1104
 TA= 1.40500E+00 CPU TIME= 1.62463E-01 SECONDS.  DT= 2.24690E-03
  
 TEC1=    1.40499999999999     
 TEC2=    1.40999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.69026333333341     
  %check_save_state: izleft hours =    77.3013888888889     
 --> plasma_hash("gframe"): TA= 1.405000E+00 NSTEP=  1104 Hash code:   89065693
 ->PRGCHK: bdy curvature ratio at t= 1.4100E+00 seconds is:  5.4889E-02
% MHDEQ: TG1=     1.405000 ; TG2=     1.410000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7743E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4889E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.405000 TO TG2=    1.410000 @ NSTEP     1104
   GFRAME TG2 MOMENTS CHECKSUM:  2.4761198248348D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.33425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.45176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.09018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.99500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  7.56502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.50756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.49019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.59643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.61944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.10275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.59393E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.24203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.78629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.53934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.21697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       7= -1.23390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.95638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.02642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.22578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.22578E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.4100E+00  1.4150E+00 total power(Watts):  3.0100E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.41000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.357654E+02    0.363124E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.338521E+02    0.365366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.352201E+02    0.346782E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.373049E+02    0.351055E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.372174E+02    0.372633E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.350674E+02    0.381459E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.333044E+02    0.393932E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.322350E+02    0.379611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.320866E+02    0.361197E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.327685E+02    0.344660E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.345032E+02    0.330861E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.363788E+02    0.327227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.382389E+02    0.332308E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.393642E+02    0.346469E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.395255E+02    0.365325E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.386223E+02    0.384090E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.370043E+02    0.396639E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.350249E+02    0.400282E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.331848E+02    0.424817E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.305911E+02    0.407590E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.292351E+02    0.380007E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.296748E+02    0.347657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.317596E+02    0.318774E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.348370E+02    0.301609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.382838E+02    0.300478E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.413493E+02    0.315293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.426752E+02    0.345247E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.423952E+02    0.379008E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.398999E+02    0.410082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.365919E+02    0.425977E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.366193E+02    0.269624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.346975E+02    0.272846E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.360319E+02    0.253523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.381362E+02    0.256891E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.381003E+02    0.278598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.359574E+02    0.288545E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.341234E+02    0.302665E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.330158E+02    0.288647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.329139E+02    0.269286E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.337327E+02    0.250876E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.353661E+02    0.236959E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.373364E+02    0.231804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.391254E+02    0.236902E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.402916E+02    0.250545E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.404018E+02    0.270168E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.395413E+02    0.289464E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.378498E+02    0.303649E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.358694E+02    0.308321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.340754E+02    0.333837E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.312570E+02    0.319228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.299947E+02    0.290612E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.304536E+02    0.256859E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.324931E+02    0.227027E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.357249E+02    0.207008E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.391901E+02    0.204553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.423133E+02    0.217446E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.436173E+02    0.247577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.431180E+02    0.283382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.407967E+02    0.315608E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.374172E+02    0.333935E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.357066E+02    0.422205E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.338820E+02    0.423231E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.351886E+02    0.405648E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.372640E+02    0.410651E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.372332E+02    0.431632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.350734E+02    0.439531E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.332914E+02    0.451468E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.322446E+02    0.436832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.320395E+02    0.419057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.328315E+02    0.401944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.344106E+02    0.389744E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.363804E+02    0.385930E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.382293E+02    0.391893E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.395256E+02    0.405750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.395581E+02    0.425221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.388138E+02    0.442727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.369829E+02    0.455557E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.350004E+02    0.458506E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.332055E+02    0.482863E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.305613E+02    0.464513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.293286E+02    0.435621E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.297338E+02    0.404079E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.316106E+02    0.377146E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.347884E+02    0.360292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.382337E+02    0.360190E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.413692E+02    0.375702E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.428480E+02    0.405939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.423975E+02    0.440391E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.400427E+02    0.470116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.366079E+02    0.485464E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.360951E+02    0.320642E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.341819E+02    0.323307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.355333E+02    0.304199E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.376260E+02    0.308149E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.375649E+02    0.329684E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.354197E+02    0.338765E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.336665E+02    0.351235E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.325771E+02    0.337516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.324078E+02    0.319473E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.332438E+02    0.300986E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.347997E+02    0.287782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.367668E+02    0.282865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.386342E+02    0.287754E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.397820E+02    0.302238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.398685E+02    0.321992E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.389874E+02    0.340470E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.373818E+02    0.353036E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.354005E+02    0.357133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.335788E+02    0.382527E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.307942E+02    0.366736E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.295656E+02    0.338687E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.299752E+02    0.306239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.321240E+02    0.275048E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.351942E+02    0.257476E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.386497E+02    0.255662E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.417401E+02    0.269430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.432084E+02    0.299394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.425571E+02    0.335590E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.404028E+02    0.365085E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.369084E+02    0.383401E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.366356E+02    0.203830E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.348035E+02    0.206608E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.361104E+02    0.186808E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.382235E+02    0.189722E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.381281E+02    0.212359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.360005E+02    0.222613E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.341861E+02    0.236721E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.329694E+02    0.224547E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.328368E+02    0.205504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.338032E+02    0.184594E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.354190E+02    0.170090E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.373837E+02    0.164456E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.391811E+02    0.169198E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.403705E+02    0.182703E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.405143E+02    0.202453E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.395882E+02    0.222461E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.379208E+02    0.236584E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.359444E+02    0.241697E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.340981E+02    0.268400E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.313360E+02    0.253912E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.301077E+02    0.225463E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.305204E+02    0.191546E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.325259E+02    0.160935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.358239E+02    0.139193E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.392898E+02    0.136065E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.422351E+02    0.149849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.436913E+02    0.178741E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.431525E+02    0.215353E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.407881E+02    0.248078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.375356E+02    0.266707E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679917.153485382     
  ps_ts2 prof sum =   679482.404939002     
  trcom prof sum =    679482.404939002     
  ps_ts2 cur sum  =   14847.9823991162     
  trcom cur sum  =    14847.9823991162     
  
  antenna # iant =            2
  powecha_use(iant) =    700761.383356435     
  ps_ts2 prof sum =   700326.603122441     
  trcom prof sum =    700326.603122440     
  ps_ts2 cur sum  =   17932.8661869319     
  trcom cur sum  =    17932.8661869319     
  
  antenna # iant =            3
  powecha_use(iant) =    521967.779699049     
  ps_ts2 prof sum =   521628.491969036     
  trcom prof sum =    521628.491969036     
  ps_ts2 cur sum  =   9967.72933607102     
  trcom cur sum  =    9967.72933607104     
  
  antenna # iant =            4
  powecha_use(iant) =    565562.647443616     
  ps_ts2 prof sum =   565239.484644064     
  trcom prof sum =    565239.484644063     
  ps_ts2 cur sum  =   13386.6292492155     
  trcom cur sum  =    13386.6292492155     
  
  antenna # iant =            5
  powecha_use(iant) =    541759.147776296     
  ps_ts2 prof sum =   541434.700812341     
  trcom prof sum =    541434.700812341     
  ps_ts2 cur sum  =   14945.9312092031     
  trcom cur sum  =    14945.9312092031     
  
  Total ECH heating:      3008111.68548688     
  Total Current Drive:    71081.1383805377     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1106
 TA= 1.41000E+00 CPU TIME= 1.59587E-01 SECONDS.  DT= 3.44138E-03
  
 TEC1=    1.40999999999999     
 TEC2=    1.41499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.70509444444451     
  %check_save_state: izleft hours =    77.2863888888889     
 --> plasma_hash("gframe"): TA= 1.410000E+00 NSTEP=  1106 Hash code:   49202603
 ->PRGCHK: bdy curvature ratio at t= 1.4150E+00 seconds is:  5.4901E-02
% MHDEQ: TG1=     1.410000 ; TG2=     1.415000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4901E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.410000 TO TG2=    1.415000 @ NSTEP     1106
   GFRAME TG2 MOMENTS CHECKSUM:  2.4766208158899D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4150E+00  1.4200E+00 total power(Watts):  3.0147E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.41500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.357755E+02    0.363081E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.339489E+02    0.364692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.352301E+02    0.346740E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.373152E+02    0.351009E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.373217E+02    0.371992E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.351669E+02    0.380833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.333989E+02    0.393338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.323275E+02    0.378972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.320139E+02    0.361783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.329490E+02    0.343234E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.345139E+02    0.330808E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.364824E+02    0.326459E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.382495E+02    0.332265E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.394742E+02    0.345762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.396359E+02    0.364668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.387301E+02    0.383478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.371082E+02    0.396052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.351247E+02    0.399702E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.332788E+02    0.424314E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.306793E+02    0.407028E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.293214E+02    0.379353E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.296837E+02    0.347610E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.316863E+02    0.319498E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.349368E+02    0.300778E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.383925E+02    0.299654E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.414639E+02    0.314514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.428968E+02    0.343909E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.424065E+02    0.378952E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.400049E+02    0.409573E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.366938E+02    0.425491E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.15 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.366306E+02    0.269632E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.347982E+02    0.271983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.361356E+02    0.252644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.382448E+02    0.256034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.382085E+02    0.277748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.360606E+02    0.287695E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.342213E+02    0.301831E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.331126E+02    0.287791E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.328407E+02    0.270162E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.338312E+02    0.249979E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.353781E+02    0.237010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.373485E+02    0.231862E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.392356E+02    0.236022E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.404047E+02    0.249690E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.405152E+02    0.269325E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.396525E+02    0.288636E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.379580E+02    0.302829E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.359721E+02    0.307511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.340859E+02    0.333792E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.314319E+02    0.317655E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.300838E+02    0.289744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.305436E+02    0.255956E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.326735E+02    0.225105E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.358280E+02    0.206052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.393017E+02    0.203619E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.422233E+02    0.218472E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.437377E+02    0.246738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.433429E+02    0.281756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.410116E+02    0.314100E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.375227E+02    0.333190E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.358071E+02    0.421694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.338912E+02    0.423179E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.351978E+02    0.405590E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.373679E+02    0.410116E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.372464E+02    0.431571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.351705E+02    0.439091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.333838E+02    0.451072E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.322530E+02    0.436785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.321306E+02    0.418534E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.329258E+02    0.401368E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.345080E+02    0.389136E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.364788E+02    0.385341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.382398E+02    0.391840E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.394389E+02    0.406172E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.397625E+02    0.424330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.389182E+02    0.442320E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.370835E+02    0.455189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.350966E+02    0.458139E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.332960E+02    0.482585E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.306471E+02    0.464157E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.294121E+02    0.435158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.298200E+02    0.403504E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.317843E+02    0.375896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.348883E+02    0.359605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.383409E+02    0.359517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.412780E+02    0.376222E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.429625E+02    0.405418E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.424050E+02    0.440354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.401482E+02    0.469811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.367057E+02    0.485206E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.361078E+02    0.320584E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.342808E+02    0.322520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.356352E+02    0.303371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.377334E+02    0.307343E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.376704E+02    0.328933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.355206E+02    0.338028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.336755E+02    0.351192E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.325873E+02    0.337465E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.323331E+02    0.320191E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.331692E+02    0.301751E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.349007E+02    0.286930E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.368722E+02    0.282021E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.386484E+02    0.287717E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.397938E+02    0.302200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.399801E+02    0.321226E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.390966E+02    0.339750E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.373921E+02    0.352991E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.354108E+02    0.357085E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.335881E+02    0.382476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.309644E+02    0.365429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.297320E+02    0.337196E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.300645E+02    0.305393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.320501E+02    0.275922E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.352960E+02    0.256602E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.387595E+02    0.254805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.416504E+02    0.270277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.433265E+02    0.298595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.427787E+02    0.334202E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.403139E+02    0.365636E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.370120E+02    0.382788E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.367415E+02    0.202866E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.348153E+02    0.206665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.362144E+02    0.185819E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.383325E+02    0.188750E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.382366E+02    0.211429E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.361010E+02    0.221724E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.342858E+02    0.235814E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.331521E+02    0.222621E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.330183E+02    0.203493E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.337285E+02    0.185714E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.355213E+02    0.169072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.374909E+02    0.163446E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.392922E+02    0.168203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.404838E+02    0.181736E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.406285E+02    0.201526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.396998E+02    0.221561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.380282E+02    0.235697E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.360476E+02    0.240809E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.341969E+02    0.267529E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.315108E+02    0.252084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138434E+03   -0.301177E+02    0.225509E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.306119E+02    0.190528E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.326212E+02    0.159874E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.359270E+02    0.138126E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.394014E+02    0.135017E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.423529E+02    0.148849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.439177E+02    0.176769E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.432716E+02    0.214471E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.409025E+02    0.247223E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.375475E+02    0.266716E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679227.451443890     
  ps_ts2 prof sum =   678788.493862901     
  trcom prof sum =    678788.493862901     
  ps_ts2 cur sum  =   14936.8092952364     
  trcom cur sum  =    14936.8092952364     
  
  antenna # iant =            2
  powecha_use(iant) =    696400.429461657     
  ps_ts2 prof sum =   696008.843494954     
  trcom prof sum =    696008.843494953     
  ps_ts2 cur sum  =   17939.0617579255     
  trcom cur sum  =    17939.0617579255     
  
  antenna # iant =            3
  powecha_use(iant) =    521169.841020749     
  ps_ts2 prof sum =   520839.548207193     
  trcom prof sum =    520839.548207194     
  ps_ts2 cur sum  =   10026.1270551688     
  trcom cur sum  =    10026.1270551689     
  
  antenna # iant =            4
  powecha_use(iant) =    574196.101714557     
  ps_ts2 prof sum =   573836.297175359     
  trcom prof sum =    573836.297175359     
  ps_ts2 cur sum  =   13684.7413741619     
  trcom cur sum  =    13684.7413741619     
  
  antenna # iant =            5
  powecha_use(iant) =    543657.271073168     
  ps_ts2 prof sum =   543374.227543607     
  trcom prof sum =    543374.227543607     
  ps_ts2 cur sum  =   15089.9399783640     
  trcom cur sum  =    15089.9399783640     
  
  Total ECH heating:      3012847.41028401     
  Total Current Drive:    71676.6794608567     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1108
 TA= 1.41500E+00 CPU TIME= 1.59513E-01 SECONDS.  DT= 1.94828E-03
  
 TEC1=    1.41499999999999     
 TEC2=    1.41999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.72102305555541     
  %check_save_state: izleft hours =    77.2705555555556     
 --> plasma_hash("gframe"): TA= 1.415000E+00 NSTEP=  1108 Hash code:  119242818
 ->PRGCHK: bdy curvature ratio at t= 1.4200E+00 seconds is:  5.4917E-02
% MHDEQ: TG1=     1.415000 ; TG2=     1.420000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4917E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.415000 TO TG2=    1.420000 @ NSTEP     1108
   GFRAME TG2 MOMENTS CHECKSUM:  2.4771218069450D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.32761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.37592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.65431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.13792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.94395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.49316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.51144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.44602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.35410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.30200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.25055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.00707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.26156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -5.18438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.69255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.99859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.75468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  6.29717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.98072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.22431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.39174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.39174E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4200E+00  1.4250E+00 total power(Watts):  3.0076E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.42000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.358778E+02    0.362417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.340467E+02    0.364029E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.353314E+02    0.346030E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.374216E+02    0.350319E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.373330E+02    0.371957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.352670E+02    0.380218E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.334089E+02    0.393297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.323375E+02    0.378936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.321888E+02    0.360479E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.330454E+02    0.342505E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.346143E+02    0.330058E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.365874E+02    0.325700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.383584E+02    0.331528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.396839E+02    0.344414E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.397468E+02    0.364021E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.388382E+02    0.382885E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.371189E+02    0.396016E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.351347E+02    0.399658E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.333728E+02    0.423829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.306082E+02    0.407498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.293301E+02    0.379324E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.297729E+02    0.346875E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.317802E+02    0.318693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.350386E+02    0.299956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.385025E+02    0.298839E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.413745E+02    0.315215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.430147E+02    0.343229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.425225E+02    0.378359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.402159E+02    0.408586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.367039E+02    0.425453E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.21 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.367365E+02    0.268791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.348993E+02    0.271130E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.362404E+02    0.251787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.383544E+02    0.255185E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.382214E+02    0.277758E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.360726E+02    0.287688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.342329E+02    0.301806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.330377E+02    0.288618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.330192E+02    0.268451E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.338432E+02    0.250036E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.354813E+02    0.236128E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.374566E+02    0.230980E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.392494E+02    0.236100E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.404185E+02    0.249754E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.406301E+02    0.268501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.396659E+02    0.288626E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.379704E+02    0.302796E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.359843E+02    0.307472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.341849E+02    0.333043E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.315247E+02    0.316847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.301744E+02    0.288885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.305553E+02    0.255996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.326008E+02    0.226155E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.359323E+02    0.205122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.394141E+02    0.202706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.423417E+02    0.217611E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.439660E+02    0.245037E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.434631E+02    0.280959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.409232E+02    0.314802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.376293E+02    0.332455E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.358173E+02    0.421653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.339866E+02    0.422694E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.352980E+02    0.405048E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.373780E+02    0.410080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.373483E+02    0.431131E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.351797E+02    0.439067E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.333913E+02    0.451058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.323443E+02    0.436345E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.321401E+02    0.418492E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.330201E+02    0.400809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.346063E+02    0.388544E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.364924E+02    0.385288E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.383469E+02    0.391261E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.395471E+02    0.405653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.398705E+02    0.423876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.388331E+02    0.442661E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.372763E+02    0.454499E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.351931E+02    0.457791E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.333046E+02    0.482561E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.307335E+02    0.463815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.293441E+02    0.435554E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.297504E+02    0.403993E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.318766E+02    0.375257E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.349881E+02    0.358937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.384489E+02    0.358861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.414939E+02    0.375052E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.429743E+02    0.405377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.425218E+02    0.439947E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.402547E+02    0.469521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.368950E+02    0.484709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.362142E+02    0.319788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.343808E+02    0.321741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.356472E+02    0.303336E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.377457E+02    0.307303E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.376832E+02    0.328895E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.355325E+02    0.337989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.337732E+02    0.350489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.326822E+02    0.336724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.325131E+02    0.318635E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.333534E+02    0.300118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.350021E+02    0.286095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.368845E+02    0.282026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.387604E+02    0.286885E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.399072E+02    0.301397E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.400925E+02    0.320469E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.392069E+02    0.339035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.374984E+02    0.352307E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.355121E+02    0.356410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.336846E+02    0.381859E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.310559E+02    0.364747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.296633E+02    0.337880E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.300744E+02    0.305364E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.322291E+02    0.274186E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.353992E+02    0.255737E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.388703E+02    0.253957E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.417675E+02    0.269463E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.432351E+02    0.299331E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.428966E+02    0.333495E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.404261E+02    0.365003E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.371162E+02    0.382188E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.368442E+02    0.201977E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.349174E+02    0.205724E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.363200E+02    0.184855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.383469E+02    0.188838E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.383469E+02    0.210524E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.361155E+02    0.221787E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.342984E+02    0.235874E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.332498E+02    0.221701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.329459E+02    0.204593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.339146E+02    0.183666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.355354E+02    0.169161E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.375057E+02    0.163539E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.394053E+02    0.167235E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.404995E+02    0.181834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.406433E+02    0.201618E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.398124E+02    0.220678E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.380424E+02    0.235770E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.360611E+02    0.240873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.342086E+02    0.267555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.314398E+02    0.253056E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.302087E+02    0.224569E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.306239E+02    0.190597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.328031E+02    0.157720E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.359424E+02    0.138226E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.395147E+02    0.133998E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.423700E+02    0.148962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.440401E+02    0.175855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.434985E+02    0.212652E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.410181E+02    0.246391E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.376555E+02    0.265880E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.26 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678531.856193092     
  ps_ts2 prof sum =   678112.387603899     
  trcom prof sum =    678112.387603899     
  ps_ts2 cur sum  =   15033.8396101578     
  trcom cur sum  =    15033.8396101578     
  
  antenna # iant =            2
  powecha_use(iant) =    694067.735065133     
  ps_ts2 prof sum =   693649.735934622     
  trcom prof sum =    693649.735934621     
  ps_ts2 cur sum  =   18009.0690291862     
  trcom cur sum  =    18009.0690291862     
  
  antenna # iant =            3
  powecha_use(iant) =    521560.658181382     
  ps_ts2 prof sum =   521222.047958716     
  trcom prof sum =    521222.047958717     
  ps_ts2 cur sum  =   10112.3631149357     
  trcom cur sum  =    10112.3631149357     
  
  antenna # iant =            4
  powecha_use(iant) =    569941.451668775     
  ps_ts2 prof sum =   569610.064193589     
  trcom prof sum =    569610.064193589     
  ps_ts2 cur sum  =   13683.9075923607     
  trcom cur sum  =    13683.9075923607     
  
  antenna # iant =            5
  powecha_use(iant) =    543538.915123619     
  ps_ts2 prof sum =   543243.228710486     
  trcom prof sum =    543243.228710486     
  ps_ts2 cur sum  =   15187.3531741048     
  trcom cur sum  =    15187.3531741048     
  
  Total ECH heating:      3005837.46440131     
  Total Current Drive:    72026.5325207452     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1111
 TA= 1.42000E+00 CPU TIME= 1.62226E-01 SECONDS.  DT= 7.70464E-04
  
 TEC1=    1.41999999999999     
 TEC2=    1.42499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.73766805555533     
  %check_save_state: izleft hours =    77.2538888888889     
 --> plasma_hash("gframe"): TA= 1.420000E+00 NSTEP=  1111 Hash code:   39005510
 ->PRGCHK: bdy curvature ratio at t= 1.4250E+00 seconds is:  5.4936E-02
% MHDEQ: TG1=     1.420000 ; TG2=     1.425000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7675E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4936E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.420000 TO TG2=    1.425000 @ NSTEP     1111
   GFRAME TG2 MOMENTS CHECKSUM:  2.4776227980001D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.4250E+00  1.4300E+00 total power(Watts):  3.0003E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.42500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.358906E+02    0.362390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.340587E+02    0.364010E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.354344E+02    0.345331E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.375291E+02    0.349639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.374400E+02    0.371334E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.352791E+02    0.380189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.335058E+02    0.392720E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.324319E+02    0.378323E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.322839E+02    0.359805E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.330574E+02    0.342478E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.346266E+02    0.330029E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.366009E+02    0.325665E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.384687E+02    0.330797E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.395990E+02    0.345043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.397604E+02    0.363993E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.388509E+02    0.382859E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.372242E+02    0.395464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.352314E+02    0.399133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.333836E+02    0.423800E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.307778E+02    0.406449E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.294178E+02    0.378693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.299410E+02    0.345462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.319582E+02    0.317136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.350524E+02    0.299932E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.385164E+02    0.298826E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.415940E+02    0.313728E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.429254E+02    0.343839E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.426395E+02    0.377787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.401344E+02    0.408997E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.368071E+02    0.424993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.368437E+02    0.267952E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.349125E+02    0.271155E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.362545E+02    0.251841E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.383695E+02    0.255237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.383323E+02    0.276934E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.361787E+02    0.286855E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.343354E+02    0.300982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.332227E+02    0.286942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.331184E+02    0.267594E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.339441E+02    0.249162E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.354958E+02    0.236191E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.375662E+02    0.230105E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.393633E+02    0.235248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.405347E+02    0.248916E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.406454E+02    0.268533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.397799E+02    0.287817E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.380806E+02    0.302000E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.360893E+02    0.306677E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.341971E+02    0.333014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.314539E+02    0.317582E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.301862E+02    0.288878E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.306474E+02    0.255111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.327838E+02    0.224252E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.359475E+02    0.205198E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.394304E+02    0.202791E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.423585E+02    0.217700E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.438757E+02    0.245995E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.433735E+02    0.281765E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.410398E+02    0.314036E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.376429E+02    0.332425E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.35 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.359185E+02    0.421173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.339977E+02    0.422658E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.353986E+02    0.404513E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.374835E+02    0.409563E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.375449E+02    0.430278E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.352787E+02    0.438651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.334866E+02    0.450675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.323542E+02    0.436318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.322328E+02    0.418000E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.330308E+02    0.400776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.346179E+02    0.388512E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.365995E+02    0.384684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.383594E+02    0.391230E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.397550E+02    0.404656E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.397858E+02    0.424258E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.390345E+02    0.441905E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.371949E+02    0.454828E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.352029E+02    0.457786E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.333965E+02    0.482307E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.307426E+02    0.463806E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.295059E+02    0.434671E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.299168E+02    0.402902E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.318883E+02    0.375221E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.350002E+02    0.358910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.384622E+02    0.358833E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.416091E+02    0.374463E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.430921E+02    0.404868E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.426336E+02    0.439569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.402658E+02    0.469514E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.368189E+02    0.484934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.362290E+02    0.319746E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.343932E+02    0.321708E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.357518E+02    0.302530E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.378553E+02    0.306515E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.377913E+02    0.328158E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.356360E+02    0.337261E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.337856E+02    0.350460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.326095E+02    0.337402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.326092E+02    0.317844E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.334526E+02    0.299290E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.350156E+02    0.286088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.369925E+02    0.281191E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.387767E+02    0.286870E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.399219E+02    0.301378E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.401071E+02    0.320434E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.392208E+02    0.339007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.375115E+02    0.352281E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.356149E+02    0.355740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.336957E+02    0.381832E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.309848E+02    0.365363E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.298312E+02    0.336408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.301651E+02    0.304536E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.321581E+02    0.275074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.354130E+02    0.255787E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.388855E+02    0.254020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.419896E+02    0.267812E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.434624E+02    0.297791E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.428071E+02    0.334139E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.406399E+02    0.363774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.371285E+02    0.382157E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.368595E+02    0.202054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.348432E+02    0.206812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.363359E+02    0.184939E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.384592E+02    0.187897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.383629E+02    0.210607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.362231E+02    0.220876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.344003E+02    0.234986E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.332640E+02    0.221767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.331304E+02    0.202607E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.340162E+02    0.182681E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.356411E+02    0.168165E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.376159E+02    0.162549E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.394221E+02    0.167334E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.406164E+02    0.180897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.407607E+02    0.200714E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.398291E+02    0.220768E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.381531E+02    0.234907E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.361671E+02    0.240005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.343105E+02    0.266700E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.316170E+02    0.251246E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138228E+03   -0.302216E+02    0.224625E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.307177E+02    0.189600E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.327345E+02    0.158924E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.360492E+02    0.137183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.395329E+02    0.134106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.424912E+02    0.147991E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.439526E+02    0.176992E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.434102E+02    0.213705E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.410337E+02    0.246457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.376696E+02    0.265910E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676233.137824206     
  ps_ts2 prof sum =   675833.063168681     
  trcom prof sum =    675833.063168681     
  ps_ts2 cur sum  =   15105.5771103377     
  trcom cur sum  =    15105.5771103376     
  
  antenna # iant =            2
  powecha_use(iant) =    692452.903841950     
  ps_ts2 prof sum =   692037.831583286     
  trcom prof sum =    692037.831583285     
  ps_ts2 cur sum  =   18104.5400175991     
  trcom cur sum  =    18104.5400175991     
  
  antenna # iant =            3
  powecha_use(iant) =    522524.608632051     
  ps_ts2 prof sum =   522199.520886187     
  trcom prof sum =    522199.520886187     
  ps_ts2 cur sum  =   10219.5766820169     
  trcom cur sum  =    10219.5766820169     
  
  antenna # iant =            4
  powecha_use(iant) =    565578.361259461     
  ps_ts2 prof sum =   565227.944512716     
  trcom prof sum =    565227.944512715     
  ps_ts2 cur sum  =   13685.8576648227     
  trcom cur sum  =    13685.8576648227     
  
  antenna # iant =            5
  powecha_use(iant) =    543517.693711115     
  ps_ts2 prof sum =   543212.682907308     
  trcom prof sum =    543212.682907307     
  ps_ts2 cur sum  =   15299.7524689747     
  trcom cur sum  =    15299.7524689747     
  
  Total ECH heating:      2998511.04305818     
  Total Current Drive:    72415.3039437509     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1116
 TA= 1.42500E+00 CPU TIME= 1.59363E-01 SECONDS.  DT= 6.97238E-04
  
 TEC1=    1.42499999999999     
 TEC2=    1.42999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.74958277777750     
  %check_save_state: izleft hours =    77.2419444444444     
 --> plasma_hash("gframe"): TA= 1.425000E+00 NSTEP=  1116 Hash code:   88450024
 ->PRGCHK: bdy curvature ratio at t= 1.4300E+00 seconds is:  5.4959E-02
% MHDEQ: TG1=     1.425000 ; TG2=     1.430000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7653E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4959E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.425000 TO TG2=    1.430000 @ NSTEP     1116
   GFRAME TG2 MOMENTS CHECKSUM:  2.4781237890552D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.32011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.29012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.05817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.54185E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.36267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.37640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.33150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -4.86670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.83320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.89882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.84238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -4.20174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.58650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -1.38679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.23165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.78776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.00827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.44820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.67615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.67615E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4300E+00  1.4350E+00 total power(Watts):  3.0078E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.43000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.359934E+02    0.361738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.341557E+02    0.363360E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.354460E+02    0.345305E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.375412E+02    0.349615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.374515E+02    0.371311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.353793E+02    0.379596E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.335160E+02    0.392691E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.324414E+02    0.378293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.322942E+02    0.359783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.331541E+02    0.341757E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.347272E+02    0.329278E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.367061E+02    0.324914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.384814E+02    0.330769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.397104E+02    0.344360E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.398715E+02    0.363371E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.389595E+02    0.382278E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.372351E+02    0.395433E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.353346E+02    0.398562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.334780E+02    0.423321E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.307079E+02    0.406924E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.295828E+02    0.377455E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.298725E+02    0.346127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.318860E+02    0.317867E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.351544E+02    0.299117E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.386275E+02    0.298020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.415059E+02    0.314431E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.431480E+02    0.342535E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.426524E+02    0.377762E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.403400E+02    0.408038E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.369090E+02    0.424532E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.368570E+02    0.267980E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.350151E+02    0.270305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.363600E+02    0.250981E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.384800E+02    0.254396E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.383458E+02    0.276953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.361916E+02    0.286856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.343473E+02    0.300959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.333208E+02    0.286104E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.331310E+02    0.267617E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.339567E+02    0.249207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.355952E+02    0.235352E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.375807E+02    0.230167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.393782E+02    0.235310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.405497E+02    0.248981E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.407608E+02    0.267715E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.397936E+02    0.287813E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.380937E+02    0.301980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.361018E+02    0.306653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.342966E+02    0.332269E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.316295E+02    0.316021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.302772E+02    0.288029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.306600E+02    0.255145E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.327121E+02    0.225289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.360530E+02    0.204255E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.395441E+02    0.201869E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.424785E+02    0.216824E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.441051E+02    0.244294E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.436004E+02    0.280173E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.410536E+02    0.314014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.377506E+02    0.331697E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.359285E+02    0.421148E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.340935E+02    0.422177E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.354089E+02    0.404484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.374944E+02    0.409530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.374627E+02    0.430661E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.353768E+02    0.438227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.334952E+02    0.450660E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.324455E+02    0.435886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.323246E+02    0.417496E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.331256E+02    0.400219E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.347163E+02    0.387932E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.366091E+02    0.384666E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.384665E+02    0.390671E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.396691E+02    0.405101E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.399915E+02    0.423383E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.389501E+02    0.442248E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.372963E+02    0.454475E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.352997E+02    0.457439E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.334045E+02    0.482296E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.308288E+02    0.463471E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.294375E+02    0.435079E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.298474E+02    0.403406E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.319816E+02    0.374591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.351010E+02    0.358245E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.385706E+02    0.358185E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.415205E+02    0.375000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134038E+03   -0.431045E+02    0.404834E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.426452E+02    0.439548E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.403719E+02    0.469238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.370033E+02    0.484463E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.363361E+02    0.318957E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.344935E+02    0.320942E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.357642E+02    0.302512E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.378680E+02    0.306495E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.378041E+02    0.328129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.357386E+02    0.336546E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.338837E+02    0.349769E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.327902E+02    0.335956E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.326209E+02    0.317819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.334643E+02    0.299271E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.351178E+02    0.285261E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.370995E+02    0.280372E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.388895E+02    0.286046E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.400354E+02    0.300590E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.402203E+02    0.319693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.393318E+02    0.338303E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.376184E+02    0.351607E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.356264E+02    0.355712E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.337928E+02    0.381235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.311583E+02    0.364058E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.297628E+02    0.337096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.301772E+02    0.304508E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.323381E+02    0.273345E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.355165E+02    0.254928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.389971E+02    0.253174E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.419013E+02    0.268685E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.433717E+02    0.298537E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.430302E+02    0.332771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.405528E+02    0.364349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.372295E+02    0.381592E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.369674E+02    0.201113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.350354E+02    0.204848E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.364425E+02    0.183960E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.385708E+02    0.186942E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.384740E+02    0.209690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.362378E+02    0.220932E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.344135E+02    0.235039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.333627E+02    0.220840E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.330592E+02    0.203696E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.340307E+02    0.182749E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.356565E+02    0.168238E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.376321E+02    0.162631E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.395361E+02    0.166350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.406331E+02    0.180980E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.407766E+02    0.200792E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.399432E+02    0.219880E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.381676E+02    0.234969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.361811E+02    0.240057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.343233E+02    0.266729E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.315469E+02    0.252212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.303135E+02    0.223682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.307309E+02    0.189653E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.329170E+02    0.156752E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.360662E+02    0.137263E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.396473E+02    0.133072E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.425093E+02    0.148088E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.441824E+02    0.175036E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.436326E+02    0.211918E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.411510E+02    0.245626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.377790E+02    0.265077E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679670.807688060     
  ps_ts2 prof sum =   679249.902443916     
  trcom prof sum =    679249.902443915     
  ps_ts2 cur sum  =   15293.0516952944     
  trcom cur sum  =    15293.0516952943     
  
  antenna # iant =            2
  powecha_use(iant) =    688774.817045580     
  ps_ts2 prof sum =   688360.073406423     
  trcom prof sum =    688360.073406422     
  ps_ts2 cur sum  =   18135.4691465005     
  trcom cur sum  =    18135.4691465005     
  
  antenna # iant =            3
  powecha_use(iant) =    521674.442404495     
  ps_ts2 prof sum =   521311.138362265     
  trcom prof sum =    521311.138362265     
  ps_ts2 cur sum  =   10280.7855078048     
  trcom cur sum  =    10280.7855078048     
  
  antenna # iant =            4
  powecha_use(iant) =    573330.230425984     
  ps_ts2 prof sum =   572988.851899990     
  trcom prof sum =    572988.851899990     
  ps_ts2 cur sum  =   13972.9809880690     
  trcom cur sum  =    13972.9809880690     
  
  antenna # iant =            5
  powecha_use(iant) =    544354.174967030     
  ps_ts2 prof sum =   544052.474219112     
  trcom prof sum =    544052.474219111     
  ps_ts2 cur sum  =   15426.6391692532     
  trcom cur sum  =    15426.6391692532     
  
  Total ECH heating:      3005962.44033170     
  Total Current Drive:    73108.9265069219     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1121
 TA= 1.43000E+00 CPU TIME= 1.61745E-01 SECONDS.  DT= 1.22498E-03
  
 TEC1=    1.42999999999999     
 TEC2=    1.43499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.76290861111056     
  %check_save_state: izleft hours =    77.2286111111111     
 --> plasma_hash("gframe"): TA= 1.430000E+00 NSTEP=  1121 Hash code:    2123185
 ->PRGCHK: bdy curvature ratio at t= 1.4350E+00 seconds is:  5.4984E-02
% MHDEQ: TG1=     1.430000 ; TG2=     1.435000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7630E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4984E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.430000 TO TG2=    1.435000 @ NSTEP     1121
   GFRAME TG2 MOMENTS CHECKSUM:  2.4786247801103D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4350E+00  1.4400E+00 total power(Watts):  3.0082E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.43500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.360940E+02    0.361083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.341664E+02    0.363316E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.355461E+02    0.344599E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.376460E+02    0.348929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.375557E+02    0.370680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.353886E+02    0.379555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.336102E+02    0.392102E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.325342E+02    0.377663E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.323868E+02    0.359103E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.331635E+02    0.341725E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.348261E+02    0.328522E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.367166E+02    0.324883E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.385892E+02    0.330040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.397216E+02    0.344324E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.400791E+02    0.362134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.390666E+02    0.381680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.373381E+02    0.394862E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.353470E+02    0.398502E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.334861E+02    0.423273E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.308747E+02    0.405857E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.295130E+02    0.378028E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.299598E+02    0.345397E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.320621E+02    0.316309E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.351651E+02    0.299095E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.386385E+02    0.298005E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.416201E+02    0.313674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.432646E+02    0.341854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.427664E+02    0.377172E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.404481E+02    0.407521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.369179E+02    0.424485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.369622E+02    0.267139E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.350263E+02    0.270331E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.363718E+02    0.251031E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.384920E+02    0.254445E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.384543E+02    0.276128E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.362947E+02    0.286031E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.344459E+02    0.300140E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.333311E+02    0.286098E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.332270E+02    0.266761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.340557E+02    0.248339E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.356994E+02    0.234449E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.376872E+02    0.229290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.394892E+02    0.234447E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.406630E+02    0.248144E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.408743E+02    0.266895E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.399050E+02    0.287009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.382011E+02    0.301179E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.362044E+02    0.305852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.343945E+02    0.331527E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.315576E+02    0.316744E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.302869E+02    0.288023E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.307503E+02    0.254259E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.328928E+02    0.223387E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.360654E+02    0.204323E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.396554E+02    0.200949E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.425961E+02    0.215958E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.442259E+02    0.243479E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.437190E+02    0.279383E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.411668E+02    0.313252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.377613E+02    0.331664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.360272E+02    0.420653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.341879E+02    0.421681E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.355074E+02    0.403933E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.375970E+02    0.409003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.375643E+02    0.430201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.353846E+02    0.438189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.335875E+02    0.450252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.325355E+02    0.435423E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.323328E+02    0.417448E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.331337E+02    0.400177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.347255E+02    0.387889E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.367105E+02    0.384075E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.385719E+02    0.390100E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.398737E+02    0.404089E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.400978E+02    0.422918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.391488E+02    0.441467E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.373040E+02    0.454438E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.353069E+02    0.457407E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.334952E+02    0.482002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.308350E+02    0.463445E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.295983E+02    0.434177E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.300115E+02    0.402305E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.319072E+02    0.375163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.351106E+02    0.358213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.386774E+02    0.357527E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.417343E+02    0.373835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.432182E+02    0.404320E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.427558E+02    0.439142E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.404769E+02    0.468925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.371011E+02    0.484184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.364341E+02    0.318222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.345032E+02    0.320907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.358661E+02    0.301698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.379746E+02    0.305699E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.379101E+02    0.327384E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.357483E+02    0.336510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.339781E+02    0.349082E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.328839E+02    0.335219E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.327150E+02    0.317022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.335612E+02    0.298453E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.351288E+02    0.285261E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.371109E+02    0.280380E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.389949E+02    0.285259E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.401473E+02    0.299794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.404316E+02    0.318214E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.393424E+02    0.338272E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.377230E+02    0.350930E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.357269E+02    0.355037E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.338875E+02    0.380618E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.310862E+02    0.364658E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.298502E+02    0.336341E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.302663E+02    0.303674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.324327E+02    0.272494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.355280E+02    0.254970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.391068E+02    0.252335E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.420168E+02    0.267873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.435957E+02    0.296998E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.431465E+02    0.332066E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.406632E+02    0.363722E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.372432E+02    0.381526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.369800E+02    0.201183E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.351365E+02    0.203901E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.364556E+02    0.184038E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.385844E+02    0.187021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.384869E+02    0.209764E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.363431E+02    0.220015E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.345130E+02    0.234155E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.332885E+02    0.221884E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.331561E+02    0.202730E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.341297E+02    0.181755E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.357604E+02    0.167236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.377397E+02    0.161629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.395504E+02    0.166438E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.407472E+02    0.180032E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.408908E+02    0.199878E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.399562E+02    0.219955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.382757E+02    0.234100E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.362845E+02    0.239186E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.344223E+02    0.265877E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.317222E+02    0.250400E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.303243E+02    0.223737E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.308231E+02    0.188652E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.328456E+02    0.157943E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.361703E+02    0.136207E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.396628E+02    0.133158E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.426276E+02    0.147102E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.440917E+02    0.176157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.437542E+02    0.211033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.412654E+02    0.244790E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.378858E+02    0.264240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.15 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679373.679811956     
  ps_ts2 prof sum =   678967.041969360     
  trcom prof sum =    678967.041969361     
  ps_ts2 cur sum  =   15384.3347940415     
  trcom cur sum  =    15384.3347940415     
  
  antenna # iant =            2
  powecha_use(iant) =    687634.258891063     
  ps_ts2 prof sum =   687234.330428243     
  trcom prof sum =    687234.330428242     
  ps_ts2 cur sum  =   18211.5580612439     
  trcom cur sum  =    18211.5580612439     
  
  antenna # iant =            3
  powecha_use(iant) =    521092.599066473     
  ps_ts2 prof sum =   520758.876155510     
  trcom prof sum =    520758.876155510     
  ps_ts2 cur sum  =   10339.7389112014     
  trcom cur sum  =    10339.7389112014     
  
  antenna # iant =            4
  powecha_use(iant) =    577386.002890213     
  ps_ts2 prof sum =   577056.152753294     
  trcom prof sum =    577056.152753293     
  ps_ts2 cur sum  =   14158.7583049716     
  trcom cur sum  =    14158.7583049716     
  
  antenna # iant =            5
  powecha_use(iant) =    542699.012143662     
  ps_ts2 prof sum =   542378.775633950     
  trcom prof sum =    542378.775633949     
  ps_ts2 cur sum  =   15464.2276390630     
  trcom cur sum  =    15464.2276390630     
  
  Total ECH heating:      3006395.17694036     
  Total Current Drive:    73558.6177105214     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1125
 TA= 1.43500E+00 CPU TIME= 1.59564E-01 SECONDS.  DT= 4.12203E-04
  
 TEC1=    1.43499999999999     
 TEC2=    1.43999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.77530999999976     
  %check_save_state: izleft hours =    77.2161111111111     
 --> plasma_hash("gframe"): TA= 1.435000E+00 NSTEP=  1125 Hash code:   66878303
 ->PRGCHK: bdy curvature ratio at t= 1.4400E+00 seconds is:  5.5012E-02
% MHDEQ: TG1=     1.435000 ; TG2=     1.440000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7607E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5012E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.435000 TO TG2=    1.440000 @ NSTEP     1125
   GFRAME TG2 MOMENTS CHECKSUM:  2.4791257711655D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.31330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.21220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.07764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.04379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.31317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.28805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -3.34720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.45420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.80052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.97498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -3.30938E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.49020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  4.83616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.94617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.32515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.03328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.65151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.53829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.53829E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4400E+00  1.4450E+00 total power(Watts):  2.8756E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.44000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.361008E+02    0.361060E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.342605E+02    0.362668E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.355535E+02    0.344568E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.377481E+02    0.348249E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.376568E+02    0.370064E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.354850E+02    0.378947E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.337019E+02    0.391521E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.326242E+02    0.377047E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.324768E+02    0.358434E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.332561E+02    0.341005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.348338E+02    0.328490E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.368174E+02    0.324129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.386935E+02    0.329307E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.398281E+02    0.343640E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.399884E+02    0.362707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.390736E+02    0.381649E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.374378E+02    0.394298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.354397E+02    0.397955E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.335767E+02    0.422774E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.309600E+02    0.405298E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.296737E+02    0.376785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.299666E+02    0.345368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.319874E+02    0.317043E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.352634E+02    0.298281E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.387445E+02    0.297201E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.418340E+02    0.312181E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.433777E+02    0.341180E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.428772E+02    0.376592E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.403570E+02    0.407934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.370157E+02    0.424000E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.369719E+02    0.267159E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.351247E+02    0.269476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.364734E+02    0.250154E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.385984E+02    0.253585E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.385602E+02    0.275299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.363956E+02    0.285202E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.345424E+02    0.299326E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.334254E+02    0.285256E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.331501E+02    0.267655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.341519E+02    0.247444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.357101E+02    0.234468E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.376975E+02    0.229325E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.395979E+02    0.233560E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.407742E+02    0.247288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.408844E+02    0.266913E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.400137E+02    0.286196E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.383020E+02    0.300397E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.363046E+02    0.305048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.344022E+02    0.331491E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.317297E+02    0.315180E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.303742E+02    0.287166E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.308393E+02    0.253359E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.329867E+02    0.222435E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.361669E+02    0.203355E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.396666E+02    0.200995E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.428153E+02    0.214104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.443438E+02    0.242644E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.436234E+02    0.280186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.412775E+02    0.312485E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.378644E+02    0.330933E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.361233E+02    0.420155E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.341939E+02    0.421629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.355139E+02    0.403885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.376969E+02    0.408477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.377555E+02    0.429328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.354786E+02    0.437743E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.336762E+02    0.449848E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.325411E+02    0.435371E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.324209E+02    0.416923E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.332245E+02    0.399608E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.348202E+02    0.387302E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.368095E+02    0.383477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.385791E+02    0.390056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.399779E+02    0.403560E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.400077E+02    0.423280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.392498E+02    0.441047E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.374015E+02    0.454047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.353999E+02    0.457020E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.335835E+02    0.481679E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.309182E+02    0.463065E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.296797E+02    0.433702E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.300947E+02    0.401740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.320794E+02    0.373923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.352070E+02    0.357547E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.386854E+02    0.357497E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.418432E+02    0.373241E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.433288E+02    0.403801E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133407E+03   -0.428638E+02    0.438725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.405793E+02    0.468584E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.370174E+02    0.484335E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.364424E+02    0.318188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.345997E+02    0.320131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.359663E+02    0.300889E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.380788E+02    0.304904E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.380136E+02    0.326642E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.358468E+02    0.335784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.339874E+02    0.349040E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.328913E+02    0.335186E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.326386E+02    0.317745E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.334832E+02    0.299231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.352272E+02    0.284427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.372137E+02    0.279545E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.390048E+02    0.285248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.401557E+02    0.299772E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.403408E+02    0.318902E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.394488E+02    0.337565E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.377309E+02    0.350899E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.357343E+02    0.355006E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.338944E+02    0.380586E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.312545E+02    0.363360E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.298574E+02    0.336312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.304330E+02    0.302041E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.323571E+02    0.273373E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.356278E+02    0.254097E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.391168E+02    0.252365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.422333E+02    0.266212E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.437118E+02    0.296211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.430512E+02    0.332702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.408706E+02    0.362498E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.373461E+02    0.380919E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.370836E+02    0.200215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.351469E+02    0.203939E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.365580E+02    0.183035E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.386915E+02    0.186036E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.385937E+02    0.208820E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.364459E+02    0.219069E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.346106E+02    0.233235E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.334693E+02    0.219945E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.333362E+02    0.200713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.340538E+02    0.182857E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.358611E+02    0.166200E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.378452E+02    0.160599E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.396599E+02    0.165428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.408592E+02    0.179055E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.410029E+02    0.198933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.400664E+02    0.219041E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.383818E+02    0.233206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.363862E+02    0.238288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.345192E+02    0.265011E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.316489E+02    0.251353E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.304126E+02    0.222770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.308329E+02    0.188684E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.329403E+02    0.156869E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.362714E+02    0.135122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.397724E+02    0.132092E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.427437E+02    0.146082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.442104E+02    0.175197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.436613E+02    0.212029E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.412760E+02    0.244829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.378956E+02    0.264260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    560354.356874763     
  ps_ts2 prof sum =   560011.162290583     
  trcom prof sum =    560011.162290583     
  ps_ts2 cur sum  =   12743.8277289120     
  trcom cur sum  =    12743.8277289119     
  
  antenna # iant =            2
  powecha_use(iant) =    683938.845686910     
  ps_ts2 prof sum =   683546.819925385     
  trcom prof sum =    683546.819925385     
  ps_ts2 cur sum  =   18191.2702452896     
  trcom cur sum  =    18191.2702452896     
  
  antenna # iant =            3
  powecha_use(iant) =    521232.905918476     
  ps_ts2 prof sum =   520907.094131241     
  trcom prof sum =    520907.094131241     
  ps_ts2 cur sum  =   10384.8207882733     
  trcom cur sum  =    10384.8207882733     
  
  antenna # iant =            4
  powecha_use(iant) =    568519.486025059     
  ps_ts2 prof sum =   568153.892650701     
  trcom prof sum =    568153.892650700     
  ps_ts2 cur sum  =   14001.6726035216     
  trcom cur sum  =    14001.6726035216     
  
  antenna # iant =            5
  powecha_use(iant) =    541555.350897243     
  ps_ts2 prof sum =   541234.385375867     
  trcom prof sum =    541234.385375868     
  ps_ts2 cur sum  =   15490.9908717332     
  trcom cur sum  =    15490.9908717332     
  
  Total ECH heating:      2873853.35437378     
  Total Current Drive:    70812.5822377297     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1132
 TA= 1.44000E+00 CPU TIME= 1.58920E-01 SECONDS.  DT= 4.48870E-04
  
 TEC1=    1.43999999999999     
 TEC2=    1.44499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.79007000000001     
  %check_save_state: izleft hours =    77.2013888888889     
 --> plasma_hash("gframe"): TA= 1.440000E+00 NSTEP=  1132 Hash code:  119219187
 ->PRGCHK: bdy curvature ratio at t= 1.4450E+00 seconds is:  5.5043E-02
% MHDEQ: TG1=     1.440000 ; TG2=     1.445000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7585E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5043E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.440000 TO TG2=    1.445000 @ NSTEP     1132
   GFRAME TG2 MOMENTS CHECKSUM:  2.4796267622206D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4450E+00  1.4500E+00 total power(Watts):  2.3179E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.44500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.370744E+02    0.266322E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.352229E+02    0.268632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.365751E+02    0.249292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.387046E+02    0.252740E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.385695E+02    0.275311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.364044E+02    0.285200E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.345505E+02    0.299306E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.335195E+02    0.284425E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.333299E+02    0.265919E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.341610E+02    0.247484E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.358112E+02    0.233564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.378021E+02    0.228433E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.397063E+02    0.232692E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.408851E+02    0.246448E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.409953E+02    0.266094E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.401223E+02    0.285389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.384084E+02    0.299590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.363133E+02    0.305022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.344974E+02    0.330753E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.318193E+02    0.314396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.304616E+02    0.286316E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.308481E+02    0.253394E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.329117E+02    0.223465E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.362683E+02    0.202408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.397757E+02    0.200067E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.427228E+02    0.215123E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.442480E+02    0.243583E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.438453E+02    0.278593E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.414895E+02    0.310997E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.379672E+02    0.330208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.361296E+02    0.420106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.342857E+02    0.421131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.356089E+02    0.403339E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.377035E+02    0.408428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.376693E+02    0.429678E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.355723E+02    0.437294E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.336816E+02    0.449791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.326288E+02    0.434909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.325089E+02    0.416410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.333149E+02    0.399049E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.349144E+02    0.386714E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.369080E+02    0.382890E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.386816E+02    0.389485E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.398876E+02    0.403991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.402080E+02    0.422387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134200E+03   -0.393500E+02    0.440629E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.374985E+02    0.453657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.354930E+02    0.456629E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.335886E+02    0.481602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.310012E+02    0.462683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.296082E+02    0.434082E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.300231E+02    0.402216E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.321680E+02    0.373298E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.353034E+02    0.356886E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.387891E+02    0.356851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.417498E+02    0.373773E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.434389E+02    0.403291E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133423E+03   -0.428703E+02    0.438666E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.405854E+02    0.468518E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.372023E+02    0.483782E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.365427E+02    0.317420E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.346957E+02    0.319363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.359742E+02    0.300870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.381829E+02    0.304113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.381169E+02    0.325906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.359451E+02    0.335064E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.340838E+02    0.348330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.329831E+02    0.334453E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.328150E+02    0.316203E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.336632E+02    0.297614E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.353252E+02    0.283596E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.373164E+02    0.278720E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.391114E+02    0.284436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.402652E+02    0.298982E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.404492E+02    0.318156E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.395548E+02    0.336865E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.378328E+02    0.350233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.358318E+02    0.354342E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.339868E+02    0.379978E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.313416E+02    0.362704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.299427E+02    0.335567E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.303612E+02    0.302821E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.325330E+02    0.271648E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.357273E+02    0.253235E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.392242E+02    0.251521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.421403E+02    0.267080E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.438272E+02    0.295441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.432690E+02    0.331337E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.409780E+02    0.361881E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.374433E+02    0.380339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.371871E+02    0.199269E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.352461E+02    0.202986E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.366605E+02    0.182056E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.387987E+02    0.185078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.387003E+02    0.207895E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.364565E+02    0.219113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.346203E+02    0.233285E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.335645E+02    0.219013E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.332613E+02    0.201793E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.342383E+02    0.180802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.358724E+02    0.166268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.379513E+02    0.159592E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.397695E+02    0.164442E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.409711E+02    0.178100E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.411146E+02    0.198012E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.401759E+02    0.218144E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.383919E+02    0.233260E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.363959E+02    0.238337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.345283E+02    0.265044E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.317400E+02    0.250463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.305009E+02    0.221819E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.309227E+02    0.187675E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.331184E+02    0.154701E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.363741E+02    0.134057E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.398819E+02    0.131047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.428599E+02    0.145087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.443292E+02    0.174261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.437795E+02    0.211146E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.413881E+02    0.243988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.380003E+02    0.263426E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    685054.417787450     
  ps_ts2 prof sum =   684656.681704025     
  trcom prof sum =    684656.681704024     
  ps_ts2 cur sum  =   18291.3825580769     
  trcom cur sum  =    18291.3825580769     
  
  antenna # iant =            3
  powecha_use(iant) =    521435.677784014     
  ps_ts2 prof sum =   521075.816355119     
  trcom prof sum =    521075.816355120     
  ps_ts2 cur sum  =   10426.2015385621     
  trcom cur sum  =    10426.2015385621     
  
  antenna # iant =            4
  powecha_use(iant) =    568374.537327666     
  ps_ts2 prof sum =   568052.996273750     
  trcom prof sum =    568052.996273750     
  ps_ts2 cur sum  =   14052.8717224327     
  trcom cur sum  =    14052.8717224327     
  
  antenna # iant =            5
  powecha_use(iant) =    543007.772298221     
  ps_ts2 prof sum =   542705.075894896     
  trcom prof sum =    542705.075894896     
  ps_ts2 cur sum  =   15588.4135411559     
  trcom cur sum  =    15588.4135411559     
  
  Total ECH heating:      2316490.57022779     
  Total Current Drive:    58358.8693602276     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1138
 TA= 1.44500E+00 CPU TIME= 1.61238E-01 SECONDS.  DT= 1.64513E-03
  
 TEC1=    1.44499999999999     
 TEC2=    1.44999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.80529749999960     
  %check_save_state: izleft hours =    77.1863888888889     
 --> plasma_hash("gframe"): TA= 1.445000E+00 NSTEP=  1138 Hash code:   60666839
 ->PRGCHK: bdy curvature ratio at t= 1.4500E+00 seconds is:  5.5077E-02
% MHDEQ: TG1=     1.445000 ; TG2=     1.450000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0349E-02 SECONDS
   DATA R*BT AT EDGE:  2.7562E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5077E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.445000 TO TG2=    1.450000 @ NSTEP     1138
   GFRAME TG2 MOMENTS CHECKSUM:  2.4801277532757D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.30597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.12847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -3.60448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.02406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.77740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.63360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.85016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.24524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.42130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -1.71451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.49355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.69489E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -5.05072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -2.35055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.38672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  1.36282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.28464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.82808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.06015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.86997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.28128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.28128E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4500E+00  1.4550E+00 total power(Watts):  2.5937E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.45000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.362975E+02    0.359778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.343624E+02    0.361995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.357491E+02    0.343184E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.378585E+02    0.347556E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.377657E+02    0.369424E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.355883E+02    0.378312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.338004E+02    0.390903E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.327211E+02    0.376398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.325744E+02    0.357747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.333559E+02    0.340269E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.350272E+02    0.327003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.370198E+02    0.322636E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.388072E+02    0.328558E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.401401E+02    0.341634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.402998E+02    0.360858E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.392817E+02    0.380477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.375448E+02    0.393698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.355422E+02    0.397349E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.336735E+02    0.422232E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.310510E+02    0.404703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.296867E+02    0.376728E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.302164E+02    0.343243E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.322522E+02    0.314702E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.353706E+02    0.297449E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.389569E+02    0.295603E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.418533E+02    0.312128E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.435004E+02    0.340495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.429964E+02    0.375983E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.406654E+02    0.406445E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.371204E+02    0.423466E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.371778E+02    0.265483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.352328E+02    0.268646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.365853E+02    0.249332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.388116E+02    0.251889E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.386761E+02    0.274492E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.365059E+02    0.284377E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.346477E+02    0.298495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.335287E+02    0.284422E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.334246E+02    0.265062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.342581E+02    0.246601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.359129E+02    0.232656E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.379076E+02    0.227532E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.397175E+02    0.232735E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.408964E+02    0.246492E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.411074E+02    0.265279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.401328E+02    0.285389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.384198E+02    0.299559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.364141E+02    0.304226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.345933E+02    0.330019E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.317455E+02    0.315134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.304704E+02    0.286312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.309379E+02    0.252498E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.330909E+02    0.221541E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.362797E+02    0.202453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.398860E+02    0.199125E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.428388E+02    0.214227E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.444733E+02    0.241874E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.439619E+02    0.277807E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.413982E+02    0.311701E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.379762E+02    0.330184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.362261E+02    0.419613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.343781E+02    0.420638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.357050E+02    0.402793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.378039E+02    0.407906E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.377685E+02    0.429222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.355788E+02    0.437248E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.337720E+02    0.449377E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.327169E+02    0.434453E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.325155E+02    0.416362E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.333217E+02    0.399006E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.349218E+02    0.386678E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.369158E+02    0.382858E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.387845E+02    0.388920E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.399924E+02    0.403466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.403121E+02    0.421919E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.392631E+02    0.440930E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.376873E+02    0.452936E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.354958E+02    0.456591E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.336773E+02    0.481278E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.310077E+02    0.462626E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.297656E+02    0.433182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.301842E+02    0.401127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.320923E+02    0.373873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.354003E+02    0.356241E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.388936E+02    0.356210E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134054E+03   -0.419607E+02    0.372623E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133431E+03   -0.434472E+02    0.403241E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133213E+03   -0.429788E+02    0.438252E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.406881E+02    0.468188E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.372972E+02    0.483482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.366437E+02    0.316656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.347042E+02    0.319329E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.360750E+02    0.300061E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.381900E+02    0.304109E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.381260E+02    0.325882E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.359536E+02    0.335041E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.341751E+02    0.347671E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.330759E+02    0.333719E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.329077E+02    0.315420E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.337583E+02    0.296792E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.353347E+02    0.283595E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.373263E+02    0.278727E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.392188E+02    0.283626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.403751E+02    0.298191E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.405586E+02    0.317409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.395639E+02    0.336843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.379355E+02    0.349571E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.359300E+02    0.353684E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.340801E+02    0.379371E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.312685E+02    0.363315E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.300286E+02    0.334825E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.304489E+02    0.301995E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.324584E+02    0.272530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.357375E+02    0.253266E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.393326E+02    0.250671E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.422546E+02    0.266271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.439433E+02    0.294668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.433829E+02    0.330647E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.408872E+02    0.362456E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.374511E+02    0.380309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.36 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.371988E+02    0.199316E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.353461E+02    0.202020E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.366725E+02    0.182107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.388110E+02    0.185133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.388080E+02    0.206957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.365600E+02    0.218182E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.347185E+02    0.232372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.334894E+02    0.220034E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.333571E+02    0.200808E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.343362E+02    0.179789E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.359742E+02    0.165242E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.379641E+02    0.159651E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.398799E+02    0.163441E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.409841E+02    0.178162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.411273E+02    0.198062E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.401877E+02    0.218192E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.384988E+02    0.232371E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.364981E+02    0.237447E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.346258E+02    0.264190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.319138E+02    0.248644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.305106E+02    0.221849E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.310122E+02    0.186648E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.330467E+02    0.155864E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.363872E+02    0.134111E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.399922E+02    0.129988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.428741E+02    0.145160E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.445551E+02    0.172290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.440038E+02    0.209291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.415011E+02    0.243139E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.381056E+02    0.262585E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.18 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    270881.161597680     
  ps_ts2 prof sum =   270725.895177392     
  trcom prof sum =    270725.895177392     
  ps_ts2 cur sum  =   6208.35623552960     
  trcom cur sum  =    6208.35623552960     
  
  antenna # iant =            2
  powecha_use(iant) =    684481.413478587     
  ps_ts2 prof sum =   684070.802331982     
  trcom prof sum =    684070.802331981     
  ps_ts2 cur sum  =   18351.7002206432     
  trcom cur sum  =    18351.7002206432     
  
  antenna # iant =            3
  powecha_use(iant) =    521421.477978477     
  ps_ts2 prof sum =   521075.802796974     
  trcom prof sum =    521075.802796974     
  ps_ts2 cur sum  =   10469.7203005275     
  trcom cur sum  =    10469.7203005275     
  
  antenna # iant =            4
  powecha_use(iant) =    573573.038264141     
  ps_ts2 prof sum =   573213.747547973     
  trcom prof sum =    573213.747547973     
  ps_ts2 cur sum  =   14239.4800181586     
  trcom cur sum  =    14239.4800181586     
  
  antenna # iant =            5
  powecha_use(iant) =    543369.413158076     
  ps_ts2 prof sum =   543056.592385837     
  trcom prof sum =    543056.592385837     
  ps_ts2 cur sum  =   15660.0449266993     
  trcom cur sum  =    15660.0449266993     
  
  Total ECH heating:      2592142.84024016     
  Total Current Drive:    64929.3017015581     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1141
 TA= 1.45000E+00 CPU TIME= 1.59905E-01 SECONDS.  DT= 1.62306E-03
  
 TEC1=    1.44999999999999     
 TEC2=    1.45499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.82140805555537     
  %check_save_state: izleft hours =    77.1702777777778     
 --> plasma_hash("gframe"): TA= 1.450000E+00 NSTEP=  1141 Hash code:   12378201
 ->PRGCHK: bdy curvature ratio at t= 1.4550E+00 seconds is:  5.5114E-02
% MHDEQ: TG1=     1.450000 ; TG2=     1.455000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7540E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5114E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.450000 TO TG2=    1.455000 @ NSTEP     1141
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806287443308D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4550E+00  1.4600E+00 total power(Watts):  2.9494E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.45500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.363068E+02    0.359758E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.344578E+02    0.361360E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.357585E+02    0.343172E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.379619E+02    0.346896E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.378685E+02    0.368814E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.356861E+02    0.377713E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.338934E+02    0.390336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.327292E+02    0.376372E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.324995E+02    0.358377E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.334496E+02    0.339573E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.350365E+02    0.326991E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.370298E+02    0.322620E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.389134E+02    0.327850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.400520E+02    0.342278E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.402113E+02    0.361448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.392909E+02    0.380449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.376461E+02    0.393149E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.356387E+02    0.396806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.337652E+02    0.421750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.311375E+02    0.404160E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.298481E+02    0.375507E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.301462E+02    0.343921E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.321786E+02    0.315440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.354704E+02    0.296647E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.389672E+02    0.295593E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.419665E+02    0.311386E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.436152E+02    0.339849E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.431081E+02    0.375425E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.407717E+02    0.405948E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.372192E+02    0.422999E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.371890E+02    0.265518E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.353329E+02    0.267822E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.366888E+02    0.248474E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.388235E+02    0.251940E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.387837E+02    0.273684E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.366085E+02    0.283572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.347456E+02    0.297692E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.336244E+02    0.283599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.333498E+02    0.265974E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.343562E+02    0.245728E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.359254E+02    0.232696E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.379200E+02    0.227585E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.398282E+02    0.231866E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.410094E+02    0.245657E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.411195E+02    0.265321E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.402434E+02    0.284602E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.385282E+02    0.298768E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.365164E+02    0.303443E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.346025E+02    0.330011E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.319189E+02    0.313588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.305595E+02    0.285477E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.311086E+02    0.250691E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.331864E+02    0.220604E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.363831E+02    0.201504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.398994E+02    0.199184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.430600E+02    0.212397E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.445932E+02    0.241058E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.440799E+02    0.277032E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.415106E+02    0.310954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.380807E+02    0.329476E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.363231E+02    0.419125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.343854E+02    0.420602E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.357129E+02    0.402761E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.379050E+02    0.407397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.378685E+02    0.428772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.356737E+02    0.436815E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.338626E+02    0.448984E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.327237E+02    0.434424E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.326043E+02    0.415857E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.334136E+02    0.398451E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.350176E+02    0.386103E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.370161E+02    0.382278E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.389834E+02    0.387838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134113E+03   -0.401946E+02    0.402479E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.402237E+02    0.422297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.394597E+02    0.440169E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.376042E+02    0.453220E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.355932E+02    0.456207E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.337666E+02    0.480962E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.310917E+02    0.462260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.298481E+02    0.432722E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.302687E+02    0.400573E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.322652E+02    0.372650E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.354092E+02    0.356230E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.389029E+02    0.356206E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.420713E+02    0.372042E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133222E+03   -0.435591E+02    0.402745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133003E+03   -0.430884E+02    0.437844E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133279E+03   -0.407910E+02    0.467876E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.372149E+02    0.483645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.366536E+02    0.316638E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.348019E+02    0.318575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.361762E+02    0.299266E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.382971E+02    0.303317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.382309E+02    0.325162E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.360535E+02    0.334339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.341839E+02    0.347663E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.330851E+02    0.333710E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.328327E+02    0.316154E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.337684E+02    0.296779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.354347E+02    0.282781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.374309E+02    0.277917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.392301E+02    0.283638E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.404856E+02    0.297412E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.405693E+02    0.317395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.396716E+02    0.336163E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.379450E+02    0.349562E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.359391E+02    0.353678E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.340885E+02    0.379349E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.314376E+02    0.362035E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.300368E+02    0.334808E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.304577E+02    0.301969E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.325523E+02    0.271686E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.358388E+02    0.252419E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.393448E+02    0.250727E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.423700E+02    0.265473E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.439551E+02    0.294662E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133681E+03   -0.434977E+02    0.329976E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.410957E+02    0.361257E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.375526E+02    0.379722E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.373043E+02    0.198369E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.353585E+02    0.202073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.367771E+02    0.181126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.389203E+02    0.184172E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.388207E+02    0.207021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.366647E+02    0.217255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.346418E+02    0.233365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.336716E+02    0.218110E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.335390E+02    0.198815E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.342624E+02    0.180903E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.360773E+02    0.164225E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.380711E+02    0.158636E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.398944E+02    0.163511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.410983E+02    0.177203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.412415E+02    0.197144E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.402998E+02    0.217298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.386068E+02    0.231492E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.366014E+02    0.236567E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.345486E+02    0.265100E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.318422E+02    0.249603E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.306013E+02    0.220900E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.310246E+02    0.186694E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.331437E+02    0.154809E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.364917E+02    0.133044E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.400091E+02    0.130070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.429928E+02    0.144158E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.444645E+02    0.173393E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.439133E+02    0.210306E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.415140E+02    0.243193E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.381172E+02    0.262626E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.52 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    628836.579845664     
  ps_ts2 prof sum =   628433.591756915     
  trcom prof sum =    628433.591756915     
  ps_ts2 cur sum  =   14478.6439458312     
  trcom cur sum  =    14478.6439458312     
  
  antenna # iant =            2
  powecha_use(iant) =    684930.320294071     
  ps_ts2 prof sum =   684554.998022081     
  trcom prof sum =    684554.998022080     
  ps_ts2 cur sum  =   18447.2093890241     
  trcom cur sum  =    18447.2093890241     
  
  antenna # iant =            3
  powecha_use(iant) =    521423.151272976     
  ps_ts2 prof sum =   521095.083352156     
  trcom prof sum =    521095.083352157     
  ps_ts2 cur sum  =   10519.0108871095     
  trcom cur sum  =    10519.0108871095     
  
  antenna # iant =            4
  powecha_use(iant) =    568665.040293299     
  ps_ts2 prof sum =   568301.046744532     
  trcom prof sum =    568301.046744531     
  ps_ts2 cur sum  =   14181.9245393522     
  trcom cur sum  =    14181.9245393522     
  
  antenna # iant =            5
  powecha_use(iant) =    545520.209849799     
  ps_ts2 prof sum =   545167.373733154     
  trcom prof sum =    545167.373733154     
  ps_ts2 cur sum  =   15789.0832925629     
  trcom cur sum  =    15789.0832925629     
  
  Total ECH heating:      2947552.09360884     
  Total Current Drive:    73415.8720538799     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1144
 TA= 1.45500E+00 CPU TIME= 1.63406E-01 SECONDS.  DT= 1.68514E-03
  
 TEC1=    1.45499999999999     
 TEC2=    1.45999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.83797305555549     
  %check_save_state: izleft hours =    77.1536111111111     
 --> plasma_hash("gframe"): TA= 1.455000E+00 NSTEP=  1144 Hash code:   85117769
 ->PRGCHK: bdy curvature ratio at t= 1.4600E+00 seconds is:  5.5217E-02
% MHDEQ: TG1=     1.455000 ; TG2=     1.460000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0750E-03 SECONDS
   DATA R*BT AT EDGE:  2.7569E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5217E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.455000 TO TG2=    1.460000 @ NSTEP     1144
   GFRAME TG2 MOMENTS CHECKSUM:  2.4803295816219D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.07220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.08053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -2.37302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.63120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.71926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.64818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.03455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.26407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.51499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -1.52563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.25097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.49958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.65969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -1.69733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.38878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9= -3.21565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.44485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.56044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.12841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.84394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.23028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.23028E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4600E+00  1.4650E+00 total power(Watts):  2.9754E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.46000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.362668E+02    0.360339E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.344182E+02    0.361937E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.357186E+02    0.343829E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.378265E+02    0.348180E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.378265E+02    0.369383E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.356459E+02    0.378272E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.337688E+02    0.391425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.326907E+02    0.376928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.325458E+02    0.358315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.334123E+02    0.340241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.350007E+02    0.327712E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.369896E+02    0.323387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.387756E+02    0.329288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.400093E+02    0.342945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.401683E+02    0.362026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.392475E+02    0.381010E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.376036E+02    0.393711E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.355973E+02    0.397368E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.337246E+02    0.422320E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.309417E+02    0.405733E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.298120E+02    0.376060E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.301111E+02    0.344568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.321416E+02    0.316228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.354319E+02    0.297458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.389262E+02    0.296412E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.420250E+02    0.311492E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.435707E+02    0.340531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133642E+03   -0.430636E+02    0.375994E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.405312E+02    0.407455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.371759E+02    0.423576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.371508E+02    0.266119E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.352958E+02    0.268427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.366526E+02    0.249030E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.387851E+02    0.252496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.387438E+02    0.274344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.364777E+02    0.285118E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.346197E+02    0.299293E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.335879E+02    0.284312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.333998E+02    0.265688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.341469E+02    0.248116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.358893E+02    0.233302E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.378836E+02    0.228211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.397904E+02    0.232455E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.409652E+02    0.246249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.410785E+02    0.265928E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.402019E+02    0.285352E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.384850E+02    0.299603E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.364770E+02    0.304267E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.345638E+02    0.330730E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.318829E+02    0.314388E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.305253E+02    0.286186E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.309155E+02    0.253088E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.329849E+02    0.223254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.363459E+02    0.202345E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.398629E+02    0.200010E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.428138E+02    0.214999E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.443388E+02    0.243365E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.438252E+02    0.279355E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.414673E+02    0.311783E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.380396E+02    0.330209E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.361911E+02    0.420153E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.343444E+02    0.421174E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.356713E+02    0.403327E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.378618E+02    0.407977E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.377295E+02    0.429775E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.356314E+02    0.437371E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.337382E+02    0.449844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.326840E+02    0.434969E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.325653E+02    0.416430E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.333738E+02    0.399017E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.349774E+02    0.386652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.369745E+02    0.382833E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.387502E+02    0.389447E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.399562E+02    0.404012E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.402749E+02    0.422471E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.394144E+02    0.440729E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.375601E+02    0.453726E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.355520E+02    0.456671E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.337253E+02    0.481319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.310535E+02    0.462675E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.296585E+02    0.434116E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.300768E+02    0.402172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.322276E+02    0.373204E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.353700E+02    0.356812E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.388645E+02    0.356774E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.420268E+02    0.372620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133368E+03   -0.435124E+02    0.403337E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.430360E+02    0.438451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133658E+03   -0.406492E+02    0.468562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.371693E+02    0.484008E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.366137E+02    0.317440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.347634E+02    0.319358E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.361369E+02    0.300088E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.382575E+02    0.304139E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.381898E+02    0.325919E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.360138E+02    0.335044E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.341457E+02    0.348287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.330479E+02    0.334413E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.328801E+02    0.316195E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.337311E+02    0.297578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.353968E+02    0.283494E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.373918E+02    0.278606E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.391892E+02    0.284374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.403431E+02    0.299017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.405266E+02    0.318195E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.396292E+02    0.336860E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.379038E+02    0.350184E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.358990E+02    0.354276E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.340496E+02    0.379897E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.314005E+02    0.362609E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.300023E+02    0.335511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.304228E+02    0.302775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.326009E+02    0.271440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.358029E+02    0.252975E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.393061E+02    0.251281E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.424318E+02    0.265260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.439108E+02    0.295510E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.433495E+02    0.331370E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.410524E+02    0.361837E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.375108E+02    0.380278E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.372695E+02    0.199195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.353247E+02    0.202886E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.367431E+02    0.182008E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.388849E+02    0.185047E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.387847E+02    0.207793E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.366261E+02    0.217993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.346947E+02    0.233033E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.336388E+02    0.218826E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.333363E+02    0.201678E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.342300E+02    0.181788E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.359548E+02    0.166214E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.380374E+02    0.159553E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.398597E+02    0.164425E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.410619E+02    0.178096E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.412043E+02    0.197966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.402624E+02    0.217990E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.385695E+02    0.232089E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.364739E+02    0.238069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.346004E+02    0.264815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.318087E+02    0.250161E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.305702E+02    0.221608E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.309934E+02    0.187568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.331967E+02    0.154616E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.364599E+02    0.133990E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.399781E+02    0.130991E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.429565E+02    0.145095E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.444221E+02    0.174335E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.438738E+02    0.211042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.414741E+02    0.243747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.380785E+02    0.263214E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655612.748341625     
  ps_ts2 prof sum =   655198.910898299     
  trcom prof sum =    655198.910898299     
  ps_ts2 cur sum  =   15238.8408089302     
  trcom cur sum  =    15238.8408089302     
  
  antenna # iant =            2
  powecha_use(iant) =    684709.269504163     
  ps_ts2 prof sum =   684275.424393978     
  trcom prof sum =    684275.424393977     
  ps_ts2 cur sum  =   18610.3880568844     
  trcom cur sum  =    18610.3880568844     
  
  antenna # iant =            3
  powecha_use(iant) =    520650.073381315     
  ps_ts2 prof sum =   520292.907325490     
  trcom prof sum =    520292.907325491     
  ps_ts2 cur sum  =   10608.8953951758     
  trcom cur sum  =    10608.8953951758     
  
  antenna # iant =            4
  powecha_use(iant) =    568223.526053959     
  ps_ts2 prof sum =   567902.392443662     
  trcom prof sum =    567902.392443661     
  ps_ts2 cur sum  =   14301.3304375054     
  trcom cur sum  =    14301.3304375054     
  
  antenna # iant =            5
  powecha_use(iant) =    546211.619934131     
  ps_ts2 prof sum =   545891.633013925     
  trcom prof sum =    545891.633013925     
  ps_ts2 cur sum  =   15955.0344028124     
  trcom cur sum  =    15955.0344028124     
  
  Total ECH heating:      2973561.26807535     
  Total Current Drive:    74714.4891013081     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1147
 TA= 1.46000E+00 CPU TIME= 1.69147E-01 SECONDS.  DT= 1.51055E-03
  
 TEC1=    1.45999999999999     
 TEC2=    1.46499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.85297333333324     
  %check_save_state: izleft hours =    77.1386111111111     
 --> plasma_hash("gframe"): TA= 1.460000E+00 NSTEP=  1147 Hash code:     130294
 ->PRGCHK: bdy curvature ratio at t= 1.4650E+00 seconds is:  5.5321E-02
% MHDEQ: TG1=     1.460000 ; TG2=     1.465000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7598E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5321E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.460000 TO TG2=    1.465000 @ NSTEP     1147
   GFRAME TG2 MOMENTS CHECKSUM:  2.4800304189129D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4650E+00  1.4700E+00 total power(Watts):  3.0002E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.46500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.362256E+02    0.360907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.343790E+02    0.362503E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.356790E+02    0.344473E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.377851E+02    0.348806E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.377844E+02    0.369939E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.356050E+02    0.378814E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.337289E+02    0.391974E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.326524E+02    0.377468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.325080E+02    0.358890E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.333743E+02    0.340913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.349582E+02    0.328497E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.369486E+02    0.324182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.387332E+02    0.330044E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.399659E+02    0.343604E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.401246E+02    0.362602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.392037E+02    0.381561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.374675E+02    0.394786E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.355559E+02    0.397925E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.336838E+02    0.422891E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.309033E+02    0.406297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.296224E+02    0.377790E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.300756E+02    0.345215E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.321045E+02    0.317056E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.353924E+02    0.298313E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.388840E+02    0.297282E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.417763E+02    0.313803E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.434213E+02    0.341835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.429153E+02    0.377092E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.404854E+02    0.408043E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.371355E+02    0.424148E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.371117E+02    0.266719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.352581E+02    0.269044E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.366150E+02    0.249548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.387459E+02    0.253024E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.386065E+02    0.275850E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.364379E+02    0.285881E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.345807E+02    0.300147E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.335504E+02    0.285062E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.333635E+02    0.266271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.341988E+02    0.247724E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.358533E+02    0.233850E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.378466E+02    0.228780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.397520E+02    0.232993E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.409298E+02    0.246723E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.410366E+02    0.266537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.401596E+02    0.286141E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.383475E+02    0.301248E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.363442E+02    0.305899E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.345251E+02    0.331476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.318458E+02    0.315212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.304899E+02    0.286927E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.308819E+02    0.253619E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.329513E+02    0.223886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.363136E+02    0.203096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.398257E+02    0.200801E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.427744E+02    0.215646E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.442969E+02    0.243877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.438865E+02    0.279314E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.415245E+02    0.311926E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.379978E+02    0.330957E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.361480E+02    0.420733E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.343030E+02    0.421746E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.356295E+02    0.403899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.377247E+02    0.409029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.376873E+02    0.430339E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.355902E+02    0.437913E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.336972E+02    0.450319E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.326439E+02    0.435507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.325254E+02    0.417009E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.333342E+02    0.399577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.349370E+02    0.387199E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.368406E+02    0.383926E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.387064E+02    0.390002E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.399110E+02    0.404592E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.402290E+02    0.423071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.391795E+02    0.442001E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.375159E+02    0.454185E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.355090E+02    0.457107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.336004E+02    0.481924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.310148E+02    0.463058E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.296216E+02    0.434649E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.300397E+02    0.402721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.321899E+02    0.373750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.353301E+02    0.357395E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.388181E+02    0.357382E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.417796E+02    0.374289E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.434652E+02    0.403934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.428923E+02    0.439357E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133809E+03   -0.406026E+02    0.468955E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.372160E+02    0.484132E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.365730E+02    0.318266E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.347220E+02    0.320192E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.360092E+02    0.301708E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.381202E+02    0.305778E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.380529E+02    0.327399E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.359735E+02    0.335753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.341069E+02    0.348911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.330101E+02    0.335124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.328425E+02    0.317022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.336929E+02    0.298426E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.353576E+02    0.284245E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.373517E+02    0.279317E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.391467E+02    0.285155E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.402998E+02    0.299895E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.404829E+02    0.319029E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.395876E+02    0.337551E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.378619E+02    0.350798E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.358591E+02    0.354867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.340100E+02    0.380440E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.313639E+02    0.363172E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.299667E+02    0.336218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.303873E+02    0.303622E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.325651E+02    0.272065E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.357658E+02    0.253505E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.392687E+02    0.251782E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.421829E+02    0.267545E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.438658E+02    0.296403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.433046E+02    0.332109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.408092E+02    0.363593E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.374683E+02    0.380830E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.372338E+02    0.199992E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.352901E+02    0.203666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.367084E+02    0.182883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.388488E+02    0.185911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.387480E+02    0.208535E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.364984E+02    0.219611E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.346604E+02    0.233581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.336051E+02    0.219481E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.333033E+02    0.202483E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.342838E+02    0.181611E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.359215E+02    0.167129E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.379094E+02    0.161558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.398240E+02    0.165347E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.409246E+02    0.180009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.411664E+02    0.198769E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.402240E+02    0.218624E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.384359E+02    0.233557E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.364371E+02    0.238597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.345632E+02    0.265394E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.317750E+02    0.250688E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.305378E+02    0.222261E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.309634E+02    0.188433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.331656E+02    0.155543E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.363371E+02    0.136072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.399433E+02    0.131947E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.429199E+02    0.146040E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.444937E+02    0.174177E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.439398E+02    0.210767E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.414339E+02    0.244259E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.380388E+02    0.263794E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675779.652185651     
  ps_ts2 prof sum =   675342.463634831     
  trcom prof sum =    675342.463634831     
  ps_ts2 cur sum  =   15856.3311901078     
  trcom cur sum  =    15856.3311901077     
  
  antenna # iant =            2
  powecha_use(iant) =    683166.481739944     
  ps_ts2 prof sum =   682773.349382166     
  trcom prof sum =    682773.349382166     
  ps_ts2 cur sum  =   18740.6684208907     
  trcom cur sum  =    18740.6684208907     
  
  antenna # iant =            3
  powecha_use(iant) =    520572.376415039     
  ps_ts2 prof sum =   520212.366934988     
  trcom prof sum =    520212.366934988     
  ps_ts2 cur sum  =   10714.8297547988     
  trcom cur sum  =    10714.8297547988     
  
  antenna # iant =            4
  powecha_use(iant) =    575493.456944896     
  ps_ts2 prof sum =   575159.475794102     
  trcom prof sum =    575159.475794101     
  ps_ts2 cur sum  =   14618.8754660826     
  trcom cur sum  =    14618.8754660826     
  
  antenna # iant =            5
  powecha_use(iant) =    545144.094705923     
  ps_ts2 prof sum =   544850.509002445     
  trcom prof sum =    544850.509002445     
  ps_ts2 cur sum  =   16068.2493647422     
  trcom cur sum  =    16068.2493647422     
  
  Total ECH heating:      2998338.16474853     
  Total Current Drive:    75998.9541966220     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1150
 TA= 1.46500E+00 CPU TIME= 1.58985E-01 SECONDS.  DT= 2.00157E-03
  
 TEC1=    1.46499999999999     
 TEC2=    1.46999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.86586777777757     
  %check_save_state: izleft hours =    77.1255555555556     
 --> plasma_hash("gframe"): TA= 1.465000E+00 NSTEP=  1150 Hash code:   37879708
 ->PRGCHK: bdy curvature ratio at t= 1.4700E+00 seconds is:  5.5425E-02
% MHDEQ: TG1=     1.465000 ; TG2=     1.470000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7627E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5425E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.465000 TO TG2=    1.470000 @ NSTEP     1150
   GFRAME TG2 MOMENTS CHECKSUM:  2.4797312527701D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.63458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.06621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -6.88569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.85105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.66046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.63230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.72786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.36220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.57082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -2.66447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.32226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.22526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.81426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -1.33540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.48763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       8= -1.47141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.35986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.50776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.23348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.59404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.39579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.39579E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.4700E+00  1.4750E+00 total power(Watts):  3.0154E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.47000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.361863E+02    0.361420E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.342543E+02    0.363632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.356409E+02    0.344938E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.377457E+02    0.349272E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.376496E+02    0.371056E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.355652E+02    0.379365E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.336899E+02    0.392557E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.326149E+02    0.378014E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.324707E+02    0.359398E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.333386E+02    0.341367E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.349216E+02    0.328969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.369108E+02    0.324662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.386936E+02    0.330508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.398267E+02    0.344713E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.401805E+02    0.362528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.391609E+02    0.382129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.374251E+02    0.395380E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.354261E+02    0.399035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.336435E+02    0.423483E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.309457E+02    0.406385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.295871E+02    0.378329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.300417E+02    0.345678E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.321535E+02    0.316832E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.352664E+02    0.299765E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.387487E+02    0.298723E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.417356E+02    0.314336E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.433788E+02    0.342296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.428705E+02    0.377660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.405387E+02    0.408206E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.369972E+02    0.425190E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.370750E+02    0.267541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.351330E+02    0.270720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.365792E+02    0.250361E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.387085E+02    0.253847E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.385685E+02    0.276660E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.364012E+02    0.286652E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.345450E+02    0.300800E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.333437E+02    0.287487E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.333294E+02    0.267085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.341646E+02    0.248520E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.358187E+02    0.234641E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.378108E+02    0.229563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.396164E+02    0.234709E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.407905E+02    0.248431E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.409974E+02    0.267368E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.400205E+02    0.287712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.383093E+02    0.301892E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.363073E+02    0.306508E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.344886E+02    0.331932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.316472E+02    0.317266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.303781E+02    0.288532E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.308488E+02    0.254429E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.329187E+02    0.224655E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.361887E+02    0.204901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.397898E+02    0.201610E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.427363E+02    0.216430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.443638E+02    0.243827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.438460E+02    0.280114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.412813E+02    0.313914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.378639E+02    0.332112E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.361059E+02    0.421332E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.342624E+02    0.422340E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.355884E+02    0.404503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.376856E+02    0.409624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.376444E+02    0.430916E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.354594E+02    0.438845E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.336566E+02    0.450775E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.326045E+02    0.436058E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.324041E+02    0.418057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.332950E+02    0.400171E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.348087E+02    0.388318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.367989E+02    0.384499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.386632E+02    0.390592E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.398667E+02    0.405211E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.401837E+02    0.423691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.391352E+02    0.442530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.375633E+02    0.454307E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.353795E+02    0.457854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.335597E+02    0.482285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.309790E+02    0.463422E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.295858E+02    0.435190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.300034E+02    0.403311E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.321529E+02    0.374288E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.352909E+02    0.357895E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.387770E+02    0.357883E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.418368E+02    0.374295E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.433159E+02    0.405030E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133671E+03   -0.428450E+02    0.439935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.405575E+02    0.469337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.371726E+02    0.484504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.365355E+02    0.318776E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.346002E+02    0.321416E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.359691E+02    0.302371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.380819E+02    0.306379E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.380139E+02    0.327870E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.358449E+02    0.336897E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.340703E+02    0.349379E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.329745E+02    0.335585E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.328077E+02    0.317548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.336583E+02    0.299099E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.352325E+02    0.285848E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.372206E+02    0.280938E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.391085E+02    0.285931E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.402600E+02    0.300548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.404429E+02    0.319533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.394481E+02    0.338687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.378225E+02    0.351267E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.358197E+02    0.355357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.339711E+02    0.380995E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.311661E+02    0.364946E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.299332E+02    0.336673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.303545E+02    0.304260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.325315E+02    0.272873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.357303E+02    0.254317E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.392288E+02    0.252625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.421429E+02    0.268381E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.437190E+02    0.297819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.432625E+02    0.332569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.407664E+02    0.364118E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.374268E+02    0.381392E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.371066E+02    0.201805E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.352571E+02    0.204470E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.365842E+02    0.184766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.387188E+02    0.187769E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.386162E+02    0.210305E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.364638E+02    0.220384E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.346264E+02    0.234359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.334011E+02    0.222214E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.332723E+02    0.203295E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.342549E+02    0.182433E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.358897E+02    0.168022E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.378761E+02    0.162464E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.396916E+02    0.167297E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.408894E+02    0.180858E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.410292E+02    0.200569E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.400880E+02    0.220351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.383993E+02    0.234345E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.364020E+02    0.239388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.345283E+02    0.266211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.317422E+02    0.251483E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.305083E+02    0.223031E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.309337E+02    0.189268E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.329675E+02    0.158686E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.363060E+02    0.137053E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.398128E+02    0.134053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.427793E+02    0.148101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.442440E+02    0.177072E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.439015E+02    0.211555E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.413951E+02    0.245076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.380018E+02    0.264625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687452.187283918     
  ps_ts2 prof sum =   687048.747243129     
  trcom prof sum =    687048.747243129     
  ps_ts2 cur sum  =   16299.6606630794     
  trcom cur sum  =    16299.6606630794     
  
  antenna # iant =            2
  powecha_use(iant) =    687341.536836456     
  ps_ts2 prof sum =   686915.865180600     
  trcom prof sum =    686915.865180599     
  ps_ts2 cur sum  =   19044.7886103205     
  trcom cur sum  =    19044.7886103205     
  
  antenna # iant =            3
  powecha_use(iant) =    519920.370600014     
  ps_ts2 prof sum =   519588.175170620     
  trcom prof sum =    519588.175170620     
  ps_ts2 cur sum  =   10818.5398102507     
  trcom cur sum  =    10818.5398102507     
  
  antenna # iant =            4
  powecha_use(iant) =    576110.505086064     
  ps_ts2 prof sum =   575775.190745612     
  trcom prof sum =    575775.190745611     
  ps_ts2 cur sum  =   14784.3905754184     
  trcom cur sum  =    14784.3905754184     
  
  antenna # iant =            5
  powecha_use(iant) =    544555.299232191     
  ps_ts2 prof sum =   544227.003877366     
  trcom prof sum =    544227.003877365     
  ps_ts2 cur sum  =   16210.3412585913     
  trcom cur sum  =    16210.3412585913     
  
  Total ECH heating:      3013554.98221732     
  Total Current Drive:    77157.7209176601     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1153
 TA= 1.47000E+00 CPU TIME= 1.86740E-01 SECONDS.  DT= 6.20595E-04
  
 TEC1=    1.46999999999999     
 TEC2=    1.47499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.88511333333327     
  %check_save_state: izleft hours =    77.1063888888889     
 --> plasma_hash("gframe"): TA= 1.470000E+00 NSTEP=  1153 Hash code:  111679160
 ->PRGCHK: bdy curvature ratio at t= 1.4750E+00 seconds is:  5.5529E-02
% MHDEQ: TG1=     1.470000 ; TG2=     1.475000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5529E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.470000 TO TG2=    1.475000 @ NSTEP     1153
   GFRAME TG2 MOMENTS CHECKSUM:  2.4794320866272D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4750E+00  1.4800E+00 total power(Watts):  3.0113E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.47500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.360557E+02    0.362565E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.342159E+02    0.364168E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.356038E+02    0.345408E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.377058E+02    0.349762E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.376088E+02    0.371614E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.354357E+02    0.380507E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.336506E+02    0.393163E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.325775E+02    0.378580E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.324346E+02    0.359918E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.332176E+02    0.342519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.348862E+02    0.329426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.367806E+02    0.325849E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.386551E+02    0.330968E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.397862E+02    0.345187E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.399416E+02    0.364260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.390214E+02    0.383267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.373832E+02    0.396002E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.353854E+02    0.399657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.335191E+02    0.424517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.309086E+02    0.407005E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.295521E+02    0.378887E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.300080E+02    0.346151E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.321201E+02    0.317344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.352314E+02    0.300408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.387112E+02    0.299375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.417986E+02    0.314132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.433318E+02    0.342809E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.428259E+02    0.378259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.402975E+02    0.409773E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.369549E+02    0.425794E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.370393E+02    0.268416E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.350986E+02    0.271587E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.364521E+02    0.252143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.385755E+02    0.255622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.385318E+02    0.277511E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.363657E+02    0.287427E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.345106E+02    0.301432E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.333966E+02    0.287439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.332964E+02    0.267956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.341316E+02    0.249393E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.357851E+02    0.235485E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.376813E+02    0.231344E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.395804E+02    0.235572E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.407532E+02    0.249327E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.408582E+02    0.269099E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.399829E+02    0.288474E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.382722E+02    0.302501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.362718E+02    0.307081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.343652E+02    0.333097E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.316140E+02    0.317782E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.303464E+02    0.289301E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.308189E+02    0.255282E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.329724E+02    0.224498E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.361570E+02    0.205729E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.396570E+02    0.203434E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.425953E+02    0.218210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.441108E+02    0.246489E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.437003E+02    0.281730E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.412419E+02    0.314434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.378256E+02    0.332571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.360640E+02    0.421950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.342220E+02    0.422945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.355474E+02    0.405138E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.376389E+02    0.410282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.376005E+02    0.431517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.354176E+02    0.439377E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.336162E+02    0.451221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.325656E+02    0.436589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.323653E+02    0.418668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.331721E+02    0.401302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.347690E+02    0.388917E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.367582E+02    0.385087E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.385279E+02    0.391716E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.399200E+02    0.405389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.399450E+02    0.425134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.391851E+02    0.442707E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.373375E+02    0.455391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.353371E+02    0.458268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.335192E+02    0.482663E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.308596E+02    0.464137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.296245E+02    0.435302E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.300453E+02    0.403411E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.319510E+02    0.376032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.351630E+02    0.359044E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.386394E+02    0.359023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.417933E+02    0.374873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.432715E+02    0.405691E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.427987E+02    0.440503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.405123E+02    0.469723E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.369483E+02    0.485356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.364065E+02    0.320009E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.345648E+02    0.321904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.359334E+02    0.302984E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.380449E+02    0.306957E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.379757E+02    0.328337E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.358079E+02    0.337355E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.340327E+02    0.349869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.327697E+02    0.337449E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.327738E+02    0.318055E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.336245E+02    0.299748E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.351976E+02    0.286628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.371846E+02    0.281760E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.389740E+02    0.287507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.401270E+02    0.301897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.403037E+02    0.320734E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.394083E+02    0.339148E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.377822E+02    0.351769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.357817E+02    0.355864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.339323E+02    0.381568E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.311305E+02    0.365479E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.299004E+02    0.337135E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.303228E+02    0.304875E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.323306E+02    0.275457E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.356055E+02    0.256096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.390944E+02    0.254400E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.422079E+02    0.268440E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.436795E+02    0.298451E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.430116E+02    0.334360E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.408241E+02    0.364075E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.372922E+02    0.382529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.370745E+02    0.202641E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.350467E+02    0.207306E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.365524E+02    0.185626E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.386857E+02    0.188627E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.385821E+02    0.211128E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.364306E+02    0.221207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.345937E+02    0.235204E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.334555E+02    0.222050E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.333270E+02    0.203104E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.340482E+02    0.185433E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.358591E+02    0.168906E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.378444E+02    0.163357E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.396587E+02    0.168184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.408554E+02    0.181730E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.409941E+02    0.201404E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.400525E+02    0.221184E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.383642E+02    0.235203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.363680E+02    0.240255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.344944E+02    0.267087E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.317934E+02    0.251429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.303991E+02    0.224828E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.309053E+02    0.190117E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.329392E+02    0.159578E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.362765E+02    0.137986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.397819E+02    0.134995E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.427480E+02    0.148992E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.442085E+02    0.177951E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.436526E+02    0.214284E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.412557E+02    0.246860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.378702E+02    0.266371E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687597.588874764     
  ps_ts2 prof sum =   687193.287987750     
  trcom prof sum =    687193.287987750     
  ps_ts2 cur sum  =   16483.1580843386     
  trcom cur sum  =    16483.1580843386     
  
  antenna # iant =            2
  powecha_use(iant) =    685768.213692045     
  ps_ts2 prof sum =   685372.241017502     
  trcom prof sum =    685372.241017501     
  ps_ts2 cur sum  =   19202.9248052175     
  trcom cur sum  =    19202.9248052175     
  
  antenna # iant =            3
  powecha_use(iant) =    519811.502059091     
  ps_ts2 prof sum =   519482.731187983     
  trcom prof sum =    519482.731187983     
  ps_ts2 cur sum  =   10943.2327953864     
  trcom cur sum  =    10943.2327953864     
  
  antenna # iant =            4
  powecha_use(iant) =    573544.277090423     
  ps_ts2 prof sum =   573194.059230474     
  trcom prof sum =    573194.059230473     
  ps_ts2 cur sum  =   14878.9811348550     
  trcom cur sum  =    14878.9811348550     
  
  antenna # iant =            5
  powecha_use(iant) =    544543.494089269     
  ps_ts2 prof sum =   544240.102050375     
  trcom prof sum =    544240.102050375     
  ps_ts2 cur sum  =   16384.0793099954     
  trcom cur sum  =    16384.0793099954     
  
  Total ECH heating:      3009482.42147408     
  Total Current Drive:    77892.3761297929     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1158
 TA= 1.47500E+00 CPU TIME= 1.65281E-01 SECONDS.  DT= 1.77735E-03
  
 TEC1=    1.47499999999999     
 TEC2=    1.47999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.90059250000013     
  %check_save_state: izleft hours =    77.0908333333333     
 --> plasma_hash("gframe"): TA= 1.475000E+00 NSTEP=  1158 Hash code:   78189431
 ->PRGCHK: bdy curvature ratio at t= 1.4800E+00 seconds is:  5.5633E-02
% MHDEQ: TG1=     1.475000 ; TG2=     1.480000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5633E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.475000 TO TG2=    1.480000 @ NSTEP     1158
   GFRAME TG2 MOMENTS CHECKSUM:  2.4791329204844D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.19733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.05190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.07071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.42226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.46024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.62661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -3.80236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.63118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.95117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.45677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  4.62798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.58639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       8= -3.55771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.25017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.45512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.33847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.34435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.36903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.36903E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4800E+00  1.4850E+00 total power(Watts):  3.0284E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.48000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.360158E+02    0.363101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.341773E+02    0.364707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.354740E+02    0.346566E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.375705E+02    0.350908E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.375670E+02    0.372181E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.353951E+02    0.381093E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.336111E+02    0.393787E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.325367E+02    0.379181E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.323980E+02    0.360443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.331814E+02    0.342993E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.347604E+02    0.330604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.367433E+02    0.326318E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.385187E+02    0.332125E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.397450E+02    0.345671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.398988E+02    0.364805E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.389778E+02    0.383874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.373404E+02    0.396650E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.353441E+02    0.400306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.334783E+02    0.425136E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.308707E+02    0.407647E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.295166E+02    0.379455E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.300529E+02    0.345946E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.319192E+02    0.319354E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.351959E+02    0.301021E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.386739E+02    0.299998E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.415530E+02    0.316076E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.431890E+02    0.343905E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.426776E+02    0.379398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.402518E+02    0.410461E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.369114E+02    0.426414E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.369096E+02    0.270127E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.350638E+02    0.272432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.364171E+02    0.253009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.385389E+02    0.256493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.383978E+02    0.279160E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.362374E+02    0.288971E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.344756E+02    0.302035E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.333653E+02    0.288146E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.330915E+02    0.270556E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.339227E+02    0.252071E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.356602E+02    0.237250E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.376462E+02    0.232165E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.395440E+02    0.236410E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.407155E+02    0.250195E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.408194E+02    0.269961E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.398485E+02    0.289967E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.382352E+02    0.303091E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.362353E+02    0.307639E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.343285E+02    0.333565E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.316630E+02    0.317528E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.303145E+02    0.290033E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.307876E+02    0.256133E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.327708E+02    0.227243E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.361241E+02    0.206529E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.396222E+02    0.204237E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.425583E+02    0.219022E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.441789E+02    0.246498E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.436607E+02    0.282496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.410999E+02    0.315665E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.377867E+02    0.333034E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.360212E+02    0.422589E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.340916E+02    0.424027E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.354161E+02    0.406287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.375952E+02    0.410951E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.374641E+02    0.432503E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.353753E+02    0.439904E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.335753E+02    0.451649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.324429E+02    0.437531E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.323260E+02    0.419304E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.331323E+02    0.401947E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.347286E+02    0.389529E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.367163E+02    0.385693E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.384810E+02    0.392366E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.396798E+02    0.407005E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.400008E+02    0.425354E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.389498E+02    0.443939E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.372928E+02    0.455821E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.352943E+02    0.458667E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.334769E+02    0.483065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.308205E+02    0.464518E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.295879E+02    0.435834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.300082E+02    0.404052E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.319960E+02    0.376004E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.351243E+02    0.359569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.385982E+02    0.359551E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.415453E+02    0.376570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.431191E+02    0.406844E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.426497E+02    0.441409E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.403693E+02    0.470378E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.369034E+02    0.485771E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.363697E+02    0.320493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.345289E+02    0.322385E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.358974E+02    0.303572E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.380076E+02    0.307508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.379371E+02    0.328800E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.357706E+02    0.337820E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.339078E+02    0.351024E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.328190E+02    0.337209E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.325697E+02    0.320052E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.335036E+02    0.301158E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.351625E+02    0.287370E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.371483E+02    0.282548E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.389364E+02    0.288237E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.400837E+02    0.302521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.402639E+02    0.321216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.393676E+02    0.339620E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.376473E+02    0.352912E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.356513E+02    0.357018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.338066E+02    0.382728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.310942E+02    0.366011E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.299460E+02    0.336894E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.302907E+02    0.305463E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.322976E+02    0.276283E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.355691E+02    0.256976E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.390576E+02    0.255272E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.419618E+02    0.270968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.434268E+02    0.300555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.430745E+02    0.334163E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.405804E+02    0.365804E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.372501E+02    0.383125E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.43 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.370405E+02    0.203448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.351046E+02    0.207105E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.365196E+02    0.186463E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.386514E+02    0.189462E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.385475E+02    0.211924E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.363969E+02    0.222006E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.343835E+02    0.237913E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.334237E+02    0.222844E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.332955E+02    0.203912E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.340174E+02    0.186265E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.357379E+02    0.170805E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.377183E+02    0.165252E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.396235E+02    0.169036E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.407204E+02    0.183596E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.408575E+02    0.203199E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.400166E+02    0.221992E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.383286E+02    0.236038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.362428E+02    0.241998E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.343717E+02    0.268811E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.315962E+02    0.254116E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.303691E+02    0.225622E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.307962E+02    0.192008E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.329944E+02    0.159271E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.360654E+02    0.141014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.397504E+02    0.135768E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.426108E+02    0.150871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.442791E+02    0.177787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.437215E+02    0.214151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.412178E+02    0.247730E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.378335E+02    0.267231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695104.367614102     
  ps_ts2 prof sum =   694690.228407669     
  trcom prof sum =    694690.228407670     
  ps_ts2 cur sum  =   16833.6199938507     
  trcom cur sum  =    16833.6199938507     
  
  antenna # iant =            2
  powecha_use(iant) =    688687.768091467     
  ps_ts2 prof sum =   688278.162132618     
  trcom prof sum =    688278.162132617     
  ps_ts2 cur sum  =   19469.2047381298     
  trcom cur sum  =    19469.2047381298     
  
  antenna # iant =            3
  powecha_use(iant) =    521996.708382457     
  ps_ts2 prof sum =   521662.475916212     
  trcom prof sum =    521662.475916212     
  ps_ts2 cur sum  =   11105.1412903904     
  trcom cur sum  =    11105.1412903904     
  
  antenna # iant =            4
  powecha_use(iant) =    578304.863323002     
  ps_ts2 prof sum =   577953.014495500     
  trcom prof sum =    577953.014495500     
  ps_ts2 cur sum  =   15150.2857464907     
  trcom cur sum  =    15150.2857464907     
  
  antenna # iant =            5
  powecha_use(iant) =    544313.842142031     
  ps_ts2 prof sum =   544004.871119735     
  trcom prof sum =    544004.871119735     
  ps_ts2 cur sum  =   16534.1638675743     
  trcom cur sum  =    16534.1638675743     
  
  Total ECH heating:      3026588.75207173     
  Total Current Drive:    79092.4156364359     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1161
 TA= 1.48000E+00 CPU TIME= 1.47412E-01 SECONDS.  DT= 1.25119E-03
  
 TEC1=    1.47999999999999     
 TEC2=    1.48499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.91446749999955     
  %check_save_state: izleft hours =    77.0772222222222     
 --> plasma_hash("gframe"): TA= 1.480000E+00 NSTEP=  1161 Hash code:   37661295
 ->PRGCHK: bdy curvature ratio at t= 1.4850E+00 seconds is:  5.5737E-02
% MHDEQ: TG1=     1.480000 ; TG2=     1.485000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5737E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.480000 TO TG2=    1.485000 @ NSTEP     1161
   GFRAME TG2 MOMENTS CHECKSUM:  2.4788337543415D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.4850E+00  1.4900E+00 total power(Watts):  3.0289E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.48500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.359745E+02    0.363677E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.341374E+02    0.365278E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.354343E+02    0.347131E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.375287E+02    0.351488E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.375242E+02    0.372751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.353534E+02    0.381657E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.335706E+02    0.394344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.323326E+02    0.380872E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.321928E+02    0.362280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.331433E+02    0.343557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.347217E+02    0.331152E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.367033E+02    0.326863E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.384771E+02    0.332675E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.397015E+02    0.346249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.398544E+02    0.365387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.389334E+02    0.384438E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.372031E+02    0.397725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.353015E+02    0.400871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.334375E+02    0.425637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.308323E+02    0.408197E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.294801E+02    0.380010E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.298589E+02    0.347885E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.318833E+02    0.319905E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.351584E+02    0.301628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.386340E+02    0.300608E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.415104E+02    0.316627E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.431436E+02    0.344490E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.426310E+02    0.379976E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.403040E+02    0.410572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.368670E+02    0.426919E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.368719E+02    0.270954E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.350270E+02    0.273240E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.363800E+02    0.253852E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.385001E+02    0.257345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.383586E+02    0.279931E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.361994E+02    0.289662E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.343501E+02    0.303423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.333267E+02    0.288869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.331423E+02    0.270503E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.338872E+02    0.252912E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.356241E+02    0.238082E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.376089E+02    0.232993E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.394065E+02    0.238172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.405746E+02    0.251939E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.407793E+02    0.270792E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.398048E+02    0.290659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.380989E+02    0.304453E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.361044E+02    0.308978E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.342902E+02    0.334113E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.316278E+02    0.318081E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.302810E+02    0.290728E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138482E+03   -0.306737E+02    0.257881E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.327370E+02    0.228047E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.360892E+02    0.207336E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.395854E+02    0.205045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.425186E+02    0.219841E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.441374E+02    0.247370E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.434053E+02    0.284804E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.410575E+02    0.316216E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.377458E+02    0.333588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.358874E+02    0.423541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.340526E+02    0.424517E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.353732E+02    0.406846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.374570E+02    0.411969E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.374190E+02    0.432974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.353318E+02    0.440316E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.335335E+02    0.452011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.324025E+02    0.437948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.322854E+02    0.419835E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.330916E+02    0.402504E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.346872E+02    0.390090E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.366727E+02    0.386263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.384365E+02    0.392931E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.396338E+02    0.407573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.399505E+02    0.425883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.389033E+02    0.444344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.372481E+02    0.456173E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.352512E+02    0.459016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.334330E+02    0.483471E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.307822E+02    0.464848E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.295500E+02    0.436258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.299704E+02    0.404598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.319575E+02    0.376564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.350837E+02    0.360146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.385551E+02    0.360130E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.416013E+02    0.376595E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.430710E+02    0.407425E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.426012E+02    0.441835E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.403214E+02    0.470739E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.369466E+02    0.485971E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.363305E+02    0.321036E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.344906E+02    0.322929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.357676E+02    0.304941E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.378719E+02    0.308846E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.378005E+02    0.330051E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.357308E+02    0.338378E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.338693E+02    0.351599E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.327818E+02    0.337762E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.325332E+02    0.320601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.334674E+02    0.301768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.351254E+02    0.288071E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.370156E+02    0.284110E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.388969E+02    0.288929E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.400432E+02    0.303119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.402220E+02    0.321763E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.393252E+02    0.340185E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.376049E+02    0.353496E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.356105E+02    0.357598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.337662E+02    0.383285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.311391E+02    0.365942E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.297533E+02    0.338869E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.301768E+02    0.306852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.323472E+02    0.276217E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.355341E+02    0.257807E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.390185E+02    0.256127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.419206E+02    0.271792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.434903E+02    0.300414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.430301E+02    0.334729E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.405354E+02    0.366384E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.372097E+02    0.383673E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.370051E+02    0.204261E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.350701E+02    0.207904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.364855E+02    0.187305E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.385195E+02    0.191322E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.385106E+02    0.212725E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.362686E+02    0.223780E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.344368E+02    0.237797E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.333899E+02    0.223648E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.330913E+02    0.206752E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.340705E+02    0.186055E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.357045E+02    0.171639E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.376843E+02    0.166082E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.395894E+02    0.169857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.406828E+02    0.184443E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.408195E+02    0.204009E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.398786E+02    0.223757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.381947E+02    0.237806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.362042E+02    0.242856E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.343355E+02    0.269635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.315626E+02    0.254955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.303369E+02    0.226419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.307645E+02    0.192839E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.329635E+02    0.160080E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.361233E+02    0.140662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.397156E+02    0.136538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.425743E+02    0.151676E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.440273E+02    0.180668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.434689E+02    0.216856E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.411776E+02    0.248586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.377949E+02    0.268063E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694808.428791761     
  ps_ts2 prof sum =   694374.883762628     
  trcom prof sum =    694374.883762628     
  ps_ts2 cur sum  =   16975.0160701961     
  trcom cur sum  =    16975.0160701961     
  
  antenna # iant =            2
  powecha_use(iant) =    689931.973796544     
  ps_ts2 prof sum =   689517.394788590     
  trcom prof sum =    689517.394788590     
  ps_ts2 cur sum  =   19665.3755751134     
  trcom cur sum  =    19665.3755751134     
  
  antenna # iant =            3
  powecha_use(iant) =    522490.104575462     
  ps_ts2 prof sum =   522181.509729201     
  trcom prof sum =    522181.509729201     
  ps_ts2 cur sum  =   11220.1281580234     
  trcom cur sum  =    11220.1281580234     
  
  antenna # iant =            4
  powecha_use(iant) =    577772.670350978     
  ps_ts2 prof sum =   577429.601005547     
  trcom prof sum =    577429.601005547     
  ps_ts2 cur sum  =   15267.2358378320     
  trcom cur sum  =    15267.2358378320     
  
  antenna # iant =            5
  powecha_use(iant) =    543935.938718226     
  ps_ts2 prof sum =   543630.695558352     
  trcom prof sum =    543630.695558352     
  ps_ts2 cur sum  =   16656.9866422616     
  trcom cur sum  =    16656.9866422616     
  
  Total ECH heating:      3027134.08484432     
  Total Current Drive:    79784.7422834264     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1165
 TA= 1.48500E+00 CPU TIME= 1.61058E-01 SECONDS.  DT= 2.87282E-04
  
 TEC1=    1.48499999999999     
 TEC2=    1.48999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.92678361111120     
  %check_save_state: izleft hours =    77.0647222222222     
 --> plasma_hash("gframe"): TA= 1.485000E+00 NSTEP=  1165 Hash code:   47811520
 ->PRGCHK: bdy curvature ratio at t= 1.4900E+00 seconds is:  5.5841E-02
% MHDEQ: TG1=     1.485000 ; TG2=     1.490000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7744E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5841E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.485000 TO TG2=    1.490000 @ NSTEP     1165
   GFRAME TG2 MOMENTS CHECKSUM:  2.4785345881987D+04
 %MFRCHK - LABEL "RMS12", #       1= -2.03532E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.32521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.53363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.59807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.90967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.57382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.69124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -5.12065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.98909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.63363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.12454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.63681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.70081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       8= -5.97477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.28163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.39414E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.46010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.05507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.72612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.72612E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4900E+00  1.4950E+00 total power(Watts):  3.0146E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.49000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.359318E+02    0.364400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.340963E+02    0.365988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.353935E+02    0.347883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.374854E+02    0.352247E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.373849E+02    0.374019E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.353109E+02    0.382283E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.334427E+02    0.395440E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.323771E+02    0.380924E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.321535E+02    0.362995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.331042E+02    0.344305E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.346820E+02    0.331880E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.366622E+02    0.327583E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.384346E+02    0.333416E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.395576E+02    0.347670E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.399076E+02    0.365523E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.388877E+02    0.385062E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.371583E+02    0.398282E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.352585E+02    0.401409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.333946E+02    0.426057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.306316E+02    0.409698E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.294428E+02    0.380633E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138472E+03   -0.298230E+02    0.348615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.318465E+02    0.320582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.351201E+02    0.302290E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.385932E+02    0.301269E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.414666E+02    0.317327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.430969E+02    0.345281E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.425831E+02    0.380641E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.402562E+02    0.411083E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.368213E+02    0.427340E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.368329E+02    0.271738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.349899E+02    0.274016E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.363428E+02    0.254684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.383639E+02    0.259052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.383183E+02    0.280675E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.361607E+02    0.290354E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.343121E+02    0.304088E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.331175E+02    0.291213E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.331067E+02    0.271288E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.339396E+02    0.252832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.355877E+02    0.238911E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.375713E+02    0.233820E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.393675E+02    0.239007E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.405341E+02    0.252778E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.407383E+02    0.271581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.397636E+02    0.291346E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.380581E+02    0.305115E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.360648E+02    0.309640E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.342487E+02    0.334863E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.315913E+02    0.318758E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.302472E+02    0.291416E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138621E+03   -0.306400E+02    0.258700E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.327035E+02    0.228854E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.359615E+02    0.209129E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.395480E+02    0.205847E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.425834E+02    0.219719E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.438804E+02    0.249962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.433626E+02    0.285515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.410141E+02    0.316912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.377036E+02    0.334328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.358424E+02    0.423981E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.340094E+02    0.424943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.353295E+02    0.407362E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.374111E+02    0.412468E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.373723E+02    0.433365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.352868E+02    0.440686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.334044E+02    0.452714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.323600E+02    0.438314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.322427E+02    0.420288E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.330502E+02    0.403031E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.346444E+02    0.390675E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.365370E+02    0.387407E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.383910E+02    0.393510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.395865E+02    0.408099E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.397069E+02    0.427132E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.388555E+02    0.444701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.372925E+02    0.456214E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.352052E+02    0.459385E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.333872E+02    0.483932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.307393E+02    0.465242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.295106E+02    0.436624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.297750E+02    0.406132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.319182E+02    0.377212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.350422E+02    0.360874E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.385104E+02    0.360877E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.415542E+02    0.377268E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.430215E+02    0.407963E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.425503E+02    0.442209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.402704E+02    0.471154E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.368990E+02    0.486430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.362899E+02    0.321736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.344515E+02    0.323628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.357288E+02    0.305606E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.378309E+02    0.309505E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.377586E+02    0.330779E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.356897E+02    0.339127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.338298E+02    0.352343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.327431E+02    0.338500E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.324958E+02    0.321281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.334303E+02    0.302427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.350878E+02    0.288769E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.369766E+02    0.284829E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.388562E+02    0.289624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.400011E+02    0.303785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.401792E+02    0.322471E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.392813E+02    0.340948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.375613E+02    0.354253E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.355683E+02    0.358337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.337247E+02    0.383898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.311035E+02    0.366620E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.297172E+02    0.339594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.301420E+02    0.307504E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.323125E+02    0.276980E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.354971E+02    0.258623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.389791E+02    0.256960E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.418789E+02    0.272576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.434464E+02    0.301083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.427733E+02    0.336828E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.404891E+02    0.367113E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.371627E+02    0.384310E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.368764E+02    0.206054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.350349E+02    0.208702E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.363572E+02    0.189176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.384826E+02    0.192135E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.383770E+02    0.214501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.362323E+02    0.224590E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.344018E+02    0.238624E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.331836E+02    0.226404E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.330578E+02    0.207546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.340373E+02    0.186871E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.356698E+02    0.172446E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.376496E+02    0.166886E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.394555E+02    0.171728E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.406455E+02    0.185267E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.407819E+02    0.204811E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.398403E+02    0.224576E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.381566E+02    0.238633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.361673E+02    0.243689E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.342994E+02    0.270425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.315283E+02    0.255774E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138610E+03   -0.303049E+02    0.227221E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.307343E+02    0.193655E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.327630E+02    0.163078E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.360912E+02    0.141402E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.395837E+02    0.138392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.425377E+02    0.152453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.439888E+02    0.181496E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.434286E+02    0.217671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.411375E+02    0.249428E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.377557E+02    0.268866E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689333.661448465     
  ps_ts2 prof sum =   688915.923662542     
  trcom prof sum =    688915.923662542     
  ps_ts2 cur sum  =   16959.1431662897     
  trcom cur sum  =    16959.1431662897     
  
  antenna # iant =            2
  powecha_use(iant) =    689192.858561741     
  ps_ts2 prof sum =   688786.501128901     
  trcom prof sum =    688786.501128901     
  ps_ts2 cur sum  =   19783.8277744647     
  trcom cur sum  =    19783.8277744647     
  
  antenna # iant =            3
  powecha_use(iant) =    519449.887704903     
  ps_ts2 prof sum =   519136.516754894     
  trcom prof sum =    519136.516754894     
  ps_ts2 cur sum  =   11236.3736907943     
  trcom cur sum  =    11236.3736907943     
  
  antenna # iant =            4
  powecha_use(iant) =    573263.078454148     
  ps_ts2 prof sum =   572935.716503582     
  trcom prof sum =    572935.716503581     
  ps_ts2 cur sum  =   15253.8791083239     
  trcom cur sum  =    15253.8791083238     
  
  antenna # iant =            5
  powecha_use(iant) =    543333.544735952     
  ps_ts2 prof sum =   543001.785752486     
  trcom prof sum =    543001.785752486     
  ps_ts2 cur sum  =   16756.5385474190     
  trcom cur sum  =    16756.5385474190     
  
  Total ECH heating:      3012776.44380240     
  Total Current Drive:    79989.7622872916     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1173
 TA= 1.49000E+00 CPU TIME= 1.45387E-01 SECONDS.  DT= 8.37068E-04
  
 TEC1=    1.48999999999999     
 TEC2=    1.49499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.93906888888864     
  %check_save_state: izleft hours =    77.0525000000000     
 --> plasma_hash("gframe"): TA= 1.490000E+00 NSTEP=  1173 Hash code:   83098005
 ->PRGCHK: bdy curvature ratio at t= 1.4950E+00 seconds is:  5.5946E-02
% MHDEQ: TG1=     1.490000 ; TG2=     1.495000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7773E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5946E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.490000 TO TG2=    1.495000 @ NSTEP     1173
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782354220558D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000000106112566E-006
 EC call, timestep(sec):  1.4950E+00  1.5000E+00 total power(Watts):  3.0252E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.49500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.358896E+02    0.365116E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.340563E+02    0.366687E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.353525E+02    0.348635E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.374432E+02    0.352992E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.373413E+02    0.374703E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.352655E+02    0.382937E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.334017E+02    0.396014E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.323367E+02    0.381557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.321985E+02    0.363073E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.330653E+02    0.345048E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.346426E+02    0.332612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.366216E+02    0.328311E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.383921E+02    0.334162E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.395135E+02    0.348431E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.396637E+02    0.367428E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.387448E+02    0.386240E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.371133E+02    0.398856E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.351251E+02    0.402471E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.333524E+02    0.426467E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.305927E+02    0.410202E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.294839E+02    0.380676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138615E+03   -0.297867E+02    0.349348E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138305E+03   -0.318100E+02    0.321270E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.350820E+02    0.302967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.384551E+02    0.302713E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.415269E+02    0.317316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.428398E+02    0.347327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.423277E+02    0.382374E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.400107E+02    0.412517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.366837E+02    0.428170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.367951E+02    0.272512E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.348637E+02    0.275629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.362130E+02    0.256412E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.383286E+02    0.259854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.382797E+02    0.281403E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.361226E+02    0.291044E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.342746E+02    0.304756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.330815E+02    0.291901E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.330718E+02    0.272067E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.339048E+02    0.253663E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.355526E+02    0.239761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.375345E+02    0.234668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.393297E+02    0.239857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.404946E+02    0.253623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.405963E+02    0.273192E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.397230E+02    0.292036E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.380178E+02    0.305793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.360256E+02    0.310316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.342112E+02    0.335584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.315556E+02    0.319439E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.302141E+02    0.292106E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.306072E+02    0.259521E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138404E+03   -0.326698E+02    0.229685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.359269E+02    0.209949E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.394123E+02    0.207654E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.423349E+02    0.222443E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.439469E+02    0.249946E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.434269E+02    0.285443E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.409716E+02    0.317611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.375660E+02    0.335763E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.357979E+02    0.424411E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.339666E+02    0.425362E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.352860E+02    0.407888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.373649E+02    0.412990E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.373260E+02    0.433751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.351530E+02    0.441419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.333601E+02    0.453073E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.323180E+02    0.438678E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.322033E+02    0.420724E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.330075E+02    0.403582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.346026E+02    0.391273E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.364930E+02    0.388031E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.383456E+02    0.394113E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.396377E+02    0.408179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.396592E+02    0.427554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.389036E+02    0.444701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.370605E+02    0.457224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.351592E+02    0.459761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.332570E+02    0.484669E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.306974E+02    0.465642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.293173E+02    0.437816E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.297365E+02    0.406656E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.318794E+02    0.377865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.350013E+02    0.361593E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.384663E+02    0.361613E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.415074E+02    0.377952E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.429724E+02    0.408519E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.425006E+02    0.442571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.402189E+02    0.471598E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.366677E+02    0.487388E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.362498E+02    0.322444E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.344129E+02    0.324343E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.356901E+02    0.306271E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.377905E+02    0.310185E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.377167E+02    0.331516E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.355576E+02    0.340558E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.337900E+02    0.353083E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.327017E+02    0.339260E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.325440E+02    0.321228E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.333937E+02    0.303093E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.349602E+02    0.290280E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.369344E+02    0.285572E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.387181E+02    0.291119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.399597E+02    0.304465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.400355E+02    0.323904E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.391393E+02    0.342377E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.375185E+02    0.355002E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.355277E+02    0.359061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.336837E+02    0.384523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.310626E+02    0.367334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.296807E+02    0.340321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138727E+03   -0.301084E+02    0.308164E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.322779E+02    0.277728E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.353699E+02    0.260341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.388420E+02    0.258667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.417338E+02    0.274175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.434036E+02    0.301771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.427277E+02    0.337601E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.405435E+02    0.367257E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.370245E+02    0.385492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.368406E+02    0.206873E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.350009E+02    0.209522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.363247E+02    0.189994E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.384471E+02    0.192962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.383405E+02    0.215329E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.361973E+02    0.225426E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.343669E+02    0.239465E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.331539E+02    0.227197E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.330251E+02    0.208362E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.340055E+02    0.187703E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.356362E+02    0.173292E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.376151E+02    0.167707E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.394205E+02    0.172564E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.406090E+02    0.186104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.407443E+02    0.205635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.398022E+02    0.225421E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.381192E+02    0.239483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.361313E+02    0.244536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.342635E+02    0.271206E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.314950E+02    0.256601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138750E+03   -0.302734E+02    0.228047E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138793E+03   -0.307033E+02    0.194481E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.327329E+02    0.163875E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.360594E+02    0.142150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.395504E+02    0.139134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.425022E+02    0.153248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.440572E+02    0.181327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.433891E+02    0.218515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.409950E+02    0.251164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.377217E+02    0.269619E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696221.103240930     
  ps_ts2 prof sum =   695788.096988837     
  trcom prof sum =    695788.096988836     
  ps_ts2 cur sum  =   17250.6710572749     
  trcom cur sum  =    17250.6710572749     
  
  antenna # iant =            2
  powecha_use(iant) =    687558.423946038     
  ps_ts2 prof sum =   687165.466680055     
  trcom prof sum =    687165.466680055     
  ps_ts2 cur sum  =   19877.8050826106     
  trcom cur sum  =    19877.8050826106     
  
  antenna # iant =            3
  powecha_use(iant) =    521211.235648177     
  ps_ts2 prof sum =   520890.233433836     
  trcom prof sum =    520890.233403546     
  ps_ts2 cur sum  =   11361.6386598689     
  trcom cur sum  =    11361.6386598689     
  
  antenna # iant =            4
  powecha_use(iant) =    575530.917235406     
  ps_ts2 prof sum =   575202.217034260     
  trcom prof sum =    575202.217034260     
  ps_ts2 cur sum  =   15422.8313145334     
  trcom cur sum  =    15422.8313145334     
  
  antenna # iant =            5
  powecha_use(iant) =    544647.468625411     
  ps_ts2 prof sum =   544346.748923491     
  trcom prof sum =    544346.748923491     
  ps_ts2 cur sum  =   16919.6721515308     
  trcom cur sum  =    16919.6721515308     
  
  Total ECH heating:      3023392.76303019     
  Total Current Drive:    80832.6182658187     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1178
 TA= 1.49500E+00 CPU TIME= 1.45813E-01 SECONDS.  DT= 2.17221E-04
  
 TEC1=    1.49499999999999     
 TEC2=    1.49999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.95547749999969     
  %check_save_state: izleft hours =    77.0361111111111     
 --> plasma_hash("gframe"): TA= 1.495000E+00 NSTEP=  1178 Hash code:   44789093
 ->PRGCHK: bdy curvature ratio at t= 1.5000E+00 seconds is:  5.6051E-02
% MHDEQ: TG1=     1.495000 ; TG2=     1.500000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7802E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6051E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.495000 TO TG2=    1.500000 @ NSTEP     1178
   GFRAME TG2 MOMENTS CHECKSUM:  2.4779362564671D+04
 %MFRCHK - LABEL "RMC12", #       2=  3.57483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.02026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.37630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.55654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.47175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.53470E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.67707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.74999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.25801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.31442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.34498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.73155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      13= -3.84747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.80483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  1.49439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.21923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.33871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.57066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.79212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.94649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.94649E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999999767576810E-006
 EC call, timestep(sec):  1.5000E+00  1.5050E+00 total power(Watts):  3.0325E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.50000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.358481E+02    0.365818E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.339279E+02    0.367995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.353118E+02    0.349371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.374005E+02    0.353732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.372974E+02    0.375389E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.351358E+02    0.384127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.333607E+02    0.396612E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.322974E+02    0.382202E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.321598E+02    0.363775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.328543E+02    0.347131E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.346025E+02    0.333347E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.364872E+02    0.329745E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.383487E+02    0.334914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.394700E+02    0.349181E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.396186E+02    0.368145E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.386996E+02    0.386882E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.370685E+02    0.399464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.350822E+02    0.403053E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.333097E+02    0.426929E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.305537E+02    0.410737E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138776E+03   -0.292909E+02    0.382489E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138758E+03   -0.297506E+02    0.350066E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.318582E+02    0.321211E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.349535E+02    0.304426E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.384148E+02    0.303397E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.412770E+02    0.319465E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.428993E+02    0.347464E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.423843E+02    0.382520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.399637E+02    0.413075E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.366383E+02    0.428634E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.366640E+02    0.274127E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.348273E+02    0.276380E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.361764E+02    0.257217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.382878E+02    0.260685E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.382407E+02    0.282133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.360846E+02    0.291740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.342365E+02    0.305438E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.331329E+02    0.291771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.330374E+02    0.272832E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.338698E+02    0.254470E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.355173E+02    0.240544E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.374032E+02    0.236383E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.392922E+02    0.240654E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.404558E+02    0.254437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.405562E+02    0.273957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.396826E+02    0.292732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.379776E+02    0.306473E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.359867E+02    0.311002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.341719E+02    0.336317E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138636E+03   -0.313538E+02    0.321641E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138977E+03   -0.301002E+02    0.293630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138901E+03   -0.305751E+02    0.260322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.326373E+02    0.230431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.358935E+02    0.210666E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.393764E+02    0.208371E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.422965E+02    0.223201E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.439063E+02    0.250774E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.433848E+02    0.286155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.410310E+02    0.317612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.375242E+02    0.336505E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.357524E+02    0.424891E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.339237E+02    0.425834E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.352415E+02    0.408463E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.373202E+02    0.413532E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.372799E+02    0.434195E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.351083E+02    0.441841E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.333168E+02    0.453490E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.322762E+02    0.439102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.320787E+02    0.421666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.329676E+02    0.404148E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.344719E+02    0.392417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.364494E+02    0.388661E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.382999E+02    0.394734E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.393936E+02    0.409686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.396115E+02    0.428030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.388560E+02    0.445134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.370132E+02    0.457658E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.350250E+02    0.460505E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.332133E+02    0.485084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.306558E+02    0.466064E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.292781E+02    0.438237E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138513E+03   -0.296985E+02    0.407209E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.318401E+02    0.378519E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.349603E+02    0.362310E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.383253E+02    0.362945E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.412561E+02    0.379728E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.429235E+02    0.409107E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.423481E+02    0.443362E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.400715E+02    0.472309E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.366195E+02    0.487816E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.362101E+02    0.323156E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.342856E+02    0.325778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.356516E+02    0.306950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.377505E+02    0.310870E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.376751E+02    0.332255E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.355170E+02    0.341295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.337503E+02    0.353808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.326669E+02    0.339971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.325077E+02    0.321923E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.333572E+02    0.303768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.349232E+02    0.290979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.368999E+02    0.286255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.386783E+02    0.291818E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.398178E+02    0.305904E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.399926E+02    0.324635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.390959E+02    0.343127E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.374761E+02    0.355728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.354861E+02    0.359782E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.336463E+02    0.385136E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.308614E+02    0.369262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138820E+03   -0.296461E+02    0.341044E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138872E+03   -0.300741E+02    0.308833E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.320740E+02    0.280186E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.353337E+02    0.261142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.388042E+02    0.259476E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.416930E+02    0.274932E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.431470E+02    0.303954E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.427877E+02    0.337711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.402968E+02    0.369136E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.369806E+02    0.386135E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.79 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.368069E+02    0.207588E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.347877E+02    0.212237E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.362914E+02    0.190747E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.384129E+02    0.193705E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.383047E+02    0.216054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.361623E+02    0.226174E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.343326E+02    0.240247E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.331168E+02    0.227973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.329899E+02    0.209119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138516E+03   -0.337985E+02    0.190571E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.356047E+02    0.174102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.375824E+02    0.168540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.393863E+02    0.173385E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.405740E+02    0.186866E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.407078E+02    0.206354E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.397654E+02    0.226173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.380826E+02    0.240276E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.360954E+02    0.245338E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.342278E+02    0.271977E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.314622E+02    0.257404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138892E+03   -0.302426E+02    0.228787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138934E+03   -0.306736E+02    0.195234E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138696E+03   -0.327030E+02    0.164716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.360287E+02    0.142978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.395173E+02    0.139957E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.423637E+02    0.155169E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.438068E+02    0.184116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.434572E+02    0.218324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.409555E+02    0.251981E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.375833E+02    0.271284E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    700321.612729082     
  ps_ts2 prof sum =   699882.120508386     
  trcom prof sum =    699882.120508386     
  ps_ts2 cur sum  =   17475.4438771736     
  trcom cur sum  =    17475.4438771736     
  
  antenna # iant =            2
  powecha_use(iant) =    688576.570319159     
  ps_ts2 prof sum =   688200.191677860     
  trcom prof sum =    688200.191677860     
  ps_ts2 cur sum  =   20046.5005772067     
  trcom cur sum  =    20046.5005772067     
  
  antenna # iant =            3
  powecha_use(iant) =    520348.385009594     
  ps_ts2 prof sum =   520014.878014917     
  trcom prof sum =    520014.878014917     
  ps_ts2 cur sum  =   11429.8910257324     
  trcom cur sum  =    11429.8910257324     
  
  antenna # iant =            4
  powecha_use(iant) =    579827.111688606     
  ps_ts2 prof sum =   579473.497253816     
  trcom prof sum =    579473.497253816     
  ps_ts2 cur sum  =   15645.7854769716     
  trcom cur sum  =    15645.7854769716     
  
  antenna # iant =            5
  powecha_use(iant) =    543442.380498265     
  ps_ts2 prof sum =   543128.754038286     
  trcom prof sum =    543128.754038286     
  ps_ts2 cur sum  =   17002.3849674227     
  trcom cur sum  =    17002.3849674227     
  
  Total ECH heating:      3030699.44149326     
  Total Current Drive:    81600.0059245068     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1187
 TA= 1.50000E+00 CPU TIME= 1.60682E-01 SECONDS.  DT= 8.62410E-04
  
 TEC1=    1.49999999999999     
 TEC2=    1.50499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.97127138888868     
  %check_save_state: izleft hours =    77.0202777777778     
 --> plasma_hash("gframe"): TA= 1.500000E+00 NSTEP=  1187 Hash code:  112920573
 ->PRGCHK: bdy curvature ratio at t= 1.5050E+00 seconds is:  5.6155E-02
% MHDEQ: TG1=     1.500000 ; TG2=     1.505000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7831E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6155E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.500000 TO TG2=    1.505000 @ NSTEP     1187
   GFRAME TG2 MOMENTS CHECKSUM:  2.4776370908784D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5050E+00  1.5100E+00 total power(Watts):  3.0232E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.50500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.357137E+02    0.367121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.338873E+02    0.368680E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.352708E+02    0.350095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.372620E+02    0.355097E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.372543E+02    0.376058E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.350939E+02    0.384764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.333188E+02    0.397215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.322582E+02    0.382837E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.321207E+02    0.364465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.328154E+02    0.347850E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.345636E+02    0.334070E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.364457E+02    0.330482E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.382098E+02    0.336328E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.394258E+02    0.349921E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.395733E+02    0.368849E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.386526E+02    0.387536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.370238E+02    0.400071E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.350386E+02    0.403654E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.332673E+02    0.427472E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.305136E+02    0.411307E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138922E+03   -0.292546E+02    0.383114E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138902E+03   -0.297147E+02    0.350770E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.318180E+02    0.321940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.349154E+02    0.305109E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.383744E+02    0.304082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.412337E+02    0.320185E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.428529E+02    0.348224E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.423363E+02    0.383197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.399161E+02    0.413666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.365924E+02    0.429184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.366260E+02    0.274885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.347908E+02    0.277131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.361407E+02    0.258018E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.382494E+02    0.261489E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.382015E+02    0.282862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.360464E+02    0.292439E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.341997E+02    0.306107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.330969E+02    0.292471E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.328292E+02    0.275325E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.338346E+02    0.255276E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.353902E+02    0.242271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.373657E+02    0.237169E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.391545E+02    0.242370E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.403146E+02    0.256132E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.405157E+02    0.274711E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.395414E+02    0.294220E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.379374E+02    0.307161E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.359474E+02    0.311692E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.340439E+02    0.337744E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.313175E+02    0.322335E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139121E+03   -0.300661E+02    0.294322E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139041E+03   -0.305423E+02    0.261121E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.326888E+02    0.230207E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.358584E+02    0.211356E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.393400E+02    0.209059E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.422577E+02    0.223945E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.436492E+02    0.253336E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.431283E+02    0.288440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.407828E+02    0.319763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.374822E+02    0.337241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.357087E+02    0.425435E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.338805E+02    0.426378E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.351987E+02    0.409047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.372747E+02    0.414118E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.371397E+02    0.435138E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.350634E+02    0.442375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.332732E+02    0.453996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.322341E+02    0.439629E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.320376E+02    0.422204E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.328413E+02    0.405240E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.344295E+02    0.393038E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.364058E+02    0.389290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.381579E+02    0.395866E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.393474E+02    0.410283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.396616E+02    0.428190E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.386156E+02    0.446380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.369661E+02    0.458165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.349796E+02    0.461000E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.331671E+02    0.485391E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.306145E+02    0.466513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.292385E+02    0.438760E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.296599E+02    0.407786E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.316346E+02    0.380336E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.348242E+02    0.363665E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.382815E+02    0.363658E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.412092E+02    0.380405E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.427700E+02    0.410172E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.422976E+02    0.443921E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.400222E+02    0.472762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.365717E+02    0.488119E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.360768E+02    0.324592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.342466E+02    0.326487E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.356128E+02    0.307634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.377098E+02    0.311566E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.376333E+02    0.332992E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.354763E+02    0.342026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.337103E+02    0.354524E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.326286E+02    0.340696E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.324705E+02    0.322625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.333204E+02    0.304451E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.348862E+02    0.291677E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.368612E+02    0.286967E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.386382E+02    0.292518E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.397759E+02    0.306599E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.399495E+02    0.325358E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.390523E+02    0.343871E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.373374E+02    0.357088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.354445E+02    0.360494E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.336016E+02    0.385791E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.308234E+02    0.369935E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138964E+03   -0.296103E+02    0.341758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139017E+03   -0.300396E+02    0.309507E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.320396E+02    0.280925E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.352972E+02    0.261940E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.387654E+02    0.260283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.416519E+02    0.275689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.432104E+02    0.303906E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.427426E+02    0.338476E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.402504E+02    0.369842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.369366E+02    0.386771E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.367710E+02    0.208279E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.347542E+02    0.212928E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.362575E+02    0.191464E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.383774E+02    0.194408E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.382711E+02    0.216737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.361270E+02    0.226909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.342981E+02    0.241038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.331695E+02    0.227738E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.330469E+02    0.208757E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.337668E+02    0.191302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.353914E+02    0.177032E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.375492E+02    0.169360E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.393518E+02    0.174171E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.404376E+02    0.188606E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.405694E+02    0.208026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.397278E+02    0.226921E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.380451E+02    0.241078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.360592E+02    0.246142E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.341918E+02    0.272741E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.315121E+02    0.257295E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139036E+03   -0.302118E+02    0.229516E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139077E+03   -0.306438E+02    0.195947E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138833E+03   -0.326729E+02    0.165555E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.359974E+02    0.143826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.394844E+02    0.140807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.423280E+02    0.156014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.437698E+02    0.184840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.432049E+02    0.220937E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.409162E+02    0.252802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.375453E+02    0.272051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.75 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693531.279183870     
  ps_ts2 prof sum =   693115.833879892     
  trcom prof sum =    693115.833879891     
  ps_ts2 cur sum  =   17430.3481740199     
  trcom cur sum  =    17430.3481740198     
  
  antenna # iant =            2
  powecha_use(iant) =    690379.628450162     
  ps_ts2 prof sum =   689966.503403458     
  trcom prof sum =    689966.503403457     
  ps_ts2 cur sum  =   20238.3005884542     
  trcom cur sum  =    20238.3005884542     
  
  antenna # iant =            3
  powecha_use(iant) =    519901.704562411     
  ps_ts2 prof sum =   519559.283590912     
  trcom prof sum =    519559.283590913     
  ps_ts2 cur sum  =   11505.8224998461     
  trcom cur sum  =    11505.8224998461     
  
  antenna # iant =            4
  powecha_use(iant) =    576238.803779482     
  ps_ts2 prof sum =   575915.847479586     
  trcom prof sum =    575915.847479586     
  ps_ts2 cur sum  =   15658.2620574380     
  trcom cur sum  =    15658.2620574380     
  
  antenna # iant =            5
  powecha_use(iant) =    543141.449782869     
  ps_ts2 prof sum =   542849.933633914     
  trcom prof sum =    542849.933633914     
  ps_ts2 cur sum  =   17111.7863869578     
  trcom cur sum  =    17111.7863869578     
  
  Total ECH heating:      3021407.40198776     
  Total Current Drive:    81944.5197067159     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1192
 TA= 1.50500E+00 CPU TIME= 1.59736E-01 SECONDS.  DT= 3.45825E-05
  
 TEC1=    1.50499999999999     
 TEC2=    1.50999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.98478277777781     
  %check_save_state: izleft hours =    77.0066666666667     
 --> plasma_hash("gframe"): TA= 1.505000E+00 NSTEP=  1192 Hash code:   22003588
 ->PRGCHK: bdy curvature ratio at t= 1.5100E+00 seconds is:  5.6038E-02
% MHDEQ: TG1=     1.505000 ; TG2=     1.510000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7829E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6038E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.505000 TO TG2=    1.510000 @ NSTEP     1192
   GFRAME TG2 MOMENTS CHECKSUM:  2.4785000794426D+04
 %MFRCHK - LABEL "RMC12", #       2=  5.60874E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.66728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.60639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.46960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.78420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.78266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.73461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -2.41758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.33567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.45325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.74514E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -1.22478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.78168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -2.74637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.60641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.35665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.59155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.82813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.36824E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.36824E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.5100E+00  1.5150E+00 total power(Watts):  3.0100E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.51000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.357319E+02    0.367550E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.339071E+02    0.369079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.352883E+02    0.350510E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.372806E+02    0.355524E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.372719E+02    0.376508E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.351107E+02    0.385199E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.333360E+02    0.397631E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.322747E+02    0.383244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.321375E+02    0.364868E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.328321E+02    0.348241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.345810E+02    0.334463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.364644E+02    0.330882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.382288E+02    0.336745E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.394451E+02    0.350362E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.395929E+02    0.369306E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.386729E+02    0.387989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.370418E+02    0.400519E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.350565E+02    0.404078E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.332831E+02    0.427918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.306097E+02    0.411215E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138901E+03   -0.292698E+02    0.383496E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138882E+03   -0.297295E+02    0.351146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.318379E+02    0.322279E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.349339E+02    0.305476E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.383939E+02    0.304485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.412539E+02    0.320616E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.428737E+02    0.348700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.423563E+02    0.383695E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.399349E+02    0.414144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.366099E+02    0.429656E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.366452E+02    0.275257E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.348111E+02    0.277478E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.361568E+02    0.258406E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.382692E+02    0.261866E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.382214E+02    0.283246E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.360654E+02    0.292820E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.342177E+02    0.306479E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.331143E+02    0.292833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.328464E+02    0.275672E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.338530E+02    0.255624E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.354090E+02    0.242617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.373829E+02    0.237556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.392748E+02    0.241835E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.403357E+02    0.256522E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.405368E+02    0.275110E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.396617E+02    0.293845E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.379565E+02    0.307567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.359661E+02    0.312082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.340611E+02    0.338137E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138752E+03   -0.313369E+02    0.322671E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139102E+03   -0.300822E+02    0.294664E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139023E+03   -0.305593E+02    0.261441E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138457E+03   -0.327074E+02    0.230535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.358793E+02    0.211695E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.393615E+02    0.209417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.422806E+02    0.224327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.436719E+02    0.253743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.431498E+02    0.288878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.408029E+02    0.320189E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.375009E+02    0.337654E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.357258E+02    0.425896E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.338967E+02    0.426826E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.352159E+02    0.409480E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.372922E+02    0.414575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.371573E+02    0.435624E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.350799E+02    0.442865E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.332887E+02    0.454505E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.322495E+02    0.440092E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.320534E+02    0.422632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.328573E+02    0.405655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.344469E+02    0.393458E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.364235E+02    0.389734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.381764E+02    0.396320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.393662E+02    0.410753E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.396799E+02    0.428693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.386331E+02    0.446915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.369827E+02    0.458710E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.349954E+02    0.461530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.331841E+02    0.485908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.306289E+02    0.467015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138543E+03   -0.292528E+02    0.439202E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138629E+03   -0.296779E+02    0.408161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138472E+03   -0.316510E+02    0.380737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.348461E+02    0.364053E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.383006E+02    0.364102E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.413312E+02    0.380353E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.427899E+02    0.410679E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.423163E+02    0.444495E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.400393E+02    0.473371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.365873E+02    0.488679E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.360946E+02    0.324993E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.342638E+02    0.326874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.356309E+02    0.308019E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.377287E+02    0.311970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.376520E+02    0.333400E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.354940E+02    0.342436E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.337274E+02    0.354925E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.326451E+02    0.341082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.324868E+02    0.322998E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.333381E+02    0.304815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.349044E+02    0.292051E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.368807E+02    0.287351E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.386581E+02    0.292915E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.397960E+02    0.307014E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.399692E+02    0.325790E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.390715E+02    0.344305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.373560E+02    0.357518E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.354620E+02    0.360918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.336189E+02    0.386208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138669E+03   -0.308391E+02    0.370327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138937E+03   -0.296279E+02    0.342096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138998E+03   -0.300555E+02    0.309855E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.320563E+02    0.281267E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.353158E+02    0.262301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.387855E+02    0.260664E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.416732E+02    0.276100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.432317E+02    0.304352E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.427667E+02    0.338916E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.402702E+02    0.370306E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.369545E+02    0.387219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.367920E+02    0.208618E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.347739E+02    0.213254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.362780E+02    0.191780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.383993E+02    0.194741E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.382888E+02    0.217121E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.361464E+02    0.227259E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.343163E+02    0.241378E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.331015E+02    0.229036E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138449E+03   -0.330654E+02    0.209069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138643E+03   -0.337864E+02    0.191601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.354121E+02    0.177327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.375706E+02    0.169661E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.393739E+02    0.174491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.404601E+02    0.188945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.405912E+02    0.208386E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.397491E+02    0.227292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.380654E+02    0.241445E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.360781E+02    0.246495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.342101E+02    0.273098E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138809E+03   -0.314464E+02    0.258532E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139018E+03   -0.302284E+02    0.229837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139062E+03   -0.306617E+02    0.196238E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.326918E+02    0.165829E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.360190E+02    0.144110E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.395073E+02    0.141106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.423521E+02    0.156335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.437939E+02    0.185200E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.432278E+02    0.221325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.409376E+02    0.253193E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.375650E+02    0.272427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686688.733404791     
  ps_ts2 prof sum =   686293.133393746     
  trcom prof sum =    686293.133393745     
  ps_ts2 cur sum  =   17338.6642597838     
  trcom cur sum  =    17338.6642597838     
  
  antenna # iant =            2
  powecha_use(iant) =    688711.396326708     
  ps_ts2 prof sum =   688309.084751000     
  trcom prof sum =    688309.084750999     
  ps_ts2 cur sum  =   20260.2995597302     
  trcom cur sum  =    20260.2995597302     
  
  antenna # iant =            3
  powecha_use(iant) =    519865.750535184     
  ps_ts2 prof sum =   519535.168890811     
  trcom prof sum =    519535.168890812     
  ps_ts2 cur sum  =   11558.9729494564     
  trcom cur sum  =    11558.9729494564     
  
  antenna # iant =            4
  powecha_use(iant) =    572866.537437437     
  ps_ts2 prof sum =   572546.819104963     
  trcom prof sum =    572546.819104963     
  ps_ts2 cur sum  =   15632.2535549683     
  trcom cur sum  =    15632.2535549683     
  
  antenna # iant =            5
  powecha_use(iant) =    541871.457402258     
  ps_ts2 prof sum =   541557.849714894     
  trcom prof sum =    541557.849714894     
  ps_ts2 cur sum  =   17114.6282108779     
  trcom cur sum  =    17114.6282108779     
  
  Total ECH heating:      3008242.05585541     
  Total Current Drive:    81904.8185348165     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1209
 TA= 1.51000E+00 CPU TIME= 1.68396E-01 SECONDS.  DT= 2.79831E-04
  
 TEC1=    1.50999999999999     
 TEC2=    1.51499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    2.99724805555547     
  %check_save_state: izleft hours =    76.9944444444444     
 --> plasma_hash("gframe"): TA= 1.510000E+00 NSTEP=  1209 Hash code:   47710955
 ->PRGCHK: bdy curvature ratio at t= 1.5150E+00 seconds is:  5.5922E-02
% MHDEQ: TG1=     1.510000 ; TG2=     1.515000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7826E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5922E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.510000 TO TG2=    1.515000 @ NSTEP     1209
   GFRAME TG2 MOMENTS CHECKSUM:  2.4793630680067D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5150E+00  1.5200E+00 total power(Watts):  3.0078E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.51500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.357483E+02    0.367963E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.339193E+02    0.369501E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.353050E+02    0.350911E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.373931E+02    0.355316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.372895E+02    0.376934E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.351274E+02    0.385617E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.333517E+02    0.398045E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.322898E+02    0.383647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.321527E+02    0.365257E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.328477E+02    0.348625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.345971E+02    0.334855E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.364815E+02    0.331279E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.383441E+02    0.336490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.394632E+02    0.350794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.396112E+02    0.369746E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.386902E+02    0.388437E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.370585E+02    0.400963E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.350727E+02    0.404514E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.332980E+02    0.428367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.305438E+02    0.412109E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138881E+03   -0.292836E+02    0.383881E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.297440E+02    0.351513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.318534E+02    0.322645E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.349505E+02    0.305853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.384120E+02    0.304876E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.412728E+02    0.321046E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.428930E+02    0.349159E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.423753E+02    0.384169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.399522E+02    0.414636E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.366260E+02    0.430127E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.366628E+02    0.275629E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.348250E+02    0.277867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.361757E+02    0.258759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.382878E+02    0.262247E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.382396E+02    0.283634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.360823E+02    0.293194E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.342340E+02    0.306851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.331303E+02    0.293186E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.330352E+02    0.274298E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.338696E+02    0.255978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.355183E+02    0.242043E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.374048E+02    0.237882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.392933E+02    0.242217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.404567E+02    0.256039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.405561E+02    0.275507E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.396806E+02    0.294242E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.379745E+02    0.307956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.359831E+02    0.312464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.341660E+02    0.337833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138743E+03   -0.313488E+02    0.323063E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139084E+03   -0.300970E+02    0.294997E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139006E+03   -0.305747E+02    0.261779E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.326388E+02    0.231827E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.358969E+02    0.212017E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.393813E+02    0.209761E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.423007E+02    0.224716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.439087E+02    0.252444E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.431699E+02    0.289290E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.408217E+02    0.320614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.375183E+02    0.338074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.35 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.357416E+02    0.426364E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.339154E+02    0.427259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.352321E+02    0.409923E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.373090E+02    0.415034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.371735E+02    0.436108E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.350954E+02    0.443349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.333036E+02    0.454988E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.322667E+02    0.440536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.320686E+02    0.423059E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.328730E+02    0.406076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.344628E+02    0.393878E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.364404E+02    0.390163E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.381937E+02    0.396768E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.393835E+02    0.411230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.396973E+02    0.429197E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.386497E+02    0.447427E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.369985E+02    0.459232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.350106E+02    0.462037E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.331981E+02    0.486422E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.306426E+02    0.467495E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.292669E+02    0.439623E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138623E+03   -0.296883E+02    0.408585E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.316659E+02    0.381126E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.348624E+02    0.364456E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.383178E+02    0.364535E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.412472E+02    0.381361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.428085E+02    0.411187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.423341E+02    0.445052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.400548E+02    0.473962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.366020E+02    0.489237E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.85 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.361115E+02    0.325385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.342800E+02    0.327261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.356482E+02    0.308399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.377465E+02    0.312370E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.376695E+02    0.333819E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.355108E+02    0.342836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.337433E+02    0.355327E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.326605E+02    0.341464E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.325026E+02    0.323372E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.333541E+02    0.305179E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.349211E+02    0.292418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.368984E+02    0.287730E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.386765E+02    0.293302E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.398144E+02    0.307419E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.399876E+02    0.326215E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.390894E+02    0.344728E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.373730E+02    0.357938E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.354784E+02    0.361332E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.336345E+02    0.386624E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138649E+03   -0.308536E+02    0.370709E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138928E+03   -0.296387E+02    0.342490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138980E+03   -0.300701E+02    0.310203E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.320722E+02    0.281613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.353326E+02    0.262666E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.388043E+02    0.261047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.416932E+02    0.276502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.431446E+02    0.305531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.427811E+02    0.339403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.402888E+02    0.370758E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.369714E+02    0.387659E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.85 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.368111E+02    0.208943E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.347916E+02    0.213574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.362970E+02    0.192090E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.384189E+02    0.195061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.383056E+02    0.217491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.361648E+02    0.227604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.343336E+02    0.241728E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.331188E+02    0.229361E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138646E+03   -0.329968E+02    0.210385E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.339797E+02    0.189802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.356124E+02    0.175493E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.375904E+02    0.169965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.393946E+02    0.174805E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.405819E+02    0.188260E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.407133E+02    0.207759E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.397686E+02    0.227659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.380838E+02    0.241811E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.360961E+02    0.246857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.342267E+02    0.273457E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138791E+03   -0.314620E+02    0.258874E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138997E+03   -0.302458E+02    0.230127E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139047E+03   -0.306784E+02    0.196516E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138798E+03   -0.327125E+02    0.166070E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.360390E+02    0.144401E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.395286E+02    0.141413E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.423745E+02    0.156660E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.438162E+02    0.185546E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.434624E+02    0.219850E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.409572E+02    0.253586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.375830E+02    0.272805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679498.046232373     
  ps_ts2 prof sum =   679100.767378099     
  trcom prof sum =    679100.767378098     
  ps_ts2 cur sum  =   17227.4535551671     
  trcom cur sum  =    17227.4535551671     
  
  antenna # iant =            2
  powecha_use(iant) =    687699.648982064     
  ps_ts2 prof sum =   687316.217635427     
  trcom prof sum =    687316.217635427     
  ps_ts2 cur sum  =   20292.0983326098     
  trcom cur sum  =    20292.0983326098     
  
  antenna # iant =            3
  powecha_use(iant) =    518973.325515433     
  ps_ts2 prof sum =   518637.186531935     
  trcom prof sum =    518637.186531935     
  ps_ts2 cur sum  =   11585.5491847387     
  trcom cur sum  =    11585.5491847387     
  
  antenna # iant =            4
  powecha_use(iant) =    580218.778881198     
  ps_ts2 prof sum =   579878.444398045     
  trcom prof sum =    579878.444398044     
  ps_ts2 cur sum  =   15892.7137453321     
  trcom cur sum  =    15892.7137453321     
  
  antenna # iant =            5
  powecha_use(iant) =    541445.973662463     
  ps_ts2 prof sum =   541153.607701646     
  trcom prof sum =    541153.607701646     
  ps_ts2 cur sum  =   17135.8698044280     
  trcom cur sum  =    17135.8698044280     
  
  Total ECH heating:      3006086.22364515     
  Total Current Drive:    82133.6846222757     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1217
 TA= 1.51500E+00 CPU TIME= 1.46528E-01 SECONDS.  DT= 9.77460E-04
  
 TEC1=    1.51499999999999     
 TEC2=    1.51999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.00886111111049     
  %check_save_state: izleft hours =    76.9827777777778     
 --> plasma_hash("gframe"): TA= 1.515000E+00 NSTEP=  1217 Hash code:  102274836
 ->PRGCHK: bdy curvature ratio at t= 1.5200E+00 seconds is:  5.5808E-02
% MHDEQ: TG1=     1.515000 ; TG2=     1.520000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7823E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5808E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.515000 TO TG2=    1.520000 @ NSTEP     1217
   GFRAME TG2 MOMENTS CHECKSUM:  2.4802260565708D+04
 %MFRCHK - LABEL "YMC12", #       3=  7.06692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.46549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.53123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.93051E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.89817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.63880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -1.43668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.03295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.99395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.12454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -3.67916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.62082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.10617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.43169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.45440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.51792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.18666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.94600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.94600E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5200E+00  1.5250E+00 total power(Watts):  3.0117E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.52000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.357662E+02    0.368397E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.339371E+02    0.369918E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.353228E+02    0.351338E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.373163E+02    0.356383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.373079E+02    0.377385E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.351448E+02    0.386056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.333683E+02    0.398482E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.323065E+02    0.384066E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.321692E+02    0.365666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138330E+03   -0.328646E+02    0.349028E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.346148E+02    0.335271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.365001E+02    0.331706E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.383633E+02    0.336933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.394828E+02    0.351250E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.396305E+02    0.370211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.387094E+02    0.388901E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.370769E+02    0.401429E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.350897E+02    0.404967E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.332291E+02    0.429248E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.306399E+02    0.412049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.292989E+02    0.384274E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138843E+03   -0.297596E+02    0.351897E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.318698E+02    0.323035E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.349687E+02    0.306246E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.384315E+02    0.305298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.412935E+02    0.321502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.429140E+02    0.349647E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.423955E+02    0.384673E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.400706E+02    0.414702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.366434E+02    0.430621E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.366821E+02    0.276025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.348447E+02    0.278238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.361955E+02    0.259151E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.383080E+02    0.262652E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.382592E+02    0.284044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.361012E+02    0.293591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.342519E+02    0.307237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.331476E+02    0.293568E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.330530E+02    0.274665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.338884E+02    0.256351E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.355378E+02    0.242423E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.374249E+02    0.238273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.393144E+02    0.242622E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.404783E+02    0.256461E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.405768E+02    0.275933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.397009E+02    0.294660E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.379940E+02    0.308374E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.360019E+02    0.312874E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.341834E+02    0.338246E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138734E+03   -0.313614E+02    0.323472E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139066E+03   -0.301131E+02    0.295351E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138988E+03   -0.305907E+02    0.262130E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138639E+03   -0.326572E+02    0.232179E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.359175E+02    0.212369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.394033E+02    0.210137E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.423240E+02    0.225119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.439313E+02    0.252891E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.431919E+02    0.289739E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.408422E+02    0.321068E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.375371E+02    0.338506E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.357589E+02    0.426838E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.339271E+02    0.427751E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.352492E+02    0.410388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.373270E+02    0.415517E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.371911E+02    0.436613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.351122E+02    0.443840E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.333192E+02    0.455487E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.322773E+02    0.441033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.320845E+02    0.423506E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.328891E+02    0.406514E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.344802E+02    0.394317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.364586E+02    0.390616E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.382123E+02    0.397239E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.394022E+02    0.411728E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.397182E+02    0.429709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.386674E+02    0.447965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.370150E+02    0.459769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.350265E+02    0.462559E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.332127E+02    0.486954E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.304977E+02    0.468599E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.292815E+02    0.440063E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138599E+03   -0.297044E+02    0.408988E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.316821E+02    0.381535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.348802E+02    0.364882E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.383370E+02    0.364985E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.413697E+02    0.381308E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.428283E+02    0.411723E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.423529E+02    0.445624E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.400724E+02    0.474548E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.366188E+02    0.489792E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.361301E+02    0.325800E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.342977E+02    0.327665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.356666E+02    0.308801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.377661E+02    0.312782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.376886E+02    0.334249E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.355287E+02    0.343259E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.337604E+02    0.355744E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.326774E+02    0.341867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.325199E+02    0.323759E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.333719E+02    0.305561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.349394E+02    0.292805E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.369177E+02    0.288129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.386968E+02    0.293711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.398347E+02    0.307847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.400077E+02    0.326659E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.391088E+02    0.345178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.373918E+02    0.358376E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.354962E+02    0.361763E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.336514E+02    0.387054E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138630E+03   -0.308699E+02    0.371105E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138905E+03   -0.296554E+02    0.342861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138961E+03   -0.300861E+02    0.310566E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.320896E+02    0.281975E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.353518E+02    0.263045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.388248E+02    0.261455E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.417144E+02    0.276932E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.431660E+02    0.305988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.428034E+02    0.339876E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.403086E+02    0.371222E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.369898E+02    0.388112E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.368319E+02    0.209300E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.348115E+02    0.213917E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.363177E+02    0.192431E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.384408E+02    0.195415E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.383304E+02    0.217838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.361851E+02    0.227981E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.343524E+02    0.242097E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.331373E+02    0.229712E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.330157E+02    0.210718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.339996E+02    0.190125E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.356336E+02    0.175813E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.376121E+02    0.170305E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.394174E+02    0.175154E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.406047E+02    0.188624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.407362E+02    0.208143E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.397898E+02    0.228065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.381044E+02    0.242215E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.361156E+02    0.247243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.342450E+02    0.273842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138774E+03   -0.314795E+02    0.259230E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138986E+03   -0.302614E+02    0.230490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139032E+03   -0.306971E+02    0.196823E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138788E+03   -0.327305E+02    0.166398E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.360605E+02    0.144731E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.395521E+02    0.141756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.425029E+02    0.155957E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.438406E+02    0.185931E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.434860E+02    0.220260E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.409788E+02    0.254010E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.376028E+02    0.273202E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679439.236232968     
  ps_ts2 prof sum =   679058.091185790     
  trcom prof sum =    679058.091185789     
  ps_ts2 cur sum  =   17306.8524174517     
  trcom cur sum  =    17306.8524174517     
  
  antenna # iant =            2
  powecha_use(iant) =    689909.204634873     
  ps_ts2 prof sum =   689526.050837088     
  trcom prof sum =    689526.050837087     
  ps_ts2 cur sum  =   20432.5397380650     
  trcom cur sum  =    20432.5397380650     
  
  antenna # iant =            3
  powecha_use(iant) =    519289.211343120     
  ps_ts2 prof sum =   518955.634006771     
  trcom prof sum =    518955.634006772     
  ps_ts2 cur sum  =   11647.8386167111     
  trcom cur sum  =    11647.8386167111     
  
  antenna # iant =            4
  powecha_use(iant) =    579110.939516713     
  ps_ts2 prof sum =   578776.234418677     
  trcom prof sum =    578776.234418676     
  ps_ts2 cur sum  =   15930.5420489928     
  trcom cur sum  =    15930.5420489927     
  
  antenna # iant =            5
  powecha_use(iant) =    543961.258246809     
  ps_ts2 prof sum =   543670.292005882     
  trcom prof sum =    543670.292005882     
  ps_ts2 cur sum  =   17264.2370230474     
  trcom cur sum  =    17264.2370230474     
  
  Total ECH heating:      3009986.30245421     
  Total Current Drive:    82582.0098442679     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1221
 TA= 1.52000E+00 CPU TIME= 1.49715E-01 SECONDS.  DT= 1.59179E-03
  
 TEC1=    1.51999999999999     
 TEC2=    1.52499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.02351999999996     
  %check_save_state: izleft hours =    76.9680555555556     
 --> plasma_hash("gframe"): TA= 1.520000E+00 NSTEP=  1221 Hash code:   66840116
 ->PRGCHK: bdy curvature ratio at t= 1.5250E+00 seconds is:  5.5697E-02
% MHDEQ: TG1=     1.520000 ; TG2=     1.525000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7821E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5697E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.520000 TO TG2=    1.525000 @ NSTEP     1221
   GFRAME TG2 MOMENTS CHECKSUM:  2.4810890451349D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5250E+00  1.5300E+00 total power(Watts):  2.9945E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.52500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.357861E+02    0.368847E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.339562E+02    0.370360E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.352522E+02    0.352417E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.373370E+02    0.356840E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.373284E+02    0.377859E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.351640E+02    0.386515E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.333866E+02    0.398940E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.323201E+02    0.384532E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.321874E+02    0.366084E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.329698E+02    0.348779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.345446E+02    0.336390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.365206E+02    0.332141E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.382872E+02    0.338057E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.395042E+02    0.351726E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.396565E+02    0.370673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.387302E+02    0.389393E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.370022E+02    0.402411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.351090E+02    0.405444E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.332468E+02    0.429728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.306572E+02    0.412502E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138842E+03   -0.293155E+02    0.384686E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138825E+03   -0.297774E+02    0.352293E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.318883E+02    0.323427E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.349887E+02    0.306641E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.384534E+02    0.305719E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.413165E+02    0.321969E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.429368E+02    0.350157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.424179E+02    0.385201E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.400913E+02    0.415238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.366622E+02    0.431141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.367039E+02    0.276420E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.348653E+02    0.278629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.362173E+02    0.259538E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.383309E+02    0.263061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.381841E+02    0.285265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.361225E+02    0.293989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.342715E+02    0.307635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.331676E+02    0.293940E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138606E+03   -0.329007E+02    0.276755E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.339090E+02    0.256727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.354682E+02    0.243730E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.374481E+02    0.238657E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.393384E+02    0.243023E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.404002E+02    0.257749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.406003E+02    0.276362E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.396233E+02    0.295863E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.380154E+02    0.308795E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.360227E+02    0.313282E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.341141E+02    0.339355E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138706E+03   -0.313835E+02    0.323827E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139049E+03   -0.301315E+02    0.295706E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138971E+03   -0.306097E+02    0.262481E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138408E+03   -0.327625E+02    0.231568E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.359395E+02    0.212727E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.394279E+02    0.210508E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.423494E+02    0.225535E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.437412E+02    0.255052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.432164E+02    0.290196E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.408650E+02    0.321524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.375586E+02    0.338960E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.357777E+02    0.427338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.338599E+02    0.428651E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.351782E+02    0.411338E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.372523E+02    0.416469E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.372101E+02    0.437142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.351303E+02    0.444359E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.333363E+02    0.456006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.322134E+02    0.441892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.321023E+02    0.423976E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.329073E+02    0.406973E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.344991E+02    0.394778E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.364784E+02    0.391089E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.382330E+02    0.397731E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.394229E+02    0.412245E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.395359E+02    0.431060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.386865E+02    0.448525E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.370335E+02    0.460324E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.350440E+02    0.463099E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.332286E+02    0.487509E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.305923E+02    0.468804E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.293751E+02    0.440122E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.297211E+02    0.409424E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.317000E+02    0.381965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.348997E+02    0.365324E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.383580E+02    0.365456E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.413919E+02    0.381817E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.428501E+02    0.412289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.423736E+02    0.446223E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.400931E+02    0.475151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.367269E+02    0.490189E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.361508E+02    0.326228E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.343173E+02    0.328078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.356870E+02    0.309203E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.377876E+02    0.313205E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.377097E+02    0.334696E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.355489E+02    0.343693E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.336916E+02    0.356813E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.325245E+02    0.343647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.325383E+02    0.324158E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.332161E+02    0.307508E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.349598E+02    0.293194E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.369389E+02    0.288529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.387191E+02    0.294127E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.398573E+02    0.308281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.400300E+02    0.327120E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.391304E+02    0.345644E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.374124E+02    0.358840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.354248E+02    0.362825E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.335828E+02    0.388050E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.308876E+02    0.371521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138887E+03   -0.296729E+02    0.343249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138944E+03   -0.301037E+02    0.310925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138719E+03   -0.321096E+02    0.282339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.353734E+02    0.263435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.388479E+02    0.261866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.417385E+02    0.277367E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.432970E+02    0.305713E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.426152E+02    0.341662E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.403302E+02    0.371718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.370101E+02    0.388584E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.368548E+02    0.209656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.348332E+02    0.214260E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.363408E+02    0.192764E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.384652E+02    0.195770E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.383540E+02    0.218217E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.362073E+02    0.228350E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.343734E+02    0.242467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.331575E+02    0.230061E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.330366E+02    0.211044E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.338465E+02    0.192523E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.356568E+02    0.176133E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.376374E+02    0.170630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.394424E+02    0.175491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.405289E+02    0.189990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.406597E+02    0.209493E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.398146E+02    0.228460E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.381268E+02    0.242611E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.361374E+02    0.247631E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.340873E+02    0.275926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.315820E+02    0.258687E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138976E+03   -0.302784E+02    0.230848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139018E+03   -0.307164E+02    0.197130E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.327515E+02    0.166722E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.360841E+02    0.145046E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.395782E+02    0.142093E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.424265E+02    0.157381E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.438684E+02    0.186308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.432986E+02    0.222538E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.410029E+02    0.254435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.376250E+02    0.273605E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678195.482800824     
  ps_ts2 prof sum =   677833.951985286     
  trcom prof sum =    677833.951985285     
  ps_ts2 cur sum  =   17376.3487854749     
  trcom cur sum  =    17376.3487854749     
  
  antenna # iant =            2
  powecha_use(iant) =    686229.970501229     
  ps_ts2 prof sum =   685830.454685840     
  trcom prof sum =    685830.454685840     
  ps_ts2 cur sum  =   20423.1293880383     
  trcom cur sum  =    20423.1293880383     
  
  antenna # iant =            3
  powecha_use(iant) =    520529.637383426     
  ps_ts2 prof sum =   520215.933433130     
  trcom prof sum =    520215.933433130     
  ps_ts2 cur sum  =   11745.1869505553     
  trcom cur sum  =    11745.1869505553     
  
  antenna # iant =            4
  powecha_use(iant) =    565807.861844236     
  ps_ts2 prof sum =   565462.042891688     
  trcom prof sum =    565462.042891688     
  ps_ts2 cur sum  =   15649.8707832864     
  trcom cur sum  =    15649.8707832864     
  
  antenna # iant =            5
  powecha_use(iant) =    543730.964454687     
  ps_ts2 prof sum =   543414.718768510     
  trcom prof sum =    543414.718768510     
  ps_ts2 cur sum  =   17325.6240033050     
  trcom cur sum  =    17325.6240033050     
  
  Total ECH heating:      2992757.10176445     
  Total Current Drive:    82520.1599106599     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1224
 TA= 1.52500E+00 CPU TIME= 1.59672E-01 SECONDS.  DT= 1.77309E-03
  
 TEC1=    1.52499999999999     
 TEC2=    1.52999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.03596972222181     
  %check_save_state: izleft hours =    76.9555555555555     
 --> plasma_hash("gframe"): TA= 1.525000E+00 NSTEP=  1224 Hash code:   50200104
 ->PRGCHK: bdy curvature ratio at t= 1.5300E+00 seconds is:  5.5587E-02
% MHDEQ: TG1=     1.525000 ; TG2=     1.530000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7818E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5587E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.525000 TO TG2=    1.530000 @ NSTEP     1224
   GFRAME TG2 MOMENTS CHECKSUM:  2.4819520336991D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.81451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  4.31004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.34161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.58542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.64260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.99973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.55457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -3.12308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.76678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.46937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.57887E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  1.22820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.47937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.54301E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.27806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.54035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.45318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.50190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.22196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.22196E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5300E+00  1.5350E+00 total power(Watts):  3.0056E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.53000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.358053E+02    0.369293E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.339747E+02    0.370793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.352674E+02    0.352884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.373573E+02    0.357286E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.373480E+02    0.378324E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.351834E+02    0.386966E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.334043E+02    0.399390E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.323418E+02    0.384936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.322051E+02    0.366503E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.329881E+02    0.349199E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.345639E+02    0.336806E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.365404E+02    0.332572E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.383078E+02    0.338509E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.395252E+02    0.352198E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.396720E+02    0.371185E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.387504E+02    0.389881E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.370215E+02    0.402893E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.351269E+02    0.405920E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.332643E+02    0.430215E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.306737E+02    0.412948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138823E+03   -0.293318E+02    0.385094E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138806E+03   -0.297943E+02    0.352687E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.319064E+02    0.323823E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.350082E+02    0.307037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.384745E+02    0.306140E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.413388E+02    0.322421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.429596E+02    0.350659E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.424395E+02    0.385727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.401113E+02    0.415776E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.366806E+02    0.431663E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.367247E+02    0.276818E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.348853E+02    0.279013E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.362383E+02    0.259920E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.383526E+02    0.263459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.382053E+02    0.285670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.361425E+02    0.294392E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.342906E+02    0.308028E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.331865E+02    0.294317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.329197E+02    0.277125E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.339292E+02    0.257099E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.354889E+02    0.244091E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.374698E+02    0.239030E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.393607E+02    0.243422E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.404230E+02    0.258162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.406230E+02    0.276783E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.396475E+02    0.296272E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.380362E+02    0.309219E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.360422E+02    0.313692E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.341328E+02    0.339778E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.314014E+02    0.324214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139032E+03   -0.301494E+02    0.296067E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138954E+03   -0.306272E+02    0.262835E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.327826E+02    0.231910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.359612E+02    0.213059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.394514E+02    0.210860E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.423736E+02    0.225937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.437656E+02    0.255496E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.432401E+02    0.290640E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.408870E+02    0.321975E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.375785E+02    0.339402E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.357046E+02    0.428262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.338768E+02    0.429143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.351967E+02    0.411818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.372713E+02    0.416973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.372287E+02    0.437677E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.351478E+02    0.444893E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.333532E+02    0.456535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.322297E+02    0.442403E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.321193E+02    0.424444E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.329248E+02    0.407429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.345175E+02    0.395235E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.364976E+02    0.391559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.382528E+02    0.398222E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.394428E+02    0.412767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.395587E+02    0.431596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.387053E+02    0.449098E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.370515E+02    0.460901E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.350613E+02    0.463657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.332442E+02    0.488060E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.306078E+02    0.469322E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.293906E+02    0.440598E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.298162E+02    0.409363E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.317173E+02    0.382384E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.349186E+02    0.365764E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.383782E+02    0.365922E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.414132E+02    0.382327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.428717E+02    0.412840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.423938E+02    0.446838E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.401100E+02    0.475787E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.365596E+02    0.491192E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.361704E+02    0.326652E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.343364E+02    0.328493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.357068E+02    0.309610E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.378082E+02    0.313633E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.377300E+02    0.335142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.355681E+02    0.344130E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.337099E+02    0.357235E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.325428E+02    0.344056E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.325564E+02    0.324561E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.332349E+02    0.307890E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.349797E+02    0.293578E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.369599E+02    0.288929E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.387399E+02    0.294551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.398790E+02    0.308718E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.400515E+02    0.327574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.391513E+02    0.346110E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.374324E+02    0.359297E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.354439E+02    0.363265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.336009E+02    0.388492E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.309047E+02    0.371927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138868E+03   -0.296898E+02    0.343642E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138926E+03   -0.301213E+02    0.311302E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138702E+03   -0.321275E+02    0.282702E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.353965E+02    0.263796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.388699E+02    0.262269E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.417614E+02    0.277806E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.433203E+02    0.306183E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.426377E+02    0.342155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.403512E+02    0.372205E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.370295E+02    0.389056E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.368766E+02    0.209993E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138345E+03   -0.348543E+02    0.214581E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.363624E+02    0.193072E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.384879E+02    0.196098E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.383768E+02    0.218574E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.362285E+02    0.228701E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.342162E+02    0.244683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138564E+03   -0.331780E+02    0.230402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.330574E+02    0.211353E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.338672E+02    0.192817E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.356783E+02    0.176433E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.376605E+02    0.170940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.394666E+02    0.175811E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.405532E+02    0.190325E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.406837E+02    0.209850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.398378E+02    0.228841E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.381497E+02    0.242992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.361583E+02    0.248011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.341069E+02    0.276302E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.315998E+02    0.259042E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138954E+03   -0.302986E+02    0.231136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139004E+03   -0.307349E+02    0.197411E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138772E+03   -0.327702E+02    0.167012E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.361065E+02    0.145331E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.396023E+02    0.142394E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.424524E+02    0.157701E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.438944E+02    0.186658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.433234E+02    0.222945E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.410262E+02    0.254856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.376463E+02    0.274009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.62 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686476.708672799     
  ps_ts2 prof sum =   686120.018276999     
  trcom prof sum =    686120.018276999     
  ps_ts2 cur sum  =   17673.0224181077     
  trcom cur sum  =    17673.0224181077     
  
  antenna # iant =            2
  powecha_use(iant) =    683568.162930668     
  ps_ts2 prof sum =   683175.618748787     
  trcom prof sum =    683175.618748787     
  ps_ts2 cur sum  =   20420.5348929476     
  trcom cur sum  =    20420.5348929476     
  
  antenna # iant =            3
  powecha_use(iant) =    520159.665758196     
  ps_ts2 prof sum =   519850.178995264     
  trcom prof sum =    519850.178995264     
  ps_ts2 cur sum  =   11793.5522286141     
  trcom cur sum  =    11793.5522286141     
  
  antenna # iant =            4
  powecha_use(iant) =    572255.729730522     
  ps_ts2 prof sum =   571913.172978117     
  trcom prof sum =    571913.172978116     
  ps_ts2 cur sum  =   15897.9635660340     
  trcom cur sum  =    15897.9635660340     
  
  antenna # iant =            5
  powecha_use(iant) =    543121.778643316     
  ps_ts2 prof sum =   542792.626917409     
  trcom prof sum =    542792.626917409     
  ps_ts2 cur sum  =   17355.7934073329     
  trcom cur sum  =    17355.7934073329     
  
  Total ECH heating:      3003851.61591657     
  Total Current Drive:    83140.8665130362     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1227
 TA= 1.53000E+00 CPU TIME= 1.62678E-01 SECONDS.  DT= 1.26319E-03
  
 TEC1=    1.52999999999999     
 TEC2=    1.53499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.05129472222234     
  %check_save_state: izleft hours =    76.9402777777778     
 --> plasma_hash("gframe"): TA= 1.530000E+00 NSTEP=  1227 Hash code:  102147255
 ->PRGCHK: bdy curvature ratio at t= 1.5350E+00 seconds is:  5.5479E-02
% MHDEQ: TG1=     1.530000 ; TG2=     1.535000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7815E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5479E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.530000 TO TG2=    1.535000 @ NSTEP     1227
   GFRAME TG2 MOMENTS CHECKSUM:  2.4828150222632D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.5350E+00  1.5400E+00 total power(Watts):  3.0073E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.53500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.358239E+02    0.369728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.339924E+02    0.371212E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.352890E+02    0.353280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.373760E+02    0.357732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.373668E+02    0.378773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.352014E+02    0.387407E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.334213E+02    0.399832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.323588E+02    0.385355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.322220E+02    0.366913E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.330054E+02    0.349604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.345822E+02    0.337216E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.365596E+02    0.332987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.383275E+02    0.338946E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.395453E+02    0.352653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.396924E+02    0.371649E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.387696E+02    0.390355E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.370403E+02    0.403367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.351449E+02    0.406381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.332802E+02    0.430707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.306897E+02    0.413385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138804E+03   -0.293474E+02    0.385490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138787E+03   -0.298101E+02    0.353074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.319235E+02    0.324193E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.350272E+02    0.307420E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.384950E+02    0.306544E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.413598E+02    0.322873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.427694E+02    0.352366E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.422519E+02    0.387249E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.399318E+02    0.417154E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.366986E+02    0.432178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.367442E+02    0.277194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.349042E+02    0.279382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.362584E+02    0.260298E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.383730E+02    0.263844E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.382259E+02    0.286062E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.361620E+02    0.294764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.343093E+02    0.308406E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.332059E+02    0.294664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138573E+03   -0.329372E+02    0.277473E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.339476E+02    0.257455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.355084E+02    0.244444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.374906E+02    0.239399E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.393826E+02    0.243794E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.404446E+02    0.258556E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.406445E+02    0.277188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.396648E+02    0.296700E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.380563E+02    0.309623E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.360613E+02    0.314085E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.341510E+02    0.340183E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138671E+03   -0.314183E+02    0.324579E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139015E+03   -0.301662E+02    0.296408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138938E+03   -0.306448E+02    0.263171E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.328023E+02    0.232234E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.359814E+02    0.213382E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.394726E+02    0.211203E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.423969E+02    0.226317E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.437887E+02    0.255910E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.432625E+02    0.291076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.409079E+02    0.322422E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.375979E+02    0.339836E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.357224E+02    0.428761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.338938E+02    0.429631E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.352178E+02    0.412264E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.372897E+02    0.417466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.372466E+02    0.438207E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.351648E+02    0.445424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.333695E+02    0.457073E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.322457E+02    0.442902E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.321356E+02    0.424914E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.329417E+02    0.407874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.345352E+02    0.395680E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.365161E+02    0.392016E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.382719E+02    0.398700E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.394621E+02    0.413274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.395775E+02    0.432138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.387235E+02    0.449672E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.369759E+02    0.461780E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.350792E+02    0.464222E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.332595E+02    0.488634E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.306233E+02    0.469851E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.294060E+02    0.441070E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.298317E+02    0.409798E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.317341E+02    0.382796E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.349368E+02    0.366185E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.383979E+02    0.366372E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.414337E+02    0.382818E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.428921E+02    0.413389E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.424132E+02    0.447457E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.401276E+02    0.476432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.365758E+02    0.491800E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.361895E+02    0.327061E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.343546E+02    0.328894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.357259E+02    0.309998E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.378279E+02    0.314037E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.377495E+02    0.335577E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.355867E+02    0.344555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.337278E+02    0.357647E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.325603E+02    0.344452E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.325743E+02    0.324935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.332529E+02    0.308257E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.349983E+02    0.293954E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.369794E+02    0.289312E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.387607E+02    0.294951E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.398998E+02    0.309133E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.400716E+02    0.328018E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.391714E+02    0.346559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.374519E+02    0.359728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.354624E+02    0.363687E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.336187E+02    0.388919E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138574E+03   -0.309212E+02    0.372326E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138850E+03   -0.297057E+02    0.344022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138909E+03   -0.301378E+02    0.311644E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.321451E+02    0.283050E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.354129E+02    0.264188E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.388906E+02    0.262657E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.417838E+02    0.278218E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.433427E+02    0.306621E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.426592E+02    0.342630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.403715E+02    0.372676E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.370483E+02    0.389509E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.54 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.368974E+02    0.210315E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.348743E+02    0.214898E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.363833E+02    0.193378E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.385097E+02    0.196414E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.383975E+02    0.218917E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.362481E+02    0.229055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.344128E+02    0.243177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138550E+03   -0.331969E+02    0.230725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.330766E+02    0.211660E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138576E+03   -0.338874E+02    0.193107E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.356994E+02    0.176722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.376823E+02    0.171235E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.394889E+02    0.176122E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.406772E+02    0.189639E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.408078E+02    0.209233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.398596E+02    0.229211E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.381705E+02    0.243362E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.361790E+02    0.248375E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.341257E+02    0.276660E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138724E+03   -0.315340E+02    0.260289E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138939E+03   -0.303152E+02    0.231452E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138992E+03   -0.307535E+02    0.197685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138764E+03   -0.327883E+02    0.167298E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.361282E+02    0.145609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.396266E+02    0.142694E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.425813E+02    0.156962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.439191E+02    0.187003E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.433472E+02    0.223325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.410480E+02    0.255251E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.376663E+02    0.274392E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687616.097444143     
  ps_ts2 prof sum =   687227.169651703     
  trcom prof sum =    687227.169651703     
  ps_ts2 cur sum  =   17775.6346558353     
  trcom cur sum  =    17775.6346558353     
  
  antenna # iant =            2
  powecha_use(iant) =    684506.162083680     
  ps_ts2 prof sum =   684108.683241017     
  trcom prof sum =    684108.683241016     
  ps_ts2 cur sum  =   20511.4997911705     
  trcom cur sum  =    20511.4997911705     
  
  antenna # iant =            3
  powecha_use(iant) =    520452.593359408     
  ps_ts2 prof sum =   520145.631396407     
  trcom prof sum =    520145.631396407     
  ps_ts2 cur sum  =   11850.1176807947     
  trcom cur sum  =    11850.1176807947     
  
  antenna # iant =            4
  powecha_use(iant) =    571423.734554980     
  ps_ts2 prof sum =   571082.307919559     
  trcom prof sum =    571082.307919559     
  ps_ts2 cur sum  =   15934.4080334377     
  trcom cur sum  =    15934.4080334376     
  
  antenna # iant =            5
  powecha_use(iant) =    543330.563625627     
  ps_ts2 prof sum =   543014.288370087     
  trcom prof sum =    543014.288370087     
  ps_ts2 cur sum  =   17400.0443800261     
  trcom cur sum  =    17400.0443800261     
  
  Total ECH heating:      3005578.08057877     
  Total Current Drive:    83471.7045412642     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1231
 TA= 1.53500E+00 CPU TIME= 1.66225E-01 SECONDS.  DT= 2.30114E-04
  
 TEC1=    1.53499999999999     
 TEC2=    1.53999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.06632138888881     
  %check_save_state: izleft hours =    76.9252777777778     
 --> plasma_hash("gframe"): TA= 1.535000E+00 NSTEP=  1231 Hash code:   23883032
 ->PRGCHK: bdy curvature ratio at t= 1.5400E+00 seconds is:  5.5373E-02
% MHDEQ: TG1=     1.535000 ; TG2=     1.540000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7813E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5373E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.535000 TO TG2=    1.540000 @ NSTEP     1231
   GFRAME TG2 MOMENTS CHECKSUM:  2.4836780108273D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.61448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2= -7.56595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.90395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.19586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.67328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.37280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.11922E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.45546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -5.10720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.45361E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.02873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.12320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  1.76244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.31296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.23350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.09731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.64147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.37702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.87280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.93747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.93747E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.5400E+00  1.5450E+00 total power(Watts):  2.9880E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.54000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.358446E+02    0.370188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.340123E+02    0.371655E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.353097E+02    0.353728E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.373978E+02    0.358200E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.373884E+02    0.379255E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.352216E+02    0.387879E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.334413E+02    0.400303E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.323779E+02    0.385802E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.322412E+02    0.367345E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.330252E+02    0.350033E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.346027E+02    0.337648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.365850E+02    0.333403E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.383496E+02    0.339409E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.395680E+02    0.353135E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.397152E+02    0.372138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.387915E+02    0.390858E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.370612E+02    0.403870E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.351648E+02    0.406875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.332991E+02    0.431221E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.307076E+02    0.413854E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138785E+03   -0.293650E+02    0.385914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138769E+03   -0.298284E+02    0.353481E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.319431E+02    0.324593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.350484E+02    0.307807E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.385177E+02    0.306955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.413840E+02    0.323331E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.430054E+02    0.351658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.424842E+02    0.386765E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.399536E+02    0.417702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.367187E+02    0.432729E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.367669E+02    0.277565E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.349255E+02    0.279740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.362811E+02    0.260650E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.383966E+02    0.264217E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.383465E+02    0.285642E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.361839E+02    0.295150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.343302E+02    0.308791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.332235E+02    0.295054E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.329584E+02    0.277816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.339690E+02    0.257794E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.356222E+02    0.243858E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.375144E+02    0.239725E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.394068E+02    0.244146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.405714E+02    0.258079E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.406689E+02    0.277586E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.397903E+02    0.296331E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.380791E+02    0.310034E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.360830E+02    0.314495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.341713E+02    0.340616E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138654E+03   -0.314374E+02    0.324967E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138999E+03   -0.301851E+02    0.296751E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138924E+03   -0.306644E+02    0.263493E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138581E+03   -0.327371E+02    0.233481E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.360042E+02    0.213660E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.394977E+02    0.211495E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.424235E+02    0.226654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.440310E+02    0.254619E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.432877E+02    0.291502E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.409319E+02    0.322873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.376197E+02    0.340296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.357419E+02    0.429296E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.339129E+02    0.430148E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.352333E+02    0.412785E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.373103E+02    0.417993E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.372669E+02    0.438777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.351838E+02    0.445989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.333869E+02    0.457646E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.322637E+02    0.443434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.321540E+02    0.425407E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.329607E+02    0.408351E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.345550E+02    0.396155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.365368E+02    0.392502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.382934E+02    0.399211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.394836E+02    0.413819E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.395989E+02    0.432713E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.387437E+02    0.450278E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.369948E+02    0.462400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.350920E+02    0.464835E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.332765E+02    0.489243E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.306401E+02    0.470414E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.294227E+02    0.441583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.298496E+02    0.410250E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.317531E+02    0.383229E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.349572E+02    0.366636E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.384199E+02    0.366853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.414567E+02    0.383351E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.429154E+02    0.413968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.424351E+02    0.448109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.399514E+02    0.477575E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.365937E+02    0.492451E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.362110E+02    0.327488E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.343751E+02    0.329312E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.357474E+02    0.310398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.378505E+02    0.314459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.377715E+02    0.336030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.356107E+02    0.344971E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.337476E+02    0.358087E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.325799E+02    0.344872E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.325938E+02    0.325339E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.332736E+02    0.308629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.350196E+02    0.294329E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.370019E+02    0.289697E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.387839E+02    0.295350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.399232E+02    0.309560E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.400949E+02    0.328479E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.391940E+02    0.347034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.374734E+02    0.360206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.354830E+02    0.364146E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.336381E+02    0.389379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.309396E+02    0.372750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.297243E+02    0.344420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138893E+03   -0.301565E+02    0.312005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138671E+03   -0.321661E+02    0.283399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.354324E+02    0.264559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.389147E+02    0.263033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.418086E+02    0.278628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.433678E+02    0.307079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.426832E+02    0.343135E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.403942E+02    0.373182E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.370693E+02    0.389999E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.369211E+02    0.210592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.350756E+02    0.213199E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.364078E+02    0.193624E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.385342E+02    0.196674E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.384214E+02    0.219216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.362709E+02    0.229354E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.344346E+02    0.243498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.332177E+02    0.231008E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.330979E+02    0.211912E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.340839E+02    0.191268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.357214E+02    0.176952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.377065E+02    0.171468E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.395151E+02    0.176358E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.407033E+02    0.189907E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.408338E+02    0.209528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.398845E+02    0.229533E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.381942E+02    0.243704E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.362039E+02    0.248687E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.343251E+02    0.275316E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138710E+03   -0.315543E+02    0.260610E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138927E+03   -0.303362E+02    0.231720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138983E+03   -0.307752E+02    0.197905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.328145E+02    0.167464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.361522E+02    0.145822E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.396519E+02    0.142917E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.426087E+02    0.157209E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.441612E+02    0.185289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.435877E+02    0.221817E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.410735E+02    0.255633E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.376893E+02    0.274767E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683601.356529414     
  ps_ts2 prof sum =   683236.585909490     
  trcom prof sum =    683236.585867406     
  ps_ts2 cur sum  =   17729.3192170385     
  trcom cur sum  =    17729.3192170385     
  
  antenna # iant =            2
  powecha_use(iant) =    683181.442232967     
  ps_ts2 prof sum =   682795.994860183     
  trcom prof sum =    682795.994860183     
  ps_ts2 cur sum  =   20515.7134996490     
  trcom cur sum  =    20515.7134996490     
  
  antenna # iant =            3
  powecha_use(iant) =    521061.719503565     
  ps_ts2 prof sum =   520747.426615543     
  trcom prof sum =    520747.426615543     
  ps_ts2 cur sum  =   11905.4034102527     
  trcom cur sum  =    11905.4034102527     
  
  antenna # iant =            4
  powecha_use(iant) =    556966.640383780     
  ps_ts2 prof sum =   556627.232189907     
  trcom prof sum =    556627.232189907     
  ps_ts2 cur sum  =   15574.5210653535     
  trcom cur sum  =    15574.5210653535     
  
  antenna # iant =            5
  powecha_use(iant) =    543180.496332257     
  ps_ts2 prof sum =   542910.170654223     
  trcom prof sum =    542910.170654223     
  ps_ts2 cur sum  =   17416.9900810775     
  trcom cur sum  =    17416.9900810775     
  
  Total ECH heating:      2986317.41018726     
  Total Current Drive:    83141.9472733712     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1240
 TA= 1.54000E+00 CPU TIME= 1.59952E-01 SECONDS.  DT= 5.42630E-04
  
 TEC1=    1.53999999999999     
 TEC2=    1.54499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.07919499999957     
  %check_save_state: izleft hours =    76.9125000000000     
 --> plasma_hash("gframe"): TA= 1.540000E+00 NSTEP=  1240 Hash code:   35066511
 ->PRGCHK: bdy curvature ratio at t= 1.5450E+00 seconds is:  5.5268E-02
% MHDEQ: TG1=     1.540000 ; TG2=     1.545000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7810E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5268E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.540000 TO TG2=    1.545000 @ NSTEP     1240
   GFRAME TG2 MOMENTS CHECKSUM:  2.4845409993915D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5450E+00  1.5500E+00 total power(Watts):  2.9913E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.54500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.358664E+02    0.370647E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.340330E+02    0.372108E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.353311E+02    0.354175E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.374201E+02    0.358665E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.374107E+02    0.379736E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.352425E+02    0.388349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.334614E+02    0.400780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.322280E+02    0.387361E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.320915E+02    0.368996E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.330457E+02    0.350461E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.346241E+02    0.338075E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.366039E+02    0.333868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.383728E+02    0.339870E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.395914E+02    0.353619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.397387E+02    0.372637E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.388141E+02    0.391367E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.370828E+02    0.404382E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.351860E+02    0.407371E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.333186E+02    0.431737E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.307262E+02    0.414326E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.293834E+02    0.386336E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138751E+03   -0.298473E+02    0.353888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.319632E+02    0.324986E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.350705E+02    0.308194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.385417E+02    0.307370E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.414090E+02    0.323792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.428186E+02    0.353391E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.422997E+02    0.388322E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.399763E+02    0.418266E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.367395E+02    0.433284E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.367904E+02    0.277935E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.349476E+02    0.280101E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.363039E+02    0.260998E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.384211E+02    0.264584E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.383706E+02    0.286036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.362068E+02    0.295534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.343517E+02    0.309177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.332463E+02    0.295406E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.329792E+02    0.278169E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.339907E+02    0.258126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.356454E+02    0.244187E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.375386E+02    0.240057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.394313E+02    0.244508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.405967E+02    0.258458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.406943E+02    0.277983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.398148E+02    0.296740E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.381025E+02    0.310448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.361056E+02    0.314900E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.341925E+02    0.341046E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.314576E+02    0.325358E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138984E+03   -0.302047E+02    0.297093E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138910E+03   -0.306843E+02    0.263809E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.327582E+02    0.233778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.360276E+02    0.213938E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.395236E+02    0.211789E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.424506E+02    0.226996E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.440585E+02    0.255020E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.433144E+02    0.291935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.409566E+02    0.323332E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.376425E+02    0.340753E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.357628E+02    0.429835E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.339327E+02    0.430670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.352553E+02    0.413288E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.373323E+02    0.418522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.372879E+02    0.439350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.352035E+02    0.446562E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.333202E+02    0.458543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.322830E+02    0.443957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.321728E+02    0.425906E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.329809E+02    0.408833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.345756E+02    0.396636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.365585E+02    0.392998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.383158E+02    0.399728E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.396049E+02    0.413935E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.396211E+02    0.433297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.387648E+02    0.450903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.370149E+02    0.463022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.351153E+02    0.465436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.332942E+02    0.489862E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.306574E+02    0.470988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.294402E+02    0.442088E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.298677E+02    0.410712E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.318564E+02    0.383101E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.349781E+02    0.367094E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.384428E+02    0.367328E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.414807E+02    0.383879E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.429394E+02    0.414566E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.424578E+02    0.448771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.399715E+02    0.478268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.366132E+02    0.493101E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.362332E+02    0.327915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.343970E+02    0.329730E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.357699E+02    0.310792E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.378740E+02    0.314879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.377948E+02    0.336477E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.356283E+02    0.345452E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.337683E+02    0.358528E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.326004E+02    0.345297E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.326145E+02    0.325746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.332946E+02    0.309003E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.350419E+02    0.294703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.370251E+02    0.290078E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.388079E+02    0.295745E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.399479E+02    0.309979E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.401198E+02    0.328934E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.392174E+02    0.347512E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.374958E+02    0.360675E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.355042E+02    0.364604E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.336584E+02    0.389842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.309585E+02    0.373175E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138814E+03   -0.297433E+02    0.344823E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138877E+03   -0.301759E+02    0.312361E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.321859E+02    0.283747E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.354581E+02    0.264885E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.389393E+02    0.263401E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.418345E+02    0.279034E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.433940E+02    0.307531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.427086E+02    0.343635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.404182E+02    0.373678E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.370913E+02    0.390493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.369449E+02    0.210869E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.350998E+02    0.213475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.364325E+02    0.193877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.385594E+02    0.196942E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.384466E+02    0.219515E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.362948E+02    0.229664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.344568E+02    0.243821E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138526E+03   -0.332391E+02    0.231303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.331200E+02    0.212170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.341071E+02    0.191500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.357463E+02    0.177176E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.377314E+02    0.171696E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.395438E+02    0.176577E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.407301E+02    0.190173E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.408596E+02    0.209827E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.399102E+02    0.229862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.382186E+02    0.244053E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.362250E+02    0.249052E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.343471E+02    0.275674E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138696E+03   -0.315747E+02    0.260930E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138914E+03   -0.303562E+02    0.231999E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138973E+03   -0.307954E+02    0.198132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138739E+03   -0.328355E+02    0.167676E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.361778E+02    0.146038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.396796E+02    0.143149E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.426366E+02    0.157454E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.441894E+02    0.185572E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.436154E+02    0.222165E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.410993E+02    0.256011E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.377134E+02    0.275141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686053.117072685     
  ps_ts2 prof sum =   685637.629773572     
  trcom prof sum =    685637.629727266     
  ps_ts2 cur sum  =   17859.6584483807     
  trcom cur sum  =    17859.6584483806     
  
  antenna # iant =            2
  powecha_use(iant) =    681777.962721698     
  ps_ts2 prof sum =   681394.428494557     
  trcom prof sum =    681394.428494556     
  ps_ts2 cur sum  =   20523.3678400042     
  trcom cur sum  =    20523.3678400042     
  
  antenna # iant =            3
  powecha_use(iant) =    519845.962973137     
  ps_ts2 prof sum =   519552.674418348     
  trcom prof sum =    519552.674418349     
  ps_ts2 cur sum  =   11926.6737882087     
  trcom cur sum  =    11926.6737882087     
  
  antenna # iant =            4
  powecha_use(iant) =    561553.534076426     
  ps_ts2 prof sum =   561216.616620433     
  trcom prof sum =    561216.616620432     
  ps_ts2 cur sum  =   15752.5442090692     
  trcom cur sum  =    15752.5442090691     
  
  antenna # iant =            5
  powecha_use(iant) =    542090.193583962     
  ps_ts2 prof sum =   541815.750686335     
  trcom prof sum =    541815.750686335     
  ps_ts2 cur sum  =   17408.2745434694     
  trcom cur sum  =    17408.2745434693     
  
  Total ECH heating:      2989617.09994694     
  Total Current Drive:    83470.5188291320     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1246
 TA= 1.54500E+00 CPU TIME= 1.59159E-01 SECONDS.  DT= 6.83269E-04
  
 TEC1=    1.54499999999999     
 TEC2=    1.54999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.09126805555547     
  %check_save_state: izleft hours =    76.9002777777778     
 --> plasma_hash("gframe"): TA= 1.545000E+00 NSTEP=  1246 Hash code:   52565625
 ->PRGCHK: bdy curvature ratio at t= 1.5500E+00 seconds is:  5.5166E-02
% MHDEQ: TG1=     1.545000 ; TG2=     1.550000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7807E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5166E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.545000 TO TG2=    1.550000 @ NSTEP     1246
   GFRAME TG2 MOMENTS CHECKSUM:  2.4854039792515D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.40368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.24202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.94029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.05207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.71207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.70355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.73895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.23710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.35769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.35465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.19284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.58055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.65974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  2.28948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.14879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.90124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.91899E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.74123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.30187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.23870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.50559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.50559E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5500E+00  1.5550E+00 total power(Watts):  3.0068E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.55000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.358869E+02    0.371114E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.340530E+02    0.372562E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.353522E+02    0.354622E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.374418E+02    0.359138E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.374320E+02    0.380224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.352626E+02    0.388836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.334810E+02    0.401261E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.322471E+02    0.387802E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.321107E+02    0.369427E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.330654E+02    0.350898E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.346450E+02    0.338514E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.366216E+02    0.334343E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.383956E+02    0.340332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.396143E+02    0.354111E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.397611E+02    0.373138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.388360E+02    0.391882E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.371038E+02    0.404896E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.352055E+02    0.407881E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.333379E+02    0.432266E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.307441E+02    0.414805E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138748E+03   -0.294010E+02    0.386758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138733E+03   -0.298659E+02    0.354299E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.319816E+02    0.325389E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.350916E+02    0.308592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.385673E+02    0.307765E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.414326E+02    0.324272E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.430547E+02    0.352710E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.423231E+02    0.388868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.399980E+02    0.418833E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.366665E+02    0.434231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.368127E+02    0.278314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.349693E+02    0.280471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.363267E+02    0.261361E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.384448E+02    0.264967E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.383939E+02    0.286427E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.362287E+02    0.295923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.343727E+02    0.309571E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.332668E+02    0.295774E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.331735E+02    0.276823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.340124E+02    0.258473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.356677E+02    0.244533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.376574E+02    0.239488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.394568E+02    0.244863E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.406216E+02    0.258847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.407204E+02    0.278382E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.398385E+02    0.297157E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.381252E+02    0.310876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.361273E+02    0.315314E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.342130E+02    0.341481E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138621E+03   -0.314771E+02    0.325753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138969E+03   -0.302241E+02    0.297438E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138895E+03   -0.307046E+02    0.264137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138557E+03   -0.327799E+02    0.234072E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.360520E+02    0.214225E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.395484E+02    0.212095E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.424766E+02    0.227353E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.440846E+02    0.255438E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.433397E+02    0.292380E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.409805E+02    0.323799E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.376649E+02    0.341208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.357823E+02    0.430380E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.339518E+02    0.431203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.352751E+02    0.413801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.373528E+02    0.419066E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.373079E+02    0.439926E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.352227E+02    0.447132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.333382E+02    0.459123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.323009E+02    0.444499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.321913E+02    0.426413E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.329992E+02    0.409324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.345955E+02    0.397119E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.365794E+02    0.393491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.383370E+02    0.400252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.396272E+02    0.414483E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.396424E+02    0.433889E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.388818E+02    0.451201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.370341E+02    0.463638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.351338E+02    0.466041E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.333098E+02    0.490493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.306741E+02    0.471558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.294571E+02    0.442605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.298853E+02    0.411177E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.317915E+02    0.384105E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.349986E+02    0.367546E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.384648E+02    0.367816E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.415042E+02    0.384398E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.429621E+02    0.415166E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.424796E+02    0.449431E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.399920E+02    0.478941E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.366312E+02    0.493759E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.362549E+02    0.328350E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.344177E+02    0.330153E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.357912E+02    0.311199E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.378966E+02    0.315302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.378169E+02    0.336940E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.356506E+02    0.345888E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.337883E+02    0.358969E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.326201E+02    0.345717E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.326342E+02    0.326147E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138380E+03   -0.333150E+02    0.309383E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.350634E+02    0.295079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.370479E+02    0.290469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.388311E+02    0.296153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.399715E+02    0.310414E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.401431E+02    0.329406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.392400E+02    0.347993E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.375175E+02    0.361151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.355251E+02    0.365061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.336778E+02    0.390305E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.309771E+02    0.373600E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138796E+03   -0.297613E+02    0.345232E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.301951E+02    0.312729E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138641E+03   -0.322065E+02    0.284089E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.354804E+02    0.265246E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.389632E+02    0.263787E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.418597E+02    0.279451E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.433123E+02    0.308716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.427332E+02    0.344144E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.404410E+02    0.374185E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.371124E+02    0.390992E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.369687E+02    0.211161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.351231E+02    0.213756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.364553E+02    0.194134E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.385857E+02    0.197215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.384706E+02    0.219829E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.363177E+02    0.229984E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.344780E+02    0.244151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138514E+03   -0.332617E+02    0.231601E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.331416E+02    0.212437E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.341297E+02    0.191743E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.357706E+02    0.177410E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.377568E+02    0.171940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.395673E+02    0.176853E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.407558E+02    0.190447E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.408856E+02    0.210143E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.399349E+02    0.230211E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.382427E+02    0.244412E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.362443E+02    0.249424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.343700E+02    0.276021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138681E+03   -0.315943E+02    0.261268E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138902E+03   -0.303762E+02    0.232286E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138963E+03   -0.308162E+02    0.198361E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138732E+03   -0.328587E+02    0.167890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.362018E+02    0.146266E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.398034E+02    0.142291E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.426653E+02    0.157715E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.441105E+02    0.186854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.435353E+02    0.223442E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.411243E+02    0.256401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.377361E+02    0.275525E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685499.190138461     
  ps_ts2 prof sum =   685087.360908523     
  trcom prof sum =    685087.360908523     
  ps_ts2 cur sum  =   17903.3443685473     
  trcom cur sum  =    17903.3443685472     
  
  antenna # iant =            2
  powecha_use(iant) =    687820.697090911     
  ps_ts2 prof sum =   687443.884556875     
  trcom prof sum =    687443.884556875     
  ps_ts2 cur sum  =   20749.9967259292     
  trcom cur sum  =    20749.9967259292     
  
  antenna # iant =            3
  powecha_use(iant) =    520024.343570481     
  ps_ts2 prof sum =   519729.693136883     
  trcom prof sum =    519729.693136883     
  ps_ts2 cur sum  =   11972.3257211560     
  trcom cur sum  =    11972.3257211560     
  
  antenna # iant =            4
  powecha_use(iant) =    570097.895364713     
  ps_ts2 prof sum =   569743.090546521     
  trcom prof sum =    569743.090546520     
  ps_ts2 cur sum  =   16037.7616715427     
  trcom cur sum  =    16037.7616715426     
  
  antenna # iant =            5
  powecha_use(iant) =    543312.787838573     
  ps_ts2 prof sum =   543014.809308271     
  trcom prof sum =    543014.809308271     
  ps_ts2 cur sum  =   17470.2673732143     
  trcom cur sum  =    17470.2673732143     
  
  Total ECH heating:      3005018.83845707     
  Total Current Drive:    84133.6958603894     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1251
 TA= 1.55000E+00 CPU TIME= 1.59222E-01 SECONDS.  DT= 1.32566E-03
  
 TEC1=    1.54999999999999     
 TEC2=    1.55499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.10788027777789     
  %check_save_state: izleft hours =    76.8836111111111     
 --> plasma_hash("gframe"): TA= 1.550000E+00 NSTEP=  1251 Hash code:   24118048
 ->PRGCHK: bdy curvature ratio at t= 1.5550E+00 seconds is:  5.5066E-02
% MHDEQ: TG1=     1.550000 ; TG2=     1.555000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7805E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5066E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.550000 TO TG2=    1.555000 @ NSTEP     1251
   GFRAME TG2 MOMENTS CHECKSUM:  2.4862669591115D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5550E+00  1.5600E+00 total power(Watts):  2.9976E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.55500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.359091E+02    0.371582E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.340739E+02    0.373017E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.353739E+02    0.355085E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.374649E+02    0.359614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.374543E+02    0.380715E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.352842E+02    0.389313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.335000E+02    0.401757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.322669E+02    0.388262E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.321310E+02    0.369859E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.330860E+02    0.351332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.346670E+02    0.338954E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.366481E+02    0.334767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.384189E+02    0.340808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.396384E+02    0.354600E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.397848E+02    0.373646E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.388588E+02    0.392405E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.371256E+02    0.405421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.352264E+02    0.408397E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.333571E+02    0.432806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.307625E+02    0.415292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.294195E+02    0.387192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138716E+03   -0.298843E+02    0.354713E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.320032E+02    0.325787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.351140E+02    0.308984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.385880E+02    0.308211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.414577E+02    0.324745E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.430804E+02    0.353232E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.423474E+02    0.389420E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.400208E+02    0.419406E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.366874E+02    0.434804E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.368372E+02    0.278695E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.349928E+02    0.280840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.363503E+02    0.261733E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.384700E+02    0.265353E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.384183E+02    0.286826E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.362521E+02    0.296313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.343946E+02    0.309961E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.332885E+02    0.296139E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.331949E+02    0.277181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.340330E+02    0.258826E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.356914E+02    0.244877E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.376818E+02    0.239838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.394822E+02    0.245233E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.406478E+02    0.259244E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.407431E+02    0.278812E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.398633E+02    0.297572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.381489E+02    0.311295E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.361497E+02    0.315729E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.342344E+02    0.341924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.314968E+02    0.326148E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138953E+03   -0.302440E+02    0.297785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138881E+03   -0.307256E+02    0.264472E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.328011E+02    0.234378E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.360761E+02    0.214521E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.395741E+02    0.212404E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.425047E+02    0.227711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.441128E+02    0.255854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.433668E+02    0.292809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.410049E+02    0.324269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.376878E+02    0.341683E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.358031E+02    0.430934E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.339715E+02    0.431741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.352959E+02    0.414319E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.373746E+02    0.419615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.373289E+02    0.440511E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.351528E+02    0.448058E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.333567E+02    0.459707E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.323196E+02    0.445045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.322103E+02    0.426929E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.330193E+02    0.409820E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.346161E+02    0.397611E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.366011E+02    0.393996E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.383594E+02    0.400785E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.396499E+02    0.415053E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.396645E+02    0.434491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.389030E+02    0.451831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.370540E+02    0.464277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.351530E+02    0.466659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.332432E+02    0.491319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.306913E+02    0.472137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.293192E+02    0.443887E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.299033E+02    0.411654E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.318947E+02    0.383998E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.350203E+02    0.368004E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.384880E+02    0.368306E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.415281E+02    0.384948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.429862E+02    0.415776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.424031E+02    0.450397E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.400123E+02    0.479635E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.366523E+02    0.494429E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.362774E+02    0.328792E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.344388E+02    0.330581E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.358139E+02    0.311601E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.379216E+02    0.315721E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.378401E+02    0.337404E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.356726E+02    0.346345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.338096E+02    0.359412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.326407E+02    0.346147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.326551E+02    0.326554E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.333366E+02    0.309762E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.350863E+02    0.295463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.370715E+02    0.290861E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.388556E+02    0.296560E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.399962E+02    0.310851E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.401675E+02    0.329881E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.392638E+02    0.348482E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.375405E+02    0.361624E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.355470E+02    0.365520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.336985E+02    0.390780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.309969E+02    0.374034E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138779E+03   -0.297801E+02    0.345641E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138845E+03   -0.302149E+02    0.313095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138626E+03   -0.322276E+02    0.284441E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.355029E+02    0.265610E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.389887E+02    0.264174E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.418859E+02    0.279871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.433389E+02    0.309178E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.427586E+02    0.344659E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.404649E+02    0.374700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.371383E+02    0.391478E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.369943E+02    0.211458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.351454E+02    0.214049E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.364807E+02    0.194397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.386156E+02    0.197458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.384956E+02    0.220149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.363414E+02    0.230307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.345019E+02    0.244488E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.332829E+02    0.231906E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.331646E+02    0.212707E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.341533E+02    0.191995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.357953E+02    0.177656E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.377830E+02    0.172190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.395929E+02    0.177129E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.407838E+02    0.190729E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.409123E+02    0.210462E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.399608E+02    0.230553E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.382674E+02    0.244771E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.362711E+02    0.249758E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.343898E+02    0.276412E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138668E+03   -0.316168E+02    0.261600E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138890E+03   -0.303977E+02    0.232578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138954E+03   -0.308380E+02    0.198601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.330504E+02    0.165940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.362268E+02    0.146503E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.398303E+02    0.142547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.426932E+02    0.157990E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.441395E+02    0.187154E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.435639E+02    0.223805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.411508E+02    0.256799E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.377612E+02    0.275908E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683509.902975891     
  ps_ts2 prof sum =   683106.788623294     
  trcom prof sum =    683106.788623293     
  ps_ts2 cur sum  =   17918.5346262686     
  trcom cur sum  =    17918.5346262686     
  
  antenna # iant =            2
  powecha_use(iant) =    687187.834617401     
  ps_ts2 prof sum =   686810.405202582     
  trcom prof sum =    686810.405202581     
  ps_ts2 cur sum  =   20785.2549315683     
  trcom cur sum  =    20785.2549315682     
  
  antenna # iant =            3
  powecha_use(iant) =    520779.791761733     
  ps_ts2 prof sum =   520476.536433034     
  trcom prof sum =    520476.536433034     
  ps_ts2 cur sum  =   12038.2319631964     
  trcom cur sum  =    12038.2319631964     
  
  antenna # iant =            4
  powecha_use(iant) =    562698.302377853     
  ps_ts2 prof sum =   562351.531561297     
  trcom prof sum =    562351.531561296     
  ps_ts2 cur sum  =   15881.4465329521     
  trcom cur sum  =    15881.4465329521     
  
  antenna # iant =            5
  powecha_use(iant) =    543378.751062198     
  ps_ts2 prof sum =   543090.578072286     
  trcom prof sum =    543090.578072286     
  ps_ts2 cur sum  =   17503.6178897916     
  trcom cur sum  =    17503.6178897916     
  
  Total ECH heating:      2995835.83989249     
  Total Current Drive:    84127.0859437769     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1254
 TA= 1.55500E+00 CPU TIME= 1.62289E-01 SECONDS.  DT= 2.52158E-03
  
 TEC1=    1.55499999999999     
 TEC2=    1.55999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.12200861111114     
  %check_save_state: izleft hours =    76.8694444444444     
 --> plasma_hash("gframe"): TA= 1.555000E+00 NSTEP=  1254 Hash code:   71317828
 ->PRGCHK: bdy curvature ratio at t= 1.5600E+00 seconds is:  5.4999E-02
% MHDEQ: TG1=     1.555000 ; TG2=     1.560000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7775E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4999E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.555000 TO TG2=    1.560000 @ NSTEP     1254
   GFRAME TG2 MOMENTS CHECKSUM:  2.4854705081824D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.56772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.19973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.67994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.40972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.70585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.72279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.26232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.24379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.48643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.24934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.68343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      15= -3.53665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  2.22815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.15710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.93037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.59943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.81404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.29782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.29070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.93804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.93804E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.5600E+00  1.5650E+00 total power(Watts):  2.9932E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.56000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.359990E+02    0.371225E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.341600E+02    0.372649E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.354641E+02    0.354669E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.375588E+02    0.359227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.375465E+02    0.380405E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.353711E+02    0.389019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.335826E+02    0.401508E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.323488E+02    0.387936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.322141E+02    0.369464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.331717E+02    0.350890E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.347568E+02    0.338484E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.367422E+02    0.334296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.385164E+02    0.340368E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.397366E+02    0.354216E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.398816E+02    0.373327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.389522E+02    0.392151E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.372150E+02    0.405207E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.353114E+02    0.408187E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.334365E+02    0.432642E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.306773E+02    0.415995E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.294959E+02    0.386842E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.299635E+02    0.354257E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.320883E+02    0.325262E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.352066E+02    0.308412E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.386885E+02    0.307655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.415624E+02    0.324274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.431843E+02    0.352877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.426559E+02    0.388184E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.401141E+02    0.419270E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.367737E+02    0.434667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.369352E+02    0.278014E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.350866E+02    0.280157E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.364475E+02    0.260978E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.385717E+02    0.264626E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.385189E+02    0.286191E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.363477E+02    0.295700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.344855E+02    0.309390E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.333752E+02    0.295536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.331120E+02    0.278160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.341263E+02    0.258047E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.357870E+02    0.244053E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.377831E+02    0.239014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.395872E+02    0.244436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.407543E+02    0.258510E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.408507E+02    0.278144E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.399663E+02    0.296988E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.382478E+02    0.310749E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.362440E+02    0.315191E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.343229E+02    0.341457E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.315818E+02    0.325610E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.303266E+02    0.297129E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138680E+03   -0.308112E+02    0.263692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.328931E+02    0.233504E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.361743E+02    0.213607E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.397794E+02    0.210538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.426163E+02    0.226871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.442258E+02    0.255135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.436907E+02    0.290717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.411090E+02    0.323793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.377835E+02    0.341242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.358879E+02    0.430784E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.340526E+02    0.431582E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.353806E+02    0.414138E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.374627E+02    0.419458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.374156E+02    0.440390E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.352354E+02    0.447926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.334349E+02    0.459578E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.323969E+02    0.444895E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.322883E+02    0.426758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.331000E+02    0.409600E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.347014E+02    0.397353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.365969E+02    0.394240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.384511E+02    0.400561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.397416E+02    0.414915E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.397552E+02    0.434383E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.389906E+02    0.451742E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.371387E+02    0.464172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.352333E+02    0.466559E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.333191E+02    0.491278E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.307636E+02    0.472020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.293910E+02    0.443712E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.298206E+02    0.412375E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.319750E+02    0.383665E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.351087E+02    0.367629E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.385831E+02    0.367955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.416262E+02    0.384693E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.430834E+02    0.415660E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.425949E+02    0.450051E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.400997E+02    0.479603E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.367312E+02    0.494417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.363714E+02    0.328294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.345286E+02    0.330085E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.359077E+02    0.311046E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.380178E+02    0.315207E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.379362E+02    0.336957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.357624E+02    0.345919E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.338961E+02    0.359001E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.327265E+02    0.345680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.325697E+02    0.327474E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.334261E+02    0.309174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.351798E+02    0.294837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.371692E+02    0.290229E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.389568E+02    0.295962E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.400987E+02    0.310318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.402689E+02    0.329420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.393621E+02    0.348073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.376345E+02    0.361240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.356368E+02    0.365136E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.337825E+02    0.390483E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.310771E+02    0.373646E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.298600E+02    0.345158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.302974E+02    0.312496E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.323157E+02    0.283751E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.355986E+02    0.264868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.390920E+02    0.263442E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.419939E+02    0.279227E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.434474E+02    0.308667E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.430747E+02    0.343026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.405630E+02    0.374388E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.372248E+02    0.391227E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.370948E+02    0.210536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.352423E+02    0.213129E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.365803E+02    0.193428E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.387148E+02    0.196543E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.385996E+02    0.219269E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.364398E+02    0.229444E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.345948E+02    0.243660E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.333759E+02    0.231025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.332572E+02    0.211769E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.342475E+02    0.191006E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.358927E+02    0.176630E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.378849E+02    0.171159E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.396999E+02    0.176116E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.408916E+02    0.189777E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.410216E+02    0.209563E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.400677E+02    0.229714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.383698E+02    0.243965E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.363706E+02    0.248947E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.344836E+02    0.275700E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.317044E+02    0.260817E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.304822E+02    0.231688E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.309248E+02    0.197615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.331431E+02    0.164870E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.362352E+02    0.146496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.399377E+02    0.141441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.428067E+02    0.156937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.442555E+02    0.186208E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.436778E+02    0.222961E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.412587E+02    0.256056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.378613E+02    0.275221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.69 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682867.306307385     
  ps_ts2 prof sum =   682457.657162684     
  trcom prof sum =    682457.657162684     
  ps_ts2 cur sum  =   17783.4504074419     
  trcom cur sum  =    17783.4504074419     
  
  antenna # iant =            2
  powecha_use(iant) =    687086.460781242     
  ps_ts2 prof sum =   686705.525914591     
  trcom prof sum =    686705.525914590     
  ps_ts2 cur sum  =   20677.5977554469     
  trcom cur sum  =    20677.5977554468     
  
  antenna # iant =            3
  powecha_use(iant) =    519963.880659952     
  ps_ts2 prof sum =   519642.053455456     
  trcom prof sum =    519642.053455456     
  ps_ts2 cur sum  =   11924.5459567573     
  trcom cur sum  =    11924.5459567574     
  
  antenna # iant =            4
  powecha_use(iant) =    560878.632862377     
  ps_ts2 prof sum =   560527.153986858     
  trcom prof sum =    560527.153986857     
  ps_ts2 cur sum  =   15737.5533441799     
  trcom cur sum  =    15737.5533441799     
  
  antenna # iant =            5
  powecha_use(iant) =    542412.234839970     
  ps_ts2 prof sum =   542107.587778072     
  trcom prof sum =    542107.587778071     
  ps_ts2 cur sum  =   17394.1341302232     
  trcom cur sum  =    17394.1341302232     
  
  Total ECH heating:      2991439.97829766     
  Total Current Drive:    83517.2815940491     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1256
 TA= 1.56000E+00 CPU TIME= 1.68042E-01 SECONDS.  DT= 3.09803E-03
  
 TEC1=    1.55999999999999     
 TEC2=    1.56499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.13469750000013     
  %check_save_state: izleft hours =    76.8569444444445     
 --> plasma_hash("gframe"): TA= 1.560000E+00 NSTEP=  1256 Hash code:   65462012
 ->PRGCHK: bdy curvature ratio at t= 1.5650E+00 seconds is:  5.4933E-02
% MHDEQ: TG1=     1.560000 ; TG2=     1.565000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7745E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4933E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.560000 TO TG2=    1.565000 @ NSTEP     1256
   GFRAME TG2 MOMENTS CHECKSUM:  2.4846740572533D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5650E+00  1.5700E+00 total power(Watts):  3.0027E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.56500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.360877E+02    0.370868E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.342449E+02    0.372287E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.355532E+02    0.354244E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.376517E+02    0.358834E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.376370E+02    0.380095E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.354570E+02    0.388730E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.335779E+02    0.401735E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.324297E+02    0.387604E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.322962E+02    0.369072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.332566E+02    0.350442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.348452E+02    0.337996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.368352E+02    0.333814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.386125E+02    0.339913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.398337E+02    0.353828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.399769E+02    0.373013E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.390446E+02    0.391892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.373027E+02    0.404988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.353963E+02    0.407949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.335155E+02    0.432462E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.307532E+02    0.415759E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.295710E+02    0.386505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.299624E+02    0.354447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.320044E+02    0.326158E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.352981E+02    0.307838E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.387870E+02    0.307102E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.416653E+02    0.323792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.432866E+02    0.352514E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.427539E+02    0.387953E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.402064E+02    0.419104E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.368591E+02    0.434507E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.370321E+02    0.277325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.351794E+02    0.279471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.365451E+02    0.260205E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.386724E+02    0.263890E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.386185E+02    0.285557E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.364421E+02    0.295088E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.345755E+02    0.308814E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.334686E+02    0.294850E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.332013E+02    0.277448E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.342180E+02    0.257256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.358823E+02    0.243225E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.378826E+02    0.238173E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.396908E+02    0.243621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.408596E+02    0.257757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.409555E+02    0.277488E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.400681E+02    0.296405E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.383452E+02    0.310205E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.363370E+02    0.314648E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.344106E+02    0.340984E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.316654E+02    0.325062E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.304091E+02    0.296481E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138479E+03   -0.308958E+02    0.262901E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.329823E+02    0.232620E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.362716E+02    0.212688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.398837E+02    0.209636E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.427271E+02    0.226015E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.442299E+02    0.255242E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.437990E+02    0.290147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.412112E+02    0.323305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.378779E+02    0.340788E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.359718E+02    0.430613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.341329E+02    0.431402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.354655E+02    0.413917E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.375505E+02    0.419271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.375013E+02    0.440245E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.353170E+02    0.447777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.335124E+02    0.459435E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.324731E+02    0.444727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.323654E+02    0.426554E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.331806E+02    0.409356E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.347854E+02    0.397085E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.366850E+02    0.393970E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.385422E+02    0.400327E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.397346E+02    0.415166E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.398454E+02    0.434249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.389816E+02    0.451942E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.372221E+02    0.464071E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.353093E+02    0.466456E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.333937E+02    0.491223E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.308344E+02    0.471902E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.294622E+02    0.443512E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138266E+03   -0.298951E+02    0.412112E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.320556E+02    0.383320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.351960E+02    0.367251E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.386769E+02    0.367609E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.417232E+02    0.384442E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.431795E+02    0.415524E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.426870E+02    0.449971E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.403819E+02    0.479132E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.368122E+02    0.494390E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.364642E+02    0.327786E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.346173E+02    0.329573E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.360005E+02    0.310496E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.381144E+02    0.314676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.380310E+02    0.336491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.358540E+02    0.345457E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.339817E+02    0.358583E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.328107E+02    0.345208E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.326559E+02    0.326935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.335149E+02    0.308587E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.352714E+02    0.294216E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.372658E+02    0.289600E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.390567E+02    0.295368E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.401999E+02    0.309793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.403689E+02    0.328943E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.394591E+02    0.347653E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.377271E+02    0.360861E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.357254E+02    0.364756E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.338652E+02    0.390181E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.312384E+02    0.372674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.299387E+02    0.344662E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138429E+03   -0.303787E+02    0.311910E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.324030E+02    0.283057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.356950E+02    0.264096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.391935E+02    0.262706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.421012E+02    0.278583E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.435549E+02    0.308158E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.431778E+02    0.342624E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.406596E+02    0.374084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.373139E+02    0.390951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.371942E+02    0.209614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.353375E+02    0.212202E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.367708E+02    0.191441E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.388178E+02    0.195590E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.387017E+02    0.218371E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.365375E+02    0.228570E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.346874E+02    0.242823E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.334671E+02    0.230136E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.333489E+02    0.210829E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.343406E+02    0.190013E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.359895E+02    0.175598E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.379862E+02    0.170112E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.399034E+02    0.174064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.409999E+02    0.188809E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.411286E+02    0.208664E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.401728E+02    0.228854E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.384709E+02    0.243136E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.364656E+02    0.248143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.345758E+02    0.274996E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.317910E+02    0.260019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.305642E+02    0.230819E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.310110E+02    0.196618E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.332356E+02    0.163759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.363328E+02    0.145358E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.400424E+02    0.140306E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.429173E+02    0.155868E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.443692E+02    0.185253E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.437903E+02    0.222104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.413651E+02    0.255294E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.379601E+02    0.274530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.22 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680822.023097463     
  ps_ts2 prof sum =   680377.564099185     
  trcom prof sum =    680377.564099185     
  ps_ts2 cur sum  =   17601.6732133769     
  trcom cur sum  =    17601.6732133769     
  
  antenna # iant =            2
  powecha_use(iant) =    689810.001061098     
  ps_ts2 prof sum =   689414.074755070     
  trcom prof sum =    689414.074755070     
  ps_ts2 cur sum  =   20636.6016287984     
  trcom cur sum  =    20636.6016287984     
  
  antenna # iant =            3
  powecha_use(iant) =    519912.551959526     
  ps_ts2 prof sum =   519583.282097159     
  trcom prof sum =    519583.282097160     
  ps_ts2 cur sum  =   11826.2346553910     
  trcom cur sum  =    11826.2346553910     
  
  antenna # iant =            4
  powecha_use(iant) =    568863.079161629     
  ps_ts2 prof sum =   568512.469566684     
  trcom prof sum =    568512.469566683     
  ps_ts2 cur sum  =   15856.3419646372     
  trcom cur sum  =    15856.3419646371     
  
  antenna # iant =            5
  powecha_use(iant) =    543279.526925566     
  ps_ts2 prof sum =   542970.807850595     
  trcom prof sum =    542970.807850595     
  ps_ts2 cur sum  =   17330.5447205254     
  trcom cur sum  =    17330.5447205254     
  
  Total ECH heating:      3000858.19836869     
  Total Current Drive:    83251.3961827288     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1258
 TA= 1.56500E+00 CPU TIME= 1.59898E-01 SECONDS.  DT= 2.37747E-03
  
 TEC1=    1.56499999999999     
 TEC2=    1.56999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.14750916666640     
  %check_save_state: izleft hours =    76.8441666666667     
 --> plasma_hash("gframe"): TA= 1.565000E+00 NSTEP=  1258 Hash code:   68496724
 ->PRGCHK: bdy curvature ratio at t= 1.5700E+00 seconds is:  5.4868E-02
% MHDEQ: TG1=     1.565000 ; TG2=     1.570000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4868E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.565000 TO TG2=    1.570000 @ NSTEP     1258
   GFRAME TG2 MOMENTS CHECKSUM:  2.4838776063242D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.13943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2= -6.08415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.26285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.68145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.33955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.19980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.94253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.39027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.75477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.36032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      15= -2.75071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  1.60036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.33108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.39029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.13122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.86405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.36172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.04402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.95647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.95647E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.5700E+00  1.5750E+00 total power(Watts):  3.0029E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.57000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.361774E+02    0.370556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.343308E+02    0.371978E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.356427E+02    0.353866E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.377457E+02    0.358483E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.376337E+02    0.380379E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.355438E+02    0.388479E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.336601E+02    0.401517E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.325959E+02    0.386790E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.323792E+02    0.368717E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.333421E+02    0.350032E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.349355E+02    0.337559E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.369295E+02    0.333377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.387101E+02    0.339504E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.399318E+02    0.353477E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.400754E+02    0.372725E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.391376E+02    0.391690E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.373922E+02    0.404806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.353912E+02    0.408237E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.335950E+02    0.432319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.308293E+02    0.415553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.297245E+02    0.385652E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.300417E+02    0.354020E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.320903E+02    0.325655E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.353915E+02    0.307310E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.388873E+02    0.306601E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.417698E+02    0.323361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.433902E+02    0.352200E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.428525E+02    0.387783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.404964E+02    0.418182E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.369447E+02    0.434390E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.371306E+02    0.276681E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.352735E+02    0.278830E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.366430E+02    0.259485E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.387752E+02    0.263195E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.387195E+02    0.284962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.365380E+02    0.294520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.346668E+02    0.308289E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.335561E+02    0.294287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.332920E+02    0.276772E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.343107E+02    0.256507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.359793E+02    0.242428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.379840E+02    0.237375E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.397963E+02    0.242855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.409674E+02    0.257052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.410621E+02    0.276874E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.401713E+02    0.295875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.384440E+02    0.309713E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.364315E+02    0.314152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.344996E+02    0.340547E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.317502E+02    0.324553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138335E+03   -0.304926E+02    0.295870E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.309818E+02    0.262143E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.330751E+02    0.231771E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.363712E+02    0.211811E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.399914E+02    0.208775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.428398E+02    0.225214E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.443440E+02    0.254553E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.439091E+02    0.289627E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.413151E+02    0.322868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.379736E+02    0.340379E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.360560E+02    0.430488E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.342141E+02    0.431259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.355496E+02    0.413762E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.376386E+02    0.419133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.375870E+02    0.440154E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.353987E+02    0.447674E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.335904E+02    0.459334E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.325497E+02    0.444597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.324426E+02    0.426397E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.332609E+02    0.409165E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.348692E+02    0.396871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.367740E+02    0.393750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.386337E+02    0.400148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.398265E+02    0.415040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.399363E+02    0.434155E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.390689E+02    0.451875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.373060E+02    0.464006E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.353936E+02    0.466366E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.334690E+02    0.491198E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.309065E+02    0.471800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.295342E+02    0.443354E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.299700E+02    0.411888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.321361E+02    0.383031E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.352843E+02    0.366917E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.387718E+02    0.367302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.418209E+02    0.384234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.432761E+02    0.415445E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.427799E+02    0.449945E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.404686E+02    0.479117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.368932E+02    0.494385E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.365574E+02    0.327333E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.347075E+02    0.329104E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.360946E+02    0.309972E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.382124E+02    0.314193E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.381273E+02    0.336070E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.359451E+02    0.345048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.340684E+02    0.358206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.329819E+02    0.344103E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.327433E+02    0.326443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.336047E+02    0.308042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.353650E+02    0.293635E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.373635E+02    0.289019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.391586E+02    0.294820E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.403028E+02    0.309304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.404703E+02    0.328517E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.395570E+02    0.347281E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.378208E+02    0.360519E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.358150E+02    0.364414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.339489E+02    0.389923E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.313178E+02    0.372333E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.299393E+02    0.344875E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.304619E+02    0.311349E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.324916E+02    0.282405E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.357899E+02    0.263402E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.392975E+02    0.262009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.422099E+02    0.277981E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.436640E+02    0.307695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.432822E+02    0.342273E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.407574E+02    0.373822E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.374035E+02    0.390742E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.372956E+02    0.208738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.354349E+02    0.211324E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.367799E+02    0.191516E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.389238E+02    0.194684E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.388047E+02    0.217544E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.366367E+02    0.227738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.347824E+02    0.242021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.335610E+02    0.229280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.334425E+02    0.209931E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.344363E+02    0.189060E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.360900E+02    0.174601E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.380909E+02    0.169100E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.400113E+02    0.173088E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.411093E+02    0.187895E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.412382E+02    0.207802E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.402798E+02    0.228041E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.385743E+02    0.242360E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.365637E+02    0.247373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.344912E+02    0.275997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.319617E+02    0.258372E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.306567E+02    0.229894E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.310993E+02    0.195662E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.331590E+02    0.164886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.364339E+02    0.144245E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.401511E+02    0.139211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.430329E+02    0.154827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.444865E+02    0.184351E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.439052E+02    0.221297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.414742E+02    0.254578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.380609E+02    0.273879E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679715.728799970     
  ps_ts2 prof sum =   679301.335223598     
  trcom prof sum =    679301.335223597     
  ps_ts2 cur sum  =   17457.7684001240     
  trcom cur sum  =    17457.7684001239     
  
  antenna # iant =            2
  powecha_use(iant) =    693007.591624816     
  ps_ts2 prof sum =   692617.653953554     
  trcom prof sum =    692617.653953554     
  ps_ts2 cur sum  =   20633.0127074949     
  trcom cur sum  =    20633.0127074949     
  
  antenna # iant =            3
  powecha_use(iant) =    519220.980481496     
  ps_ts2 prof sum =   518891.075547285     
  trcom prof sum =    518891.075547286     
  ps_ts2 cur sum  =   11720.4107599565     
  trcom cur sum  =    11720.4107599565     
  
  antenna # iant =            4
  powecha_use(iant) =    568279.166236088     
  ps_ts2 prof sum =   567936.936745597     
  trcom prof sum =    567936.936745596     
  ps_ts2 cur sum  =   15749.1070655104     
  trcom cur sum  =    15749.1070655103     
  
  antenna # iant =            5
  powecha_use(iant) =    542724.496449541     
  ps_ts2 prof sum =   542395.148966793     
  trcom prof sum =    542395.148966793     
  ps_ts2 cur sum  =   17244.8381856255     
  trcom cur sum  =    17244.8381856255     
  
  Total ECH heating:      3001142.15043683     
  Total Current Drive:    82805.1371187111     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1260
 TA= 1.57000E+00 CPU TIME= 1.60971E-01 SECONDS.  DT= 3.27817E-03
  
 TEC1=    1.56999999999999     
 TEC2=    1.57499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.15887527777772     
  %check_save_state: izleft hours =    76.8327777777778     
 --> plasma_hash("gframe"): TA= 1.570000E+00 NSTEP=  1260 Hash code:    8339810
 ->PRGCHK: bdy curvature ratio at t= 1.5750E+00 seconds is:  5.4803E-02
% MHDEQ: TG1=     1.570000 ; TG2=     1.575000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4803E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.570000 TO TG2=    1.575000 @ NSTEP     1260
   GFRAME TG2 MOMENTS CHECKSUM:  2.4830811553951D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.5750E+00  1.5800E+00 total power(Watts):  2.9959E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.57500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.362675E+02    0.370237E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.344171E+02    0.371650E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.357342E+02    0.353469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.378403E+02    0.358124E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.377261E+02    0.380114E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.356312E+02    0.388233E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.337425E+02    0.401306E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.326774E+02    0.386510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.325464E+02    0.367765E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.334284E+02    0.349613E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.350257E+02    0.337107E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.370243E+02    0.332928E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.388083E+02    0.339082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.399321E+02    0.353717E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.400719E+02    0.373008E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.392314E+02    0.391483E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.374818E+02    0.404621E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.354772E+02    0.408051E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.336755E+02    0.432180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.309053E+02    0.415355E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.296453E+02    0.386444E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.301216E+02    0.353578E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.321763E+02    0.325144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.354845E+02    0.306773E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.389880E+02    0.306085E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.418747E+02    0.322924E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.434946E+02    0.351871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.429523E+02    0.387600E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.403925E+02    0.418876E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.370307E+02    0.434285E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.372296E+02    0.276025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.353699E+02    0.278151E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.367416E+02    0.258755E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.388784E+02    0.262491E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.387243E+02    0.285148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.365420E+02    0.294717E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.345812E+02    0.309241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.336464E+02    0.293684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.333835E+02    0.276086E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.342294E+02    0.257505E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.359862E+02    0.242535E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.379918E+02    0.237479E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.399026E+02    0.242080E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.410755E+02    0.256338E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.411690E+02    0.276247E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.402751E+02    0.295325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.385434E+02    0.309206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.365264E+02    0.313642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.345889E+02    0.340104E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.319176E+02    0.323321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.305776E+02    0.295247E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.310687E+02    0.261380E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.332523E+02    0.229984E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.364708E+02    0.210936E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.400007E+02    0.208876E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.429534E+02    0.224408E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.445656E+02    0.253019E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.440200E+02    0.289091E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.414199E+02    0.322420E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.380700E+02    0.339957E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.361410E+02    0.430358E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.342953E+02    0.431122E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.356350E+02    0.413591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.377272E+02    0.419005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.376738E+02    0.440062E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.354814E+02    0.447569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.336683E+02    0.459243E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.326269E+02    0.444470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.324380E+02    0.426650E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.333421E+02    0.408966E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.349546E+02    0.396646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.368635E+02    0.393530E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.387257E+02    0.399969E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.400166E+02    0.414503E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.400262E+02    0.434086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.392525E+02    0.451505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.373909E+02    0.463944E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.353862E+02    0.466571E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.335451E+02    0.491198E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.309774E+02    0.471729E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.296066E+02    0.443200E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.300453E+02    0.411677E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.322172E+02    0.382736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.353730E+02    0.366576E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.388674E+02    0.366989E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.419192E+02    0.384031E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.433736E+02    0.415353E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.428733E+02    0.449916E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.405566E+02    0.479133E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.369745E+02    0.494422E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.366529E+02    0.326862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.347977E+02    0.328630E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.361892E+02    0.309450E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.383110E+02    0.313697E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.381289E+02    0.336294E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.360370E+02    0.344628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.341556E+02    0.357824E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.330678E+02    0.343662E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.328308E+02    0.325938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.337812E+02    0.306737E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.354595E+02    0.293044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.374622E+02    0.288422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.392606E+02    0.294257E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.404062E+02    0.308808E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.405723E+02    0.328083E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.396559E+02    0.346896E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.379153E+02    0.360169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.359051E+02    0.364062E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.340333E+02    0.389671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.313983E+02    0.371989E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.300180E+02    0.344422E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.304649E+02    0.311551E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.325811E+02    0.281737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.358868E+02    0.262679E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.394019E+02    0.261303E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.423194E+02    0.277371E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.437738E+02    0.307224E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.433843E+02    0.341929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.408562E+02    0.373550E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.374946E+02    0.390507E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.373973E+02    0.207860E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.353531E+02    0.212400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.368812E+02    0.190588E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.390297E+02    0.193776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.389121E+02    0.216674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.367370E+02    0.226903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.347011E+02    0.243035E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.337402E+02    0.227480E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.335362E+02    0.209029E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.345321E+02    0.188105E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.361890E+02    0.173601E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.381951E+02    0.168091E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.400218E+02    0.173136E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.412202E+02    0.186977E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.413486E+02    0.206948E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.403879E+02    0.227226E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.386778E+02    0.241578E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.366620E+02    0.246594E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.346732E+02    0.274476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.318853E+02    0.259373E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.306619E+02    0.230012E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.311885E+02    0.194701E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.332524E+02    0.163814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.366260E+02    0.142033E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.402603E+02    0.138116E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.431477E+02    0.153799E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.446039E+02    0.183442E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.440209E+02    0.220489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.415839E+02    0.253852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.381619E+02    0.273215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677869.113602582     
  ps_ts2 prof sum =   677446.796565305     
  trcom prof sum =    677446.796565305     
  ps_ts2 cur sum  =   17305.4184254292     
  trcom cur sum  =    17305.4184254292     
  
  antenna # iant =            2
  powecha_use(iant) =    690714.730244327     
  ps_ts2 prof sum =   690318.082858384     
  trcom prof sum =    690318.082858383     
  ps_ts2 cur sum  =   20474.4853971981     
  trcom cur sum  =    20474.4853971980     
  
  antenna # iant =            3
  powecha_use(iant) =    520896.240757825     
  ps_ts2 prof sum =   520577.794972326     
  trcom prof sum =    520577.794972327     
  ps_ts2 cur sum  =   11674.1893427419     
  trcom cur sum  =    11674.1893427419     
  
  antenna # iant =            4
  powecha_use(iant) =    563988.561844764     
  ps_ts2 prof sum =   563666.273861871     
  trcom prof sum =    563666.273861870     
  ps_ts2 cur sum  =   15548.6727047581     
  trcom cur sum  =    15548.6727047581     
  
  antenna # iant =            5
  powecha_use(iant) =    542466.249118275     
  ps_ts2 prof sum =   542133.254003346     
  trcom prof sum =    542133.254003345     
  ps_ts2 cur sum  =   17172.5766725010     
  trcom cur sum  =    17172.5766725010     
  
  Total ECH heating:      2994142.20226123     
  Total Current Drive:    82175.3425426283     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1262
 TA= 1.57500E+00 CPU TIME= 1.59004E-01 SECONDS.  DT= 2.15229E-03
  
 TEC1=    1.57499999999999     
 TEC2=    1.57999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.17544722222215     
  %check_save_state: izleft hours =    76.8161111111111     
 --> plasma_hash("gframe"): TA= 1.575000E+00 NSTEP=  1262 Hash code:   28663505
 ->PRGCHK: bdy curvature ratio at t= 1.5800E+00 seconds is:  5.4740E-02
% MHDEQ: TG1=     1.575000 ; TG2=     1.580000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7655E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4740E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.575000 TO TG2=    1.580000 @ NSTEP     1262
   GFRAME TG2 MOMENTS CHECKSUM:  2.4822847044660D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.71787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  6.25998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -5.03053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.10255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.65743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.13826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.99787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.29563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.25225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.04230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      15= -1.97712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -4.66926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50233E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.87444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.67037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.91327E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.42462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.80122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.78431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.78431E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5800E+00  1.5850E+00 total power(Watts):  3.0134E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.58000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.363569E+02    0.369940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.344186E+02    0.371886E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.358243E+02    0.353101E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.379338E+02    0.357785E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.378173E+02    0.379864E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.357176E+02    0.388005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.338245E+02    0.401103E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.327588E+02    0.386253E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.326286E+02    0.367431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.335137E+02    0.349210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.351154E+02    0.336675E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.371175E+02    0.332500E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.389052E+02    0.338682E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.400302E+02    0.353376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.401691E+02    0.372738E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.393242E+02    0.391298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.375720E+02    0.404461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.355619E+02    0.407879E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.337544E+02    0.432058E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.310611E+02    0.414723E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.297212E+02    0.386148E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.302006E+02    0.353160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.322571E+02    0.324690E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.355771E+02    0.306253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.390880E+02    0.305589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.419795E+02    0.322499E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.435981E+02    0.351567E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.430508E+02    0.387441E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.406809E+02    0.417993E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.371162E+02    0.434190E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.373280E+02    0.275376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.354625E+02    0.277522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.368398E+02    0.258022E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.389810E+02    0.261797E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.388255E+02    0.284554E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.366382E+02    0.294150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.347608E+02    0.307974E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.335642E+02    0.294671E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.335591E+02    0.274576E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.343233E+02    0.256743E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.360849E+02    0.241741E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.380937E+02    0.236678E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.400085E+02    0.241307E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.411826E+02    0.255629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.412757E+02    0.275629E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.402791E+02    0.295553E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.385464E+02    0.309443E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.365290E+02    0.313876E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.346774E+02    0.339679E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.320021E+02    0.322829E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.306607E+02    0.294633E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.310745E+02    0.261497E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.333441E+02    0.229134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.365706E+02    0.210055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.401082E+02    0.208006E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.430667E+02    0.223600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.446796E+02    0.252328E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.441301E+02    0.288565E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.415235E+02    0.321993E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.381650E+02    0.339556E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.26 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.362251E+02    0.430249E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.343787E+02    0.430989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.357194E+02    0.413440E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.378156E+02    0.418879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.377596E+02    0.439984E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.355624E+02    0.447493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.337455E+02    0.459167E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.327041E+02    0.444359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.325157E+02    0.426506E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.334225E+02    0.408788E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.349518E+02    0.396922E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.369520E+02    0.393327E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.388169E+02    0.399802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.401078E+02    0.414397E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.401176E+02    0.434016E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.393393E+02    0.451471E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.374746E+02    0.463902E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.354664E+02    0.466520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.336206E+02    0.491234E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.310498E+02    0.471664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.296779E+02    0.443061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.301198E+02    0.411473E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.322976E+02    0.382453E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.354607E+02    0.366263E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.389618E+02    0.366696E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.420168E+02    0.383848E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.434701E+02    0.415286E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.429657E+02    0.449907E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.406418E+02    0.479169E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.370552E+02    0.494494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.367466E+02    0.326413E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.348879E+02    0.328172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.361918E+02    0.309681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.383136E+02    0.313941E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.382251E+02    0.335881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.360373E+02    0.344868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.342418E+02    0.357459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.331531E+02    0.343238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.330011E+02    0.324743E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.338706E+02    0.306204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.355528E+02    0.292471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.375603E+02    0.287840E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.393617E+02    0.293718E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.405089E+02    0.308337E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.406739E+02    0.327665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.397537E+02    0.346535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.380089E+02    0.359840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.359945E+02    0.363733E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.341167E+02    0.389434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.313159E+02    0.372817E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.300994E+02    0.343951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.305474E+02    0.311000E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.327542E+02    0.280255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.359831E+02    0.261961E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.395059E+02    0.260602E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.424260E+02    0.276780E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.438828E+02    0.306772E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.434916E+02    0.341566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.409536E+02    0.373305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.374910E+02    0.390801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.374990E+02    0.206975E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.354514E+02    0.211509E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.369822E+02    0.189645E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.391350E+02    0.192857E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.390170E+02    0.215827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.368369E+02    0.226068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.347968E+02    0.242223E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.338337E+02    0.226634E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.337147E+02    0.207135E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.344547E+02    0.189189E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.362889E+02    0.172587E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.382993E+02    0.167066E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.401302E+02    0.172145E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.413307E+02    0.186048E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.414595E+02    0.206083E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.404959E+02    0.226410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.387811E+02    0.240796E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.367600E+02    0.245815E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.347665E+02    0.273805E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.319727E+02    0.258605E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.307486E+02    0.229145E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.312769E+02    0.193742E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.333464E+02    0.162737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.367274E+02    0.140916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.403692E+02    0.137010E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.432639E+02    0.152747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.447216E+02    0.182525E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.441362E+02    0.219678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.416924E+02    0.253138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.382625E+02    0.272559E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682184.651895288     
  ps_ts2 prof sum =   681784.641837826     
  trcom prof sum =    681784.641837826     
  ps_ts2 cur sum  =   17290.6154540074     
  trcom cur sum  =    17290.6154540074     
  
  antenna # iant =            2
  powecha_use(iant) =    697181.854821154     
  ps_ts2 prof sum =   696768.208429103     
  trcom prof sum =    696768.208429102     
  ps_ts2 cur sum  =   20556.6688345925     
  trcom cur sum  =    20556.6688345925     
  
  antenna # iant =            3
  powecha_use(iant) =    520077.799041363     
  ps_ts2 prof sum =   519754.394488183     
  trcom prof sum =    519754.394488183     
  ps_ts2 cur sum  =   11557.9456085830     
  trcom cur sum  =    11557.9456085830     
  
  antenna # iant =            4
  powecha_use(iant) =    571196.253617194     
  ps_ts2 prof sum =   570862.802408652     
  trcom prof sum =    570862.802408652     
  ps_ts2 cur sum  =   15650.1145967562     
  trcom cur sum  =    15650.1145967562     
  
  antenna # iant =            5
  powecha_use(iant) =    542769.479838084     
  ps_ts2 prof sum =   542437.168462775     
  trcom prof sum =    542437.168462775     
  ps_ts2 cur sum  =   17105.4765550955     
  trcom cur sum  =    17105.4765550955     
  
  Total ECH heating:      3011607.21562654     
  Total Current Drive:    82160.8210490346     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1265
 TA= 1.58000E+00 CPU TIME= 1.60150E-01 SECONDS.  DT= 1.96677E-04
  
 TEC1=    1.57999999999999     
 TEC2=    1.58499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.18965277777761     
  %check_save_state: izleft hours =    76.8019444444444     
 --> plasma_hash("gframe"): TA= 1.580000E+00 NSTEP=  1265 Hash code:  122873795
 ->PRGCHK: bdy curvature ratio at t= 1.5850E+00 seconds is:  5.4677E-02
% MHDEQ: TG1=     1.580000 ; TG2=     1.585000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4677E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.580000 TO TG2=    1.585000 @ NSTEP     1265
   GFRAME TG2 MOMENTS CHECKSUM:  2.4814882535369D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5850E+00  1.5900E+00 total power(Watts):  3.0091E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.58500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.364451E+02    0.369630E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.345003E+02    0.371584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.359124E+02    0.352715E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.380258E+02    0.357437E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.379079E+02    0.379593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.357138E+02    0.388269E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.339054E+02    0.400887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.328387E+02    0.385977E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.327095E+02    0.367073E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.335977E+02    0.348794E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.352038E+02    0.336232E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.372108E+02    0.332053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.390010E+02    0.338270E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.401270E+02    0.353023E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.404603E+02    0.371391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.394153E+02    0.391098E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.376586E+02    0.404281E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.356451E+02    0.407700E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.338327E+02    0.431940E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.311359E+02    0.414526E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.297958E+02    0.385849E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.302787E+02    0.352730E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.324308E+02    0.323418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.356684E+02    0.305727E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.391858E+02    0.305087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.420821E+02    0.322073E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.436998E+02    0.351247E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.431480E+02    0.387263E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.407715E+02    0.417895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.372006E+02    0.434104E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.374251E+02    0.274716E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.355551E+02    0.276865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.369369E+02    0.257280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.390822E+02    0.261086E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.389252E+02    0.283948E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.367326E+02    0.293581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.348509E+02    0.307452E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.336529E+02    0.294073E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.336490E+02    0.273883E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.344147E+02    0.255981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.361794E+02    0.240932E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.381963E+02    0.235865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.401128E+02    0.240526E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.412884E+02    0.254907E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.413806E+02    0.274999E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.403805E+02    0.295010E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.386438E+02    0.308945E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.366217E+02    0.313384E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.347646E+02    0.339243E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.319204E+02    0.323751E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.307430E+02    0.294019E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.311596E+02    0.260730E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.332658E+02    0.230156E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.366690E+02    0.209168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.402125E+02    0.207148E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.433856E+02    0.220971E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.446855E+02    0.252450E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.442385E+02    0.288036E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.416254E+02    0.321562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.382593E+02    0.339149E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.363079E+02    0.430153E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.344555E+02    0.430886E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.358027E+02    0.413281E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.379020E+02    0.418757E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.378443E+02    0.439916E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.356431E+02    0.447422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.338224E+02    0.459105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.327790E+02    0.444264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.325922E+02    0.426362E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.334170E+02    0.409059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.350353E+02    0.396699E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.370395E+02    0.393112E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.389069E+02    0.399624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.401980E+02    0.414287E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.402067E+02    0.433953E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.394253E+02    0.451439E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.375571E+02    0.463878E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.355456E+02    0.466486E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.336945E+02    0.491260E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.310425E+02    0.471871E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.298250E+02    0.442568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.302710E+02    0.410797E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.322122E+02    0.383244E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.355462E+02    0.365935E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.390550E+02    0.366389E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.421128E+02    0.383645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.435654E+02    0.415201E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.430568E+02    0.449912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.407273E+02    0.479212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.371348E+02    0.494558E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.368391E+02    0.325954E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.349763E+02    0.327708E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.362844E+02    0.309167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.384102E+02    0.313456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.383182E+02    0.335464E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.361273E+02    0.344452E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.343265E+02    0.357080E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.332370E+02    0.342802E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.330865E+02    0.324254E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.339605E+02    0.305646E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.356448E+02    0.291888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.375634E+02    0.288030E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.394615E+02    0.293165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.406055E+02    0.307873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.407737E+02    0.327239E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.398501E+02    0.346156E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.381008E+02    0.359500E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.360823E+02    0.363396E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.341988E+02    0.389177E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.313949E+02    0.372466E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.301768E+02    0.343492E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.306285E+02    0.310443E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.328407E+02    0.279589E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.360780E+02    0.261232E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.396082E+02    0.259893E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.425348E+02    0.276155E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.439901E+02    0.306309E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.435942E+02    0.341212E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.410521E+02    0.373024E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.375799E+02    0.390579E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.375996E+02    0.206087E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.355470E+02    0.210614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.370817E+02    0.188690E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.392392E+02    0.191924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.391204E+02    0.214963E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.369350E+02    0.225216E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.348906E+02    0.241406E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.339260E+02    0.225770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.338065E+02    0.206220E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.345487E+02    0.188210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.363870E+02    0.171560E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.384021E+02    0.166027E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.402369E+02    0.171136E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.414395E+02    0.185105E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.415682E+02    0.205207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.406018E+02    0.225586E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.388827E+02    0.240005E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.367659E+02    0.245918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.348583E+02    0.273121E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.320592E+02    0.257828E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.308339E+02    0.228271E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.313642E+02    0.192767E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.334390E+02    0.161650E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.368266E+02    0.139784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.404769E+02    0.135886E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.433767E+02    0.151683E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.450495E+02    0.179625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.442498E+02    0.218861E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.417996E+02    0.252404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.383618E+02    0.271898E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677863.447792023     
  ps_ts2 prof sum =   677485.273075821     
  trcom prof sum =    677485.273075822     
  ps_ts2 cur sum  =   17047.2199832029     
  trcom cur sum  =    17047.2199832029     
  
  antenna # iant =            2
  powecha_use(iant) =    696483.277633389     
  ps_ts2 prof sum =   696042.094658107     
  trcom prof sum =    696042.094658106     
  ps_ts2 cur sum  =   20411.3645126528     
  trcom cur sum  =    20411.3645126528     
  
  antenna # iant =            3
  powecha_use(iant) =    520899.629133031     
  ps_ts2 prof sum =   520568.107878484     
  trcom prof sum =    520568.107878485     
  ps_ts2 cur sum  =   11471.2651922590     
  trcom cur sum  =    11471.2651922590     
  
  antenna # iant =            4
  powecha_use(iant) =    572404.972616508     
  ps_ts2 prof sum =   572068.585809696     
  trcom prof sum =    572068.585809696     
  ps_ts2 cur sum  =   15574.9247819365     
  trcom cur sum  =    15574.9247819365     
  
  antenna # iant =            5
  powecha_use(iant) =    541424.186259612     
  ps_ts2 prof sum =   541098.784683613     
  trcom prof sum =    541098.784683613     
  ps_ts2 cur sum  =   16971.3545486506     
  trcom cur sum  =    16971.3545486506     
  
  Total ECH heating:      3007262.84610572     
  Total Current Drive:    81476.1290187017     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1274
 TA= 1.58500E+00 CPU TIME= 1.58851E-01 SECONDS.  DT= 1.37196E-03
  
 TEC1=    1.58499999999999     
 TEC2=    1.58999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.20161805555517     
  %check_save_state: izleft hours =    76.7900000000000     
 --> plasma_hash("gframe"): TA= 1.585000E+00 NSTEP=  1274 Hash code:   57789757
 ->PRGCHK: bdy curvature ratio at t= 1.5900E+00 seconds is:  5.4614E-02
% MHDEQ: TG1=     1.585000 ; TG2=     1.590000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7596E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4614E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.585000 TO TG2=    1.590000 @ NSTEP     1274
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806918026078D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.28284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.22377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.86175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.96910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.63265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.62297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.07476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.02300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.19796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.76564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.71411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      15= -1.17881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -1.63869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.67904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.31013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.19479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.96407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.48953E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.55066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.39817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.39817E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.5900E+00  1.5950E+00 total power(Watts):  2.9926E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.59000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.365336E+02    0.369342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.345854E+02    0.371283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.360018E+02    0.352352E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.381189E+02    0.357107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.379992E+02    0.379353E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.357999E+02    0.388047E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.339865E+02    0.400697E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.329191E+02    0.385727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.327917E+02    0.366749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.336824E+02    0.348404E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.352928E+02    0.335809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.373040E+02    0.331633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.390978E+02    0.337880E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.403222E+02    0.352098E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.405556E+02    0.371149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.395080E+02    0.390914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.377462E+02    0.404135E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.357292E+02    0.407540E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.338271E+02    0.432216E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.312110E+02    0.414352E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.298711E+02    0.385568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.303571E+02    0.352317E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.325124E+02    0.322965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.357604E+02    0.305216E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.392849E+02    0.304598E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.421856E+02    0.321662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.438025E+02    0.350955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.432461E+02    0.387114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.408627E+02    0.417814E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.372857E+02    0.434033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.375227E+02    0.274063E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.356485E+02    0.276216E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.370339E+02    0.256546E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.391844E+02    0.260371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.390256E+02    0.283353E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.368278E+02    0.293019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.349412E+02    0.306939E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.337420E+02    0.293481E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.337379E+02    0.273203E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.345100E+02    0.255197E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.362774E+02    0.240127E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.382979E+02    0.235051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.402181E+02    0.239740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.413952E+02    0.254184E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.414864E+02    0.274376E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.405817E+02    0.293736E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.387414E+02    0.308465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.367154E+02    0.312904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.348524E+02    0.338827E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.320044E+02    0.323262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.307455E+02    0.294212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.312454E+02    0.259962E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.333571E+02    0.229300E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.367677E+02    0.208273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.404187E+02    0.205286E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.433940E+02    0.221052E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.447990E+02    0.251739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134327E+03   -0.443476E+02    0.287518E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.417282E+02    0.321144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.383532E+02    0.338761E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.363918E+02    0.430063E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.345349E+02    0.430791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.358867E+02    0.413140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.379891E+02    0.418648E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.379297E+02    0.439863E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.357244E+02    0.447359E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.338995E+02    0.459051E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.328550E+02    0.444170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.326694E+02    0.426233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.334979E+02    0.408880E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.351193E+02    0.396500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.371274E+02    0.392920E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.389951E+02    0.399471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.402887E+02    0.414192E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.404892E+02    0.433222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.394177E+02    0.451709E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.376405E+02    0.463858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.356254E+02    0.466454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.337684E+02    0.491279E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.311140E+02    0.471822E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.298953E+02    0.442462E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.303448E+02    0.410604E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.322924E+02    0.382969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.356346E+02    0.365615E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.391488E+02    0.366107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.422097E+02    0.383462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.436610E+02    0.415151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133513E+03   -0.431488E+02    0.449926E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133812E+03   -0.408146E+02    0.479239E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.373949E+02    0.494292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.369324E+02    0.325510E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.350653E+02    0.327263E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.363777E+02    0.308670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.385077E+02    0.312983E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.384154E+02    0.335050E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.362178E+02    0.344060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.344123E+02    0.356722E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.333215E+02    0.342383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.331721E+02    0.323782E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.340470E+02    0.305138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.357372E+02    0.291308E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.377535E+02    0.286662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.395621E+02    0.292624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.407157E+02    0.307355E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.408741E+02    0.326840E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.399472E+02    0.345803E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.381936E+02    0.359182E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.361693E+02    0.363088E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.342814E+02    0.388955E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.314746E+02    0.372142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.302556E+02    0.343053E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.307104E+02    0.309905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.329269E+02    0.278939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.361730E+02    0.260507E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.397116E+02    0.259174E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.426427E+02    0.275547E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.443078E+02    0.304470E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.436976E+02    0.340881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.411469E+02    0.372798E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.376691E+02    0.390382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.377008E+02    0.205178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.356443E+02    0.209707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.371819E+02    0.187716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.393444E+02    0.190980E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.392246E+02    0.214094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.370339E+02    0.224362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.349855E+02    0.240591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.340169E+02    0.224909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.338989E+02    0.205298E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.346442E+02    0.187222E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.364860E+02    0.170516E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.385057E+02    0.164962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.404418E+02    0.169079E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.415475E+02    0.184162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.416772E+02    0.204323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.407079E+02    0.224753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.389818E+02    0.239239E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.368637E+02    0.245130E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.349507E+02    0.272442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.321473E+02    0.257057E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.309198E+02    0.227393E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.314518E+02    0.191782E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.335313E+02    0.160538E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.369272E+02    0.138631E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.405854E+02    0.134742E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.435938E+02    0.149546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.451666E+02    0.178670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.445747E+02    0.216217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.419078E+02    0.251676E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.384615E+02    0.271232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673586.824774897     
  ps_ts2 prof sum =   673202.498180675     
  trcom prof sum =    673202.498180675     
  ps_ts2 cur sum  =   16774.0682543149     
  trcom cur sum  =    16774.0682543149     
  
  antenna # iant =            2
  powecha_use(iant) =    692289.238493925     
  ps_ts2 prof sum =   691835.336053084     
  trcom prof sum =    691835.336053083     
  ps_ts2 cur sum  =   20124.6232894022     
  trcom cur sum  =    20124.6232894022     
  
  antenna # iant =            3
  powecha_use(iant) =    520987.886794899     
  ps_ts2 prof sum =   520656.747039134     
  trcom prof sum =    520656.747039134     
  ps_ts2 cur sum  =   11345.3298322931     
  trcom cur sum  =    11345.3298322931     
  
  antenna # iant =            4
  powecha_use(iant) =    564602.951238339     
  ps_ts2 prof sum =   564277.900132258     
  trcom prof sum =    564277.900132258     
  ps_ts2 cur sum  =   15225.2712942736     
  trcom cur sum  =    15225.2712942736     
  
  antenna # iant =            5
  powecha_use(iant) =    541141.669986123     
  ps_ts2 prof sum =   540823.254584250     
  trcom prof sum =    540823.254584249     
  ps_ts2 cur sum  =   16837.4144547715     
  trcom cur sum  =    16837.4144547715     
  
  Total ECH heating:      2990795.73598940     
  Total Current Drive:    80306.7071250552     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1277
 TA= 1.59000E+00 CPU TIME= 1.59525E-01 SECONDS.  DT= 2.39137E-03
  
 TEC1=    1.58999999999999     
 TEC2=    1.59499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.21519305555535     
  %check_save_state: izleft hours =    76.7763888888889     
 --> plasma_hash("gframe"): TA= 1.590000E+00 NSTEP=  1277 Hash code:  100473452
 ->PRGCHK: bdy curvature ratio at t= 1.5950E+00 seconds is:  5.4553E-02
% MHDEQ: TG1=     1.590000 ; TG2=     1.595000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7566E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4553E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.590000 TO TG2=    1.595000 @ NSTEP     1277
   GFRAME TG2 MOMENTS CHECKSUM:  2.4798953516787D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.5950E+00  1.6000E+00 total power(Watts):  3.0022E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.59500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.366225E+02    0.369071E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.346703E+02    0.371003E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.360914E+02    0.352005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.382122E+02    0.356794E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.380904E+02    0.379128E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.358862E+02    0.387843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.340688E+02    0.400519E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.330000E+02    0.385493E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.328733E+02    0.366436E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.337673E+02    0.348028E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.353821E+02    0.335390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.373977E+02    0.331227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.391948E+02    0.337502E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.404198E+02    0.351785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.405538E+02    0.371455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.396004E+02    0.390760E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.378345E+02    0.404002E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.358136E+02    0.407403E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.339060E+02    0.432121E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.312860E+02    0.414199E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.299463E+02    0.385303E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.304380E+02    0.351918E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.325971E+02    0.322490E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.358528E+02    0.304708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.393846E+02    0.304112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.422896E+02    0.321260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.439040E+02    0.350686E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133781E+03   -0.433441E+02    0.386987E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.409541E+02    0.417774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.373709E+02    0.433974E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.376212E+02    0.273410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.357422E+02    0.275568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.371320E+02    0.255800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.392871E+02    0.259661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.391268E+02    0.282758E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.369236E+02    0.292462E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.350321E+02    0.306430E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.338320E+02    0.292895E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.338289E+02    0.272522E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.346898E+02    0.253566E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.363752E+02    0.239322E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.384002E+02    0.234238E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.403235E+02    0.238953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.415028E+02    0.253459E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.415929E+02    0.273753E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.406847E+02    0.293213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.388402E+02    0.307989E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.368096E+02    0.312428E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.349406E+02    0.338419E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.320889E+02    0.322777E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.308287E+02    0.293603E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.313309E+02    0.259187E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.334498E+02    0.228431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.368676E+02    0.207369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.405263E+02    0.204400E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.435071E+02    0.220232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.451262E+02    0.249371E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.444576E+02    0.287002E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.420322E+02    0.319405E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.384490E+02    0.338378E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.364753E+02    0.429988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.346149E+02    0.430702E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.359702E+02    0.413026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.380764E+02    0.418575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.380152E+02    0.439824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.358057E+02    0.447310E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.339763E+02    0.459004E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.329305E+02    0.444101E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.327466E+02    0.426118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.335781E+02    0.408725E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.352039E+02    0.396322E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.372155E+02    0.392747E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.390885E+02    0.399333E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.402834E+02    0.414524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.405784E+02    0.433205E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.395001E+02    0.451726E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.379077E+02    0.463335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.357054E+02    0.466437E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.338454E+02    0.491316E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.311850E+02    0.471787E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.299659E+02    0.442360E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.304185E+02    0.410436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.323734E+02    0.382709E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.357221E+02    0.365322E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.392430E+02    0.365844E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.423067E+02    0.383313E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133503E+03   -0.437563E+02    0.415117E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133301E+03   -0.432407E+02    0.449960E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133600E+03   -0.409010E+02    0.479295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.374753E+02    0.494365E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.370260E+02    0.325076E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.350667E+02    0.327505E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.364715E+02    0.308176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.386056E+02    0.312518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.385113E+02    0.334652E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.363088E+02    0.343676E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.344984E+02    0.356383E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.334063E+02    0.341981E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.332567E+02    0.323321E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.341360E+02    0.304617E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.358301E+02    0.290740E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.378512E+02    0.286080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.396634E+02    0.292085E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.408144E+02    0.306919E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.409751E+02    0.326441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.400447E+02    0.345466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.382866E+02    0.358882E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.362597E+02    0.362773E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.343643E+02    0.388747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.315540E+02    0.371834E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.303347E+02    0.342620E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.307928E+02    0.309377E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.330160E+02    0.278277E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.362688E+02    0.259780E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.398153E+02    0.258461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.429559E+02    0.273382E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.444158E+02    0.304038E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.438015E+02    0.340563E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.412441E+02    0.372582E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.377587E+02    0.390203E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.378027E+02    0.204274E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.357424E+02    0.208800E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.372833E+02    0.186745E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.394502E+02    0.190028E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.393297E+02    0.213224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.371339E+02    0.223514E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.350810E+02    0.239773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.341110E+02    0.224040E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.339922E+02    0.204373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.347405E+02    0.186216E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.365857E+02    0.169457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.386102E+02    0.163889E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.405501E+02    0.168038E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.416655E+02    0.183145E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.417884E+02    0.203436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.408155E+02    0.223926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.390897E+02    0.238401E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.369628E+02    0.244339E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.350438E+02    0.271764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.322375E+02    0.256270E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.310065E+02    0.226517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.314605E+02    0.191806E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.336253E+02    0.159418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.370285E+02    0.137462E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.406946E+02    0.133581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.437096E+02    0.148441E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.452841E+02    0.177710E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.446898E+02    0.215392E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.420164E+02    0.250943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.385622E+02    0.270578E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677709.058212105     
  ps_ts2 prof sum =   677307.593101948     
  trcom prof sum =    677307.593101948     
  ps_ts2 cur sum  =   16705.6200459008     
  trcom cur sum  =    16705.6200459008     
  
  antenna # iant =            2
  powecha_use(iant) =    693115.172372602     
  ps_ts2 prof sum =   692691.428567294     
  trcom prof sum =    692691.428567293     
  ps_ts2 cur sum  =   19985.2323819181     
  trcom cur sum  =    19985.2323819181     
  
  antenna # iant =            3
  powecha_use(iant) =    521639.187738685     
  ps_ts2 prof sum =   521301.359840618     
  trcom prof sum =    521301.359840618     
  ps_ts2 cur sum  =   11229.4425956051     
  trcom cur sum  =    11229.4425956051     
  
  antenna # iant =            4
  powecha_use(iant) =    566242.565118949     
  ps_ts2 prof sum =   565917.825006301     
  trcom prof sum =    565917.825006301     
  ps_ts2 cur sum  =   15131.0656372259     
  trcom cur sum  =    15131.0656372258     
  
  antenna # iant =            5
  powecha_use(iant) =    543511.348073801     
  ps_ts2 prof sum =   543174.859100857     
  trcom prof sum =    543174.859100856     
  ps_ts2 cur sum  =   16788.8278105229     
  trcom cur sum  =    16788.8278105229     
  
  Total ECH heating:      3000393.06561702     
  Total Current Drive:    79840.1884711727     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1279
 TA= 1.59500E+00 CPU TIME= 1.60467E-01 SECONDS.  DT= 3.26079E-03
  
 TEC1=    1.59499999999999     
 TEC2=    1.59999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.22943499999951     
  %check_save_state: izleft hours =    76.7622222222222     
 --> plasma_hash("gframe"): TA= 1.595000E+00 NSTEP=  1279 Hash code:   92063150
 ->PRGCHK: bdy curvature ratio at t= 1.6000E+00 seconds is:  5.4491E-02
% MHDEQ: TG1=     1.595000 ; TG2=     1.600000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7536E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4491E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.595000 TO TG2=    1.600000 @ NSTEP     1279
   GFRAME TG2 MOMENTS CHECKSUM:  2.4790989007496D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.85455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.03160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.37565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.82222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.60825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.19387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.01224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.06324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -5.74603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.27107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.39101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      16=  1.74400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  1.34494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.85302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -4.48032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.72658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.01408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.55344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.30398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.80932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.80932E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.6000E+00  1.6050E+00 total power(Watts):  3.0122E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.60000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.367105E+02    0.368796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.347544E+02    0.370732E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.361794E+02    0.351664E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.383041E+02    0.356485E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.381801E+02    0.378911E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.359714E+02    0.387641E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.341493E+02    0.400343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.330791E+02    0.385266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.329543E+02    0.366137E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.337674E+02    0.348284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.354698E+02    0.334989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.374899E+02    0.330831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.392900E+02    0.337134E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.405159E+02    0.351481E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.406482E+02    0.371233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.396912E+02    0.390600E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.379216E+02    0.403876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.358971E+02    0.407263E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.339841E+02    0.432032E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.313606E+02    0.414047E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.300207E+02    0.385042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.305909E+02    0.350913E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.326810E+02    0.322042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.359437E+02    0.304220E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.394828E+02    0.303645E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.425934E+02    0.319560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.440071E+02    0.350402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.434410E+02    0.386855E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.410442E+02    0.417713E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.374551E+02    0.433907E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.377184E+02    0.272785E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.358349E+02    0.274938E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.372286E+02    0.255077E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.393881E+02    0.258970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.392264E+02    0.282181E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.370180E+02    0.291922E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.351188E+02    0.305950E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.339199E+02    0.292337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.339183E+02    0.271859E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.347820E+02    0.252816E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.364731E+02    0.238532E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.385012E+02    0.233447E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.404282E+02    0.238190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.416088E+02    0.252758E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.416980E+02    0.273151E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.407861E+02    0.292709E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.389374E+02    0.307530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.369024E+02    0.311970E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.350273E+02    0.338017E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.321724E+02    0.322319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.309112E+02    0.293018E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.314161E+02    0.258433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.335412E+02    0.227594E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.369664E+02    0.206491E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.406329E+02    0.203530E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.436187E+02    0.219425E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.452379E+02    0.248687E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.444614E+02    0.287243E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.421333E+02    0.319021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.385428E+02    0.338014E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.365578E+02    0.429915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.346941E+02    0.430619E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.360528E+02    0.412899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.381627E+02    0.418482E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.380994E+02    0.439787E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.358859E+02    0.447259E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.340530E+02    0.458960E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.330058E+02    0.444024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.328228E+02    0.426005E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.336563E+02    0.408567E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.352869E+02    0.396140E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.373024E+02    0.392578E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.391777E+02    0.399202E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.403733E+02    0.414439E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.406666E+02    0.433175E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.395903E+02    0.451691E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.379875E+02    0.463339E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.357845E+02    0.466411E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.339198E+02    0.491351E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.312558E+02    0.471739E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.300361E+02    0.442248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.304913E+02    0.410259E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.324528E+02    0.382456E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.358083E+02    0.365034E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.393358E+02    0.365585E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.423028E+02    0.383628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133072E+03   -0.439530E+02    0.414696E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133097E+03   -0.433317E+02    0.449982E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133395E+03   -0.409863E+02    0.479343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.375548E+02    0.494434E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.371180E+02    0.324661E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.351556E+02    0.327069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.365639E+02    0.307701E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.387020E+02    0.312075E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.386053E+02    0.334274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.363981E+02    0.343313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.345825E+02    0.356044E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.334898E+02    0.341586E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.333428E+02    0.322871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.342237E+02    0.304114E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.358340E+02    0.290953E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.378551E+02    0.286289E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.397631E+02    0.291562E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.409152E+02    0.306466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.410746E+02    0.326057E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.401407E+02    0.345135E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.383783E+02    0.358584E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.363474E+02    0.362478E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.344426E+02    0.388558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.316326E+02    0.371533E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.304128E+02    0.342200E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.308740E+02    0.308863E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.331031E+02    0.277634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.363635E+02    0.259068E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.399178E+02    0.257768E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.430625E+02    0.272798E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133767E+03   -0.445223E+02    0.303624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.439038E+02    0.340255E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.413396E+02    0.372370E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.379387E+02    0.389540E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.379032E+02    0.203389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.359282E+02    0.206944E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.373832E+02    0.185786E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.395548E+02    0.189095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.394339E+02    0.212376E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.372326E+02    0.222691E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.352634E+02    0.238071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.342030E+02    0.223194E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.340843E+02    0.203468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.350061E+02    0.183204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.366849E+02    0.168414E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.387144E+02    0.162835E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.406578E+02    0.167012E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.417707E+02    0.182231E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.418976E+02    0.202569E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.409222E+02    0.223116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.391909E+02    0.237642E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.370603E+02    0.243568E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.351352E+02    0.271110E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.323244E+02    0.255518E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.310915E+02    0.225659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.315480E+02    0.190827E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.337183E+02    0.158317E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.370392E+02    0.137417E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.408025E+02    0.132443E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.438240E+02    0.147359E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.452949E+02    0.177750E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.448035E+02    0.214586E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.421240E+02    0.250231E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.386616E+02    0.269931E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680452.387568708     
  ps_ts2 prof sum =   680060.433985304     
  trcom prof sum =    680060.433985305     
  ps_ts2 cur sum  =   16613.6852976546     
  trcom cur sum  =    16613.6852976546     
  
  antenna # iant =            2
  powecha_use(iant) =    694148.646740468     
  ps_ts2 prof sum =   693714.031859371     
  trcom prof sum =    693714.031859370     
  ps_ts2 cur sum  =   19856.6277974220     
  trcom cur sum  =    19856.6277974220     
  
  antenna # iant =            3
  powecha_use(iant) =    520745.091694593     
  ps_ts2 prof sum =   520395.572653666     
  trcom prof sum =    520395.572653666     
  ps_ts2 cur sum  =   11089.5370078353     
  trcom cur sum  =    11089.5370078353     
  
  antenna # iant =            4
  powecha_use(iant) =    573471.044823921     
  ps_ts2 prof sum =   573135.705333549     
  trcom prof sum =    573135.705333549     
  ps_ts2 cur sum  =   15190.0571614247     
  trcom cur sum  =    15190.0571614246     
  
  antenna # iant =            5
  powecha_use(iant) =    543417.756816732     
  ps_ts2 prof sum =   543092.749193176     
  trcom prof sum =    543092.749193175     
  ps_ts2 cur sum  =   16665.4029233469     
  trcom cur sum  =    16665.4029233469     
  
  Total ECH heating:      3010398.49302506     
  Total Current Drive:    79415.3101876834     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1281
 TA= 1.60000E+00 CPU TIME= 1.48359E-01 SECONDS.  DT= 2.17401E-03
  
 TEC1=    1.59999999999999     
 TEC2=    1.60499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.24159472222209     
  %check_save_state: izleft hours =    76.7500000000000     
 --> plasma_hash("gframe"): TA= 1.600000E+00 NSTEP=  1281 Hash code:   92130873
 ->PRGCHK: bdy curvature ratio at t= 1.6050E+00 seconds is:  5.4431E-02
% MHDEQ: TG1=     1.600000 ; TG2=     1.605000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7506E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4431E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.600000 TO TG2=    1.605000 @ NSTEP     1281
   GFRAME TG2 MOMENTS CHECKSUM:  2.4783024498205D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.6050E+00  1.6100E+00 total power(Watts):  3.0026E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.60500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.367932E+02    0.368566E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.348379E+02    0.370462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.362671E+02    0.351332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.383953E+02    0.356186E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.382692E+02    0.378701E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.360558E+02    0.387445E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.342291E+02    0.400174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.331580E+02    0.385043E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.330344E+02    0.365834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.338508E+02    0.347908E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.355580E+02    0.334586E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.375815E+02    0.330440E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.393871E+02    0.336756E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.406112E+02    0.351182E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.407419E+02    0.371017E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.397817E+02    0.390450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.380078E+02    0.403743E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.359796E+02    0.407124E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.340618E+02    0.431940E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.314345E+02    0.413888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.300944E+02    0.384785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.306672E+02    0.350530E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.327640E+02    0.321592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.360342E+02    0.303738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.395805E+02    0.303186E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.426944E+02    0.319187E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133277E+03   -0.442101E+02    0.349577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133369E+03   -0.435370E+02    0.386732E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.411337E+02    0.417653E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.375384E+02    0.433847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.378142E+02    0.272161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.359272E+02    0.274310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.373255E+02    0.254359E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.394891E+02    0.258284E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.393255E+02    0.281610E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.371119E+02    0.291389E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.352103E+02    0.305445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.340926E+02    0.291003E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.340065E+02    0.271190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.348747E+02    0.252065E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.365692E+02    0.237748E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.386003E+02    0.232658E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.405328E+02    0.237425E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.417141E+02    0.252054E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.418025E+02    0.272552E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.408870E+02    0.292211E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.390341E+02    0.307078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.369946E+02    0.311518E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.351138E+02    0.337639E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.322551E+02    0.321859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.309931E+02    0.292438E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.314996E+02    0.257705E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.336322E+02    0.226751E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.370646E+02    0.205609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.407385E+02    0.202664E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.437299E+02    0.218632E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133633E+03   -0.453493E+02    0.248009E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.445694E+02    0.286753E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.422336E+02    0.318641E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.386356E+02    0.337644E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.366382E+02    0.429846E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.347728E+02    0.430531E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.361356E+02    0.412778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.382483E+02    0.418389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.381837E+02    0.439731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.359653E+02    0.447208E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.341285E+02    0.458904E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.329993E+02    0.444278E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.328984E+02    0.425894E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.337350E+02    0.408416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.353694E+02    0.395966E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.373887E+02    0.392411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.392665E+02    0.399069E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.404625E+02    0.414362E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133676E+03   -0.407538E+02    0.433159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.398622E+02    0.451118E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.380690E+02    0.463318E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.358630E+02    0.466380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.339934E+02    0.491376E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.313260E+02    0.471689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.301056E+02    0.442148E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.305637E+02    0.410086E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.326121E+02    0.381689E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.358938E+02    0.364752E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.394279E+02    0.365334E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.423982E+02    0.383479E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132863E+03   -0.440464E+02    0.414665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132661E+03   -0.435216E+02    0.449731E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133187E+03   -0.410713E+02    0.479384E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.376338E+02    0.494495E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.372095E+02    0.324252E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.352431E+02    0.326642E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.366557E+02    0.307231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.387973E+02    0.311645E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.386996E+02    0.333900E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.364871E+02    0.342947E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.346667E+02    0.355721E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.335727E+02    0.341193E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.334271E+02    0.322429E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.343108E+02    0.303617E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.359258E+02    0.290410E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.379512E+02    0.285730E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.398624E+02    0.291052E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.410155E+02    0.306029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.411734E+02    0.325679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.402356E+02    0.344814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.384699E+02    0.358297E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.364344E+02    0.362190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.345273E+02    0.388340E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.317106E+02    0.371240E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.305675E+02    0.341134E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.309539E+02    0.308352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.331895E+02    0.276999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.364579E+02    0.258361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.400200E+02    0.257078E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.431687E+02    0.272215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.446281E+02    0.303217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133575E+03   -0.440053E+02    0.339954E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.414347E+02    0.372164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.380262E+02    0.389366E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.380035E+02    0.202502E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.360243E+02    0.206060E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.374829E+02    0.184825E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.396591E+02    0.188159E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.395371E+02    0.211531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.373314E+02    0.221860E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.353573E+02    0.237273E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.342950E+02    0.222355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.341765E+02    0.202560E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.351017E+02    0.182211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.367829E+02    0.167372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.388176E+02    0.161778E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.407654E+02    0.165982E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.419792E+02    0.180290E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.420064E+02    0.201702E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.410281E+02    0.222315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.392924E+02    0.236873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.371578E+02    0.242801E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.352260E+02    0.270449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.324113E+02    0.254763E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.311770E+02    0.224807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.316355E+02    0.189849E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.338111E+02    0.157210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.373179E+02    0.134061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.409102E+02    0.131304E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.439357E+02    0.146304E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.454112E+02    0.176804E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.449167E+02    0.213785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.423316E+02    0.248678E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.387603E+02    0.269292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674438.024171719     
  ps_ts2 prof sum =   674042.879867500     
  trcom prof sum =    674042.879867501     
  ps_ts2 cur sum  =   16293.4803594900     
  trcom cur sum  =    16293.4803594900     
  
  antenna # iant =            2
  powecha_use(iant) =    692011.796118404     
  ps_ts2 prof sum =   691580.487488576     
  trcom prof sum =    691580.487488575     
  ps_ts2 cur sum  =   19623.4262404485     
  trcom cur sum  =    19623.4262404485     
  
  antenna # iant =            3
  powecha_use(iant) =    521361.435447175     
  ps_ts2 prof sum =   521016.237573320     
  trcom prof sum =    521016.237573320     
  ps_ts2 cur sum  =   10972.5525133535     
  trcom cur sum  =    10972.5525133535     
  
  antenna # iant =            4
  powecha_use(iant) =    572707.744352654     
  ps_ts2 prof sum =   572373.514467536     
  trcom prof sum =    572373.514467537     
  ps_ts2 cur sum  =   15023.8870554916     
  trcom cur sum  =    15023.8870554916     
  
  antenna # iant =            5
  powecha_use(iant) =    542041.131759828     
  ps_ts2 prof sum =   541728.934295240     
  trcom prof sum =    541728.934295240     
  ps_ts2 cur sum  =   16494.1760851975     
  trcom cur sum  =    16494.1760851975     
  
  Total ECH heating:      3000742.05369217     
  Total Current Drive:    78407.5222539810     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1284
 TA= 1.60500E+00 CPU TIME= 1.59156E-01 SECONDS.  DT= 1.35588E-04
  
 TEC1=    1.60499999999999     
 TEC2=    1.60999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.25793777777744     
  %check_save_state: izleft hours =    76.7336111111111     
 --> plasma_hash("gframe"): TA= 1.605000E+00 NSTEP=  1284 Hash code:  123003149
 ->PRGCHK: bdy curvature ratio at t= 1.6100E+00 seconds is:  5.4455E-02
% MHDEQ: TG1=     1.605000 ; TG2=     1.610000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7534E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4455E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.605000 TO TG2=    1.610000 @ NSTEP     1284
   GFRAME TG2 MOMENTS CHECKSUM:  2.4792358545098D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.86858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.42150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.58998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.91903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.62245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.03100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.92778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -5.84766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.29599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.37981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  3.99000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.75478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.91915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -3.94397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.35789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.82247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.60914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.22943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -5.64614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -5.64614E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.6100E+00  1.6150E+00 total power(Watts):  3.0006E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.61000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.367335E+02    0.369599E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.348625E+02    0.370975E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.362045E+02    0.352407E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.383298E+02    0.357266E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.382953E+02    0.379258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.360804E+02    0.387997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.341679E+02    0.401187E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.330996E+02    0.386073E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.329764E+02    0.366889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.338757E+02    0.348370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.354965E+02    0.335698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.375180E+02    0.331557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.393185E+02    0.337893E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.405431E+02    0.352284E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.406727E+02    0.372100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.397135E+02    0.391504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.379414E+02    0.404755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.359157E+02    0.408114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.340834E+02    0.432516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.313777E+02    0.414839E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.300397E+02    0.385807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.305366E+02    0.352221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.327074E+02    0.322722E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.359708E+02    0.304937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.395148E+02    0.304375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.426249E+02    0.320354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.441385E+02    0.350695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133398E+03   -0.435654E+02    0.387363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.409669E+02    0.419014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.375614E+02    0.434453E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.377523E+02    0.273343E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.358665E+02    0.275491E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.372651E+02    0.255550E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.394241E+02    0.259476E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.393555E+02    0.282034E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.371403E+02    0.291824E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.351508E+02    0.306626E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.341197E+02    0.291408E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.339495E+02    0.272373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.349013E+02    0.252403E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.365984E+02    0.238075E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.386316E+02    0.232997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.404672E+02    0.238649E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.416472E+02    0.253254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.418344E+02    0.272966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.408201E+02    0.293419E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.390632E+02    0.307553E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.370229E+02    0.311978E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.350533E+02    0.338731E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.323603E+02    0.321588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.310964E+02    0.292047E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.314483E+02    0.258874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.337432E+02    0.226142E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.370050E+02    0.206892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.406746E+02    0.203956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.436608E+02    0.219890E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.452790E+02    0.249216E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.447069E+02    0.286506E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.420646E+02    0.320457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.385704E+02    0.338750E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.365742E+02    0.430791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.347100E+02    0.431473E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.360711E+02    0.413757E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.381814E+02    0.419367E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.381154E+02    0.440683E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.359876E+02    0.447807E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.340654E+02    0.459773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.330198E+02    0.444857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.328387E+02    0.426839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.337575E+02    0.408960E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.353930E+02    0.396526E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.373233E+02    0.393446E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.391992E+02    0.400097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.403925E+02    0.415356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.406838E+02    0.434128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133914E+03   -0.397921E+02    0.452050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.379102E+02    0.464457E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.358837E+02    0.466989E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.339288E+02    0.492184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.313442E+02    0.472271E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.300497E+02    0.443044E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.305071E+02    0.411047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.326355E+02    0.382202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.358319E+02    0.365822E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.393607E+02    0.366415E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.425254E+02    0.383616E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.439729E+02    0.415685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132919E+03   -0.434470E+02    0.450692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133216E+03   -0.410928E+02    0.480082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.374756E+02    0.495465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.371465E+02    0.325383E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.352698E+02    0.327104E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.366836E+02    0.307695E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.388262E+02    0.312121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.387277E+02    0.334374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.365139E+02    0.343416E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.346071E+02    0.356793E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.335149E+02    0.342275E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.333695E+02    0.323559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.342525E+02    0.304791E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.359535E+02    0.290830E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.379806E+02    0.286164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.397966E+02    0.292251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.409478E+02    0.307218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.411051E+02    0.326826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.401683E+02    0.345914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.384039E+02    0.359371E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.363714E+02    0.363262E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.344664E+02    0.389375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.316536E+02    0.372281E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.304365E+02    0.342860E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.308999E+02    0.309511E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.331335E+02    0.278180E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.363981E+02    0.259549E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.399551E+02    0.258269E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.429982E+02    0.274189E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.445569E+02    0.304424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133605E+03   -0.440364E+02    0.340488E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.415602E+02    0.372230E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.379603E+02    0.390413E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.380351E+02    0.202828E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.360539E+02    0.206377E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.375135E+02    0.185114E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.396921E+02    0.188473E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.395693E+02    0.211865E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.372699E+02    0.223124E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.353856E+02    0.237601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.342388E+02    0.223613E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.340362E+02    0.204834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.350452E+02    0.183499E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.367250E+02    0.168648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.388493E+02    0.162011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.407018E+02    0.167267E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.419129E+02    0.181580E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.420419E+02    0.202038E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.410619E+02    0.222659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.392285E+02    0.238097E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.371878E+02    0.243138E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.351675E+02    0.271634E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.323554E+02    0.255949E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.311245E+02    0.226058E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.316621E+02    0.190119E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.339234E+02    0.156339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.372589E+02    0.135391E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.409441E+02    0.131529E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.439740E+02    0.146514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.455528E+02    0.176141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.447423E+02    0.215955E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.422646E+02    0.249881E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.386967E+02    0.270477E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.18 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675231.621467589     
  ps_ts2 prof sum =   674818.740828394     
  trcom prof sum =    674818.740828395     
  ps_ts2 cur sum  =   16443.9612937282     
  trcom cur sum  =    16443.9612937282     
  
  antenna # iant =            2
  powecha_use(iant) =    690515.289542345     
  ps_ts2 prof sum =   690144.225464944     
  trcom prof sum =    690144.225464944     
  ps_ts2 cur sum  =   19713.8278989894     
  trcom cur sum  =    19713.8278989893     
  
  antenna # iant =            3
  powecha_use(iant) =    522426.616569008     
  ps_ts2 prof sum =   522085.871843333     
  trcom prof sum =    522085.871843334     
  ps_ts2 cur sum  =   11093.5826949275     
  trcom cur sum  =    11093.5826949276     
  
  antenna # iant =            4
  powecha_use(iant) =    570022.119648990     
  ps_ts2 prof sum =   569686.034028864     
  trcom prof sum =    569686.034028864     
  ps_ts2 cur sum  =   15062.9839095432     
  trcom cur sum  =    15062.9839095432     
  
  antenna # iant =            5
  powecha_use(iant) =    542426.491465672     
  ps_ts2 prof sum =   542142.668578202     
  trcom prof sum =    542142.668578201     
  ps_ts2 cur sum  =   16606.9096341892     
  trcom cur sum  =    16606.9096341892     
  
  Total ECH heating:      2998877.54074374     
  Total Current Drive:    78921.2654313775     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1295
 TA= 1.61000E+00 CPU TIME= 1.61540E-01 SECONDS.  DT= 6.14145E-04
  
 TEC1=    1.60999999999999     
 TEC2=    1.61499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.27278361111075     
  %check_save_state: izleft hours =    76.7188888888889     
 --> plasma_hash("gframe"): TA= 1.610000E+00 NSTEP=  1295 Hash code:  100843191
 ->PRGCHK: bdy curvature ratio at t= 1.6150E+00 seconds is:  5.4480E-02
% MHDEQ: TG1=     1.610000 ; TG2=     1.615000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1200E-03 SECONDS
   DATA R*BT AT EDGE:  2.7561E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4480E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.610000 TO TG2=    1.615000 @ NSTEP     1295
   GFRAME TG2 MOMENTS CHECKSUM:  2.4801692591991D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6150E+00  1.6200E+00 total power(Watts):  3.0101E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.61500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.366688E+02    0.370658E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.348008E+02    0.372028E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.362300E+02    0.352894E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.383582E+02    0.357763E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.382278E+02    0.380320E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.360155E+02    0.389038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.341882E+02    0.401738E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.331220E+02    0.386592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.328344E+02    0.368495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.338159E+02    0.349444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.354349E+02    0.336810E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.374533E+02    0.332674E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.393459E+02    0.338377E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.404735E+02    0.353377E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.406024E+02    0.373173E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.396437E+02    0.392549E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.379655E+02    0.405328E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.359385E+02    0.408677E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.340207E+02    0.433448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.313975E+02    0.415367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.301368E+02    0.385779E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.304812E+02    0.353281E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.325673E+02    0.324537E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.359117E+02    0.306090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.394478E+02    0.305557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.424532E+02    0.322159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.440653E+02    0.351804E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133651E+03   -0.434919E+02    0.388438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.410875E+02    0.419274E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.374933E+02    0.435406E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.74 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.377806E+02    0.273727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.358055E+02    0.276671E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.372945E+02    0.255894E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.394524E+02    0.259848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.392897E+02    0.283222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.370785E+02    0.292999E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.351770E+02    0.307067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.340599E+02    0.292592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.339758E+02    0.272727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.348431E+02    0.253587E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.365377E+02    0.239296E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.385690E+02    0.234228E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.405009E+02    0.238979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.416794E+02    0.253619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.417656E+02    0.274158E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.407518E+02    0.294606E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.389969E+02    0.308729E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.369594E+02    0.313141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.349921E+02    0.339822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.323034E+02    0.322717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.309631E+02    0.294002E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.314736E+02    0.259178E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.336025E+02    0.228317E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.370349E+02    0.207213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.406084E+02    0.205242E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.436943E+02    0.220260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.453132E+02    0.249602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.446350E+02    0.287713E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.419941E+02    0.321617E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.385040E+02    0.339862E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.365962E+02    0.431386E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.346463E+02    0.432417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.360060E+02    0.414735E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.382039E+02    0.419954E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.381375E+02    0.441303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.359214E+02    0.448715E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.340848E+02    0.460370E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.329581E+02    0.445758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.328592E+02    0.427388E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.336961E+02    0.409934E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.353295E+02    0.397549E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.373475E+02    0.394008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.392234E+02    0.400691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134260E+03   -0.405134E+02    0.415573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.405160E+02    0.435419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.397206E+02    0.452976E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.378402E+02    0.465327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.358163E+02    0.467855E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.339464E+02    0.492813E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.312845E+02    0.473093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.300683E+02    0.443592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.303741E+02    0.412447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.325766E+02    0.383233E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.357685E+02    0.366882E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.392922E+02    0.367488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.424532E+02    0.384689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133374E+03   -0.438988E+02    0.416698E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133176E+03   -0.433710E+02    0.451657E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133476E+03   -0.410187E+02    0.480952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.374045E+02    0.496289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.371733E+02    0.325856E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.352085E+02    0.328232E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.366207E+02    0.308865E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.387607E+02    0.313291E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.386613E+02    0.335501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.364503E+02    0.344507E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.345459E+02    0.357857E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.334558E+02    0.343368E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.332269E+02    0.325363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.341078E+02    0.306693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.358918E+02    0.292016E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.379166E+02    0.287348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.398258E+02    0.292700E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.409772E+02    0.307703E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.411317E+02    0.327334E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.400999E+02    0.347006E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.384305E+02    0.359883E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.363075E+02    0.364326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.344040E+02    0.390407E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.317556E+02    0.372209E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.303815E+02    0.343935E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.310015E+02    0.309201E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.329933E+02    0.280163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.364268E+02    0.259896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.399847E+02    0.258630E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.429279E+02    0.275387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.445886E+02    0.304939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.439636E+02    0.341605E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.413913E+02    0.373818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.378929E+02    0.391459E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.379732E+02    0.204111E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.359949E+02    0.207660E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.374529E+02    0.186398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.396280E+02    0.189758E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.395046E+02    0.213148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.372996E+02    0.223450E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.353258E+02    0.238828E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.340965E+02    0.225803E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.339793E+02    0.206116E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.349018E+02    0.185799E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.367540E+02    0.168906E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.387875E+02    0.163299E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.407349E+02    0.167521E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.418470E+02    0.182865E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.419731E+02    0.203332E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.409943E+02    0.223916E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.392589E+02    0.238439E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.371268E+02    0.244347E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.351946E+02    0.271997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.324629E+02    0.255398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.311499E+02    0.226361E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.316090E+02    0.191402E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.337847E+02    0.158714E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.372011E+02    0.136707E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.408814E+02    0.132854E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.439069E+02    0.147815E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.453772E+02    0.178408E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.448810E+02    0.215433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.421959E+02    0.251084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.387244E+02    0.270871E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678597.498771216     
  ps_ts2 prof sum =   678165.385857568     
  trcom prof sum =    678165.385857568     
  ps_ts2 cur sum  =   16643.8636125603     
  trcom cur sum  =    16643.8636125603     
  
  antenna # iant =            2
  powecha_use(iant) =    691687.311594743     
  ps_ts2 prof sum =   691296.763324707     
  trcom prof sum =    691296.763324706     
  ps_ts2 cur sum  =   19869.9391232281     
  trcom cur sum  =    19869.9391232281     
  
  antenna # iant =            3
  powecha_use(iant) =    523413.673786241     
  ps_ts2 prof sum =   523070.951329378     
  trcom prof sum =    523070.951329378     
  ps_ts2 cur sum  =   11200.7913419081     
  trcom cur sum  =    11200.7913419081     
  
  antenna # iant =            4
  powecha_use(iant) =    574300.948700357     
  ps_ts2 prof sum =   573942.605339065     
  trcom prof sum =    573942.605339064     
  ps_ts2 cur sum  =   15278.6278219497     
  trcom cur sum  =    15278.6278219497     
  
  antenna # iant =            5
  powecha_use(iant) =    542121.635096965     
  ps_ts2 prof sum =   541801.736904399     
  trcom prof sum =    541801.736904399     
  ps_ts2 cur sum  =   16693.4107734782     
  trcom cur sum  =    16693.4107734782     
  
  Total ECH heating:      3008277.44275512     
  Total Current Drive:    79686.6326731244     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1300
 TA= 1.61500E+00 CPU TIME= 1.59801E-01 SECONDS.  DT= 1.82384E-03
  
 TEC1=    1.61499999999999     
 TEC2=    1.61999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.28827361111121     
  %check_save_state: izleft hours =    76.7033333333333     
 --> plasma_hash("gframe"): TA= 1.615000E+00 NSTEP=  1300 Hash code:   89829461
 ->PRGCHK: bdy curvature ratio at t= 1.6200E+00 seconds is:  5.4508E-02
% MHDEQ: TG1=     1.615000 ; TG2=     1.620000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7589E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4508E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.615000 TO TG2=    1.620000 @ NSTEP     1300
   GFRAME TG2 MOMENTS CHECKSUM:  2.4811026671879D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.35414E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.39165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.43522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.21727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.67862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.68060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.13745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.66074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.26508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.81122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.69977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.28241E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.58033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.87477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.12041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  5.58791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.36149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.65970E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.33327E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.87708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.87708E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.6200E+00  1.6250E+00 total power(Watts):  3.0049E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.62000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.366955E+02    0.371196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.347404E+02    0.373087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.361687E+02    0.353987E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.382913E+02    0.358876E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.381625E+02    0.381388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.359533E+02    0.390081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.341301E+02    0.402744E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.330633E+02    0.387636E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.329421E+02    0.368437E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.337579E+02    0.350539E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.354626E+02    0.337291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.374821E+02    0.333169E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.392805E+02    0.339510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.404058E+02    0.354495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.407288E+02    0.373233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.396711E+02    0.393153E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.378993E+02    0.406363E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.358753E+02    0.409685E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.339593E+02    0.434428E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.313408E+02    0.416342E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.300071E+02    0.387325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.305830E+02    0.353119E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.326756E+02    0.324296E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.359407E+02    0.306556E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.394791E+02    0.306049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.423843E+02    0.323343E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.439945E+02    0.352934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133904E+03   -0.434205E+02    0.389526E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.410179E+02    0.420293E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.374268E+02    0.436400E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.377184E+02    0.274926E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.358351E+02    0.277069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.372332E+02    0.257095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.393919E+02    0.261041E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.392259E+02    0.284435E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.370161E+02    0.294211E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.351182E+02    0.308255E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.339171E+02    0.294562E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.339204E+02    0.273919E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.347852E+02    0.254796E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.364784E+02    0.240515E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.386020E+02    0.234556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.404345E+02    0.240222E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.416128E+02    0.254834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.416990E+02    0.275374E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.407840E+02    0.295093E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.389331E+02    0.309926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.368977E+02    0.314324E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.350195E+02    0.340309E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.321662E+02    0.324562E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.309108E+02    0.295184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.314210E+02    0.260373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.335478E+02    0.229545E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.369766E+02    0.208467E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.406444E+02    0.205547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.436276E+02    0.221504E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.452445E+02    0.250822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.445653E+02    0.288944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.419257E+02    0.322800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.384396E+02    0.340988E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.365312E+02    0.432384E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.346691E+02    0.433040E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.360305E+02    0.415330E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.381374E+02    0.420958E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.380699E+02    0.442297E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.358564E+02    0.449690E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.340224E+02    0.461293E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.328977E+02    0.446713E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.328000E+02    0.428367E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.336364E+02    0.410931E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.352672E+02    0.398574E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.372829E+02    0.395053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.391561E+02    0.401733E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.404444E+02    0.416601E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.406376E+02    0.435796E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.395568E+02    0.454234E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.377718E+02    0.466263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.357510E+02    0.468754E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.338830E+02    0.493586E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.312259E+02    0.473945E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.300128E+02    0.444537E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.304727E+02    0.412547E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.325189E+02    0.384278E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.357066E+02    0.367948E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.393207E+02    0.368045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.423831E+02    0.385776E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133629E+03   -0.438257E+02    0.417745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.432969E+02    0.452678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133736E+03   -0.409465E+02    0.481847E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.375147E+02    0.496791E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.371110E+02    0.327004E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.351483E+02    0.329365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.365597E+02    0.310049E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.386966E+02    0.314478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.385969E+02    0.336631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.363882E+02    0.345621E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.345722E+02    0.358347E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.334798E+02    0.343849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.333372E+02    0.325137E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.342201E+02    0.306409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.358315E+02    0.293217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.378542E+02    0.288557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.397611E+02    0.293910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.409105E+02    0.308909E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.410667E+02    0.328494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.401300E+02    0.347528E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.383653E+02    0.360981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.363342E+02    0.364847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.344286E+02    0.390952E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.316199E+02    0.373818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.304059E+02    0.344381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.308692E+02    0.311113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.331049E+02    0.279742E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.363684E+02    0.261094E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.399213E+02    0.259836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.430647E+02    0.275062E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.445187E+02    0.306163E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.438934E+02    0.342755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.413224E+02    0.374907E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.378276E+02    0.392509E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.379141E+02    0.205370E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.358490E+02    0.209878E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.373947E+02    0.187671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.395670E+02    0.191031E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.394439E+02    0.214396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.372416E+02    0.224682E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.351819E+02    0.240930E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.342113E+02    0.225167E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.340948E+02    0.205407E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.350196E+02    0.185038E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.366988E+02    0.170178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.388216E+02    0.163562E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.406735E+02    0.168814E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.418836E+02    0.183156E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.419079E+02    0.204598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.409316E+02    0.225154E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.391965E+02    0.239657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.371584E+02    0.244683E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.351367E+02    0.273190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.323285E+02    0.257459E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.310992E+02    0.227585E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.316371E+02    0.191646E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.337315E+02    0.160039E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.372350E+02    0.136967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.408206E+02    0.134223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.438424E+02    0.149147E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.453109E+02    0.179691E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.448135E+02    0.216678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.421293E+02    0.252295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.386618E+02    0.272072E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675390.070283926     
  ps_ts2 prof sum =   675020.116242546     
  trcom prof sum =    675020.116242547     
  ps_ts2 cur sum  =   16704.1940770703     
  trcom cur sum  =    16704.1940770703     
  
  antenna # iant =            2
  powecha_use(iant) =    690204.887814934     
  ps_ts2 prof sum =   689779.802373322     
  trcom prof sum =    689779.802373321     
  ps_ts2 cur sum  =   19969.7210920359     
  trcom cur sum  =    19969.7210920358     
  
  antenna # iant =            3
  powecha_use(iant) =    523618.651387307     
  ps_ts2 prof sum =   523297.600539071     
  trcom prof sum =    523297.600539072     
  ps_ts2 cur sum  =   11309.2192604307     
  trcom cur sum  =    11309.2192604308     
  
  antenna # iant =            4
  powecha_use(iant) =    573249.105486439     
  ps_ts2 prof sum =   572930.404485484     
  trcom prof sum =    572930.404485484     
  ps_ts2 cur sum  =   15368.8278969014     
  trcom cur sum  =    15368.8278969013     
  
  antenna # iant =            5
  powecha_use(iant) =    542460.323180774     
  ps_ts2 prof sum =   542143.999012490     
  trcom prof sum =    542143.999012489     
  ps_ts2 cur sum  =   16815.1604776219     
  trcom cur sum  =    16815.1604776219     
  
  Total ECH heating:      3003171.92265291     
  Total Current Drive:    80167.1228040601     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1303
 TA= 1.62000E+00 CPU TIME= 1.68372E-01 SECONDS.  DT= 1.12046E-03
  
 TEC1=    1.61999999999999     
 TEC2=    1.62499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    3.30384972222214     
  %check_save_state: izleft hours =    76.6877777777778     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  1.6200000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 1.620000E+00 NSTEP=  1303 Hash code:   59020118
 ->PRGCHK: bdy curvature ratio at t= 1.6250E+00 seconds is:  5.4537E-02
% MHDEQ: TG1=     1.620000 ; TG2=     1.625000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7616E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4537E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.620000 TO TG2=    1.625000 @ NSTEP     1303
   GFRAME TG2 MOMENTS CHECKSUM:  2.4820360751767D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.6250E+00  1.6300E+00 total power(Watts):  2.9914E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.62500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.366334E+02    0.372286E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.346807E+02    0.374163E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.361074E+02    0.355095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.382277E+02    0.359988E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.380977E+02    0.382476E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.359823E+02    0.390652E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.340704E+02    0.403782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.330057E+02    0.388686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.328857E+02    0.369513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.337851E+02    0.351032E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.354034E+02    0.338426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.374204E+02    0.334326E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.392156E+02    0.340665E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.404372E+02    0.355041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.405640E+02    0.374862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.396041E+02    0.394235E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.378342E+02    0.407418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.358130E+02    0.410727E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.339823E+02    0.435068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.312852E+02    0.417346E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.299531E+02    0.388369E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.304521E+02    0.354824E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.326202E+02    0.325456E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.358820E+02    0.307754E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.394155E+02    0.307260E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.423163E+02    0.324548E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.439245E+02    0.354083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.433497E+02    0.390641E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.409490E+02    0.421342E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.373563E+02    0.437440E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.65 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.376578E+02    0.276139E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.357778E+02    0.278276E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.371751E+02    0.258309E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.393294E+02    0.262254E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.392592E+02    0.284885E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.369556E+02    0.295421E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.350595E+02    0.309445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.338610E+02    0.295761E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.338657E+02    0.275124E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.346439E+02    0.256869E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.365122E+02    0.240850E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.385410E+02    0.235802E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.403718E+02    0.241456E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.415480E+02    0.256065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.416336E+02    0.276601E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.407193E+02    0.296321E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.389648E+02    0.310424E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.368372E+02    0.315516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.349609E+02    0.341436E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.321113E+02    0.325717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.309381E+02    0.295603E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.313688E+02    0.261579E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.336633E+02    0.228930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.369192E+02    0.209747E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.405831E+02    0.206828E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.435624E+02    0.222766E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.451774E+02    0.252060E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.443915E+02    0.290912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.420598E+02    0.322698E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.384698E+02    0.341519E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.364665E+02    0.433400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.346075E+02    0.434045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.359674E+02    0.416348E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.380708E+02    0.421992E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.380030E+02    0.443303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.357919E+02    0.450673E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.339614E+02    0.462225E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.329198E+02    0.447364E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.327414E+02    0.429367E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.335804E+02    0.411937E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.352036E+02    0.399636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.372192E+02    0.396119E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.390892E+02    0.402806E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.402795E+02    0.418035E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.405680E+02    0.436833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.394870E+02    0.455238E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.378860E+02    0.466733E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.357732E+02    0.469435E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.338201E+02    0.494365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.312460E+02    0.474564E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.299575E+02    0.445502E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.304179E+02    0.413544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.323800E+02    0.385852E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.357340E+02    0.368483E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.392552E+02    0.369150E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.422131E+02    0.387352E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.437531E+02    0.418821E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.432232E+02    0.453720E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133995E+03   -0.408743E+02    0.482753E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.374466E+02    0.497592E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.370501E+02    0.328169E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.351756E+02    0.329874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.365011E+02    0.311234E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.387282E+02    0.314983E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.385331E+02    0.337788E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.364175E+02    0.346133E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.345130E+02    0.359441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.334257E+02    0.344949E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.332811E+02    0.326293E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.341628E+02    0.307608E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.358618E+02    0.293664E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.378858E+02    0.289009E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.396976E+02    0.295131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.408448E+02    0.310124E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.410000E+02    0.329669E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.400622E+02    0.348688E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.383014E+02    0.362092E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.362728E+02    0.365939E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.343690E+02    0.392008E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.315643E+02    0.374881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.303533E+02    0.345480E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.308169E+02    0.312279E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.330512E+02    0.280944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.363109E+02    0.262301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.398593E+02    0.261054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.429984E+02    0.276296E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.444500E+02    0.307401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.438238E+02    0.343917E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.412540E+02    0.376018E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.378555E+02    0.393110E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.378555E+02    0.206653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.359686E+02    0.209247E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.374293E+02    0.187955E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.396032E+02    0.191334E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.394796E+02    0.214730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.371840E+02    0.225939E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.353017E+02    0.240368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.341574E+02    0.226416E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.339561E+02    0.207668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.349656E+02    0.186333E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.366436E+02    0.171493E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.387645E+02    0.164881E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.406127E+02    0.170131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.418220E+02    0.184457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.419468E+02    0.204934E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.409678E+02    0.225503E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.391368E+02    0.240894E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.371002E+02    0.245910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.350809E+02    0.274398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.322755E+02    0.258669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.310483E+02    0.228834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.315872E+02    0.192932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.338488E+02    0.159216E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.371802E+02    0.138350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.408588E+02    0.134520E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.437793E+02    0.150500E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.452448E+02    0.180999E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.446423E+02    0.218851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.421646E+02    0.252700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.386003E+02    0.273289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    671627.494925970     
  ps_ts2 prof sum =   671241.831795740     
  trcom prof sum =    671241.831795740     
  ps_ts2 cur sum  =   16758.1027043577     
  trcom cur sum  =    16758.1027043577     
  
  antenna # iant =            2
  powecha_use(iant) =    688608.910374647     
  ps_ts2 prof sum =   688195.928694152     
  trcom prof sum =    688195.928694151     
  ps_ts2 cur sum  =   20079.2908885549     
  trcom cur sum  =    20079.2908885549     
  
  antenna # iant =            3
  powecha_use(iant) =    524174.699187292     
  ps_ts2 prof sum =   523843.343516254     
  trcom prof sum =    523843.343516255     
  ps_ts2 cur sum  =   11429.9025762749     
  trcom cur sum  =    11429.9025762749     
  
  antenna # iant =            4
  powecha_use(iant) =    564752.878020313     
  ps_ts2 prof sum =   564443.009976269     
  trcom prof sum =    564443.009976268     
  ps_ts2 cur sum  =   15267.1172768461     
  trcom cur sum  =    15267.1172768461     
  
  antenna # iant =            5
  powecha_use(iant) =    542264.395185172     
  ps_ts2 prof sum =   541983.046080961     
  trcom prof sum =    541983.046080960     
  ps_ts2 cur sum  =   16931.6094824058     
  trcom cur sum  =    16931.6094824058     
  
  Total ECH heating:      2989707.16006337     
  Total Current Drive:    80466.0229284394     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1307
 TA= 1.62500E+00 CPU TIME= 1.59071E-01 SECONDS.  DT= 9.10305E-04
  
 TEC1=    1.62499999999999     
 TEC2=    1.62999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.32065611111079     
  %check_save_state: izleft hours =    76.6708333333333     
 --> plasma_hash("gframe"): TA= 1.625000E+00 NSTEP=  1307 Hash code:   33027292
 ->PRGCHK: bdy curvature ratio at t= 1.6300E+00 seconds is:  5.4568E-02
% MHDEQ: TG1=     1.625000 ; TG2=     1.630000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4568E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.625000 TO TG2=    1.630000 @ NSTEP     1307
   GFRAME TG2 MOMENTS CHECKSUM:  2.4829694831655D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.90557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.35776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.42033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.74242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.54019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.25835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.49312E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.42837E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.26069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.06314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.04579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.38221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.82437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.75864E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.89169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.83797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.71711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.45120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.85690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.85690E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.6300E+00  1.6350E+00 total power(Watts):  3.0036E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.63000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.365698E+02    0.373362E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.347064E+02    0.374690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.360449E+02    0.356193E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.381621E+02    0.361087E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.381246E+02    0.383048E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.359162E+02    0.391716E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.340093E+02    0.404806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.329471E+02    0.389732E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.328272E+02    0.370575E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.337259E+02    0.352128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.353423E+02    0.339548E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.373568E+02    0.335472E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.392453E+02    0.341186E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.403689E+02    0.356157E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.404949E+02    0.375956E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.395355E+02    0.395305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.377671E+02    0.408454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.358376E+02    0.411315E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.339201E+02    0.436045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.311486E+02    0.418745E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.298982E+02    0.389397E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.303973E+02    0.355904E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.324806E+02    0.327305E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.358206E+02    0.308950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.393500E+02    0.308469E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.424513E+02    0.324434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.437486E+02    0.355776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.432772E+02    0.391737E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.407807E+02    0.422737E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.373841E+02    0.438082E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.376890E+02    0.276557E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.357191E+02    0.279482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.371145E+02    0.259531E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.392653E+02    0.263478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.391943E+02    0.286109E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.369848E+02    0.295886E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.350870E+02    0.309921E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.339744E+02    0.295426E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.337216E+02    0.277155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.347608E+02    0.256353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.364531E+02    0.242082E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.384806E+02    0.237037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.403086E+02    0.242695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.414818E+02    0.257289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.416668E+02    0.277049E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.406525E+02    0.297542E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.389001E+02    0.311630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.368662E+02    0.316005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.349007E+02    0.342554E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.322188E+02    0.325494E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.308835E+02    0.296794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.313962E+02    0.261916E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.335242E+02    0.231103E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.369518E+02    0.210067E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.405194E+02    0.208119E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.434958E+02    0.224024E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.451077E+02    0.253298E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.443204E+02    0.292152E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.418901E+02    0.324541E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.384048E+02    0.342648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.364005E+02    0.434392E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.345445E+02    0.435030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.359031E+02    0.417363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.380035E+02    0.423009E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.379345E+02    0.444294E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.358164E+02    0.451328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.338975E+02    0.463144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.328591E+02    0.448318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.327635E+02    0.429969E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.336004E+02    0.412535E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.352304E+02    0.400203E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.371536E+02    0.397170E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.390209E+02    0.403855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.402091E+02    0.419071E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.404973E+02    0.437853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.394160E+02    0.456217E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.377263E+02    0.467898E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.357071E+02    0.470335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.338386E+02    0.494966E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.311869E+02    0.475414E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.298250E+02    0.446780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.302845E+02    0.414968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.324856E+02    0.385859E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.356722E+02    0.369569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.391880E+02    0.370243E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.421413E+02    0.388448E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133914E+03   -0.437814E+02    0.419518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.431481E+02    0.454738E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.408014E+02    0.483641E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.372877E+02    0.498501E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.369879E+02    0.329325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.351177E+02    0.331009E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.365289E+02    0.311731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.386635E+02    0.316178E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.385624E+02    0.338296E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.363551E+02    0.347249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.344532E+02    0.360532E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.333674E+02    0.346054E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.331391E+02    0.328133E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.341045E+02    0.308801E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.358016E+02    0.294873E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.378226E+02    0.290222E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.396321E+02    0.296351E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.407772E+02    0.311334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.409318E+02    0.330842E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.399962E+02    0.349802E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.382359E+02    0.363187E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.362102E+02    0.367016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.343082E+02    0.393053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.316685E+02    0.374823E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.302990E+02    0.346584E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.307628E+02    0.313455E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.329103E+02    0.282956E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.362509E+02    0.263514E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.398907E+02    0.261461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.428270E+02    0.278299E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.443787E+02    0.308627E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.436485E+02    0.345656E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.411838E+02    0.377114E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.377894E+02    0.394169E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.378887E+02    0.206974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.359136E+02    0.210499E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.373715E+02    0.189260E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.395417E+02    0.192633E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.394171E+02    0.216002E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.371241E+02    0.227188E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.352445E+02    0.241604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.340161E+02    0.228602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.339010E+02    0.208952E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.348234E+02    0.188652E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.366764E+02    0.171779E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.387054E+02    0.166223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.405512E+02    0.171458E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.417581E+02    0.185763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.418820E+02    0.206222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.409030E+02    0.226761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.390739E+02    0.242129E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.370404E+02    0.247134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.351105E+02    0.274789E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.323861E+02    0.258140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.309968E+02    0.230087E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.315358E+02    0.194226E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.337114E+02    0.161652E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.371234E+02    0.139746E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.407974E+02    0.135931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.438178E+02    0.150819E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.453910E+02    0.180350E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.445748E+02    0.220115E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.420976E+02    0.253929E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.386319E+02    0.273699E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.29 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678645.082002043     
  ps_ts2 prof sum =   678227.424013920     
  trcom prof sum =    678227.424013920     
  ps_ts2 cur sum  =   17069.6285699720     
  trcom cur sum  =    17069.6285699720     
  
  antenna # iant =            2
  powecha_use(iant) =    685576.262553448     
  ps_ts2 prof sum =   685194.333528792     
  trcom prof sum =    685194.333528791     
  ps_ts2 cur sum  =   20125.8306405371     
  trcom cur sum  =    20125.8306405371     
  
  antenna # iant =            3
  powecha_use(iant) =    523803.701495195     
  ps_ts2 prof sum =   523459.850415870     
  trcom prof sum =    523459.850415870     
  ps_ts2 cur sum  =   11521.3847243179     
  trcom cur sum  =    11521.3847243179     
  
  antenna # iant =            4
  powecha_use(iant) =    571787.379913794     
  ps_ts2 prof sum =   571443.279091329     
  trcom prof sum =    571443.279091329     
  ps_ts2 cur sum  =   15571.4882487526     
  trcom cur sum  =    15571.4882487526     
  
  antenna # iant =            5
  powecha_use(iant) =    543790.208342935     
  ps_ts2 prof sum =   543494.303023529     
  trcom prof sum =    543494.303023528     
  ps_ts2 cur sum  =   17084.2667230844     
  trcom cur sum  =    17084.2667230844     
  
  Total ECH heating:      3001819.19007344     
  Total Current Drive:    81372.5989066639     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1311
 TA= 1.63000E+00 CPU TIME= 1.61692E-01 SECONDS.  DT= 1.91183E-03
  
 TEC1=    1.62999999999999     
 TEC2=    1.63499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.33564388888840     
  %check_save_state: izleft hours =    76.6558333333333     
 --> plasma_hash("gframe"): TA= 1.630000E+00 NSTEP=  1311 Hash code:    6557134
 ->PRGCHK: bdy curvature ratio at t= 1.6350E+00 seconds is:  5.4601E-02
% MHDEQ: TG1=     1.630000 ; TG2=     1.635000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7672E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4601E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.630000 TO TG2=    1.635000 @ NSTEP     1311
   GFRAME TG2 MOMENTS CHECKSUM:  2.4839028911542D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.6350E+00  1.6400E+00 total power(Watts):  3.0097E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.63500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.365049E+02    0.374419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.346441E+02    0.375738E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.360714E+02    0.356683E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.381894E+02    0.361596E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.380573E+02    0.384103E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.358518E+02    0.392753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.340325E+02    0.405365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.328033E+02    0.391258E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.326843E+02    0.372180E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.336685E+02    0.353184E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.352801E+02    0.340658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.372915E+02    0.336603E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.391779E+02    0.342299E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.402992E+02    0.357255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.404245E+02    0.377027E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.394656E+02    0.396351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.377922E+02    0.409048E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.357727E+02    0.412320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.338574E+02    0.437005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.312494E+02    0.418885E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.299213E+02    0.389889E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.303416E+02    0.356963E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.325880E+02    0.327053E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.357581E+02    0.310134E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.392831E+02    0.309658E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.422774E+02    0.326251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.438834E+02    0.355785E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.431006E+02    0.393259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.407083E+02    0.423750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.373160E+02    0.439052E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.376254E+02    0.277748E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.356581E+02    0.280668E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.371431E+02    0.259889E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.392968E+02    0.263847E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.391276E+02    0.287304E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.369207E+02    0.297080E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.350261E+02    0.311091E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.339168E+02    0.296606E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.338365E+02    0.276694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.347018E+02    0.257549E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.363924E+02    0.243298E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.384171E+02    0.238260E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.403410E+02    0.243039E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.415144E+02    0.257669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.415978E+02    0.278252E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.405841E+02    0.298732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.388337E+02    0.312810E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.368045E+02    0.317151E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.348387E+02    0.343662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.320789E+02    0.327313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.308299E+02    0.297968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.313412E+02    0.263109E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.334665E+02    0.232338E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.368912E+02    0.211323E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.404539E+02    0.209388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.436352E+02    0.223479E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.449284E+02    0.255330E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.444593E+02    0.291912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.418194E+02    0.325706E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.383381E+02    0.343760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.364234E+02    0.435023E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.344804E+02    0.435992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.358376E+02    0.418357E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.380277E+02    0.423623E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.378650E+02    0.445262E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.357483E+02    0.452279E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.339177E+02    0.463777E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.327974E+02    0.449249E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.327023E+02    0.430927E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.335389E+02    0.413526E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.351668E+02    0.401224E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.371785E+02    0.397744E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.389514E+02    0.404894E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.401356E+02    0.420094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.403283E+02    0.439160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.395339E+02    0.456650E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.376566E+02    0.468803E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.356403E+02    0.471215E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.337739E+02    0.495712E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.311272E+02    0.476239E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.297684E+02    0.447692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.302275E+02    0.415943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.324265E+02    0.386887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.356089E+02    0.370619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.391193E+02    0.371306E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.420683E+02    0.389513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.437061E+02    0.420561E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133974E+03   -0.431731E+02    0.455479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.407278E+02    0.484501E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.372175E+02    0.499251E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.370143E+02    0.329816E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.350564E+02    0.332132E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.364654E+02    0.312906E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.385968E+02    0.317351E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.384958E+02    0.339420E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.362913E+02    0.348345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.343919E+02    0.361600E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.332229E+02    0.347781E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.330792E+02    0.329270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.339584E+02    0.310695E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.357400E+02    0.296058E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.377573E+02    0.291420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.396619E+02    0.296811E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.408074E+02    0.311828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.408620E+02    0.331988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.399270E+02    0.350907E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.381688E+02    0.364262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.362361E+02    0.367527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.342457E+02    0.394076E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.316086E+02    0.375884E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.302437E+02    0.347663E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.307884E+02    0.313873E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.328542E+02    0.284133E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.362803E+02    0.263866E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.398252E+02    0.262648E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.427567E+02    0.279501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.443060E+02    0.309829E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.435752E+02    0.346787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.413114E+02    0.377190E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.377219E+02    0.395210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.378271E+02    0.208237E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.358541E+02    0.211765E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.373106E+02    0.190538E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.394782E+02    0.193914E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.393532E+02    0.217258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.371547E+02    0.227509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.351846E+02    0.242816E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.341304E+02    0.227966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.340156E+02    0.208252E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.347660E+02    0.189938E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.366174E+02    0.173097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.386438E+02    0.167543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.405850E+02    0.171742E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.416918E+02    0.187045E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.418149E+02    0.207494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.408377E+02    0.228003E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.391057E+02    0.242467E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.369786E+02    0.248343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.350493E+02    0.275976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.322473E+02    0.260203E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.310235E+02    0.230369E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.315634E+02    0.194481E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.336559E+02    0.162985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.369737E+02    0.142225E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.407347E+02    0.137304E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.437505E+02    0.152169E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.453217E+02    0.181640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.445043E+02    0.221366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.420290E+02    0.255140E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.385673E+02    0.274894E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680442.460222912     
  ps_ts2 prof sum =   680018.352165956     
  trcom prof sum =    680018.352165956     
  ps_ts2 cur sum  =   17234.6802916196     
  trcom cur sum  =    17234.6802916196     
  
  antenna # iant =            2
  powecha_use(iant) =    688317.925977645     
  ps_ts2 prof sum =   687934.399035236     
  trcom prof sum =    687934.399035235     
  ps_ts2 cur sum  =   20323.5649860279     
  trcom cur sum  =    20323.5649860279     
  
  antenna # iant =            3
  powecha_use(iant) =    523911.085751916     
  ps_ts2 prof sum =   523565.092378298     
  trcom prof sum =    523565.092378299     
  ps_ts2 cur sum  =   11614.5374971160     
  trcom cur sum  =    11614.5374971160     
  
  antenna # iant =            4
  powecha_use(iant) =    572321.565695802     
  ps_ts2 prof sum =   571957.778269688     
  trcom prof sum =    571957.778269688     
  ps_ts2 cur sum  =   15686.1428779965     
  trcom cur sum  =    15686.1428779965     
  
  antenna # iant =            5
  powecha_use(iant) =    544668.213703529     
  ps_ts2 prof sum =   544365.317312820     
  trcom prof sum =    544365.317312820     
  ps_ts2 cur sum  =   17200.7855067750     
  trcom cur sum  =    17200.7855067750     
  
  Total ECH heating:      3007840.93916200     
  Total Current Drive:    82059.7111595349     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1314
 TA= 1.63500E+00 CPU TIME= 1.60095E-01 SECONDS.  DT= 8.72987E-04
  
 TEC1=    1.63499999999999     
 TEC2=    1.63999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.35071666666681     
  %check_save_state: izleft hours =    76.6408333333333     
 --> plasma_hash("gframe"): TA= 1.635000E+00 NSTEP=  1314 Hash code:   49962722
 ->PRGCHK: bdy curvature ratio at t= 1.6400E+00 seconds is:  5.4636E-02
% MHDEQ: TG1=     1.635000 ; TG2=     1.640000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7699E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4636E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.635000 TO TG2=    1.640000 @ NSTEP     1314
   GFRAME TG2 MOMENTS CHECKSUM:  2.4848362991430D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.41164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.32666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  1.23678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.68895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.16454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.36930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.25703E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.57822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.75545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.39661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.66411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.20039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.77811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.26209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.33501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.35753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.76980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.55942E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -5.15017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -5.15017E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.6400E+00  1.6450E+00 total power(Watts):  2.9936E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.64000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.365276E+02    0.374952E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.345790E+02    0.376785E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.360044E+02    0.357774E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.381188E+02    0.362686E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.379864E+02    0.385160E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.357843E+02    0.393782E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.339673E+02    0.406369E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.329074E+02    0.391279E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.327888E+02    0.372115E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.335168E+02    0.354900E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.353029E+02    0.341157E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.373159E+02    0.337108E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.391065E+02    0.343436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.402263E+02    0.358358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.403502E+02    0.378100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.394887E+02    0.396945E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.377209E+02    0.410066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.357045E+02    0.413316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.337914E+02    0.437943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.311882E+02    0.419846E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.298615E+02    0.390914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.303617E+02    0.357421E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.324437E+02    0.328900E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.357816E+02    0.310619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.393089E+02    0.310169E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.422020E+02    0.327440E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.438062E+02    0.356910E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.432316E+02    0.393429E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.406323E+02    0.424753E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.372446E+02    0.440004E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.375591E+02    0.278974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.356836E+02    0.281101E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.370787E+02    0.261139E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.392279E+02    0.265107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.391535E+02    0.287785E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.368542E+02    0.298298E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.349620E+02    0.312287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.337679E+02    0.298587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.336886E+02    0.278738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.345518E+02    0.259669E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.364187E+02    0.243696E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.384454E+02    0.238670E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.402714E+02    0.244334E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.414405E+02    0.258961E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.415245E+02    0.279501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.406110E+02    0.299247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.388593E+02    0.313321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.367351E+02    0.318369E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.348619E+02    0.344146E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.320173E+02    0.328475E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.308523E+02    0.298397E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.313649E+02    0.263485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.335774E+02    0.231781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.368299E+02    0.212656E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.404843E+02    0.209797E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.434578E+02    0.225713E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.450664E+02    0.254982E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.443831E+02    0.293169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.417446E+02    0.326893E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.383629E+02    0.344275E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.363537E+02    0.435973E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.344997E+02    0.436584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.358582E+02    0.418942E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.379558E+02    0.424614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.378852E+02    0.445907E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.356788E+02    0.453196E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.338510E+02    0.464649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.328155E+02    0.449843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.326363E+02    0.431880E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.334742E+02    0.414510E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.351003E+02    0.402240E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.371086E+02    0.398777E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.389736E+02    0.405492E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.402570E+02    0.420338E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.402526E+02    0.440132E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.394596E+02    0.457576E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.375838E+02    0.469677E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.355704E+02    0.472072E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.337069E+02    0.496418E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.311441E+02    0.476799E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.298609E+02    0.447932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.302457E+02    0.416476E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.322815E+02    0.388426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.356311E+02    0.371153E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.391415E+02    0.371865E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.421942E+02    0.389659E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.436271E+02    0.421590E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.430939E+02    0.456437E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.407473E+02    0.485158E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.371446E+02    0.499960E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.369467E+02    0.330972E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.350790E+02    0.332625E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.363979E+02    0.314109E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.385270E+02    0.318551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.384253E+02    0.340570E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.362241E+02    0.349452E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.344138E+02    0.362089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.333300E+02    0.347621E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.331864E+02    0.329056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.340679E+02    0.310439E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.357660E+02    0.296520E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.377840E+02    0.291884E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.395915E+02    0.298047E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.407345E+02    0.313044E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.408883E+02    0.332522E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.399525E+02    0.351438E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.381924E+02    0.364787E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.361686E+02    0.368603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.342673E+02    0.394623E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.314689E+02    0.377453E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.302634E+02    0.348121E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.307298E+02    0.315053E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.329619E+02    0.283740E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.362157E+02    0.265119E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.397559E+02    0.263914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.426820E+02    0.280755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.441231E+02    0.311744E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.437070E+02    0.346764E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.411369E+02    0.378764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.376509E+02    0.396249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.378560E+02    0.208637E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.358818E+02    0.212151E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.373396E+02    0.190916E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.395084E+02    0.194315E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.393825E+02    0.217666E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.370900E+02    0.228829E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.352146E+02    0.243174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.339840E+02    0.230214E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.338706E+02    0.210588E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.348806E+02    0.189280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.364647E+02    0.175551E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.386747E+02    0.167894E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.405181E+02    0.173161E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.417235E+02    0.187454E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.418456E+02    0.207923E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.407676E+02    0.229328E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.390377E+02    0.243761E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.370056E+02    0.248745E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.349874E+02    0.277205E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.321883E+02    0.261455E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.309672E+02    0.231682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.315083E+02    0.195858E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.336828E+02    0.163344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.370942E+02    0.141510E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.407665E+02    0.137706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.436806E+02    0.153620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.451420E+02    0.184020E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.446421E+02    0.220921E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.420592E+02    0.255576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.384996E+02    0.276128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676250.230028613     
  ps_ts2 prof sum =   675838.117717813     
  trcom prof sum =    675838.117717812     
  ps_ts2 cur sum  =   17213.6337542128     
  trcom cur sum  =    17213.6337542128     
  
  antenna # iant =            2
  powecha_use(iant) =    683494.927363951     
  ps_ts2 prof sum =   683099.993489300     
  trcom prof sum =    683099.993489299     
  ps_ts2 cur sum  =   20258.2711257242     
  trcom cur sum  =    20258.2711257242     
  
  antenna # iant =            3
  powecha_use(iant) =    524493.466328944     
  ps_ts2 prof sum =   524177.258117041     
  trcom prof sum =    524177.258117042     
  ps_ts2 cur sum  =   11693.7783236462     
  trcom cur sum  =    11693.7783236463     
  
  antenna # iant =            4
  powecha_use(iant) =    565257.723183405     
  ps_ts2 prof sum =   564938.057033606     
  trcom prof sum =    564938.057033605     
  ps_ts2 cur sum  =   15561.5655975120     
  trcom cur sum  =    15561.5655975119     
  
  antenna # iant =            5
  powecha_use(iant) =    544080.664057307     
  ps_ts2 prof sum =   543785.618141035     
  trcom prof sum =    543785.618141035     
  ps_ts2 cur sum  =   17238.7744377382     
  trcom cur sum  =    17238.7744377382     
  
  Total ECH heating:      2991839.04449879     
  Total Current Drive:    81966.0232388334     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1318
 TA= 1.64000E+00 CPU TIME= 1.60041E-01 SECONDS.  DT= 2.08967E-03
  
 TEC1=    1.63999999999999     
 TEC2=    1.64499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.36704749999944     
  %check_save_state: izleft hours =    76.6244444444444     
 --> plasma_hash("gframe"): TA= 1.640000E+00 NSTEP=  1318 Hash code:   52666644
 ->PRGCHK: bdy curvature ratio at t= 1.6450E+00 seconds is:  5.4673E-02
% MHDEQ: TG1=     1.640000 ; TG2=     1.645000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4673E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.640000 TO TG2=    1.645000 @ NSTEP     1318
   GFRAME TG2 MOMENTS CHECKSUM:  2.4857697071318D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6450E+00  1.6500E+00 total power(Watts):  3.0040E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.64500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.364599E+02    0.376008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.346012E+02    0.377307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.359382E+02    0.358859E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.380486E+02    0.363772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.380143E+02    0.385702E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.358063E+02    0.394340E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.339025E+02    0.407376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.328444E+02    0.392304E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.326416E+02    0.373728E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.336252E+02    0.354777E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.352385E+02    0.342284E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.372478E+02    0.338255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.391323E+02    0.343963E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.402514E+02    0.358901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.403755E+02    0.378668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.394158E+02    0.397996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.376499E+02    0.411084E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.357258E+02    0.413910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.338108E+02    0.438540E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.310476E+02    0.421225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.298031E+02    0.391930E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.303036E+02    0.358492E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.323828E+02    0.330058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.357168E+02    0.311821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.392389E+02    0.311389E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.421271E+02    0.328636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.437295E+02    0.358030E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.431510E+02    0.394519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.407537E+02    0.425039E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.372655E+02    0.440636E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.375860E+02    0.279414E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.356198E+02    0.282328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.371064E+02    0.261546E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.392565E+02    0.265533E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.390850E+02    0.289013E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.368812E+02    0.298767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.349860E+02    0.312775E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.338790E+02    0.298265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.336270E+02    0.279956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.346693E+02    0.259169E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.363553E+02    0.244973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.383784E+02    0.239965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.403010E+02    0.244751E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.413721E+02    0.260200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.415529E+02    0.279977E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.405395E+02    0.300476E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.387900E+02    0.314528E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.367597E+02    0.318868E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.347976E+02    0.345267E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.321235E+02    0.328246E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.307939E+02    0.299601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.313076E+02    0.264723E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.334327E+02    0.234013E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.368565E+02    0.213063E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.404161E+02    0.211146E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.433880E+02    0.227009E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.449907E+02    0.256275E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.442006E+02    0.295147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.417723E+02    0.327438E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.382930E+02    0.345408E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.15 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.362841E+02    0.436931E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.344330E+02    0.437531E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.357903E+02    0.419932E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.378841E+02    0.425603E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.378125E+02    0.446860E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.356097E+02    0.454116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.337849E+02    0.465520E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.327513E+02    0.450755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.326578E+02    0.432450E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.334945E+02    0.415078E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.351218E+02    0.402806E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.370390E+02    0.399809E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.389013E+02    0.406523E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.400851E+02    0.421719E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.401770E+02    0.441107E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.392900E+02    0.458763E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.376033E+02    0.470325E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.355891E+02    0.472697E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.337245E+02    0.496969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.310824E+02    0.477606E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.297248E+02    0.449162E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.301865E+02    0.417447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.323852E+02    0.388435E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.355650E+02    0.372197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.390719E+02    0.372932E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.420167E+02    0.391193E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.435486E+02    0.422618E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.430149E+02    0.457399E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.406708E+02    0.485989E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.372538E+02    0.500427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.368791E+02    0.332134E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.350147E+02    0.333773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.364231E+02    0.314603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.385533E+02    0.319063E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.384508E+02    0.341086E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.362481E+02    0.349956E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.343497E+02    0.363166E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.332676E+02    0.348727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.330389E+02    0.330899E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.339195E+02    0.312363E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.357015E+02    0.297738E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.377175E+02    0.293114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.395195E+02    0.299281E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.406621E+02    0.314269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.408152E+02    0.333698E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.398803E+02    0.352554E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.381222E+02    0.365869E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.361013E+02    0.369664E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.342023E+02    0.395650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.315711E+02    0.377399E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.302058E+02    0.349215E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.307521E+02    0.315512E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.328168E+02    0.285767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.360601E+02    0.267198E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.397846E+02    0.264343E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.427118E+02    0.281239E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.442588E+02    0.311624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.436305E+02    0.347912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.410621E+02    0.379842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.376742E+02    0.396827E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.377916E+02    0.209984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.358201E+02    0.213493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.372765E+02    0.192289E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.394423E+02    0.195682E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.393156E+02    0.219001E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.371186E+02    0.229219E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.351492E+02    0.244485E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.339239E+02    0.231520E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.338112E+02    0.211930E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.347315E+02    0.191672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.365848E+02    0.174867E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.386099E+02    0.169337E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.405502E+02    0.173538E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.416547E+02    0.188834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.417762E+02    0.209271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.407977E+02    0.229744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.389703E+02    0.245042E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.369404E+02    0.250017E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.350122E+02    0.277621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.322133E+02    0.261829E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.309918E+02    0.232032E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.314531E+02    0.197218E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.336254E+02    0.164771E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.370328E+02    0.142983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.407013E+02    0.139181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.437150E+02    0.154022E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.452832E+02    0.183460E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.444628E+02    0.223152E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.419872E+02    0.256849E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.385275E+02    0.276563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.60 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683841.983062243     
  ps_ts2 prof sum =   683428.298374711     
  trcom prof sum =    683428.298374711     
  ps_ts2 cur sum  =   17501.1889080676     
  trcom cur sum  =    17501.1889080676     
  
  antenna # iant =            2
  powecha_use(iant) =    682419.204872733     
  ps_ts2 prof sum =   682053.989377061     
  trcom prof sum =    682053.989377060     
  ps_ts2 cur sum  =   20310.0145969655     
  trcom cur sum  =    20310.0145969654     
  
  antenna # iant =            3
  powecha_use(iant) =    523957.352955585     
  ps_ts2 prof sum =   523628.591135930     
  trcom prof sum =    523628.591135930     
  ps_ts2 cur sum  =   11753.9462452287     
  trcom cur sum  =    11753.9462452287     
  
  antenna # iant =            4
  powecha_use(iant) =    569397.299615112     
  ps_ts2 prof sum =   569055.340293344     
  trcom prof sum =    569055.340293343     
  ps_ts2 cur sum  =   15749.5037795851     
  trcom cur sum  =    15749.5037795850     
  
  antenna # iant =            5
  powecha_use(iant) =    544424.032078007     
  ps_ts2 prof sum =   544124.257783137     
  trcom prof sum =    544124.257783137     
  ps_ts2 cur sum  =   17310.2109820181     
  trcom cur sum  =    17310.2109820181     
  
  Total ECH heating:      3002290.47696418     
  Total Current Drive:    82624.8645118649     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1321
 TA= 1.64500E+00 CPU TIME= 1.60797E-01 SECONDS.  DT= 3.72799E-04
  
 TEC1=    1.64499999999999     
 TEC2=    1.64999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.37873638888891     
  %check_save_state: izleft hours =    76.6127777777778     
 --> plasma_hash("gframe"): TA= 1.645000E+00 NSTEP=  1321 Hash code:   59523230
 ->PRGCHK: bdy curvature ratio at t= 1.6500E+00 seconds is:  5.4712E-02
% MHDEQ: TG1=     1.645000 ; TG2=     1.650000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7754E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4712E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.645000 TO TG2=    1.650000 @ NSTEP     1321
   GFRAME TG2 MOMENTS CHECKSUM:  2.4867031139953D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.91770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.29555E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.28317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.95757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.85951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.48025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.02094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.72808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.25021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.73008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.25165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  2.02041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.73185E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.76554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -3.90958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.87708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.82248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.66764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.10549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.10549E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.6500E+00  1.6550E+00 total power(Watts):  3.0194E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.65000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.363918E+02    0.377062E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.345362E+02    0.378350E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.359620E+02    0.359360E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.380735E+02    0.364292E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.379396E+02    0.386767E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.357388E+02    0.395369E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.339235E+02    0.407935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.326972E+02    0.393824E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.325805E+02    0.374763E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.335626E+02    0.355856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.352625E+02    0.342765E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.371797E+02    0.339393E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.390616E+02    0.345094E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.401783E+02    0.360004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.403018E+02    0.379732E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.393428E+02    0.399038E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.376725E+02    0.411682E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.356580E+02    0.414909E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.337455E+02    0.439477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.311468E+02    0.421366E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.298223E+02    0.392427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.303246E+02    0.358950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.324907E+02    0.329834E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.357434E+02    0.312297E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.392662E+02    0.311895E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.421553E+02    0.329180E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.435470E+02    0.359700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.430737E+02    0.395585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.405780E+02    0.426404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.371942E+02    0.441591E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.375199E+02    0.280645E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.354652E+02    0.284348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.370409E+02    0.262795E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.391880E+02    0.266782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.390165E+02    0.290245E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.368146E+02    0.299983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.349234E+02    0.313964E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.337300E+02    0.300242E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.337383E+02    0.279550E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.345154E+02    0.261310E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.362917E+02    0.246257E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.383120E+02    0.241259E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.402319E+02    0.246036E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.414023E+02    0.260635E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.414811E+02    0.281214E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.404677E+02    0.301707E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.387201E+02    0.315730E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.366923E+02    0.320060E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.346443E+02    0.347006E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.319814E+02    0.330084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138665E+03   -0.307367E+02    0.300805E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.312506E+02    0.265958E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138342E+03   -0.333729E+02    0.235310E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.367932E+02    0.214406E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.404470E+02    0.211553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.434172E+02    0.227469E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.448082E+02    0.258355E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.443377E+02    0.294948E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.416981E+02    0.328626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.382233E+02    0.346534E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.363049E+02    0.437542E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.343664E+02    0.438469E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.357220E+02    0.420913E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.379060E+02    0.426212E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.377443E+02    0.447782E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.356294E+02    0.454741E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.338033E+02    0.466133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.326870E+02    0.451660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.325945E+02    0.433398E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.334302E+02    0.416059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.350551E+02    0.403821E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.370618E+02    0.400386E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.388287E+02    0.407549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.400104E+02    0.422731E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.402968E+02    0.441464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.392154E+02    0.459688E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.375309E+02    0.471199E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.355199E+02    0.473553E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.336577E+02    0.497688E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.310203E+02    0.478399E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.298193E+02    0.449415E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.302839E+02    0.417558E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.323235E+02    0.389458E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.354985E+02    0.373253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.390000E+02    0.373999E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.419403E+02    0.392256E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.435735E+02    0.423299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.429338E+02    0.458366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.405940E+02    0.486824E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.370899E+02    0.501279E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.369030E+02    0.332646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.349490E+02    0.334924E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.363571E+02    0.315797E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.384839E+02    0.320250E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.383809E+02    0.342223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.361812E+02    0.351060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.341977E+02    0.364808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.331198E+02    0.350454E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.331480E+02    0.330685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.340310E+02    0.312105E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.356367E+02    0.298959E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.376496E+02    0.294339E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.395456E+02    0.299783E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.406899E+02    0.314785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.407419E+02    0.334865E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.398082E+02    0.353661E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.381470E+02    0.366391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.361251E+02    0.370179E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.341371E+02    0.396672E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.314292E+02    0.378979E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138475E+03   -0.302285E+02    0.349658E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.306941E+02    0.316683E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.329263E+02    0.285373E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.361782E+02    0.266768E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.397155E+02    0.265595E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.426371E+02    0.282487E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.441825E+02    0.312854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.434486E+02    0.349634E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.409875E+02    0.380909E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.376038E+02    0.397862E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.377293E+02    0.211311E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.356678E+02    0.215797E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.372135E+02    0.193663E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.393760E+02    0.197052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.392484E+02    0.220331E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.370545E+02    0.230533E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.349980E+02    0.246658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.340371E+02    0.230961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.338379E+02    0.212292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.348473E+02    0.191008E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.365234E+02    0.176270E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.386410E+02    0.169711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.404833E+02    0.174952E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.415856E+02    0.190211E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.417063E+02    0.210630E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.407283E+02    0.231062E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.389993E+02    0.245454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.369687E+02    0.250420E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.349499E+02    0.278842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.321546E+02    0.263078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138667E+03   -0.309361E+02    0.233335E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.314789E+02    0.197556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.335678E+02    0.166203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.370632E+02    0.143341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.406356E+02    0.140657E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.436452E+02    0.155475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.451031E+02    0.185825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.443888E+02    0.224487E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.419150E+02    0.258120E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.384596E+02    0.277799E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.07 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688761.070585669     
  ps_ts2 prof sum =   688360.974301194     
  trcom prof sum =    688360.974301194     
  ps_ts2 cur sum  =   17722.5226642392     
  trcom cur sum  =    17722.5226642391     
  
  antenna # iant =            2
  powecha_use(iant) =    686247.134400198     
  ps_ts2 prof sum =   685803.903530650     
  trcom prof sum =    685803.903530649     
  ps_ts2 cur sum  =   20506.4934779610     
  trcom cur sum  =    20506.4934779610     
  
  antenna # iant =            3
  powecha_use(iant) =    524357.536426691     
  ps_ts2 prof sum =   524051.853634887     
  trcom prof sum =    524051.853634888     
  ps_ts2 cur sum  =   11835.6130444734     
  trcom cur sum  =    11835.6130444734     
  
  antenna # iant =            4
  powecha_use(iant) =    575477.333368100     
  ps_ts2 prof sum =   575139.440705136     
  trcom prof sum =    575139.440705136     
  ps_ts2 cur sum  =   15993.2017902980     
  trcom cur sum  =    15993.2017902980     
  
  antenna # iant =            5
  powecha_use(iant) =    544538.041063158     
  ps_ts2 prof sum =   544222.135578159     
  trcom prof sum =    544222.135578159     
  ps_ts2 cur sum  =   17371.1302964097     
  trcom cur sum  =    17371.1302964097     
  
  Total ECH heating:      3017578.30775003     
  Total Current Drive:    83428.9612733811     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1328
 TA= 1.65000E+00 CPU TIME= 1.46914E-01 SECONDS.  DT= 1.00342E-03
  
 TEC1=    1.64999999999999     
 TEC2=    1.65499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.39238472222200     
  %check_save_state: izleft hours =    76.5991666666667     
 --> plasma_hash("gframe"): TA= 1.650000E+00 NSTEP=  1328 Hash code:   85194204
 ->PRGCHK: bdy curvature ratio at t= 1.6550E+00 seconds is:  5.4688E-02
% MHDEQ: TG1=     1.650000 ; TG2=     1.655000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7782E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4688E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.650000 TO TG2=    1.655000 @ NSTEP     1328
   GFRAME TG2 MOMENTS CHECKSUM:  2.4876365208589D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6550E+00  1.6600E+00 total power(Watts):  3.0079E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.65500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.364160E+02    0.377612E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.345592E+02    0.378882E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.358958E+02    0.360467E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.380038E+02    0.365399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.378694E+02    0.387836E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.357616E+02    0.395949E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.338589E+02    0.408961E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.328032E+02    0.393877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.326874E+02    0.374724E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.335861E+02    0.356361E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.351978E+02    0.343916E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.372058E+02    0.339923E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.389909E+02    0.346253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.401055E+02    0.361127E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.402280E+02    0.380826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.392695E+02    0.400105E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.376018E+02    0.412712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.355939E+02    0.415913E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.337654E+02    0.440090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.310859E+02    0.422344E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138671E+03   -0.297645E+02    0.393458E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138663E+03   -0.302664E+02    0.360036E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.323464E+02    0.331692E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.356790E+02    0.313517E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.391958E+02    0.313127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.420811E+02    0.330392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.436811E+02    0.359749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.428927E+02    0.397110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.405044E+02    0.427425E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.371231E+02    0.442558E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.374531E+02    0.281898E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.355827E+02    0.283997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.369763E+02    0.264076E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.391202E+02    0.268052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.390452E+02    0.290735E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.367490E+02    0.301228E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.348600E+02    0.315180E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.336683E+02    0.301470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.335910E+02    0.281604E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.346311E+02    0.260865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.363224E+02    0.246649E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.383424E+02    0.241682E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.401635E+02    0.247345E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.413312E+02    0.261926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.414100E+02    0.282475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.404954E+02    0.302243E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.387435E+02    0.316299E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.366262E+02    0.321268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.347576E+02    0.346882E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.319213E+02    0.331252E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.307601E+02    0.301249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138666E+03   -0.312756E+02    0.266350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.334009E+02    0.235693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.368232E+02    0.214805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.403803E+02    0.212922E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.433458E+02    0.228822E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.447336E+02    0.259660E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.442626E+02    0.296223E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.416244E+02    0.329842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.382496E+02    0.347075E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.362350E+02    0.438519E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.343869E+02    0.439089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.357436E+02    0.421527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.378346E+02    0.427217E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.377617E+02    0.448466E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.355604E+02    0.455668E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.337369E+02    0.467007E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.327056E+02    0.452278E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.325313E+02    0.434355E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.333657E+02    0.417066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.349884E+02    0.404859E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.369923E+02    0.401437E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.388525E+02    0.408179E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.399356E+02    0.423763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.401237E+02    0.442754E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.391406E+02    0.460626E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.374583E+02    0.472087E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.354505E+02    0.474404E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.335908E+02    0.498413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.308783E+02    0.479435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.296830E+02    0.450643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.301460E+02    0.418971E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.321780E+02    0.391008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.355224E+02    0.373791E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.390255E+02    0.374569E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.420685E+02    0.392436E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.434949E+02    0.424357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.429588E+02    0.459100E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.404198E+02    0.487817E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.370181E+02    0.502010E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.368368E+02    0.333821E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.349739E+02    0.335441E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.363843E+02    0.316311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.384138E+02    0.321476E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.383113E+02    0.343386E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.362066E+02    0.351581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.343096E+02    0.364740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.332291E+02    0.350322E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.330877E+02    0.331856E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.339689E+02    0.313319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.356635E+02    0.299440E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.376775E+02    0.294827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.394779E+02    0.301020E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.406184E+02    0.316017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.407699E+02    0.335430E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.398349E+02    0.354218E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.380776E+02    0.367492E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.360581E+02    0.371265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.341593E+02    0.397233E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.313692E+02    0.380036E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138725E+03   -0.301705E+02    0.350777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.306371E+02    0.317886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.327820E+02    0.287407E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.361148E+02    0.268036E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.396471E+02    0.266868E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.425638E+02    0.283759E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.439998E+02    0.314787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.435830E+02    0.349653E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.410133E+02    0.381514E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.375343E+02    0.398919E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.377578E+02    0.211736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.357873E+02    0.215229E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.372442E+02    0.194048E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.394084E+02    0.197458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.392799E+02    0.220759E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.369917E+02    0.231850E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.351154E+02    0.246168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138330E+03   -0.338912E+02    0.233218E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.337794E+02    0.213655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.347020E+02    0.193412E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.363717E+02    0.178732E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.385781E+02    0.171154E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.404179E+02    0.176378E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.416183E+02    0.190623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.417393E+02    0.211063E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.407605E+02    0.231497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.389331E+02    0.246760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.369049E+02    0.251712E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.347983E+02    0.280898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138681E+03   -0.320971E+02    0.264332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.309619E+02    0.233711E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138793E+03   -0.314247E+02    0.198931E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138416E+03   -0.335971E+02    0.166569E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.370039E+02    0.144835E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.406697E+02    0.141061E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.435766E+02    0.156946E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.450312E+02    0.187228E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.445292E+02    0.224065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.419469E+02    0.258583E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.383923E+02    0.279060E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680708.606948071     
  ps_ts2 prof sum =   680323.501216831     
  trcom prof sum =    680323.501216831     
  ps_ts2 cur sum  =   17610.6849067516     
  trcom cur sum  =    17610.6849067516     
  
  antenna # iant =            2
  powecha_use(iant) =    687521.669754311     
  ps_ts2 prof sum =   687125.583297310     
  trcom prof sum =    687125.583297309     
  ps_ts2 cur sum  =   20632.9782945263     
  trcom cur sum  =    20632.9782945262     
  
  antenna # iant =            3
  powecha_use(iant) =    524685.264649224     
  ps_ts2 prof sum =   524344.676610361     
  trcom prof sum =    524344.676610362     
  ps_ts2 cur sum  =   11916.8373405392     
  trcom cur sum  =    11916.8373405392     
  
  antenna # iant =            4
  powecha_use(iant) =    570328.645590193     
  ps_ts2 prof sum =   570013.406429673     
  trcom prof sum =    570013.406429672     
  ps_ts2 cur sum  =   15927.8096358157     
  trcom cur sum  =    15927.8096358157     
  
  antenna # iant =            5
  powecha_use(iant) =    544686.290259510     
  ps_ts2 prof sum =   544379.140776909     
  trcom prof sum =    544379.140776909     
  ps_ts2 cur sum  =   17441.8630314478     
  trcom cur sum  =    17441.8630314478     
  
  Total ECH heating:      3006186.30833108     
  Total Current Drive:    83530.1732090805     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1332
 TA= 1.65500E+00 CPU TIME= 1.59023E-01 SECONDS.  DT= 1.46809E-03
  
 TEC1=    1.65499999999999     
 TEC2=    1.65999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.40585222222194     
  %check_save_state: izleft hours =    76.5858333333333     
 --> plasma_hash("gframe"): TA= 1.655000E+00 NSTEP=  1332 Hash code:   78493206
 ->PRGCHK: bdy curvature ratio at t= 1.6600E+00 seconds is:  5.4706E-02
% MHDEQ: TG1=     1.655000 ; TG2=     1.660000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0610E-03 SECONDS
   DATA R*BT AT EDGE:  2.7781E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4706E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.655000 TO TG2=    1.660000 @ NSTEP     1332
   GFRAME TG2 MOMENTS CHECKSUM:  2.4881766283407D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.13699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.32778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.97043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.74925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88729E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.57309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -8.24573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  3.23993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.42902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.89755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.47608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -5.58026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.71260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.19691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.49243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.73474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.80403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.69787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.18377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.18377E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6600E+00  1.6650E+00 total power(Watts):  3.0006E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.66000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.364399E+02    0.378010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.344943E+02    0.379799E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.359203E+02    0.360849E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.380295E+02    0.365802E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.378938E+02    0.388244E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.356942E+02    0.396797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.338802E+02    0.409317E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.328246E+02    0.394238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.327098E+02    0.375085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.334363E+02    0.357922E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.352221E+02    0.344262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.372326E+02    0.340264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.390186E+02    0.346624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.401333E+02    0.361531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.402542E+02    0.381254E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.392943E+02    0.400510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.376247E+02    0.413101E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.356121E+02    0.416289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.336994E+02    0.440751E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.311050E+02    0.422669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.297843E+02    0.393789E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138628E+03   -0.302880E+02    0.360372E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.323710E+02    0.331969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.357064E+02    0.313788E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.392251E+02    0.313428E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.421116E+02    0.330752E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.437098E+02    0.360208E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.429191E+02    0.397564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.405235E+02    0.427840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.371441E+02    0.442907E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.374838E+02    0.282169E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.356111E+02    0.284261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.370066E+02    0.264325E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.391520E+02    0.268328E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.390759E+02    0.291019E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.367777E+02    0.301499E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.348866E+02    0.315444E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.336952E+02    0.301716E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.336220E+02    0.281823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.344831E+02    0.262812E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.363513E+02    0.246894E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.383748E+02    0.241909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.401969E+02    0.247596E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.413655E+02    0.262202E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.414429E+02    0.282776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.405271E+02    0.302535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.386789E+02    0.317261E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.366548E+02    0.321553E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.347823E+02    0.347232E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.319456E+02    0.331523E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.307854E+02    0.301482E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138634E+03   -0.313021E+02    0.266564E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.334293E+02    0.235882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.366705E+02    0.216883E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.404155E+02    0.213103E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.433822E+02    0.229063E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.447697E+02    0.259963E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.442965E+02    0.296549E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.416548E+02    0.330191E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.382766E+02    0.347445E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.57 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.362568E+02    0.438861E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.344069E+02    0.439420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.357651E+02    0.421892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.378571E+02    0.427589E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.377848E+02    0.448799E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.355802E+02    0.455991E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.337551E+02    0.467324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.327243E+02    0.452589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.325504E+02    0.434678E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.333863E+02    0.417412E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.350105E+02    0.405226E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.370139E+02    0.401830E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.388763E+02    0.408580E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.399594E+02    0.424155E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.401463E+02    0.443128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.391617E+02    0.460977E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.374782E+02    0.472438E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.354691E+02    0.474741E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.336069E+02    0.498801E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.309742E+02    0.479534E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.297774E+02    0.450603E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.301650E+02    0.419289E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.321995E+02    0.391360E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.355464E+02    0.374180E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.390514E+02    0.374986E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.418903E+02    0.393785E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.435197E+02    0.424798E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.429772E+02    0.459503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.404394E+02    0.488226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.370327E+02    0.502420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.368620E+02    0.334158E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.348205E+02    0.337064E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.363198E+02    0.317291E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.384428E+02    0.321776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.383387E+02    0.343744E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.361402E+02    0.352547E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.343321E+02    0.365123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.332529E+02    0.350667E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.331125E+02    0.332143E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.339956E+02    0.313577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.356912E+02    0.299701E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.377071E+02    0.295103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.395093E+02    0.301305E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.406489E+02    0.316325E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.407992E+02    0.335785E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.397633E+02    0.355204E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.381032E+02    0.367900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.360825E+02    0.371656E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.341811E+02    0.397606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.313907E+02    0.380387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.301927E+02    0.351089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138756E+03   -0.306611E+02    0.318121E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.328087E+02    0.287656E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.361443E+02    0.268286E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.396793E+02    0.267144E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.425980E+02    0.284062E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.440324E+02    0.315126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.434019E+02    0.351230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.410399E+02    0.381950E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.375572E+02    0.399313E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.21 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.377924E+02    0.211890E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.358186E+02    0.215384E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.372777E+02    0.194173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.394433E+02    0.197600E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.393140E+02    0.220953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.370233E+02    0.232060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.351452E+02    0.246384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.339206E+02    0.233397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.338098E+02    0.213790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.347341E+02    0.193509E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.364051E+02    0.178790E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.386136E+02    0.171213E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.404546E+02    0.176462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.416565E+02    0.190767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.417758E+02    0.211250E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.406945E+02    0.232618E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.389653E+02    0.247001E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.369354E+02    0.251948E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.348268E+02    0.281149E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138649E+03   -0.321246E+02    0.264548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138878E+03   -0.309086E+02    0.234818E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.314535E+02    0.199027E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.336288E+02    0.166585E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.370391E+02    0.144826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.407079E+02    0.141074E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.436165E+02    0.157000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.450712E+02    0.187391E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.445685E+02    0.224290E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.418782E+02    0.259693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.384232E+02    0.279338E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681999.672983558     
  ps_ts2 prof sum =   681600.859390602     
  trcom prof sum =    681600.859390602     
  ps_ts2 cur sum  =   17597.2775026371     
  trcom cur sum  =    17597.2775026371     
  
  antenna # iant =            2
  powecha_use(iant) =    683619.164272425     
  ps_ts2 prof sum =   683202.747060469     
  trcom prof sum =    683202.747060468     
  ps_ts2 cur sum  =   20455.8482447375     
  trcom cur sum  =    20455.8482447375     
  
  antenna # iant =            3
  powecha_use(iant) =    524936.547523024     
  ps_ts2 prof sum =   524615.128318190     
  trcom prof sum =    524615.128318191     
  ps_ts2 cur sum  =   11892.3638110426     
  trcom cur sum  =    11892.3638110426     
  
  antenna # iant =            4
  powecha_use(iant) =    565719.692748479     
  ps_ts2 prof sum =   565384.218776287     
  trcom prof sum =    565384.218776286     
  ps_ts2 cur sum  =   15755.2690587145     
  trcom cur sum  =    15755.2690587145     
  
  antenna # iant =            5
  powecha_use(iant) =    544363.500085314     
  ps_ts2 prof sum =   544050.367223230     
  trcom prof sum =    544050.367223230     
  ps_ts2 cur sum  =   17379.4324226153     
  trcom cur sum  =    17379.4324226153     
  
  Total ECH heating:      2998853.32076878     
  Total Current Drive:    83080.1910397471     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1335
 TA= 1.66000E+00 CPU TIME= 1.60227E-01 SECONDS.  DT= 2.12100E-03
  
 TEC1=    1.65999999999999     
 TEC2=    1.66499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.42566138888878     
  %check_save_state: izleft hours =    76.5658333333333     
 --> plasma_hash("gframe"): TA= 1.660000E+00 NSTEP=  1335 Hash code:  108686572
 ->PRGCHK: bdy curvature ratio at t= 1.6650E+00 seconds is:  5.4723E-02
% MHDEQ: TG1=     1.660000 ; TG2=     1.665000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7781E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4723E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.660000 TO TG2=    1.665000 @ NSTEP     1335
   GFRAME TG2 MOMENTS CHECKSUM:  2.4887167358226D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.6650E+00  1.6700E+00 total power(Watts):  3.0205E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.66500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.364623E+02    0.378414E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.345155E+02    0.380181E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.359434E+02    0.361231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.380535E+02    0.366211E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.379170E+02    0.388647E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.357157E+02    0.397179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.338996E+02    0.409672E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.328441E+02    0.394596E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.327299E+02    0.375456E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.334582E+02    0.358277E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.352454E+02    0.344604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.372564E+02    0.340619E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.390440E+02    0.347004E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.401582E+02    0.361956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.402783E+02    0.381688E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.393170E+02    0.400908E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.376458E+02    0.413488E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.356319E+02    0.416656E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.337175E+02    0.441068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.311227E+02    0.422996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.298026E+02    0.394124E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.303074E+02    0.360706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.323935E+02    0.332255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.357320E+02    0.314066E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.392534E+02    0.313725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.421398E+02    0.331117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.437365E+02    0.360670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.429434E+02    0.398016E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.405493E+02    0.428219E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.371637E+02    0.443248E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.375116E+02    0.282454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.356377E+02    0.284537E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.370350E+02    0.264581E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.391813E+02    0.268606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.391048E+02    0.291311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.368048E+02    0.301774E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.349121E+02    0.315725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.337207E+02    0.301970E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.336451E+02    0.282108E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.345115E+02    0.263028E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.363797E+02    0.247114E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.384050E+02    0.242135E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.402282E+02    0.247845E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.413965E+02    0.262489E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.414735E+02    0.283085E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.405566E+02    0.302838E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.387069E+02    0.317556E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.366805E+02    0.321846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.348051E+02    0.347578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.319682E+02    0.331808E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.308082E+02    0.301717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138601E+03   -0.313265E+02    0.266789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.334571E+02    0.236064E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.368854E+02    0.215136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.404482E+02    0.213286E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.434177E+02    0.229291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.448036E+02    0.260270E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.443278E+02    0.296886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.416828E+02    0.330544E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.383015E+02    0.347822E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.362759E+02    0.439203E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.344253E+02    0.439744E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.357848E+02    0.422255E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.378775E+02    0.427963E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.378021E+02    0.449142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.355979E+02    0.456308E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.337719E+02    0.467631E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.327413E+02    0.452878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.325709E+02    0.434985E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.334053E+02    0.417759E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.350309E+02    0.405594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.370370E+02    0.402212E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.388981E+02    0.408981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.399812E+02    0.424549E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.401669E+02    0.443498E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.391809E+02    0.461319E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.374961E+02    0.472772E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.354859E+02    0.475073E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.336222E+02    0.499164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.309891E+02    0.479846E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.297934E+02    0.450885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138112E+03   -0.302612E+02    0.419185E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.322195E+02    0.391712E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.355683E+02    0.374573E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.390752E+02    0.375410E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.419145E+02    0.394230E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.435424E+02    0.425230E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.430020E+02    0.459870E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.404576E+02    0.488615E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.370507E+02    0.502839E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.368889E+02    0.334471E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.350245E+02    0.336069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.363456E+02    0.317579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.384695E+02    0.322086E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.383639E+02    0.344105E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.361631E+02    0.352923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.343544E+02    0.365495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.332735E+02    0.351018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.331354E+02    0.332443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.340202E+02    0.313848E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.357177E+02    0.299968E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.377353E+02    0.295382E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.395378E+02    0.301600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.406761E+02    0.316654E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.408264E+02    0.336157E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.398876E+02    0.355033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.381269E+02    0.368312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.361047E+02    0.372054E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.342011E+02    0.397971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.314101E+02    0.380740E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.302129E+02    0.351410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138731E+03   -0.306812E+02    0.318392E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.328367E+02    0.287884E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.361722E+02    0.268543E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.397091E+02    0.267425E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.426292E+02    0.284382E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.440628E+02    0.315466E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.436399E+02    0.350522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.410642E+02    0.382392E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.375790E+02    0.399709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.378217E+02    0.212069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.358482E+02    0.215545E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.373093E+02    0.194297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.394761E+02    0.197748E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.393457E+02    0.221144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.370528E+02    0.232261E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.351729E+02    0.246602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.339487E+02    0.233573E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.338385E+02    0.213928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.347641E+02    0.193614E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.364371E+02    0.178866E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.386471E+02    0.171283E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.404892E+02    0.176555E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.416915E+02    0.190911E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.418096E+02    0.211440E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.408276E+02    0.231949E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.389958E+02    0.247238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.369646E+02    0.252184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.348533E+02    0.281416E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.321497E+02    0.264771E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138847E+03   -0.309343E+02    0.234983E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138738E+03   -0.314807E+02    0.199122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.336586E+02    0.166614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.370722E+02    0.144830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.407439E+02    0.141087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.436543E+02    0.157061E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.451086E+02    0.187551E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.446032E+02    0.224539E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.420131E+02    0.259150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.384515E+02    0.279625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688420.442954752     
  ps_ts2 prof sum =   688016.070528422     
  trcom prof sum =    688016.070528421     
  ps_ts2 cur sum  =   17696.9331026488     
  trcom cur sum  =    17696.9331026488     
  
  antenna # iant =            2
  powecha_use(iant) =    688647.322531242     
  ps_ts2 prof sum =   688237.968572656     
  trcom prof sum =    688237.968572655     
  ps_ts2 cur sum  =   20532.6000026010     
  trcom cur sum  =    20532.6000026010     
  
  antenna # iant =            3
  powecha_use(iant) =    524008.511621826     
  ps_ts2 prof sum =   523693.871735059     
  trcom prof sum =    523693.871735060     
  ps_ts2 cur sum  =   11825.2000066415     
  trcom cur sum  =    11825.2000066415     
  
  antenna # iant =            4
  powecha_use(iant) =    576379.440034716     
  ps_ts2 prof sum =   576064.564286463     
  trcom prof sum =    576064.564286463     
  ps_ts2 cur sum  =   15993.9493210377     
  trcom cur sum  =    15993.9493210376     
  
  antenna # iant =            5
  powecha_use(iant) =    543010.391027931     
  ps_ts2 prof sum =   542698.589056139     
  trcom prof sum =    542698.589056139     
  ps_ts2 cur sum  =   17273.1131950766     
  trcom cur sum  =    17273.1131950766     
  
  Total ECH heating:      3018711.06417874     
  Total Current Drive:    83321.7956280056     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1338
 TA= 1.66500E+00 CPU TIME= 1.67612E-01 SECONDS.  DT= 2.84679E-04
  
 TEC1=    1.66499999999999     
 TEC2=    1.66999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.43986972222183     
  %check_save_state: izleft hours =    76.5516666666667     
 --> plasma_hash("gframe"): TA= 1.665000E+00 NSTEP=  1338 Hash code:   41153693
 ->PRGCHK: bdy curvature ratio at t= 1.6700E+00 seconds is:  5.4741E-02
% MHDEQ: TG1=     1.665000 ; TG2=     1.670000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7780E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4741E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.665000 TO TG2=    1.670000 @ NSTEP     1338
   GFRAME TG2 MOMENTS CHECKSUM:  2.4892568433044D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.06951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.42334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.14144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.06397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73781E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.64782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.93139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  6.11377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.00671E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.89903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.64679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.20370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.72036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.21643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.48860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.93051E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.71444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.65012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -5.59672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -5.59672E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   7.999999070307240E-006
 EC call, timestep(sec):  1.6700E+00  1.6750E+00 total power(Watts):  2.5678E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.67000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.363949E+02    0.379328E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.345389E+02    0.380560E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.359681E+02    0.361620E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.380795E+02    0.366620E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.379411E+02    0.389059E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.357386E+02    0.397558E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.339213E+02    0.410029E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.328659E+02    0.394956E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.327514E+02    0.375835E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.334818E+02    0.358634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.352710E+02    0.344952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.372835E+02    0.340974E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.390717E+02    0.347389E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.401810E+02    0.362411E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.403047E+02    0.382123E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.393419E+02    0.401330E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.376690E+02    0.413880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.356541E+02    0.417024E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.337375E+02    0.441386E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.311423E+02    0.423332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.298228E+02    0.394456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.303300E+02    0.361043E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.325019E+02    0.331879E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.357593E+02    0.314360E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.392834E+02    0.314042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.421705E+02    0.331490E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.435554E+02    0.362198E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.429676E+02    0.398479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.405732E+02    0.428627E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.371855E+02    0.443603E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.375418E+02    0.282747E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.356664E+02    0.284818E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.370655E+02    0.264854E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.392137E+02    0.268899E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.390379E+02    0.292368E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.368334E+02    0.302056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.349387E+02    0.316006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.337470E+02    0.302232E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.337588E+02    0.281567E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.345398E+02    0.263291E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.362277E+02    0.249116E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.384378E+02    0.242382E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.402621E+02    0.248113E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.414309E+02    0.262792E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.415064E+02    0.283409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.404876E+02    0.303868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.387365E+02    0.317877E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.367084E+02    0.322153E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.348294E+02    0.347936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.319926E+02    0.332099E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.308329E+02    0.301965E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.313529E+02    0.267030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.335720E+02    0.235344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.368263E+02    0.216268E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.404837E+02    0.213486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.434536E+02    0.229554E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.448402E+02    0.260592E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.443605E+02    0.297243E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.417136E+02    0.330909E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.382332E+02    0.348803E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.362972E+02    0.439559E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.343589E+02    0.440412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.357167E+02    0.423005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.379000E+02    0.428347E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.377302E+02    0.449783E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.356178E+02    0.456637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.337901E+02    0.467957E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.326770E+02    0.453485E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.325879E+02    0.435328E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.334262E+02    0.418111E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.350533E+02    0.405962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.370606E+02    0.402602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.388260E+02    0.409796E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.400071E+02    0.424949E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.402875E+02    0.443588E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.392024E+02    0.461675E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.375160E+02    0.473128E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.355046E+02    0.475421E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.336385E+02    0.499561E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.310057E+02    0.480171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.298109E+02    0.451176E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.302803E+02    0.419513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.322407E+02    0.392066E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.355019E+02    0.375497E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.390042E+02    0.376346E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.419411E+02    0.394670E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.435676E+02    0.425676E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.429231E+02    0.460496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.405753E+02    0.488881E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.370687E+02    0.503256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.369167E+02    0.334805E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.349613E+02    0.337045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.363734E+02    0.317873E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.384993E+02    0.322404E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.383920E+02    0.344475E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.361885E+02    0.353298E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.343778E+02    0.365876E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.331268E+02    0.352592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.331603E+02    0.332750E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.340465E+02    0.314127E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.355640E+02    0.301740E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.377645E+02    0.295678E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.395684E+02    0.301906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.407068E+02    0.316988E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.408558E+02    0.336533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.398164E+02    0.356013E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.381527E+02    0.368721E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.361295E+02    0.372441E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.342233E+02    0.398341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.314321E+02    0.381085E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.302351E+02    0.351730E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.307082E+02    0.318626E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.329449E+02    0.287372E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.362017E+02    0.268816E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.397419E+02    0.267719E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.426628E+02    0.284709E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.440917E+02    0.315853E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.434593E+02    0.352095E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.409904E+02    0.383316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.376031E+02    0.400104E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.377611E+02    0.213202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.358803E+02    0.215721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.373432E+02    0.194440E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.395117E+02    0.197902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.393799E+02    0.221354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.370856E+02    0.232478E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.350257E+02    0.248599E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.339786E+02    0.233770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.338690E+02    0.214083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.348841E+02    0.192720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.364713E+02    0.178953E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.386839E+02    0.171353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.405263E+02    0.176663E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.417290E+02    0.191065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.418461E+02    0.211644E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.407623E+02    0.233086E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.390287E+02    0.247500E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.369959E+02    0.252442E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.349712E+02    0.280878E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.321769E+02    0.265012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138817E+03   -0.309624E+02    0.235158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138711E+03   -0.315098E+02    0.199235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.336907E+02    0.166653E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.371078E+02    0.144838E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.407828E+02    0.141100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.436950E+02    0.157132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.451477E+02    0.187732E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.446407E+02    0.224804E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.419452E+02    0.260269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.384832E+02    0.279920E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685958.660337730     
  ps_ts2 prof sum =   685574.889848945     
  trcom prof sum =    685574.889848945     
  ps_ts2 cur sum  =   17586.3261459428     
  trcom cur sum  =    17586.3261459428     
  
  antenna # iant =            2
  powecha_use(iant) =    690796.500493528     
  ps_ts2 prof sum =   690397.435311152     
  trcom prof sum =    690397.435311151     
  ps_ts2 cur sum  =   20540.0889671113     
  trcom cur sum  =    20540.0889671112     
  
  antenna # iant =            3
  powecha_use(iant) =    525499.604086026     
  ps_ts2 prof sum =   525180.655832247     
  trcom prof sum =    525180.655832247     
  ps_ts2 cur sum  =   11829.8953492901     
  trcom cur sum  =    11829.8953492901     
  
  antenna # iant =            4
  powecha_use(iant) =    120076.484576875     
  ps_ts2 prof sum =   120006.368038292     
  trcom prof sum =    120006.368038292     
  ps_ts2 cur sum  =   3323.05991923228     
  trcom cur sum  =    3323.05991923228     
  
  antenna # iant =            5
  powecha_use(iant) =    545468.479167855     
  ps_ts2 prof sum =   545166.822056214     
  trcom prof sum =    545166.822056214     
  ps_ts2 cur sum  =   17301.4983462843     
  trcom cur sum  =    17301.4983462843     
  
  Total ECH heating:      2566326.17108685     
  Total Current Drive:    70580.8687278607     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1346
 TA= 1.67000E+00 CPU TIME= 1.47639E-01 SECONDS.  DT= 8.86116E-04
  
 TEC1=    1.66999999999999     
 TEC2=    1.67499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.45082083333318     
  %check_save_state: izleft hours =    76.5408333333333     
 --> plasma_hash("gframe"): TA= 1.670000E+00 NSTEP=  1346 Hash code:   18025924
 ->PRGCHK: bdy curvature ratio at t= 1.6750E+00 seconds is:  5.4748E-02
% MHDEQ: TG1=     1.670000 ; TG2=     1.675000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7780E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4748E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.670000 TO TG2=    1.675000 @ NSTEP     1346
   GFRAME TG2 MOMENTS CHECKSUM:  2.4897969507863D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6750E+00  1.6800E+00 total power(Watts):  2.4413E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.67500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.364203E+02    0.379771E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.345629E+02    0.380986E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.359941E+02    0.362048E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.381063E+02    0.367073E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.379666E+02    0.389518E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.357623E+02    0.397992E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.339430E+02    0.410446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.327202E+02    0.396323E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.326055E+02    0.377329E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.335900E+02    0.358466E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.352983E+02    0.345348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.372189E+02    0.341999E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.390994E+02    0.347832E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.402143E+02    0.362852E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.403320E+02    0.382610E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.393675E+02    0.401798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.376926E+02    0.414318E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.356763E+02    0.417445E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.337578E+02    0.441758E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.310016E+02    0.424496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.298435E+02    0.394834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.302733E+02    0.362021E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.325283E+02    0.332220E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.356979E+02    0.315403E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.392171E+02    0.315095E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.422024E+02    0.331915E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.435857E+02    0.362712E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.431014E+02    0.398559E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.405980E+02    0.429087E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.372072E+02    0.444008E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.375743E+02    0.283073E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.355165E+02    0.286701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.370987E+02    0.265167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.392478E+02    0.269232E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.390706E+02    0.292714E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.368644E+02    0.302382E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.349675E+02    0.316335E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.337765E+02    0.302537E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.337882E+02    0.281865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.345707E+02    0.263578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.363524E+02    0.248520E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.383766E+02    0.243560E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.402979E+02    0.248428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.414668E+02    0.263133E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.415416E+02    0.283766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.405207E+02    0.304227E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.387675E+02    0.318236E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.367355E+02    0.322528E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.347677E+02    0.348947E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.320189E+02    0.332430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.307795E+02    0.303007E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138756E+03   -0.313005E+02    0.268153E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.334320E+02    0.237418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.368608E+02    0.216486E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.405218E+02    0.213726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.434927E+02    0.229858E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.448785E+02    0.260971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.443968E+02    0.297634E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.417442E+02    0.331340E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.382604E+02    0.349240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.363187E+02    0.439955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.343794E+02    0.440782E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.357390E+02    0.423422E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.379230E+02    0.428780E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.377519E+02    0.450183E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.356415E+02    0.457008E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.338088E+02    0.468322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.326955E+02    0.453845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.326078E+02    0.435701E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.334478E+02    0.418503E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.350758E+02    0.406389E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.370848E+02    0.403047E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.388507E+02    0.410253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.400292E+02    0.425413E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.403106E+02    0.444026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.392242E+02    0.462088E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.375359E+02    0.473531E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.355240E+02    0.475804E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.336556E+02    0.499970E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.310224E+02    0.480529E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.296746E+02    0.452121E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138513E+03   -0.301426E+02    0.420721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.323461E+02    0.391974E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.355271E+02    0.375929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.390311E+02    0.376816E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.419684E+02    0.395173E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.435931E+02    0.426182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.429464E+02    0.460948E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.405953E+02    0.489330E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.370874E+02    0.503695E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.377970E+02    0.213417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.357339E+02    0.217837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.372888E+02    0.195584E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.395493E+02    0.198106E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.393194E+02    0.222527E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.371197E+02    0.232732E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.350568E+02    0.248870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.340972E+02    0.233077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.339018E+02    0.214271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.349184E+02    0.192879E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.365985E+02    0.178039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.387213E+02    0.171491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.405661E+02    0.176815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.417690E+02    0.191269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.417833E+02    0.212823E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.407992E+02    0.233368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.390637E+02    0.247806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.370295E+02    0.252737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.350017E+02    0.281192E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.322062E+02    0.265276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138786E+03   -0.309916E+02    0.235368E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138683E+03   -0.315412E+02    0.199382E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.338105E+02    0.165662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.371457E+02    0.144888E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.408243E+02    0.141165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.437386E+02    0.157251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.451920E+02    0.187939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.444670E+02    0.226879E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.419817E+02    0.260621E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.385161E+02    0.280257E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681381.568749826     
  ps_ts2 prof sum =   680969.526101217     
  trcom prof sum =    680969.526101217     
  ps_ts2 cur sum  =   17430.4487429464     
  trcom cur sum  =    17430.4487429463     
  
  antenna # iant =            2
  powecha_use(iant) =    689416.175937933     
  ps_ts2 prof sum =   688999.889737229     
  trcom prof sum =    688999.889737228     
  ps_ts2 cur sum  =   20460.9488456851     
  trcom cur sum  =    20460.9488456851     
  
  antenna # iant =            3
  powecha_use(iant) =    525451.078636036     
  ps_ts2 prof sum =   525129.564459855     
  trcom prof sum =    525129.564428435     
  ps_ts2 cur sum  =   11805.6245094637     
  trcom cur sum  =    11805.6245094637     
  
  antenna # iant =            4
  powecha_use(iant) =   2.899029676957586E-007
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    545020.071154284     
  ps_ts2 prof sum =   544732.169940605     
  trcom prof sum =    544732.169940605     
  ps_ts2 cur sum  =   17259.9754458978     
  trcom cur sum  =    17259.9754458978     
  
  Total ECH heating:      2439831.15020749     
  Total Current Drive:    66956.9975439929     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1350
 TA= 1.67500E+00 CPU TIME= 1.60409E-01 SECONDS.  DT= 2.02711E-03
  
 TEC1=    1.67499999999999     
 TEC2=    1.67999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.46711249999953     
  %check_save_state: izleft hours =    76.5244444444444     
 --> plasma_hash("gframe"): TA= 1.675000E+00 NSTEP=  1350 Hash code:   22253253
 ->PRGCHK: bdy curvature ratio at t= 1.6800E+00 seconds is:  5.4748E-02
% MHDEQ: TG1=     1.675000 ; TG2=     1.680000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7779E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4748E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.675000 TO TG2=    1.680000 @ NSTEP     1350
   GFRAME TG2 MOMENTS CHECKSUM:  2.4903370582681D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.00499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.51471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.30494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.36488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.71927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.63085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.62048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.19583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.90044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.81000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.24370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.72778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -2.43744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.11768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.62879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.60446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.23918E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.23918E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6800E+00  1.6850E+00 total power(Watts):  2.7702E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.68000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.364440E+02    0.380157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.345856E+02    0.381361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.359269E+02    0.363004E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.380365E+02    0.368019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.379906E+02    0.389911E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.357848E+02    0.398362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.338780E+02    0.411215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.328250E+02    0.396191E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.326276E+02    0.377684E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.336171E+02    0.358799E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.352342E+02    0.346312E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.372453E+02    0.342353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.391265E+02    0.348215E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.402409E+02    0.363272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.403576E+02    0.383029E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.393917E+02    0.402197E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.376217E+02    0.415103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.356978E+02    0.417815E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.337769E+02    0.442085E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.310207E+02    0.424820E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138733E+03   -0.297853E+02    0.395653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138719E+03   -0.302950E+02    0.362352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.323846E+02    0.333850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.357251E+02    0.315690E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.392460E+02    0.315424E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.423343E+02    0.331673E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.437193E+02    0.362640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.431273E+02    0.399003E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.407196E+02    0.429170E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.372244E+02    0.444373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.376037E+02    0.283376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.356352E+02    0.286202E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.371286E+02    0.265454E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.392795E+02    0.269542E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.391012E+02    0.293018E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.368927E+02    0.302679E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.349939E+02    0.316626E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.338895E+02    0.302058E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.336427E+02    0.283741E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.346877E+02    0.262995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.363827E+02    0.248781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.384088E+02    0.243825E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.403309E+02    0.248718E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.414998E+02    0.263451E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.415740E+02    0.284100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.405514E+02    0.304552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.387959E+02    0.318562E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.367645E+02    0.322826E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.347921E+02    0.349293E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.320426E+02    0.332722E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.308036E+02    0.303262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.313260E+02    0.268400E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.334609E+02    0.237635E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.368931E+02    0.216700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.405567E+02    0.213958E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.434241E+02    0.231029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.449142E+02    0.261312E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.442166E+02    0.299402E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.417741E+02    0.331706E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.382868E+02    0.349617E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.362488E+02    0.440621E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.343989E+02    0.441116E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.357604E+02    0.423787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.378510E+02    0.429516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.377735E+02    0.450520E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.356580E+02    0.457336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.337418E+02    0.468875E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.327141E+02    0.454141E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.326268E+02    0.436026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.334678E+02    0.418852E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.350969E+02    0.406749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.371076E+02    0.403423E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.388743E+02    0.410645E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.400523E+02    0.425824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.401375E+02    0.444987E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.392451E+02    0.462430E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.375554E+02    0.473874E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.355422E+02    0.476143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.336720E+02    0.500368E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.310385E+02    0.480856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.296915E+02    0.452402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.301617E+02    0.421030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.323671E+02    0.392326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.355505E+02    0.376314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.390563E+02    0.377227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.419943E+02    0.395603E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.435142E+02    0.426961E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.429687E+02    0.461341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.406148E+02    0.489751E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.371047E+02    0.504123E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.368789E+02    0.336168E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.350138E+02    0.337742E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.364301E+02    0.318524E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.385579E+02    0.323098E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.384471E+02    0.345269E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.362409E+02    0.354081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.343373E+02    0.367237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.332614E+02    0.352708E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.330407E+02    0.334727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.339262E+02    0.316145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.357126E+02    0.301598E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.377309E+02    0.297056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.396310E+02    0.302579E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.407697E+02    0.317698E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.408140E+02    0.337954E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.398728E+02    0.356878E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.381094E+02    0.370126E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.360874E+02    0.373810E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.341809E+02    0.399579E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.315553E+02    0.381321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.302013E+02    0.353032E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.307573E+02    0.319176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.328308E+02    0.289512E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.362632E+02    0.269411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.398081E+02    0.268373E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.427316E+02    0.285427E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.442677E+02    0.315955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.436242E+02    0.352473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.410439E+02    0.384239E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.376511E+02    0.400936E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.378301E+02    0.213632E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.357655E+02    0.218041E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.373199E+02    0.195786E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.394872E+02    0.199275E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.393531E+02    0.222770E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.371509E+02    0.232982E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.351758E+02    0.248242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.339531E+02    0.235142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.340181E+02    0.213491E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.347740E+02    0.195051E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.366316E+02    0.178179E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.387563E+02    0.171629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.406027E+02    0.176968E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.417043E+02    0.192444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.418192E+02    0.213060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.408333E+02    0.233646E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.390961E+02    0.248088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.369667E+02    0.253866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.350294E+02    0.281473E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.322332E+02    0.265525E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.310180E+02    0.235574E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.315700E+02    0.199534E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.336720E+02    0.167897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.371812E+02    0.144951E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.407639E+02    0.142331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.437786E+02    0.157388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.452315E+02    0.188162E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.445041E+02    0.227170E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.420157E+02    0.260934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.385465E+02    0.280569E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688825.396132930     
  ps_ts2 prof sum =   688421.561541762     
  trcom prof sum =    688421.561541762     
  ps_ts2 cur sum  =   17583.2632733989     
  trcom cur sum  =    17583.2632733989     
  
  antenna # iant =            2
  powecha_use(iant) =    688743.832601342     
  ps_ts2 prof sum =   688361.345343782     
  trcom prof sum =    688361.345343781     
  ps_ts2 cur sum  =   20386.8770163046     
  trcom cur sum  =    20386.8770163046     
  
  antenna # iant =            3
  powecha_use(iant) =    525473.093938541     
  ps_ts2 prof sum =   525145.702853265     
  trcom prof sum =    525145.702823735     
  ps_ts2 cur sum  =   11783.9807323299     
  trcom cur sum  =    11783.9807323299     
  
  antenna # iant =            4
  powecha_use(iant) =    321522.253393504     
  ps_ts2 prof sum =   321341.948250922     
  trcom prof sum =    321341.948250922     
  ps_ts2 cur sum  =   8858.14869750824     
  trcom cur sum  =    8858.14869750823     
  
  antenna # iant =            5
  powecha_use(iant) =    545672.556449067     
  ps_ts2 prof sum =   545368.503706848     
  trcom prof sum =    545368.503706848     
  ps_ts2 cur sum  =   17232.3021992343     
  trcom cur sum  =    17232.3021992343     
  
  Total ECH heating:      2768639.06166705     
  Total Current Drive:    75844.5719187758     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1353
 TA= 1.68000E+00 CPU TIME= 1.59529E-01 SECONDS.  DT= 5.48767E-04
  
 TEC1=    1.67999999999999     
 TEC2=    1.68499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.48370722222217     
  %check_save_state: izleft hours =    76.5077777777778     
 --> plasma_hash("gframe"): TA= 1.680000E+00 NSTEP=  1353 Hash code:     267913
 ->PRGCHK: bdy curvature ratio at t= 1.6850E+00 seconds is:  5.4747E-02
% MHDEQ: TG1=     1.680000 ; TG2=     1.685000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7779E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4747E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.680000 TO TG2=    1.685000 @ NSTEP     1353
   GFRAME TG2 MOMENTS CHECKSUM:  2.4908771657500D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6850E+00  1.6900E+00 total power(Watts):  2.8796E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.68500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.364658E+02    0.380536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.346064E+02    0.381729E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.359491E+02    0.363381E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.380598E+02    0.368415E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.380126E+02    0.390301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.358055E+02    0.398727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.338972E+02    0.411561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.328444E+02    0.396531E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.326481E+02    0.378027E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.336385E+02    0.359151E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.352571E+02    0.346655E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.372696E+02    0.342698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.391516E+02    0.348591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.402655E+02    0.363683E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.403813E+02    0.383443E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.394139E+02    0.402588E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.376425E+02    0.415478E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.357178E+02    0.418173E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.337947E+02    0.442404E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.310381E+02    0.425142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.298034E+02    0.395970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138684E+03   -0.303147E+02    0.362674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.324067E+02    0.334144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.357498E+02    0.315983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.392732E+02    0.315735E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.421560E+02    0.333291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.437453E+02    0.363089E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.431511E+02    0.399439E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.407407E+02    0.429576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.372475E+02    0.444688E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.376315E+02    0.283675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.356614E+02    0.286490E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.371563E+02    0.265737E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.393075E+02    0.269845E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.391292E+02    0.293330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.369190E+02    0.302973E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.350178E+02    0.316914E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.339136E+02    0.302333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.336678E+02    0.284014E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.347141E+02    0.263260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.364107E+02    0.249039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.384384E+02    0.244090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.403618E+02    0.249005E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.414290E+02    0.264576E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.416035E+02    0.284439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.405799E+02    0.304875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.388224E+02    0.318883E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.367897E+02    0.323134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.348148E+02    0.349637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.321475E+02    0.332342E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.308265E+02    0.303512E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138689E+03   -0.313505E+02    0.268641E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.334873E+02    0.237855E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.369230E+02    0.216905E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.404900E+02    0.215113E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.434579E+02    0.231307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.450549E+02    0.260858E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.442448E+02    0.299767E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.417994E+02    0.332084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.383113E+02    0.349988E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.362678E+02    0.440962E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.344171E+02    0.441442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.357800E+02    0.424150E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.378713E+02    0.429889E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.377927E+02    0.450862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.356759E+02    0.457654E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.337586E+02    0.469181E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.327314E+02    0.454434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.326442E+02    0.436348E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.334865E+02    0.419201E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.351180E+02    0.407102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.370362E+02    0.404227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.388958E+02    0.411034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.400736E+02    0.426221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.401580E+02    0.445356E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.392642E+02    0.462778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.375732E+02    0.474216E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.355590E+02    0.476473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.336868E+02    0.500734E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.310532E+02    0.481169E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.297073E+02    0.452677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138448E+03   -0.301789E+02    0.421346E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.323867E+02    0.392670E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.355723E+02    0.376686E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.390797E+02    0.377632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.420179E+02    0.396023E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.435366E+02    0.427400E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.429892E+02    0.461723E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.406327E+02    0.490151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.372114E+02    0.504420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.369034E+02    0.336502E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.350369E+02    0.338065E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.364551E+02    0.318819E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.385838E+02    0.323426E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.384712E+02    0.345639E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.362641E+02    0.354449E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.343590E+02    0.367599E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.332822E+02    0.353053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.330634E+02    0.335024E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.339503E+02    0.316420E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.357382E+02    0.301885E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.377608E+02    0.297334E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.395610E+02    0.303607E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.406970E+02    0.318699E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.408407E+02    0.338321E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.398968E+02    0.357281E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.381327E+02    0.370520E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.361094E+02    0.374187E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.342009E+02    0.399930E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.315746E+02    0.381658E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.302204E+02    0.353348E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138591E+03   -0.307793E+02    0.319447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.328556E+02    0.289775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.361060E+02    0.271334E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.398359E+02    0.268681E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.427622E+02    0.285764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.442970E+02    0.316322E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.436512E+02    0.352900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.410678E+02    0.384659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.376725E+02    0.401315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.378609E+02    0.213836E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.358848E+02    0.217282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.373509E+02    0.195961E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.395194E+02    0.199464E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.393847E+02    0.222998E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.371803E+02    0.233218E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.352033E+02    0.248491E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.339801E+02    0.235359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138429E+03   -0.338735E+02    0.215602E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.348037E+02    0.195210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.366629E+02    0.178320E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.386946E+02    0.172800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.406371E+02    0.177140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.417389E+02    0.192642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.418535E+02    0.213296E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.408650E+02    0.233905E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.391261E+02    0.248366E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.369952E+02    0.254134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.350555E+02    0.281760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.322580E+02    0.265776E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.310442E+02    0.235772E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138623E+03   -0.315969E+02    0.199679E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138479E+03   -0.337018E+02    0.167993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.372140E+02    0.145024E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.408001E+02    0.142408E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.438160E+02    0.157527E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.452682E+02    0.188376E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.445388E+02    0.227456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.420466E+02    0.261251E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.385746E+02    0.280870E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688568.096832693     
  ps_ts2 prof sum =   688164.587591837     
  trcom prof sum =    688164.587591837     
  ps_ts2 cur sum  =   17518.1479817342     
  trcom cur sum  =    17518.1479817342     
  
  antenna # iant =            2
  powecha_use(iant) =    689802.390499939     
  ps_ts2 prof sum =   689435.450360592     
  trcom prof sum =    689435.450360591     
  ps_ts2 cur sum  =   20350.1049018557     
  trcom cur sum  =    20350.1049018557     
  
  antenna # iant =            3
  powecha_use(iant) =    527224.431075146     
  ps_ts2 prof sum =   526903.947882510     
  trcom prof sum =    526903.947854656     
  ps_ts2 cur sum  =   11782.5504078747     
  trcom cur sum  =    11782.5504078747     
  
  antenna # iant =            4
  powecha_use(iant) =    427474.319818799     
  ps_ts2 prof sum =   427224.419357523     
  trcom prof sum =    427224.419357522     
  ps_ts2 cur sum  =   11738.6805874694     
  trcom cur sum  =    11738.6805874694     
  
  antenna # iant =            5
  powecha_use(iant) =    546550.121606283     
  ps_ts2 prof sum =   546243.884468726     
  trcom prof sum =    546243.884468726     
  ps_ts2 cur sum  =   17202.1056781236     
  trcom cur sum  =    17202.1056781236     
  
  Total ECH heating:      2877972.28963333     
  Total Current Drive:    78591.5895570576     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1359
 TA= 1.68500E+00 CPU TIME= 1.46232E-01 SECONDS.  DT= 6.20313E-04
  
 TEC1=    1.68499999999999     
 TEC2=    1.68999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.49778749999950     
  %check_save_state: izleft hours =    76.4938888888889     
 --> plasma_hash("gframe"): TA= 1.685000E+00 NSTEP=  1359 Hash code:   77934706
 ->PRGCHK: bdy curvature ratio at t= 1.6900E+00 seconds is:  5.4747E-02
% MHDEQ: TG1=     1.685000 ; TG2=     1.690000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7778E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4747E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.685000 TO TG2=    1.690000 @ NSTEP     1359
   GFRAME TG2 MOMENTS CHECKSUM:  2.4914172732319D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.93454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.48347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.69343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.79728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.30272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.16909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.28009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.90197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.98821E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.36622E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.73588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.25546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -3.47340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.32204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.53526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.55461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -5.57839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -5.57839E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.6900E+00  1.6950E+00 total power(Watts):  2.9589E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.69000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.364838E+02    0.380834E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.346235E+02    0.382005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.359677E+02    0.363673E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.380808E+02    0.368711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.379368E+02    0.391072E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.358228E+02    0.399008E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.339132E+02    0.411829E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.328606E+02    0.396797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.327498E+02    0.377760E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.336561E+02    0.359431E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.352760E+02    0.346939E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.372895E+02    0.342995E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.390761E+02    0.349485E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.402860E+02    0.364009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.404008E+02    0.383766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.394323E+02    0.402895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.376600E+02    0.415760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.356447E+02    0.418834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.338095E+02    0.442660E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.310525E+02    0.425387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138667E+03   -0.298188E+02    0.396214E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.303308E+02    0.362934E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.324251E+02    0.334399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.357702E+02    0.316248E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.392955E+02    0.316021E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.421786E+02    0.333611E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.437669E+02    0.363442E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.431706E+02    0.399777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.407584E+02    0.429883E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.371714E+02    0.445271E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.376536E+02    0.283972E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.356828E+02    0.286769E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.370859E+02    0.266861E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.393318E+02    0.270163E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.391521E+02    0.293618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.369442E+02    0.303223E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.350380E+02    0.317179E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.339336E+02    0.302585E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.336889E+02    0.284272E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.347357E+02    0.263547E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.364338E+02    0.249329E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.384628E+02    0.244392E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.403869E+02    0.249328E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.414544E+02    0.264913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.416282E+02    0.284746E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.406032E+02    0.305164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.388444E+02    0.319165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.368104E+02    0.323410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.348335E+02    0.349922E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.321656E+02    0.332597E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.308451E+02    0.303743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.313705E+02    0.268902E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.335104E+02    0.238106E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.369476E+02    0.217165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.405164E+02    0.215399E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.434855E+02    0.231624E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.450818E+02    0.261227E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.442723E+02    0.300075E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.418236E+02    0.332398E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.383321E+02    0.350292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.32 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.362836E+02    0.441228E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.344321E+02    0.441701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.357961E+02    0.424427E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.378882E+02    0.430174E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.378085E+02    0.451144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.356021E+02    0.458179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.337726E+02    0.469438E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.327448E+02    0.454684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.324928E+02    0.437284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.335020E+02    0.419462E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.351340E+02    0.407378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.370536E+02    0.404513E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.389138E+02    0.411333E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.400911E+02    0.426524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.401750E+02    0.445640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.392802E+02    0.463071E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.374963E+02    0.474691E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.355734E+02    0.476738E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.336998E+02    0.500978E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.310684E+02    0.481403E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.297204E+02    0.452905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138416E+03   -0.301934E+02    0.421588E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.324025E+02    0.392926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.355900E+02    0.376974E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.390990E+02    0.377946E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.420377E+02    0.396351E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.435550E+02    0.427738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.430062E+02    0.462042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.406474E+02    0.490453E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.372256E+02    0.504683E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.369234E+02    0.336788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.350562E+02    0.338346E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.364757E+02    0.319096E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.386054E+02    0.323708E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.384919E+02    0.345944E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.362830E+02    0.354745E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.343765E+02    0.367883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.333009E+02    0.353323E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138219E+03   -0.330819E+02    0.335287E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.339697E+02    0.316669E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.357591E+02    0.302141E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.377800E+02    0.297633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.395837E+02    0.303889E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.407197E+02    0.319000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.408614E+02    0.338646E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.399171E+02    0.357606E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.381519E+02    0.370825E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.361275E+02    0.374479E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.342173E+02    0.400203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138444E+03   -0.314293E+02    0.382958E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.302380E+02    0.353598E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.307166E+02    0.320388E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.328754E+02    0.290034E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.362197E+02    0.270811E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.398611E+02    0.268998E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.427872E+02    0.286088E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.443215E+02    0.316649E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.436730E+02    0.353258E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.410875E+02    0.384986E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.376904E+02    0.401609E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.378861E+02    0.214099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.359090E+02    0.217541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.373768E+02    0.196224E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.395467E+02    0.199742E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.394103E+02    0.223276E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.372044E+02    0.233493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.352259E+02    0.248769E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.340035E+02    0.235612E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.338971E+02    0.215834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.348283E+02    0.195448E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.366888E+02    0.178571E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.387219E+02    0.173056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.406654E+02    0.177417E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.417672E+02    0.192931E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.418802E+02    0.213584E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.408914E+02    0.234214E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.390538E+02    0.249523E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.370185E+02    0.254431E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.350766E+02    0.282036E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138662E+03   -0.321984E+02    0.266869E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.310646E+02    0.236014E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138802E+03   -0.315390E+02    0.200910E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.337264E+02    0.168201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.370587E+02    0.147409E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.408302E+02    0.142631E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.438474E+02    0.157795E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.454059E+02    0.187735E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.445673E+02    0.227777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.420723E+02    0.261594E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.385983E+02    0.281169E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682483.427457877     
  ps_ts2 prof sum =   682083.584261874     
  trcom prof sum =    682083.584261874     
  ps_ts2 cur sum  =   17281.4206969396     
  trcom cur sum  =    17281.4206969396     
  
  antenna # iant =            2
  powecha_use(iant) =    687186.841282794     
  ps_ts2 prof sum =   686831.286375987     
  trcom prof sum =    686831.286375986     
  ps_ts2 cur sum  =   20181.9481899318     
  trcom cur sum  =    20181.9481899318     
  
  antenna # iant =            3
  powecha_use(iant) =    527238.550171437     
  ps_ts2 prof sum =   526903.645634659     
  trcom prof sum =    526903.645634660     
  ps_ts2 cur sum  =   11726.9060936003     
  trcom cur sum  =    11726.9060936003     
  
  antenna # iant =            4
  powecha_use(iant) =    515445.024780553     
  ps_ts2 prof sum =   515141.855802049     
  trcom prof sum =    515141.855802048     
  ps_ts2 cur sum  =   14089.6708445848     
  trcom cur sum  =    14089.6708445848     
  
  antenna # iant =            5
  powecha_use(iant) =    546569.253549178     
  ps_ts2 prof sum =   546248.997807343     
  trcom prof sum =    546248.997807343     
  ps_ts2 cur sum  =   17123.8545159444     
  trcom cur sum  =    17123.8545159444     
  
  Total ECH heating:      2957209.36988191     
  Total Current Drive:    80403.8003410009     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1364
 TA= 1.69000E+00 CPU TIME= 1.60148E-01 SECONDS.  DT= 1.77938E-03
  
 TEC1=    1.68999999999999     
 TEC2=    1.69499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.51306888888894     
  %check_save_state: izleft hours =    76.4786111111111     
 --> plasma_hash("gframe"): TA= 1.690000E+00 NSTEP=  1364 Hash code:   66333691
 ->PRGCHK: bdy curvature ratio at t= 1.6950E+00 seconds is:  5.4747E-02
% MHDEQ: TG1=     1.690000 ; TG2=     1.695000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7778E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4747E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.690000 TO TG2=    1.695000 @ NSTEP     1364
   GFRAME TG2 MOMENTS CHECKSUM:  2.4919573807137D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  1.6950E+00  1.7000E+00 total power(Watts):  3.0272E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.69500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.365022E+02    0.381136E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.346401E+02    0.382298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.359855E+02    0.363974E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.380976E+02    0.369035E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.379543E+02    0.391379E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.358390E+02    0.399304E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.339281E+02    0.412109E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.328763E+02    0.397071E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.327658E+02    0.378039E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.336731E+02    0.359720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.352941E+02    0.347236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.373087E+02    0.343304E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.390950E+02    0.349815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.403054E+02    0.364345E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.404194E+02    0.384099E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.394497E+02    0.403210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.376765E+02    0.416062E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.356603E+02    0.419125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.338235E+02    0.442938E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.310667E+02    0.425648E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.298328E+02    0.396468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.303467E+02    0.363196E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.324428E+02    0.334663E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.357869E+02    0.316542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.393170E+02    0.316312E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.422013E+02    0.333940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.437873E+02    0.363813E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.431892E+02    0.400131E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.407748E+02    0.430224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.371866E+02    0.445571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.376756E+02    0.284267E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.357038E+02    0.287047E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.371069E+02    0.267169E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.392579E+02    0.271285E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.391743E+02    0.293914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.369608E+02    0.303521E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.348798E+02    0.318831E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.339532E+02    0.302841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.337088E+02    0.284548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.347564E+02    0.263833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.364562E+02    0.249621E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.384867E+02    0.244679E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.404113E+02    0.249646E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.414787E+02    0.265243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.416519E+02    0.285070E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.406257E+02    0.305466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.388654E+02    0.319460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.368302E+02    0.323696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.348512E+02    0.350219E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.321830E+02    0.332863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138644E+03   -0.308632E+02    0.303979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.313899E+02    0.269174E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.335344E+02    0.238325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.369719E+02    0.217423E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.405431E+02    0.215676E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.435125E+02    0.231943E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.451078E+02    0.261601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.442966E+02    0.300406E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.418452E+02    0.332731E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.383504E+02    0.350620E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.363002E+02    0.441517E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.344465E+02    0.441985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.358116E+02    0.424716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.379000E+02    0.430489E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.378235E+02    0.451450E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.356167E+02    0.458462E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.337858E+02    0.469711E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.327584E+02    0.454959E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.325897E+02    0.437211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.335165E+02    0.419740E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.351500E+02    0.407667E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.370704E+02    0.404814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.389309E+02    0.411643E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.401078E+02    0.426853E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.401911E+02    0.445963E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.392954E+02    0.463380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.375109E+02    0.474979E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.355872E+02    0.477006E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.336286E+02    0.501318E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.310783E+02    0.481643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.297328E+02    0.453159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.302070E+02    0.421846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.324179E+02    0.393203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.356066E+02    0.377277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.391174E+02    0.378270E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.420562E+02    0.396694E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.435730E+02    0.428083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.430224E+02    0.462382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.406629E+02    0.490734E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.372394E+02    0.504913E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.369426E+02    0.337094E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.350746E+02    0.338638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.364956E+02    0.319374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.386261E+02    0.324012E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.385116E+02    0.346264E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.363012E+02    0.355053E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.343934E+02    0.368178E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.333178E+02    0.353612E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.330997E+02    0.335558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.340760E+02    0.316232E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.357795E+02    0.302414E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.378012E+02    0.297925E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.396059E+02    0.304180E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.407417E+02    0.319304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.408840E+02    0.338967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.399367E+02    0.357941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.381701E+02    0.371143E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.361449E+02    0.374783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.342329E+02    0.400486E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.314448E+02    0.383224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138678E+03   -0.302536E+02    0.353867E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138748E+03   -0.307348E+02    0.320627E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.328951E+02    0.290287E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.362429E+02    0.271105E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.398852E+02    0.269322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.428114E+02    0.286419E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.443447E+02    0.316988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.436939E+02    0.353625E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.411065E+02    0.385323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.377073E+02    0.401913E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.379111E+02    0.214362E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.359328E+02    0.217791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.374024E+02    0.196489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.395732E+02    0.200019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.394354E+02    0.223555E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.372277E+02    0.233772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.352474E+02    0.249053E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.340257E+02    0.235860E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.339202E+02    0.216067E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.348524E+02    0.195693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.367144E+02    0.178834E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.387482E+02    0.173323E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.406926E+02    0.177710E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.417952E+02    0.193225E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.419076E+02    0.213873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.409168E+02    0.234515E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.390776E+02    0.249836E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.370410E+02    0.254732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.349198E+02    0.283899E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.322153E+02    0.267157E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.310859E+02    0.236245E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.315611E+02    0.201135E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.337514E+02    0.168425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.370869E+02    0.147617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.408599E+02    0.142861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.438774E+02    0.158083E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.454360E+02    0.188062E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.445948E+02    0.228098E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.420973E+02    0.261936E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.386200E+02    0.281480E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.44 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687683.081716811     
  ps_ts2 prof sum =   687284.094922678     
  trcom prof sum =    687284.094922677     
  ps_ts2 cur sum  =   17320.1460298228     
  trcom cur sum  =    17320.1460298228     
  
  antenna # iant =            2
  powecha_use(iant) =    687105.065066177     
  ps_ts2 prof sum =   686731.344681224     
  trcom prof sum =    686731.344681223     
  ps_ts2 cur sum  =   20076.9361136033     
  trcom cur sum  =    20076.9361136032     
  
  antenna # iant =            3
  powecha_use(iant) =    526639.824326749     
  ps_ts2 prof sum =   526312.560795893     
  trcom prof sum =    526312.560795894     
  ps_ts2 cur sum  =   11652.3558920185     
  trcom cur sum  =    11652.3558920185     
  
  antenna # iant =            4
  powecha_use(iant) =    579679.481560742     
  ps_ts2 prof sum =   579352.173683620     
  trcom prof sum =    579352.173683619     
  ps_ts2 cur sum  =   15761.9932518046     
  trcom cur sum  =    15761.9932518046     
  
  antenna # iant =            5
  powecha_use(iant) =    546111.292119726     
  ps_ts2 prof sum =   545782.484821267     
  trcom prof sum =    545782.484821267     
  ps_ts2 cur sum  =   17027.5275736750     
  trcom cur sum  =    17027.5275736750     
  
  Total ECH heating:      3025462.65890468     
  Total Current Drive:    81838.9588609242     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1367
 TA= 1.69500E+00 CPU TIME= 1.60816E-01 SECONDS.  DT= 1.24549E-03
  
 TEC1=    1.69499999999999     
 TEC2=    1.69999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.52544499999976     
  %check_save_state: izleft hours =    76.4661111111111     
 --> plasma_hash("gframe"): TA= 1.695000E+00 NSTEP=  1367 Hash code:   17671365
 ->PRGCHK: bdy curvature ratio at t= 1.7000E+00 seconds is:  5.4748E-02
% MHDEQ: TG1=     1.695000 ; TG2=     1.700000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4748E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.695000 TO TG2=    1.700000 @ NSTEP     1367
   GFRAME TG2 MOMENTS CHECKSUM:  2.4924974881956D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.86875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.70763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.65018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.00024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75694E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.39995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.87013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.99629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.68141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.35877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.90341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.15462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.74659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.74344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.27448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.44084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.51289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.44793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.50806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.66112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.66112E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7000E+00  1.7050E+00 total power(Watts):  3.0431E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.70000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.365193E+02    0.381425E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.346570E+02    0.382588E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.360049E+02    0.364259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.381165E+02    0.369341E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.379726E+02    0.391677E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.358564E+02    0.399592E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.339442E+02    0.412388E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.328920E+02    0.397337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.327827E+02    0.378311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.336907E+02    0.360007E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.353125E+02    0.347529E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.373285E+02    0.343608E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.391164E+02    0.350123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.403254E+02    0.364674E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.404389E+02    0.384418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.394679E+02    0.403522E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.376936E+02    0.416365E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.356766E+02    0.419412E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.338383E+02    0.443213E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.311629E+02    0.425520E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138599E+03   -0.298477E+02    0.396711E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138581E+03   -0.303629E+02    0.363451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.324607E+02    0.334912E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.358101E+02    0.316775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.393384E+02    0.316608E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.422236E+02    0.334267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.438088E+02    0.364170E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.432088E+02    0.400474E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.407925E+02    0.430553E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.372026E+02    0.445856E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.18 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.376974E+02    0.284552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.357254E+02    0.287320E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.371310E+02    0.267460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.392818E+02    0.271598E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.391971E+02    0.294201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.369825E+02    0.303791E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.349921E+02    0.318360E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.339730E+02    0.303088E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.337301E+02    0.284807E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.347787E+02    0.264118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.364796E+02    0.249886E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.385116E+02    0.244952E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.403378E+02    0.250785E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.415041E+02    0.265573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.416765E+02    0.285392E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.406488E+02    0.305760E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.388868E+02    0.319742E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.368505E+02    0.323968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.348694E+02    0.350505E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138479E+03   -0.320359E+02    0.334444E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138610E+03   -0.308822E+02    0.304203E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.314083E+02    0.269444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.335544E+02    0.238578E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.369968E+02    0.217642E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.405700E+02    0.215914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.435407E+02    0.232234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.451343E+02    0.261968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.443218E+02    0.300725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.417665E+02    0.333660E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.383715E+02    0.350922E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.363145E+02    0.441824E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.344615E+02    0.442261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.358278E+02    0.425006E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.379208E+02    0.430789E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.378395E+02    0.451748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.356316E+02    0.458751E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.338000E+02    0.469977E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.327728E+02    0.455223E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.326044E+02    0.437470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.335321E+02    0.420018E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.351665E+02    0.407946E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.370879E+02    0.405105E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.389486E+02    0.411942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.401256E+02    0.427171E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.402082E+02    0.446280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.393116E+02    0.463687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.375262E+02    0.475263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.356019E+02    0.477277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.336421E+02    0.501529E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.310910E+02    0.481879E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.297463E+02    0.453407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.302213E+02    0.422099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.322681E+02    0.394419E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.356245E+02    0.377568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.391368E+02    0.378582E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.421772E+02    0.396602E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.435913E+02    0.428441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.430397E+02    0.462724E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.406787E+02    0.491023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.370728E+02    0.505332E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.369627E+02    0.337384E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.350935E+02    0.338922E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.365160E+02    0.319641E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.386472E+02    0.324301E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.385319E+02    0.346575E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.363203E+02    0.355352E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.344121E+02    0.368451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.333354E+02    0.353885E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.332035E+02    0.335166E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.340956E+02    0.316480E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.358003E+02    0.302670E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.378235E+02    0.298194E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.396287E+02    0.304468E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.407643E+02    0.319602E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.409055E+02    0.339287E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.399573E+02    0.358264E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.381889E+02    0.371456E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.361632E+02    0.375072E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.342492E+02    0.400763E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.314608E+02    0.383484E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138644E+03   -0.302706E+02    0.354126E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138714E+03   -0.307527E+02    0.320857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.329156E+02    0.290539E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.362654E+02    0.271397E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.399093E+02    0.269644E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.428364E+02    0.286745E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.443688E+02    0.317313E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.437157E+02    0.353982E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.411261E+02    0.385647E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.377247E+02    0.402215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.379366E+02    0.214585E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.359571E+02    0.218003E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.374283E+02    0.196717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.396001E+02    0.200255E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.394614E+02    0.223790E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.371594E+02    0.234912E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.352702E+02    0.249307E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.340482E+02    0.236077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.339439E+02    0.216263E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.348776E+02    0.195918E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.367405E+02    0.179083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.387759E+02    0.173584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.407217E+02    0.177983E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.418240E+02    0.193485E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.419354E+02    0.214124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.409433E+02    0.234789E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.391024E+02    0.250119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.370645E+02    0.255005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.349417E+02    0.284164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.322362E+02    0.267426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138615E+03   -0.311067E+02    0.236446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138730E+03   -0.315837E+02    0.201328E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.337761E+02    0.168639E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.371147E+02    0.147846E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.408901E+02    0.143114E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.439128E+02    0.158335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.454665E+02    0.188357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.446236E+02    0.228389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.421229E+02    0.262266E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.386430E+02    0.281778E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.77 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692060.110714618     
  ps_ts2 prof sum =   691686.592949096     
  trcom prof sum =    691686.592949096     
  ps_ts2 cur sum  =   17350.8387793506     
  trcom cur sum  =    17350.8387793506     
  
  antenna # iant =            2
  powecha_use(iant) =    686924.660783691     
  ps_ts2 prof sum =   686550.786840935     
  trcom prof sum =    686550.786840934     
  ps_ts2 cur sum  =   19976.1367198142     
  trcom cur sum  =    19976.1367198141     
  
  antenna # iant =            3
  powecha_use(iant) =    527658.701420551     
  ps_ts2 prof sum =   527324.892369648     
  trcom prof sum =    527324.892369649     
  ps_ts2 cur sum  =   11624.4494014127     
  trcom cur sum  =    11624.4494014127     
  
  antenna # iant =            4
  powecha_use(iant) =    589901.679603487     
  ps_ts2 prof sum =   589593.692735147     
  trcom prof sum =    589593.692735147     
  ps_ts2 cur sum  =   15964.2196443694     
  trcom cur sum  =    15964.2196443693     
  
  antenna # iant =            5
  powecha_use(iant) =    546533.100159047     
  ps_ts2 prof sum =   546219.847329372     
  trcom prof sum =    546219.847329372     
  ps_ts2 cur sum  =   16959.0597675871     
  trcom cur sum  =    16959.0597675871     
  
  Total ECH heating:      3041375.81222420     
  Total Current Drive:    81874.7043125338     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1371
 TA= 1.70000E+00 CPU TIME= 1.59384E-01 SECONDS.  DT= 3.14476E-04
  
 TEC1=    1.69999999999999     
 TEC2=    1.70499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.54002222222221     
  %check_save_state: izleft hours =    76.4516666666667     
 --> plasma_hash("gframe"): TA= 1.700000E+00 NSTEP=  1371 Hash code:   97007587
 ->PRGCHK: bdy curvature ratio at t= 1.7050E+00 seconds is:  5.4748E-02
% MHDEQ: TG1=     1.700000 ; TG2=     1.705000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4748E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.700000 TO TG2=    1.705000 @ NSTEP     1371
   GFRAME TG2 MOMENTS CHECKSUM:  2.4930375956774D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7050E+00  1.7100E+00 total power(Watts):  3.0265E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.70500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.365374E+02    0.381738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.345871E+02    0.383381E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.360237E+02    0.364580E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.381364E+02    0.369670E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.379911E+02    0.391996E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.358737E+02    0.399892E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.339604E+02    0.412673E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.329082E+02    0.397618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.327995E+02    0.378595E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.335374E+02    0.361448E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.353322E+02    0.347835E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.373488E+02    0.343932E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.391370E+02    0.350462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.403459E+02    0.365019E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.403599E+02    0.385230E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.394865E+02    0.403843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.377111E+02    0.416676E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.356930E+02    0.419711E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.338533E+02    0.443494E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.311756E+02    0.425796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.298630E+02    0.396970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.303793E+02    0.363718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.324793E+02    0.335194E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.358309E+02    0.317058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.393614E+02    0.316894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.422465E+02    0.334617E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.438315E+02    0.364548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.432286E+02    0.400833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.406138E+02    0.431533E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.372188E+02    0.446159E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.376272E+02    0.285622E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.357473E+02    0.287608E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.371551E+02    0.267774E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.393063E+02    0.271922E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.392205E+02    0.294507E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.369120E+02    0.304791E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.350090E+02    0.318665E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.338211E+02    0.304816E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.337510E+02    0.285078E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.346239E+02    0.266076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.365033E+02    0.250170E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.385365E+02    0.245236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.403637E+02    0.251099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.415298E+02    0.265917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.415999E+02    0.286464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.406724E+02    0.306067E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.389091E+02    0.320049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.367792E+02    0.324924E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.348885E+02    0.350817E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.320543E+02    0.334714E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.309012E+02    0.304446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.314306E+02    0.269697E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.336623E+02    0.237907E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.370224E+02    0.217865E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.405982E+02    0.216148E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.435693E+02    0.232530E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.451617E+02    0.262345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.443471E+02    0.301068E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.417891E+02    0.334008E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.383918E+02    0.351254E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.363303E+02    0.442122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.344767E+02    0.442548E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.358440E+02    0.425313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.379377E+02    0.431101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.378558E+02    0.452056E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.356468E+02    0.459038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.338145E+02    0.470227E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.327869E+02    0.455494E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.326195E+02    0.437746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.334627E+02    0.420693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.350952E+02    0.408657E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.371052E+02    0.405410E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.389666E+02    0.412262E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.402405E+02    0.427174E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.402257E+02    0.446608E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.393278E+02    0.464000E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.375426E+02    0.475549E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.355283E+02    0.477743E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.336589E+02    0.501752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.311040E+02    0.482115E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.297596E+02    0.453659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.302357E+02    0.422362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.322844E+02    0.394693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.356425E+02    0.377872E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.391562E+02    0.378914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.421967E+02    0.396958E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.436097E+02    0.428811E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.430569E+02    0.463077E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.406939E+02    0.491324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.370876E+02    0.505565E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.369832E+02    0.337693E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.351127E+02    0.339218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.364457E+02    0.320605E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.386689E+02    0.324610E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.384570E+02    0.347502E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.362486E+02    0.356242E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.344298E+02    0.368745E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.333536E+02    0.354188E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.332239E+02    0.335437E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.341152E+02    0.316745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.358257E+02    0.302918E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.378460E+02    0.298487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.396519E+02    0.304769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.407873E+02    0.319914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.409277E+02    0.339633E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.399779E+02    0.358609E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.382089E+02    0.371776E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.361814E+02    0.375383E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.342664E+02    0.401048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.314771E+02    0.383750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.302874E+02    0.354401E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.307711E+02    0.321103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.330200E+02    0.290029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.362883E+02    0.271704E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.398361E+02    0.270766E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.429652E+02    0.286354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.443932E+02    0.317667E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.437377E+02    0.354366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.411461E+02    0.385991E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.376493E+02    0.402951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.379627E+02    0.214809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.359821E+02    0.218219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.374549E+02    0.196948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.396282E+02    0.200490E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.394887E+02    0.224041E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.371851E+02    0.235159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.352934E+02    0.249583E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.340716E+02    0.236308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.339675E+02    0.216465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.349021E+02    0.196137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.365867E+02    0.181356E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.388049E+02    0.173837E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.406526E+02    0.179247E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.418538E+02    0.193746E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.419643E+02    0.214366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.409703E+02    0.235073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.391276E+02    0.250422E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.370883E+02    0.255303E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.349634E+02    0.284446E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.322571E+02    0.267694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138799E+03   -0.310480E+02    0.237580E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138696E+03   -0.316073E+02    0.201521E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.338028E+02    0.168861E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.372339E+02    0.146976E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.409207E+02    0.143359E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.439403E+02    0.158659E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.454979E+02    0.188645E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.446528E+02    0.228689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.421488E+02    0.262615E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.385708E+02    0.282860E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682098.994974041     
  ps_ts2 prof sum =   681706.119416246     
  trcom prof sum =    681706.119416246     
  ps_ts2 cur sum  =   17030.7869089478     
  trcom cur sum  =    17030.7869089478     
  
  antenna # iant =            2
  powecha_use(iant) =    684475.156782450     
  ps_ts2 prof sum =   684078.169326261     
  trcom prof sum =    684078.169326260     
  ps_ts2 cur sum  =   19820.9290064217     
  trcom cur sum  =    19820.9290064217     
  
  antenna # iant =            3
  powecha_use(iant) =    527142.563792467     
  ps_ts2 prof sum =   526813.675722953     
  trcom prof sum =    526813.675722953     
  ps_ts2 cur sum  =   11564.5910442713     
  trcom cur sum  =    11564.5910442713     
  
  antenna # iant =            4
  powecha_use(iant) =    587006.700791712     
  ps_ts2 prof sum =   586706.622849889     
  trcom prof sum =    586706.622849889     
  ps_ts2 cur sum  =   15820.1398330327     
  trcom cur sum  =    15820.1398330326     
  
  antenna # iant =            5
  powecha_use(iant) =    545770.274497197     
  ps_ts2 prof sum =   545457.641147039     
  trcom prof sum =    545457.641147038     
  ps_ts2 cur sum  =   16861.9058537882     
  trcom cur sum  =    16861.9058537882     
  
  Total ECH heating:      3024762.22846239     
  Total Current Drive:    81098.3526464616     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1379
 TA= 1.70500E+00 CPU TIME= 1.60576E-01 SECONDS.  DT= 3.24691E-04
  
 TEC1=    1.70499999999999     
 TEC2=    1.70999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.55287972222231     
  %check_save_state: izleft hours =    76.4386111111111     
 --> plasma_hash("gframe"): TA= 1.705000E+00 NSTEP=  1379 Hash code:   82717354
 ->PRGCHK: bdy curvature ratio at t= 1.7100E+00 seconds is:  5.4778E-02
% MHDEQ: TG1=     1.705000 ; TG2=     1.710000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.9910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7765E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4778E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.705000 TO TG2=    1.710000 @ NSTEP     1379
   GFRAME TG2 MOMENTS CHECKSUM:  2.4929343154456D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.89205E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.70915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.81336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.86517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.50620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.88948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.15420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.97982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.30738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.92088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.19067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.71375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.66814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.33531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.07877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.31825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.33146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.57940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.28846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.28846E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7100E+00  1.7150E+00 total power(Watts):  3.0270E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.71000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.365545E+02    0.381778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.346907E+02    0.382918E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.360405E+02    0.364612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.381542E+02    0.369709E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381028E+02    0.391585E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.358902E+02    0.399938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.339758E+02    0.412714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.329233E+02    0.397659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.328148E+02    0.378625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.337243E+02    0.360327E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.353485E+02    0.347857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.373663E+02    0.343962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.392516E+02    0.349918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.403646E+02    0.365056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.404771E+02    0.384810E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.395046E+02    0.403902E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.377286E+02    0.416736E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.357987E+02    0.419385E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.338691E+02    0.443563E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.311109E+02    0.426222E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.298779E+02    0.397007E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.303947E+02    0.363745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.324946E+02    0.335210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.358477E+02    0.317078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.393799E+02    0.316931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.424706E+02    0.333444E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.437433E+02    0.365119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.432484E+02    0.400895E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.407307E+02    0.431275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.373277E+02    0.445956E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.377389E+02    0.284909E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.357644E+02    0.287650E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.372650E+02    0.267027E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.394217E+02    0.271201E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.392389E+02    0.294549E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.370217E+02    0.304105E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.351139E+02    0.317999E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.340099E+02    0.303374E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.337678E+02    0.285128E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.348175E+02    0.264476E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.365209E+02    0.250237E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.385551E+02    0.245310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.404815E+02    0.250341E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.416502E+02    0.265202E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.417205E+02    0.285775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.406914E+02    0.306104E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.389272E+02    0.320070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.368893E+02    0.324295E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.349046E+02    0.350839E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.322341E+02    0.333412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.309163E+02    0.304464E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.314461E+02    0.269749E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.335937E+02    0.238863E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.370406E+02    0.217931E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.407169E+02    0.215316E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.436944E+02    0.231752E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.450783E+02    0.263196E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.443677E+02    0.301114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.419101E+02    0.333433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.384095E+02    0.351293E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.363470E+02    0.442192E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.344927E+02    0.442618E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.358607E+02    0.425356E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.379552E+02    0.431162E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.378729E+02    0.452145E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.357517E+02    0.458874E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.338299E+02    0.470324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.328025E+02    0.455577E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.327174E+02    0.437466E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.335630E+02    0.420355E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.351995E+02    0.408279E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.372145E+02    0.405044E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.389867E+02    0.412313E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.401617E+02    0.427572E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.404382E+02    0.446160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.393456E+02    0.464108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.376486E+02    0.475463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.356325E+02    0.477650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.337563E+02    0.501719E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.311185E+02    0.482203E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.297739E+02    0.453728E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.302503E+02    0.422407E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.324649E+02    0.393788E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.356597E+02    0.377902E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.391742E+02    0.378954E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.421148E+02    0.397437E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.437293E+02    0.428569E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.430761E+02    0.463186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.407127E+02    0.491430E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.371947E+02    0.505575E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.370006E+02    0.337719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.351293E+02    0.339248E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.365541E+02    0.319950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.386870E+02    0.324629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.385705E+02    0.346941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.363563E+02    0.355697E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.344462E+02    0.368786E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.333698E+02    0.354218E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.331516E+02    0.336127E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.340451E+02    0.317458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.358391E+02    0.302981E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.378638E+02    0.298523E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.397681E+02    0.304101E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.409060E+02    0.319294E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.409466E+02    0.339670E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.399965E+02    0.358643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.382266E+02    0.371816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.362025E+02    0.375399E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.342825E+02    0.401090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.314920E+02    0.383785E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.303019E+02    0.354420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138674E+03   -0.307860E+02    0.321117E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.329520E+02    0.290839E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.362147E+02    0.272566E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.399529E+02    0.270047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.428816E+02    0.287144E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.444136E+02    0.317708E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.436535E+02    0.354950E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.411652E+02    0.386044E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.377601E+02    0.402580E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.379815E+02    0.214884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.359999E+02    0.218282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.374735E+02    0.197035E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.396478E+02    0.200587E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.395078E+02    0.224112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.372953E+02    0.234333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.353106E+02    0.249649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.340884E+02    0.236363E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.339851E+02    0.216520E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.349210E+02    0.196212E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.367868E+02    0.179443E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.388248E+02    0.173967E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.407710E+02    0.178379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.418743E+02    0.193857E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.419848E+02    0.214458E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.409900E+02    0.235146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.392425E+02    0.249654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.371061E+02    0.255380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.351572E+02    0.282929E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.323557E+02    0.266912E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138573E+03   -0.311452E+02    0.236701E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.316236E+02    0.201586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.338202E+02    0.168971E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.371623E+02    0.148187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.409420E+02    0.143503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.439624E+02    0.158814E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.454129E+02    0.189724E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.446740E+02    0.228776E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.421686E+02    0.262695E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.386847E+02    0.282152E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681335.583575021     
  ps_ts2 prof sum =   680938.199475318     
  trcom prof sum =    680938.199475318     
  ps_ts2 cur sum  =   16973.8859079824     
  trcom cur sum  =    16973.8859079824     
  
  antenna # iant =            2
  powecha_use(iant) =    683951.973968400     
  ps_ts2 prof sum =   683595.614969789     
  trcom prof sum =    683595.614969787     
  ps_ts2 cur sum  =   19744.8554493609     
  trcom cur sum  =    19744.8554493609     
  
  antenna # iant =            3
  powecha_use(iant) =    526346.688972802     
  ps_ts2 prof sum =   526028.884160558     
  trcom prof sum =    526028.884160559     
  ps_ts2 cur sum  =   11529.1143340795     
  trcom cur sum  =    11529.1143340795     
  
  antenna # iant =            4
  powecha_use(iant) =    588493.883596857     
  ps_ts2 prof sum =   588124.490054150     
  trcom prof sum =    588124.490054150     
  ps_ts2 cur sum  =   15819.1468824794     
  trcom cur sum  =    15819.1468824794     
  
  antenna # iant =            5
  powecha_use(iant) =    546863.708547895     
  ps_ts2 prof sum =   546536.864349030     
  trcom prof sum =    546536.864349029     
  ps_ts2 cur sum  =   16833.7601120576     
  trcom cur sum  =    16833.7601120576     
  
  Total ECH heating:      3025224.05300884     
  Total Current Drive:    80900.7626859598     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1387
 TA= 1.71000E+00 CPU TIME= 1.58884E-01 SECONDS.  DT= 1.32227E-04
  
 TEC1=    1.70999999999999     
 TEC2=    1.71499999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.56998861111106     
  %check_save_state: izleft hours =    76.4216666666667     
 --> plasma_hash("gframe"): TA= 1.710000E+00 NSTEP=  1387 Hash code:   53715923
 ->PRGCHK: bdy curvature ratio at t= 1.7150E+00 seconds is:  5.4796E-02
% MHDEQ: TG1=     1.710000 ; TG2=     1.715000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7753E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4796E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.710000 TO TG2=    1.715000 @ NSTEP     1387
   GFRAME TG2 MOMENTS CHECKSUM:  2.4928310352138D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7150E+00  1.7200E+00 total power(Watts):  3.0560E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.71500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.365707E+02    0.381813E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.347071E+02    0.382946E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.361471E+02    0.364088E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.382656E+02    0.369213E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.381197E+02    0.391628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.359063E+02    0.399970E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.340771E+02    0.412337E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.328546E+02    0.398152E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.327459E+02    0.379170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.337397E+02    0.360343E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.354538E+02    0.347275E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.373826E+02    0.343980E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.392691E+02    0.349946E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.403824E+02    0.365094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.404953E+02    0.384845E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.395222E+02    0.403945E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.378384E+02    0.416393E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.358147E+02    0.419424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.338841E+02    0.443628E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.311252E+02    0.426258E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.299691E+02    0.396558E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.304063E+02    0.363782E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.326762E+02    0.333917E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.359542E+02    0.316415E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.394945E+02    0.316284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.423872E+02    0.334076E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.439741E+02    0.364118E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.433701E+02    0.400547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.407486E+02    0.431329E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.373442E+02    0.446022E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.377559E+02    0.284948E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.356909E+02    0.288449E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.372820E+02    0.267081E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.394394E+02    0.271254E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.392566E+02    0.294580E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.370385E+02    0.304125E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.351298E+02    0.318010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.339394E+02    0.304125E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.339549E+02    0.283586E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.347459E+02    0.265355E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.365376E+02    0.250291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.386677E+02    0.244516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.404998E+02    0.250408E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.416687E+02    0.265273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.417392E+02    0.285821E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.408089E+02    0.305430E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.389446E+02    0.320092E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.369056E+02    0.324303E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.349206E+02    0.350860E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.321665E+02    0.334076E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.309308E+02    0.304473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.314608E+02    0.269790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.336095E+02    0.238909E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.370579E+02    0.217990E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.407357E+02    0.215386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.437142E+02    0.231828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.453080E+02    0.261743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.445993E+02    0.299775E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.419287E+02    0.333459E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.384285E+02    0.351306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.364533E+02    0.441947E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.345081E+02    0.442671E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.358768E+02    0.425404E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.380654E+02    0.430878E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.379824E+02    0.451952E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.357672E+02    0.458951E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.339297E+02    0.470179E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.328173E+02    0.455643E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.327321E+02    0.437516E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.335783E+02    0.420399E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.352152E+02    0.408326E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.372313E+02    0.405083E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.390964E+02    0.411976E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.401794E+02    0.427623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.403591E+02    0.446482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.395532E+02    0.463753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.376667E+02    0.475556E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.356484E+02    0.477732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.337688E+02    0.501800E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.311328E+02    0.482285E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.297875E+02    0.453787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.302639E+02    0.422445E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.324801E+02    0.393818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.356759E+02    0.377941E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.391918E+02    0.378986E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.423356E+02    0.396647E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.437519E+02    0.428624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.431960E+02    0.463074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.406329E+02    0.491658E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.372109E+02    0.505667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.371095E+02    0.337122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.351452E+02    0.339260E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.365709E+02    0.319970E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.387046E+02    0.324648E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.385878E+02    0.346964E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.363728E+02    0.355723E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.344619E+02    0.368807E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.332996E+02    0.354817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.333371E+02    0.334833E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.342338E+02    0.316082E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.358520E+02    0.303025E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.378810E+02    0.298548E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.397859E+02    0.304118E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.409243E+02    0.319315E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.410646E+02    0.339098E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.400142E+02    0.358671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.383381E+02    0.371329E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.363041E+02    0.374949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.342980E+02    0.401123E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.316690E+02    0.382785E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.303941E+02    0.353822E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.308807E+02    0.320423E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138266E+03   -0.329669E+02    0.290858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.364129E+02    0.271006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.399707E+02    0.270101E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.429006E+02    0.287190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.443274E+02    0.318377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.438813E+02    0.353907E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.412834E+02    0.385625E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.377771E+02    0.402618E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.379995E+02    0.214938E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.359272E+02    0.219271E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.375836E+02    0.196142E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.397627E+02    0.199714E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.396226E+02    0.223273E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.373125E+02    0.234389E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.352385E+02    0.250565E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.342769E+02    0.234602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.340869E+02    0.215610E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.351123E+02    0.194304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.368048E+02    0.179546E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.389377E+02    0.173068E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.407904E+02    0.178491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.419981E+02    0.192965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.421053E+02    0.213622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.410087E+02    0.235213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.392608E+02    0.249713E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.372153E+02    0.254595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.351733E+02    0.282971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.323709E+02    0.266955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138564E+03   -0.311583E+02    0.236749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.317197E+02    0.200653E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.338373E+02    0.169072E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.373627E+02    0.146141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.410601E+02    0.142566E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.440871E+02    0.157937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.454338E+02    0.189840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.448005E+02    0.227990E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.422893E+02    0.261966E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.387022E+02    0.282196E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.29 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686657.265841111     
  ps_ts2 prof sum =   686235.775915800     
  trcom prof sum =    686235.775915801     
  ps_ts2 cur sum  =   17062.4212000854     
  trcom cur sum  =    17062.4212000854     
  
  antenna # iant =            2
  powecha_use(iant) =    683786.087757673     
  ps_ts2 prof sum =   683366.889704956     
  trcom prof sum =    683366.889704955     
  ps_ts2 cur sum  =   19668.4459371249     
  trcom cur sum  =    19668.4459371249     
  
  antenna # iant =            3
  powecha_use(iant) =    525783.812575267     
  ps_ts2 prof sum =   525454.320461920     
  trcom prof sum =    525454.320461920     
  ps_ts2 cur sum  =   11493.7992068159     
  trcom cur sum  =    11493.7992068160     
  
  antenna # iant =            4
  powecha_use(iant) =    613090.180838707     
  ps_ts2 prof sum =   612739.421367685     
  trcom prof sum =    612739.421367684     
  ps_ts2 cur sum  =   16429.2194310847     
  trcom cur sum  =    16429.2194310847     
  
  antenna # iant =            5
  powecha_use(iant) =    546719.370553663     
  ps_ts2 prof sum =   546419.373745822     
  trcom prof sum =    546419.373745821     
  ps_ts2 cur sum  =   16757.4088746734     
  trcom cur sum  =    16757.4088746734     
  
  Total ECH heating:      3054215.78119618     
  Total Current Drive:    81411.2946497843     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1398
 TA= 1.71500E+00 CPU TIME= 1.72786E-01 SECONDS.  DT= 7.53856E-04
  
 TEC1=    1.71499999999999     
 TEC2=    1.71999999999999     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.58705666666629     
  %check_save_state: izleft hours =    76.4044444444445     
 --> plasma_hash("gframe"): TA= 1.715000E+00 NSTEP=  1398 Hash code:   75362533
 ->PRGCHK: bdy curvature ratio at t= 1.7200E+00 seconds is:  5.4762E-02
% MHDEQ: TG1=     1.715000 ; TG2=     1.720000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7741E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4762E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.715000 TO TG2=    1.720000 @ NSTEP     1398
   GFRAME TG2 MOMENTS CHECKSUM:  2.4927277522209D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.00549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.95508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.28510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.90895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.65103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.85105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.77799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.02314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.06124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.95312E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.08715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.25459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.51484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.43299E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -2.37295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.74380E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.19738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.76564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.11515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.11515E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7200E+00  1.7250E+00 total power(Watts):  3.0491E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.72000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.366802E+02    0.381371E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.347246E+02    0.382994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.361655E+02    0.364128E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.382849E+02    0.369265E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.381390E+02    0.391684E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.359245E+02    0.400025E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.340945E+02    0.412391E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.330390E+02    0.397282E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.329303E+02    0.378170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.336717E+02    0.360951E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.354717E+02    0.347318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.374954E+02    0.343426E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.392890E+02    0.349996E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.405015E+02    0.364613E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.406141E+02    0.384444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.396385E+02    0.403597E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.378575E+02    0.416456E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.358330E+02    0.419484E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.339013E+02    0.443708E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.313005E+02    0.425553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.299847E+02    0.396602E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.305029E+02    0.363221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.326933E+02    0.333948E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.359726E+02    0.316446E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.395147E+02    0.316331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.424086E+02    0.334129E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.439958E+02    0.364190E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.433915E+02    0.400621E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.409649E+02    0.430775E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.373625E+02    0.446116E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.377756E+02    0.285014E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.358891E+02    0.286978E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.373017E+02    0.267169E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.394598E+02    0.271336E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.393735E+02    0.293912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.370576E+02    0.304166E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.351481E+02    0.318046E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.339576E+02    0.304157E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.338873E+02    0.284434E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.347644E+02    0.265433E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.366481E+02    0.249528E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.386881E+02    0.244609E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.405210E+02    0.250507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.416903E+02    0.265372E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.418619E+02    0.285161E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.408298E+02    0.305484E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.390606E+02    0.319480E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.369247E+02    0.324344E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.350264E+02    0.350302E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.321834E+02    0.334106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.310269E+02    0.303760E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138521E+03   -0.314780E+02    0.269859E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.337983E+02    0.237182E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.371700E+02    0.217144E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.407577E+02    0.215489E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.437370E+02    0.231936E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.453325E+02    0.261849E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.445160E+02    0.300531E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.421529E+02    0.332291E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.385395E+02    0.350792E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.364714E+02    0.442034E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.346118E+02    0.442449E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.359843E+02    0.425104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.380844E+02    0.430948E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.380010E+02    0.452058E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.357847E+02    0.459057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.339464E+02    0.470288E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.329164E+02    0.455460E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.327492E+02    0.437590E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.335954E+02    0.420447E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.352330E+02    0.408379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.372501E+02    0.405140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.391170E+02    0.412038E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.403939E+02    0.427033E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.403786E+02    0.446590E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.394771E+02    0.464093E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.376847E+02    0.475680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.356656E+02    0.477862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.337823E+02    0.501924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.311483E+02    0.482398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.299567E+02    0.453281E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.304357E+02    0.421703E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.324142E+02    0.394338E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.357835E+02    0.377471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.393078E+02    0.378549E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.423567E+02    0.396715E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.437735E+02    0.428702E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.432166E+02    0.463207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.408457E+02    0.491561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.372284E+02    0.505801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.371286E+02    0.337162E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.352519E+02    0.338674E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.366807E+02    0.319330E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.388200E+02    0.324048E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.386072E+02    0.347013E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.363917E+02    0.355767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.345663E+02    0.368301E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.334866E+02    0.353674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.333545E+02    0.334864E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.342517E+02    0.316116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.359634E+02    0.302316E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.379950E+02    0.297872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.398066E+02    0.304176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.409490E+02    0.319338E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.410854E+02    0.339149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.401323E+02    0.358173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.383576E+02    0.371379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.363217E+02    0.374993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.344015E+02    0.400737E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.316047E+02    0.383337E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.304108E+02    0.353855E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.308971E+02    0.320449E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.331529E+02    0.289364E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.364320E+02    0.271080E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.400891E+02    0.269396E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.430259E+02    0.286536E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.445611E+02    0.317155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.439032E+02    0.353961E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.413038E+02    0.385687E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.377960E+02    0.402677E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.381136E+02    0.214100E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.361259E+02    0.217485E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.376044E+02    0.196254E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.397844E+02    0.199828E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.396440E+02    0.223365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.373326E+02    0.234473E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.354343E+02    0.248921E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.342096E+02    0.235576E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.341058E+02    0.215688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.350448E+02    0.195393E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.367348E+02    0.180680E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.389592E+02    0.173201E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.409111E+02    0.177640E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.420168E+02    0.193126E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.421278E+02    0.213730E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.411298E+02    0.234444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.392778E+02    0.249835E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.372350E+02    0.254683E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.351919E+02    0.283034E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.323885E+02    0.267020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.311755E+02    0.236808E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138450E+03   -0.317373E+02    0.200731E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.339413E+02    0.168136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.373848E+02    0.146282E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.410838E+02    0.142720E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.441122E+02    0.158110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.455653E+02    0.189044E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.448239E+02    0.228105E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.423098E+02    0.262074E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.387223E+02    0.282260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682280.555393074     
  ps_ts2 prof sum =   681909.254125159     
  trcom prof sum =    681909.254125160     
  ps_ts2 cur sum  =   16930.6889139391     
  trcom cur sum  =    16930.6889139391     
  
  antenna # iant =            2
  powecha_use(iant) =    684881.251161244     
  ps_ts2 prof sum =   684484.078408336     
  trcom prof sum =    684484.078408335     
  ps_ts2 cur sum  =   19657.3425016686     
  trcom cur sum  =    19657.3425016686     
  
  antenna # iant =            3
  powecha_use(iant) =    525921.890993558     
  ps_ts2 prof sum =   525612.564699881     
  trcom prof sum =    525612.564671857     
  ps_ts2 cur sum  =   11486.6851198705     
  trcom cur sum  =    11486.6851198705     
  
  antenna # iant =            4
  powecha_use(iant) =    608274.716211737     
  ps_ts2 prof sum =   607963.928602449     
  trcom prof sum =    607963.928602449     
  ps_ts2 cur sum  =   16271.8457571788     
  trcom cur sum  =    16271.8457571788     
  
  antenna # iant =            5
  powecha_use(iant) =    547719.201107859     
  ps_ts2 prof sum =   547406.238169250     
  trcom prof sum =    547406.238169250     
  ps_ts2 cur sum  =   16741.4079420140     
  trcom cur sum  =    16741.4079420140     
  
  Total ECH heating:      3047376.06397705     
  Total Current Drive:    81087.9702346709     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1403
 TA= 1.72000E+00 CPU TIME= 1.59470E-01 SECONDS.  DT= 8.16938E-04
  
 TEC1=    1.71999999999999     
 TEC2=    1.72499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.59816111111104     
  %check_save_state: izleft hours =    76.3933333333333     
 --> plasma_hash("gframe"): TA= 1.720000E+00 NSTEP=  1403 Hash code:  108575302
 ->PRGCHK: bdy curvature ratio at t= 1.7250E+00 seconds is:  5.4729E-02
% MHDEQ: TG1=     1.720000 ; TG2=     1.725000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7729E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4729E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.720000 TO TG2=    1.725000 @ NSTEP     1403
   GFRAME TG2 MOMENTS CHECKSUM:  2.4926244692280D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7250E+00  1.7300E+00 total power(Watts):  3.0287E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.72500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.367004E+02    0.381440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.348305E+02    0.382565E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.361849E+02    0.364190E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.383054E+02    0.369336E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.381593E+02    0.391762E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.360330E+02    0.399665E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.341131E+02    0.412463E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.330569E+02    0.397349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.329486E+02    0.378238E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.338613E+02    0.359874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.354911E+02    0.347378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.375156E+02    0.343483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.393100E+02    0.350064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.405230E+02    0.364688E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.406356E+02    0.384526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.396625E+02    0.403670E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.378776E+02    0.416539E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.358520E+02    0.419563E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.340043E+02    0.443484E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.313173E+02    0.425619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.300014E+02    0.396662E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.305201E+02    0.363275E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.326282E+02    0.334647E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.359925E+02    0.316505E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.395363E+02    0.316393E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.426359E+02    0.332988E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.439146E+02    0.364781E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.434142E+02    0.400710E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.409861E+02    0.430873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.373818E+02    0.446223E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.378903E+02    0.284336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.359093E+02    0.287053E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.373229E+02    0.267270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.395788E+02    0.270660E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.393954E+02    0.293991E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.371707E+02    0.303523E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.350791E+02    0.318785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.341488E+02    0.302760E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.339065E+02    0.284499E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.349592E+02    0.263870E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.366690E+02    0.249625E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.387100E+02    0.244705E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.406424E+02    0.249787E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.418144E+02    0.264696E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.418849E+02    0.285257E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.408521E+02    0.305556E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.390819E+02    0.319547E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.370369E+02    0.323745E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.350455E+02    0.350361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.322019E+02    0.334164E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.310447E+02    0.303811E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.315770E+02    0.269103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.337328E+02    0.238161E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.371912E+02    0.217243E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.407828E+02    0.215581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.438660E+02    0.231196E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.452503E+02    0.262760E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.447519E+02    0.299247E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.420740E+02    0.332968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.385618E+02    0.350853E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.364905E+02    0.442125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.346301E+02    0.442543E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.360030E+02    0.425188E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.381043E+02    0.431040E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.380204E+02    0.452167E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.358034E+02    0.459171E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.339637E+02    0.470414E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.329332E+02    0.455566E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.327662E+02    0.437679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.336985E+02    0.420138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.353407E+02    0.408034E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.372698E+02    0.405219E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.391375E+02    0.412122E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.403179E+02    0.427452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.405936E+02    0.446168E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.394969E+02    0.464228E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.377037E+02    0.475814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.357718E+02    0.477798E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.338032E+02    0.502055E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.312433E+02    0.482324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.299726E+02    0.453379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.303745E+02    0.422161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.324318E+02    0.394403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.358042E+02    0.377527E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.393286E+02    0.378626E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.422776E+02    0.397221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.438987E+02    0.428506E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.432383E+02    0.463348E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.408656E+02    0.491726E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.372467E+02    0.505947E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.371489E+02    0.337217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.352712E+02    0.338732E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.367012E+02    0.319398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.388410E+02    0.324107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.387246E+02    0.346486E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.365015E+02    0.355253E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.345852E+02    0.368366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.335050E+02    0.353729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.333730E+02    0.334916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.342709E+02    0.316168E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.359834E+02    0.302380E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.380161E+02    0.297940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.398283E+02    0.304242E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.410668E+02    0.318783E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.411074E+02    0.339222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.401539E+02    0.358249E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.383780E+02    0.371450E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.363433E+02    0.375046E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.344199E+02    0.400806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.316219E+02    0.383396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.304277E+02    0.353904E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.309147E+02    0.320495E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.330876E+02    0.290198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.364526E+02    0.271177E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.401117E+02    0.269513E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.430495E+02    0.286636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.445851E+02    0.317234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.438222E+02    0.354587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.413255E+02    0.385775E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.379094E+02    0.402329E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.381354E+02    0.214208E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.361474E+02    0.217577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.376266E+02    0.196370E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.398078E+02    0.199947E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.396669E+02    0.223469E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.374462E+02    0.233681E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.354547E+02    0.249014E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.342293E+02    0.235659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.341268E+02    0.215778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.350660E+02    0.195503E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.369380E+02    0.178790E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.389831E+02    0.173353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.409354E+02    0.177794E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.420421E+02    0.193258E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.421521E+02    0.213843E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.411529E+02    0.234555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.393032E+02    0.249916E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.372561E+02    0.254783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.351233E+02    0.283882E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.324076E+02    0.267104E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.311942E+02    0.236881E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.317570E+02    0.200821E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.339623E+02    0.168262E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.373171E+02    0.147502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.411093E+02    0.142885E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.441387E+02    0.158284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.455918E+02    0.189203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.448492E+02    0.228232E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.423345E+02    0.262194E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.388392E+02    0.281588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677197.787731011     
  ps_ts2 prof sum =   676820.561602665     
  trcom prof sum =    676820.561602665     
  ps_ts2 cur sum  =   16789.7874862853     
  trcom cur sum  =    16789.7874862853     
  
  antenna # iant =            2
  powecha_use(iant) =    681845.800177254     
  ps_ts2 prof sum =   681472.553494536     
  trcom prof sum =    681472.553494535     
  ps_ts2 cur sum  =   19534.9714491590     
  trcom cur sum  =    19534.9714491589     
  
  antenna # iant =            3
  powecha_use(iant) =    525607.975909526     
  ps_ts2 prof sum =   525281.053091176     
  trcom prof sum =    525281.053060055     
  ps_ts2 cur sum  =   11476.7278797109     
  trcom cur sum  =    11476.7278797109     
  
  antenna # iant =            4
  powecha_use(iant) =    597096.456488567     
  ps_ts2 prof sum =   596765.290776862     
  trcom prof sum =    596765.290776861     
  ps_ts2 cur sum  =   15951.4931032422     
  trcom cur sum  =    15951.4931032422     
  
  antenna # iant =            5
  powecha_use(iant) =    546926.285339383     
  ps_ts2 prof sum =   546583.427521983     
  trcom prof sum =    546583.427521982     
  ps_ts2 cur sum  =   16677.5646139631     
  trcom cur sum  =    16677.5646139631     
  
  Total ECH heating:      3026922.88645610     
  Total Current Drive:    80430.5445323604     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1408
 TA= 1.72500E+00 CPU TIME= 1.45314E-01 SECONDS.  DT= 3.62305E-04
  
 TEC1=    1.72499999999998     
 TEC2=    1.72999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.61315388888897     
  %check_save_state: izleft hours =    76.3783333333333     
 --> plasma_hash("gframe"): TA= 1.725000E+00 NSTEP=  1408 Hash code:   63406470
 ->PRGCHK: bdy curvature ratio at t= 1.7300E+00 seconds is:  5.4698E-02
% MHDEQ: TG1=     1.725000 ; TG2=     1.730000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4698E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.725000 TO TG2=    1.730000 @ NSTEP     1408
   GFRAME TG2 MOMENTS CHECKSUM:  2.4925211862351D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.13335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.50925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.11480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.63131E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.72746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.93503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.81427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.80774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.18493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.07196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.60025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.98947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.97048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.03057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.34206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.54308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  2.26203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.09633E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.04626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.97554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.91329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.91329E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7300E+00  1.7350E+00 total power(Watts):  3.0195E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.73000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.367166E+02    0.381477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.348458E+02    0.382598E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.362006E+02    0.364227E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.384161E+02    0.368851E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.382698E+02    0.391347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.360490E+02    0.399702E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.341281E+02    0.412498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.330719E+02    0.397378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.329636E+02    0.378265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.338765E+02    0.359909E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.355070E+02    0.347419E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.375319E+02    0.343538E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.394235E+02    0.349533E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.405406E+02    0.364732E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.406529E+02    0.384571E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.396765E+02    0.403721E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.379870E+02    0.416194E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.359569E+02    0.419221E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.340194E+02    0.443537E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.312514E+02    0.426040E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.300143E+02    0.396689E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.305339E+02    0.363304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.326465E+02    0.334664E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.360085E+02    0.316554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.395536E+02    0.316450E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.425521E+02    0.333646E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.441420E+02    0.363814E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.433300E+02    0.401166E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.409057E+02    0.431236E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.374898E+02    0.445986E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.379072E+02    0.284422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.359252E+02    0.287125E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.374320E+02    0.266573E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.395964E+02    0.270772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.394126E+02    0.294070E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.371871E+02    0.303578E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.352719E+02    0.317464E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.341644E+02    0.302812E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.339220E+02    0.284581E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.349755E+02    0.263965E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.366853E+02    0.249758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.387276E+02    0.244833E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.406605E+02    0.249919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.418329E+02    0.264820E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.419032E+02    0.285355E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.408702E+02    0.305620E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.390991E+02    0.319590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.370534E+02    0.323793E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.350610E+02    0.350397E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.323812E+02    0.332882E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.310590E+02    0.303855E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.315916E+02    0.269193E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.337489E+02    0.238271E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.372087E+02    0.217373E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.408962E+02    0.214856E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.438855E+02    0.231356E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.454837E+02    0.261348E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.447712E+02    0.299340E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.420923E+02    0.333021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.385786E+02    0.350896E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.365063E+02    0.442173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.346456E+02    0.442581E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.360189E+02    0.425225E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.381207E+02    0.431084E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.380368E+02    0.452231E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.359072E+02    0.458986E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.339788E+02    0.470474E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.329476E+02    0.455625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.328634E+02    0.437391E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.337135E+02    0.420168E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.353559E+02    0.408072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.373779E+02    0.404841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.391546E+02    0.412167E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.403351E+02    0.427503E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.406110E+02    0.446223E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.395139E+02    0.464298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.378120E+02    0.475704E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.357872E+02    0.477868E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.339020E+02    0.502015E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.312564E+02    0.482389E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.299087E+02    0.453728E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.303886E+02    0.422187E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.326117E+02    0.393487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.358172E+02    0.377583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.393455E+02    0.378674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.422960E+02    0.397271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.439175E+02    0.428557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.433579E+02    0.463229E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.408829E+02    0.491816E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.373532E+02    0.505938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.371652E+02    0.337261E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.352867E+02    0.338780E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.367173E+02    0.319438E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.388580E+02    0.324158E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.387382E+02    0.346550E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.365174E+02    0.355288E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.346001E+02    0.368404E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.335200E+02    0.353763E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.333038E+02    0.335605E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.342018E+02    0.316887E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.359998E+02    0.302438E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.380328E+02    0.298009E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.399433E+02    0.303609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.410804E+02    0.318869E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.411252E+02    0.339266E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.401714E+02    0.358294E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.383948E+02    0.371492E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.363591E+02    0.375087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.344352E+02    0.400839E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.317982E+02    0.382404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.304416E+02    0.353932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.309286E+02    0.320528E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.331029E+02    0.290270E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.365597E+02    0.270480E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.401296E+02    0.269628E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.430684E+02    0.286732E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.444987E+02    0.317937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.440496E+02    0.353564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.413457E+02    0.385813E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.379258E+02    0.402374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.381531E+02    0.214337E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.360750E+02    0.218633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.376447E+02    0.196525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.399229E+02    0.199155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.396852E+02    0.223607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.374637E+02    0.233805E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.354710E+02    0.249129E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.342456E+02    0.235764E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.341433E+02    0.215897E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.350836E+02    0.195650E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.369565E+02    0.178969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.390966E+02    0.172532E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.409554E+02    0.177996E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.421620E+02    0.192490E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.421716E+02    0.213997E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.411715E+02    0.234698E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.394170E+02    0.249206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.372730E+02    0.254902E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.353158E+02    0.282413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.325049E+02    0.266367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.312893E+02    0.236070E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.317730E+02    0.200954E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.339803E+02    0.168433E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.375178E+02    0.145542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.412275E+02    0.142034E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.442635E+02    0.157508E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.456130E+02    0.189403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.449752E+02    0.227539E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.423534E+02    0.262320E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.388565E+02    0.281681E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688097.334539038     
  ps_ts2 prof sum =   687680.443694415     
  trcom prof sum =    687680.443694415     
  ps_ts2 cur sum  =   17025.1563360255     
  trcom cur sum  =    17025.1563360255     
  
  antenna # iant =            2
  powecha_use(iant) =    678865.125778842     
  ps_ts2 prof sum =   678502.782027132     
  trcom prof sum =    678502.782027131     
  ps_ts2 cur sum  =   19391.2677288790     
  trcom cur sum  =    19391.2677288789     
  
  antenna # iant =            3
  powecha_use(iant) =    525454.273443111     
  ps_ts2 prof sum =   525126.600091739     
  trcom prof sum =    525126.600091740     
  ps_ts2 cur sum  =   11457.4882796173     
  trcom cur sum  =    11457.4882796173     
  
  antenna # iant =            4
  powecha_use(iant) =    580847.562363017     
  ps_ts2 prof sum =   580488.673917717     
  trcom prof sum =    580488.673917716     
  ps_ts2 cur sum  =   15478.6152622611     
  trcom cur sum  =    15478.6152622611     
  
  antenna # iant =            5
  powecha_use(iant) =    546251.585720545     
  ps_ts2 prof sum =   545931.043244431     
  trcom prof sum =    545931.043244430     
  ps_ts2 cur sum  =   16597.0041347435     
  trcom cur sum  =    16597.0041347435     
  
  Total ECH heating:      3017729.54297543     
  Total Current Drive:    79949.5317415263     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1415
 TA= 1.73000E+00 CPU TIME= 1.59677E-01 SECONDS.  DT= 1.15111E-03
  
 TEC1=    1.72999999999998     
 TEC2=    1.73499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.62681166666653     
  %check_save_state: izleft hours =    76.3647222222222     
 --> plasma_hash("gframe"): TA= 1.730000E+00 NSTEP=  1415 Hash code:   71622439
 ->PRGCHK: bdy curvature ratio at t= 1.7350E+00 seconds is:  5.4668E-02
% MHDEQ: TG1=     1.730000 ; TG2=     1.735000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7706E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4668E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.730000 TO TG2=    1.735000 @ NSTEP     1415
   GFRAME TG2 MOMENTS CHECKSUM:  2.4924179032421D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7350E+00  1.7400E+00 total power(Watts):  3.0244E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.73500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.367321E+02    0.381501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.348607E+02    0.382621E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.363060E+02    0.363707E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.384322E+02    0.368879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.382860E+02    0.391373E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.360643E+02    0.399727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.342280E+02    0.412108E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.330024E+02    0.397855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.328937E+02    0.378806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.338907E+02    0.359926E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.356106E+02    0.346863E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.376406E+02    0.342954E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.394399E+02    0.349565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.405574E+02    0.364766E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.406698E+02    0.384603E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.396898E+02    0.403757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.380028E+02    0.416220E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.359721E+02    0.419243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.340335E+02    0.443582E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.312652E+02    0.426051E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.301050E+02    0.396228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.305470E+02    0.363312E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.328239E+02    0.333410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.361142E+02    0.315912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.396669E+02    0.315831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.425696E+02    0.333689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.441601E+02    0.363859E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.435534E+02    0.400395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.409227E+02    0.431266E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.375056E+02    0.446029E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.379230E+02    0.284493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.360300E+02    0.286430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.374479E+02    0.266668E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.396130E+02    0.270870E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.395259E+02    0.293406E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.372028E+02    0.303627E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.352869E+02    0.317498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.340925E+02    0.303578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.341085E+02    0.283089E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.349030E+02    0.264886E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.367014E+02    0.249849E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.388390E+02    0.244094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.406777E+02    0.250038E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.418505E+02    0.264933E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.419208E+02    0.285432E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.409865E+02    0.304989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.391156E+02    0.319630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.370691E+02    0.323829E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.349883E+02    0.351017E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.323131E+02    0.333557E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.310724E+02    0.303893E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.316055E+02    0.269271E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.337640E+02    0.238366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.372251E+02    0.217478E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.409165E+02    0.214963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.439041E+02    0.231491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.455023E+02    0.261482E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.446837E+02    0.300093E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.421098E+02    0.333065E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.385947E+02    0.350927E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.366120E+02    0.441903E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.346597E+02    0.442628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.361232E+02    0.424884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.382302E+02    0.430782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.381456E+02    0.452009E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.359226E+02    0.459031E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.340781E+02    0.470305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.329617E+02    0.455668E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.328776E+02    0.437417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.337279E+02    0.420187E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.353709E+02    0.408093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.373939E+02    0.404864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.392665E+02    0.411800E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.403520E+02    0.427530E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.405307E+02    0.446536E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.397207E+02    0.463921E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.378280E+02    0.475748E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.358025E+02    0.477917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.339163E+02    0.502078E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.312698E+02    0.482442E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.299215E+02    0.453763E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.304011E+02    0.422208E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.326258E+02    0.393507E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.358331E+02    0.377597E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.394580E+02    0.378218E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.425158E+02    0.396468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.439357E+02    0.428592E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.433758E+02    0.463291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.409965E+02    0.491765E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.373688E+02    0.506010E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.372729E+02    0.336670E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.353014E+02    0.338806E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.367330E+02    0.319474E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.388745E+02    0.324193E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.387565E+02    0.346569E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.365331E+02    0.355312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.345280E+02    0.368963E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.334496E+02    0.354371E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.334872E+02    0.334343E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.343858E+02    0.315559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.359251E+02    0.303201E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.381427E+02    0.297351E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.399602E+02    0.303673E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.411020E+02    0.318880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.412420E+02    0.338707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.402857E+02    0.357777E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.385050E+02    0.371008E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.364647E+02    0.374604E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.344499E+02    0.400862E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.318119E+02    0.382423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.304548E+02    0.353951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.310217E+02    0.319853E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.331173E+02    0.290326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.365753E+02    0.270569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.401464E+02    0.269728E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.431911E+02    0.286081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.447279E+02    0.316729E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.440677E+02    0.353604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.414591E+02    0.385400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.379418E+02    0.402398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.79 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.382633E+02    0.213533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.362699E+02    0.216875E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.377536E+02    0.195684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.399408E+02    0.199299E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.397982E+02    0.222834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.374796E+02    0.233923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.353974E+02    0.250093E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.344329E+02    0.234072E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.343300E+02    0.214111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.352743E+02    0.193814E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.369737E+02    0.179122E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.391146E+02    0.172700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.409740E+02    0.178159E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.421806E+02    0.192646E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.422909E+02    0.213226E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.412889E+02    0.233954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.394338E+02    0.249321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.373808E+02    0.254175E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.353308E+02    0.282479E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.325191E+02    0.266451E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.313033E+02    0.236159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.318683E+02    0.200072E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.339970E+02    0.168579E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.375359E+02    0.145710E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.412471E+02    0.142220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.442837E+02    0.157704E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.458461E+02    0.187701E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.449944E+02    0.227674E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.424729E+02    0.261646E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.388729E+02    0.281760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688529.102915282     
  ps_ts2 prof sum =   688098.997173865     
  trcom prof sum =    688098.997173865     
  ps_ts2 cur sum  =   16993.0360527443     
  trcom cur sum  =    16993.0360527443     
  
  antenna # iant =            2
  powecha_use(iant) =    682615.712399646     
  ps_ts2 prof sum =   682180.476613330     
  trcom prof sum =    682180.476613329     
  ps_ts2 cur sum  =   19430.5850251588     
  trcom cur sum  =    19430.5850251588     
  
  antenna # iant =            3
  powecha_use(iant) =    524513.916285309     
  ps_ts2 prof sum =   524197.845079596     
  trcom prof sum =    524197.845079597     
  ps_ts2 cur sum  =   11415.7135319166     
  trcom cur sum  =    11415.7135319166     
  
  antenna # iant =            4
  powecha_use(iant) =    583326.851402884     
  ps_ts2 prof sum =   582975.457117983     
  trcom prof sum =    582975.457117982     
  ps_ts2 cur sum  =   15498.6115583609     
  trcom cur sum  =    15498.6115583609     
  
  antenna # iant =            5
  powecha_use(iant) =    545407.690020370     
  ps_ts2 prof sum =   545138.520431285     
  trcom prof sum =    545138.520431284     
  ps_ts2 cur sum  =   16504.7111335629     
  trcom cur sum  =    16504.7111335629     
  
  Total ECH heating:      3022591.29641606     
  Total Current Drive:    79842.6573017435     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1419
 TA= 1.73500E+00 CPU TIME= 1.55326E-01 SECONDS.  DT= 7.64233E-04
  
 TEC1=    1.73499999999998     
 TEC2=    1.73999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.64240111111121     
  %check_save_state: izleft hours =    76.3491666666667     
 --> plasma_hash("gframe"): TA= 1.735000E+00 NSTEP=  1419 Hash code:   98858753
 ->PRGCHK: bdy curvature ratio at t= 1.7400E+00 seconds is:  5.4640E-02
% MHDEQ: TG1=     1.735000 ; TG2=     1.740000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4640E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.735000 TO TG2=    1.740000 @ NSTEP     1419
   GFRAME TG2 MOMENTS CHECKSUM:  2.4923146202492D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.24624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.41572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.25583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.05407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.71510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.95805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.95840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.76951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.27166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.11506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.31031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.02156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.86746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.53188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.18951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.64029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.24719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.52467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.91283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.16086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.98672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.98672E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7400E+00  1.7450E+00 total power(Watts):  3.0149E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.74000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.368303E+02    0.380990E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.348676E+02    0.382596E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.363135E+02    0.363698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.384400E+02    0.368872E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.382939E+02    0.391340E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.361615E+02    0.399244E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.342358E+02    0.412050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.331769E+02    0.396898E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.330673E+02    0.377749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.338121E+02    0.360490E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.356175E+02    0.346864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.376478E+02    0.342975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.394477E+02    0.349585E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.406636E+02    0.364241E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.407767E+02    0.384112E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.397981E+02    0.403296E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.380111E+02    0.416159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.359803E+02    0.419180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.340416E+02    0.443515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.314319E+02    0.425237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.301118E+02    0.396190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.306320E+02    0.362729E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.327438E+02    0.334102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.361206E+02    0.315962E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.396750E+02    0.315894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.426798E+02    0.333132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.440645E+02    0.364363E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.435624E+02    0.400354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.411282E+02    0.430562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.375143E+02    0.445959E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.380237E+02    0.283865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.360371E+02    0.286546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.374549E+02    0.266825E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.397169E+02    0.270248E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.395331E+02    0.293513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.373018E+02    0.302997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.352935E+02    0.317552E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.340992E+02    0.303652E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.340295E+02    0.283984E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.349099E+02    0.265047E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.367993E+02    0.249185E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.388466E+02    0.244303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.407840E+02    0.249420E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.419589E+02    0.264333E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.420296E+02    0.284841E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.409942E+02    0.305087E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.392188E+02    0.319028E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.371677E+02    0.323214E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.351706E+02    0.349851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.323192E+02    0.333588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.311585E+02    0.303222E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.316115E+02    0.269411E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.339414E+02    0.236764E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.373247E+02    0.216768E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.409242E+02    0.215199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.440168E+02    0.230867E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.454034E+02    0.262464E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.449029E+02    0.298839E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.422189E+02    0.332500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.386972E+02    0.350368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.366205E+02    0.441838E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.347543E+02    0.442257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.361319E+02    0.424820E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.382390E+02    0.430708E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.381546E+02    0.451945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.359313E+02    0.458963E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.340864E+02    0.470238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.330525E+02    0.455333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.328851E+02    0.437349E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.337349E+02    0.420124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.353787E+02    0.408039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.374022E+02    0.404815E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.392748E+02    0.411750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.404583E+02    0.427128E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.405399E+02    0.446472E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.396349E+02    0.464069E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.378370E+02    0.475689E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.358110E+02    0.477858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.339252E+02    0.502006E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.312785E+02    0.482369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.300822E+02    0.453120E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.305658E+02    0.421350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.325498E+02    0.393939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.359295E+02    0.377076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.394661E+02    0.378193E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.424235E+02    0.396847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.440482E+02    0.428215E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.433859E+02    0.463226E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.410071E+02    0.491681E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.373784E+02    0.505933E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.372799E+02    0.336702E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.353968E+02    0.338198E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.368312E+02    0.318860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.389769E+02    0.323596E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.388587E+02    0.346006E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.366312E+02    0.354757E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.347089E+02    0.367872E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.336258E+02    0.353199E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.334938E+02    0.334361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.343937E+02    0.315604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.361115E+02    0.301843E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.381497E+02    0.297443E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.399676E+02    0.303756E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.412090E+02    0.318301E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.412496E+02    0.338740E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.402935E+02    0.357783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.385126E+02    0.370993E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.364723E+02    0.374583E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.345438E+02    0.400372E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.317374E+02    0.382909E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.305399E+02    0.353346E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.310279E+02    0.319896E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.332920E+02    0.288889E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.365825E+02    0.270723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.402514E+02    0.269112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.431951E+02    0.286239E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.446305E+02    0.317435E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.439718E+02    0.354155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.414688E+02    0.385367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.380431E+02    0.401933E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.382718E+02    0.213752E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.362779E+02    0.217084E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.377625E+02    0.195937E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.399495E+02    0.199539E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.398064E+02    0.223052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.374871E+02    0.234117E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.355820E+02    0.248558E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.343544E+02    0.235152E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.342521E+02    0.215250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.351951E+02    0.195022E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.370727E+02    0.178378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.391243E+02    0.172986E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.410814E+02    0.177468E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.421898E+02    0.192914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.422987E+02    0.213473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.412966E+02    0.234176E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.394416E+02    0.249519E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.373882E+02    0.254358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.352500E+02    0.283386E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.325257E+02    0.266601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.313107E+02    0.236334E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.318761E+02    0.200279E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.340904E+02    0.167791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.375463E+02    0.146000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.412579E+02    0.142530E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.442943E+02    0.158032E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.457485E+02    0.188943E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.452145E+02    0.226209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.424806E+02    0.261840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.389756E+02    0.281146E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684305.580169614     
  ps_ts2 prof sum =   683901.323815812     
  trcom prof sum =    683901.323815812     
  ps_ts2 cur sum  =   16815.5611759699     
  trcom cur sum  =    16815.5611759699     
  
  antenna # iant =            2
  powecha_use(iant) =    679539.531418054     
  ps_ts2 prof sum =   679151.800858289     
  trcom prof sum =    679151.800858288     
  ps_ts2 cur sum  =   19241.4999930346     
  trcom cur sum  =    19241.4999930346     
  
  antenna # iant =            3
  powecha_use(iant) =    525370.660361608     
  ps_ts2 prof sum =   525039.298832023     
  trcom prof sum =    525039.298832024     
  ps_ts2 cur sum  =   11391.5643013729     
  trcom cur sum  =    11391.5643013729     
  
  antenna # iant =            4
  powecha_use(iant) =    579469.082754074     
  ps_ts2 prof sum =   579155.805947158     
  trcom prof sum =    579155.805947157     
  ps_ts2 cur sum  =   15322.0480219805     
  trcom cur sum  =    15322.0480219805     
  
  antenna # iant =            5
  powecha_use(iant) =    546257.177936247     
  ps_ts2 prof sum =   545943.916399831     
  trcom prof sum =    545943.916399831     
  ps_ts2 cur sum  =   16435.8080073715     
  trcom cur sum  =    16435.8080073714     
  
  Total ECH heating:      3013192.14585311     
  Total Current Drive:    79206.4814997294     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1424
 TA= 1.74000E+00 CPU TIME= 1.61257E-01 SECONDS.  DT= 7.42149E-04
  
 TEC1=    1.73999999999998     
 TEC2=    1.74499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.65604805555517     
  %check_save_state: izleft hours =    76.3355555555556     
 --> plasma_hash("gframe"): TA= 1.740000E+00 NSTEP=  1424 Hash code:   27564249
 ->PRGCHK: bdy curvature ratio at t= 1.7450E+00 seconds is:  5.4614E-02
% MHDEQ: TG1=     1.740000 ; TG2=     1.745000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4614E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.740000 TO TG2=    1.745000 @ NSTEP     1424
   GFRAME TG2 MOMENTS CHECKSUM:  2.4922113372563D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7450E+00  1.7500E+00 total power(Watts):  3.0074E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.74500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.368377E+02    0.380970E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.349637E+02    0.382069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.363209E+02    0.363698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.385417E+02    0.368351E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.383959E+02    0.390851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.361694E+02    0.399196E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.342437E+02    0.411996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.331838E+02    0.396858E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.330742E+02    0.377728E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.339894E+02    0.359361E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.356246E+02    0.346895E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.376549E+02    0.343020E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.395514E+02    0.349039E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.406715E+02    0.364243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.407852E+02    0.384086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.398067E+02    0.403250E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.381138E+02    0.415719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.360773E+02    0.418739E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.341344E+02    0.443140E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.314393E+02    0.425172E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.301182E+02    0.396146E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.306383E+02    0.362726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.327535E+02    0.334118E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.361275E+02    0.316031E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.397788E+02    0.315303E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.426876E+02    0.333182E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.442812E+02    0.363359E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.436741E+02    0.399910E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.410395E+02    0.430804E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.376150E+02    0.445602E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.380310E+02    0.284011E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.360441E+02    0.286676E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.375563E+02    0.266197E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.397245E+02    0.270433E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.395406E+02    0.293638E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.373090E+02    0.303094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.353883E+02    0.316935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.342778E+02    0.302287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.340355E+02    0.284113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.350916E+02    0.263585E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.368067E+02    0.249395E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.388554E+02    0.244513E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.407916E+02    0.249645E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.419667E+02    0.264540E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.420372E+02    0.284994E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.410018E+02    0.305186E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.392263E+02    0.319099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.371749E+02    0.323275E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.351780E+02    0.349865E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.324902E+02    0.332318E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.311646E+02    0.303306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.316985E+02    0.268740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.338638E+02    0.237858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.373329E+02    0.217003E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.410314E+02    0.214545E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.440250E+02    0.231136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.456249E+02    0.261151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.448059E+02    0.299649E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.422267E+02    0.332552E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.387045E+02    0.350389E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.366285E+02    0.441774E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.347662E+02    0.442161E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.361397E+02    0.424759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.382472E+02    0.430654E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.381635E+02    0.451878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.360285E+02    0.458650E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.340946E+02    0.470172E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.330620E+02    0.455259E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.328932E+02    0.437276E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.338277E+02    0.419681E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.354744E+02    0.407566E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.375021E+02    0.404346E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.392834E+02    0.411694E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.404673E+02    0.427059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.407435E+02    0.445863E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.396446E+02    0.463994E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.379385E+02    0.475424E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.359083E+02    0.477591E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.339342E+02    0.501936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.313655E+02    0.482107E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.300127E+02    0.453350E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.304929E+02    0.421688E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.327218E+02    0.392960E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.359367E+02    0.377061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.394739E+02    0.378183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.426343E+02    0.395977E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.440579E+02    0.428144E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133995E+03   -0.434977E+02    0.462941E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.410174E+02    0.491614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.375699E+02    0.505677E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.373793E+02    0.336123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.354041E+02    0.338230E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.368382E+02    0.318931E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.389846E+02    0.323659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.388661E+02    0.346031E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.366383E+02    0.354766E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.347160E+02    0.367867E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.336328E+02    0.353213E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.334157E+02    0.335038E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.343146E+02    0.316365E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.361189E+02    0.301940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381570E+02    0.297555E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.400723E+02    0.303165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.412171E+02    0.318372E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.413570E+02    0.338188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.403012E+02    0.357794E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.385205E+02    0.370989E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.364797E+02    0.374571E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.345512E+02    0.400323E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.317442E+02    0.382881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.305477E+02    0.353344E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.310342E+02    0.319949E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.332143E+02    0.289776E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.366796E+02    0.270091E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.402592E+02    0.269301E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.432053E+02    0.286389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.448489E+02    0.316261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.441909E+02    0.353092E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.416762E+02    0.384431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.380512E+02    0.401882E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.382803E+02    0.213994E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.362860E+02    0.217312E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.377716E+02    0.196204E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.399589E+02    0.199812E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.398151E+02    0.223292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.375863E+02    0.233459E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.355888E+02    0.248752E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.343619E+02    0.235356E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.342601E+02    0.215470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.352036E+02    0.195279E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.370818E+02    0.178665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.392277E+02    0.172287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.410912E+02    0.177776E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.422996E+02    0.192264E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.424085E+02    0.212833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.413047E+02    0.234416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.395449E+02    0.248904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.373957E+02    0.254564E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.354324E+02    0.281976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.325322E+02    0.266761E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.313966E+02    0.235615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.318836E+02    0.200514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.340988E+02    0.168075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.374666E+02    0.147370E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.413662E+02    0.141813E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.444081E+02    0.157380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.459709E+02    0.187403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.451170E+02    0.227336E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.424886E+02    0.262055E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.389830E+02    0.281296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688506.718597887     
  ps_ts2 prof sum =   688117.693468329     
  trcom prof sum =    688117.693468329     
  ps_ts2 cur sum  =   16846.2035877829     
  trcom cur sum  =    16846.2035877829     
  
  antenna # iant =            2
  powecha_use(iant) =    677285.542916328     
  ps_ts2 prof sum =   676913.771251099     
  trcom prof sum =    676913.771251098     
  ps_ts2 cur sum  =   19077.1803689337     
  trcom cur sum  =    19077.1803689337     
  
  antenna # iant =            3
  powecha_use(iant) =    525063.294566645     
  ps_ts2 prof sum =   524747.128822877     
  trcom prof sum =    524747.128822878     
  ps_ts2 cur sum  =   11343.3050675074     
  trcom cur sum  =    11343.3050675074     
  
  antenna # iant =            4
  powecha_use(iant) =    570685.459489385     
  ps_ts2 prof sum =   570347.056094213     
  trcom prof sum =    570347.056094212     
  ps_ts2 cur sum  =   15018.9818228888     
  trcom cur sum  =    15018.9818228887     
  
  antenna # iant =            5
  powecha_use(iant) =    545821.381572614     
  ps_ts2 prof sum =   545503.386734104     
  trcom prof sum =    545503.386734104     
  ps_ts2 cur sum  =   16327.6180427916     
  trcom cur sum  =    16327.6180427916     
  
  Total ECH heating:      3005629.03637062     
  Total Current Drive:    78613.2888899043     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1429
 TA= 1.74500E+00 CPU TIME= 1.60256E-01 SECONDS.  DT= 9.01309E-04
  
 TEC1=    1.74499999999998     
 TEC2=    1.74999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.66912138888870     
  %check_save_state: izleft hours =    76.3225000000000     
 --> plasma_hash("gframe"): TA= 1.745000E+00 NSTEP=  1429 Hash code:   82862315
 ->PRGCHK: bdy curvature ratio at t= 1.7500E+00 seconds is:  5.4589E-02
% MHDEQ: TG1=     1.745000 ; TG2=     1.750000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4589E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.745000 TO TG2=    1.750000 @ NSTEP     1429
   GFRAME TG2 MOMENTS CHECKSUM:  2.4921080542094D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.37338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.31039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.41465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.40395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.70118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.98398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.12072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.72644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.36934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.16360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.85753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.05770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.75144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -1.28224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.01770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.74977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.15901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.59364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.76256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.36958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.16017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.16017E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7500E+00  1.7550E+00 total power(Watts):  3.0098E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.75000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.369367E+02    0.380470E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.349682E+02    0.382073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.364186E+02    0.363164E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.385500E+02    0.368352E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.384043E+02    0.390833E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.361776E+02    0.399158E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.343370E+02    0.411539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.331115E+02    0.397266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.329984E+02    0.378231E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.339968E+02    0.359373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.357210E+02    0.346317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.377553E+02    0.342464E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.395595E+02    0.349075E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.407783E+02    0.363740E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.408922E+02    0.383612E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.399120E+02    0.402800E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.381195E+02    0.415676E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.360858E+02    0.418691E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.341434E+02    0.443072E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.313670E+02    0.425488E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.301256E+02    0.396115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.306456E+02    0.362734E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.327612E+02    0.334168E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.362245E+02    0.315428E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.397870E+02    0.315392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.426960E+02    0.333257E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.442903E+02    0.363381E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.436837E+02    0.399877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.410491E+02    0.430753E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.376237E+02    0.445560E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.380387E+02    0.284163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.359632E+02    0.287563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.375603E+02    0.266409E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.397323E+02    0.270612E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.396454E+02    0.293039E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.373171E+02    0.303198E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.353963E+02    0.317019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.341992E+02    0.303114E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.342140E+02    0.282701E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.350989E+02    0.263760E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.368149E+02    0.249600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.389544E+02    0.243915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.408003E+02    0.249865E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.419751E+02    0.264749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.421464E+02    0.284427E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.411091E+02    0.304617E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.393300E+02    0.318525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.371826E+02    0.323345E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.351854E+02    0.349894E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.324160E+02    0.333020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.311713E+02    0.303393E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.317057E+02    0.268897E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.338715E+02    0.238051E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.373419E+02    0.217232E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.410411E+02    0.214797E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.440344E+02    0.231388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.455275E+02    0.262148E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.448147E+02    0.299786E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.423363E+02    0.332024E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.388073E+02    0.349853E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.367276E+02    0.441417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.347711E+02    0.442129E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.361483E+02    0.424702E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.383503E+02    0.430248E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.382657E+02    0.451555E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.360374E+02    0.458601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.341881E+02    0.469897E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.330673E+02    0.455226E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.329837E+02    0.436886E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.338357E+02    0.419629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.354827E+02    0.407524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.375106E+02    0.404297E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.393878E+02    0.411258E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.406712E+02    0.426338E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.406564E+02    0.446077E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.398447E+02    0.463510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.379481E+02    0.475367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.359176E+02    0.477527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.340276E+02    0.501761E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.313739E+02    0.482053E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.300210E+02    0.453289E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.304975E+02    0.421646E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.327293E+02    0.392932E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.359449E+02    0.377050E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.395786E+02    0.377687E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.426438E+02    0.395947E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134164E+03   -0.440684E+02    0.428084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.435084E+02    0.462882E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.411252E+02    0.491428E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.374893E+02    0.505702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.373872E+02    0.336170E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.354098E+02    0.338283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.368461E+02    0.319007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.389926E+02    0.323735E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.388742E+02    0.346073E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.366460E+02    0.354790E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.347236E+02    0.367871E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.335554E+02    0.353817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.334235E+02    0.335089E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.344943E+02    0.315068E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.361260E+02    0.302047E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.382589E+02    0.296949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.400804E+02    0.303276E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.412255E+02    0.318458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.413655E+02    0.338252E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.404074E+02    0.357282E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.386229E+02    0.370475E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.365780E+02    0.374054E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.345593E+02    0.400290E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.319134E+02    0.381843E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.305516E+02    0.353381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.311204E+02    0.319323E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.332216E+02    0.289896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.366871E+02    0.270266E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.402670E+02    0.269486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.433168E+02    0.285826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.448578E+02    0.316364E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.441958E+02    0.353151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.415859E+02    0.384880E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.380600E+02    0.401843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.382895E+02    0.214231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.362058E+02    0.218456E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.378724E+02    0.195504E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.400647E+02    0.199133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.399212E+02    0.222631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.375951E+02    0.233684E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.355082E+02    0.249804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.345413E+02    0.233776E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.344391E+02    0.213810E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.353866E+02    0.193568E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.370910E+02    0.178940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.392382E+02    0.172584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.411019E+02    0.178075E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.423101E+02    0.192559E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.424183E+02    0.213094E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.414128E+02    0.233794E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.395534E+02    0.249124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.374954E+02    0.253933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.354402E+02    0.282122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.326224E+02    0.266105E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.314043E+02    0.235806E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.318926E+02    0.200744E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.341079E+02    0.168344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.376582E+02    0.145535E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.413783E+02    0.142133E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.444203E+02    0.157721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.458753E+02    0.188655E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.451266E+02    0.227604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.425988E+02    0.261486E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.389907E+02    0.281452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692414.973403015     
  ps_ts2 prof sum =   691974.938415725     
  trcom prof sum =    691974.938415725     
  ps_ts2 cur sum  =   16870.1844392256     
  trcom cur sum  =    16870.1844392256     
  
  antenna # iant =            2
  powecha_use(iant) =    682441.979423389     
  ps_ts2 prof sum =   682027.416857269     
  trcom prof sum =    682027.416857267     
  ps_ts2 cur sum  =   19127.6913292690     
  trcom cur sum  =    19127.6913292690     
  
  antenna # iant =            3
  powecha_use(iant) =    524128.319829893     
  ps_ts2 prof sum =   523817.863756224     
  trcom prof sum =    523817.863756225     
  ps_ts2 cur sum  =   11281.2898433749     
  trcom cur sum  =    11281.2898433749     
  
  antenna # iant =            4
  powecha_use(iant) =    564722.911878601     
  ps_ts2 prof sum =   564382.895661082     
  trcom prof sum =    564382.895661081     
  ps_ts2 cur sum  =   14794.2828628651     
  trcom cur sum  =    14794.2828628650     
  
  antenna # iant =            5
  powecha_use(iant) =    546114.997144324     
  ps_ts2 prof sum =   545819.059411593     
  trcom prof sum =    545819.059411593     
  ps_ts2 cur sum  =   16246.8535096096     
  trcom cur sum  =    16246.8535096096     
  
  Total ECH heating:      3008022.17410189     
  Total Current Drive:    78320.3019843441     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1433
 TA= 1.75000E+00 CPU TIME= 1.59185E-01 SECONDS.  DT= 1.95470E-03
  
 TEC1=    1.74999999999998     
 TEC2=    1.75499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.68192694444429     
  %check_save_state: izleft hours =    76.3097222222222     
 --> plasma_hash("gframe"): TA= 1.750000E+00 NSTEP=  1433 Hash code:  100959606
 ->PRGCHK: bdy curvature ratio at t= 1.7550E+00 seconds is:  5.4565E-02
% MHDEQ: TG1=     1.750000 ; TG2=     1.755000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4565E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.750000 TO TG2=    1.755000 @ NSTEP     1433
   GFRAME TG2 MOMENTS CHECKSUM:  2.4920047711626D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7550E+00  1.7600E+00 total power(Watts):  3.0025E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.75500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.369456E+02    0.380461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.349783E+02    0.382052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.364272E+02    0.363179E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.385591E+02    0.368364E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.384137E+02    0.390809E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.361865E+02    0.399128E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.343462E+02    0.411498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.332835E+02    0.396335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.331734E+02    0.377190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.339206E+02    0.359957E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.357292E+02    0.346343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.377645E+02    0.342487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.395687E+02    0.349111E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.407878E+02    0.363756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.409017E+02    0.383608E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.399219E+02    0.402765E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.381312E+02    0.415625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.360951E+02    0.418639E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.341526E+02    0.443023E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.315348E+02    0.424679E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.302108E+02    0.395610E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.306527E+02    0.362733E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.329346E+02    0.332920E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.362329E+02    0.315507E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.397960E+02    0.315478E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.428079E+02    0.332714E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.444042E+02    0.362904E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.436944E+02    0.399848E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.412559E+02    0.430058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.376336E+02    0.445504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.57 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.380471E+02    0.284300E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.361464E+02    0.286212E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.375709E+02    0.266584E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.397416E+02    0.270794E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.396538E+02    0.293179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.374169E+02    0.302595E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.354040E+02    0.317084E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.342073E+02    0.303211E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.342223E+02    0.282838E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.350205E+02    0.264755E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.369140E+02    0.248969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.389666E+02    0.244123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.409080E+02    0.249265E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.420850E+02    0.264174E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.421559E+02    0.284587E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.411183E+02    0.304725E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.393390E+02    0.318608E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.372827E+02    0.322761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.352812E+02    0.349331E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.324203E+02    0.333083E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.311785E+02    0.303476E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.317137E+02    0.269058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.340493E+02    0.236479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.374426E+02    0.216544E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.410516E+02    0.215041E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.441483E+02    0.230797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.455373E+02    0.262376E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.450350E+02    0.298559E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.423463E+02    0.332090E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.388164E+02    0.349878E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.367378E+02    0.441350E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.348646E+02    0.441766E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.362468E+02    0.424292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.383599E+02    0.430199E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.382760E+02    0.451512E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.360470E+02    0.458543E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.341977E+02    0.469837E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.330781E+02    0.455158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.329925E+02    0.436833E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.338448E+02    0.419576E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.354914E+02    0.407479E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.375200E+02    0.404262E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.393978E+02    0.411214E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.405845E+02    0.426620E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.406684E+02    0.446017E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.397604E+02    0.463664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.379585E+02    0.475308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.359276E+02    0.477475E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.340374E+02    0.501710E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.313833E+02    0.481992E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.300293E+02    0.453242E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.305092E+02    0.421583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.326551E+02    0.393374E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.360427E+02    0.376543E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.395879E+02    0.377685E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.425531E+02    0.396337E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.441825E+02    0.427713E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.435200E+02    0.462824E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.411368E+02    0.491375E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.375002E+02    0.505652E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.373961E+02    0.336229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.355061E+02    0.337707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.369455E+02    0.318415E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.390967E+02    0.323164E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.389784E+02    0.345527E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.367454E+02    0.354243E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.348186E+02    0.367336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.335634E+02    0.353841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.336002E+02    0.333854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.345020E+02    0.315134E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.362238E+02    0.301436E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.382670E+02    0.297073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.400895E+02    0.303387E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.413339E+02    0.317895E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.413752E+02    0.338301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.404166E+02    0.357308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.386321E+02    0.370482E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.365866E+02    0.374057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.346539E+02    0.399810E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.318403E+02    0.382342E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.306386E+02    0.352790E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.311279E+02    0.319383E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.333971E+02    0.288493E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.366957E+02    0.270438E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.403737E+02    0.268898E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.433264E+02    0.285986E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.447627E+02    0.317084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.441031E+02    0.353719E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.415959E+02    0.384864E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.381622E+02    0.401378E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.383923E+02    0.213547E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.363931E+02    0.216839E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.378829E+02    0.195758E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.400751E+02    0.199387E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.399267E+02    0.222897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.376048E+02    0.233903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.355171E+02    0.250003E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.345502E+02    0.233980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.343632E+02    0.214963E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.353964E+02    0.193822E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.370119E+02    0.180206E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.392491E+02    0.172872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.412108E+02    0.177386E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.423212E+02    0.192826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.424290E+02    0.213349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.414225E+02    0.234034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.395630E+02    0.249346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.375037E+02    0.254146E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.354480E+02    0.282253E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.326301E+02    0.266268E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.314140E+02    0.235975E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.319813E+02    0.199975E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.341233E+02    0.168561E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.376700E+02    0.145816E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.413910E+02    0.142436E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.444331E+02    0.158049E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.458869E+02    0.188960E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.453477E+02    0.226165E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.426083E+02    0.261706E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.390946E+02    0.280864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687145.252494424     
  ps_ts2 prof sum =   686753.852724253     
  trcom prof sum =    686753.852724253     
  ps_ts2 cur sum  =   16677.3140803682     
  trcom cur sum  =    16677.3140803682     
  
  antenna # iant =            2
  powecha_use(iant) =    682957.395804480     
  ps_ts2 prof sum =   682571.557898971     
  trcom prof sum =    682571.557898970     
  ps_ts2 cur sum  =   19049.3779583599     
  trcom cur sum  =    19049.3779583599     
  
  antenna # iant =            3
  powecha_use(iant) =    524589.847263859     
  ps_ts2 prof sum =   524236.847083580     
  trcom prof sum =    524236.847083580     
  ps_ts2 cur sum  =   11255.6079732247     
  trcom cur sum  =    11255.6079732247     
  
  antenna # iant =            4
  powecha_use(iant) =    561632.778762715     
  ps_ts2 prof sum =   561320.082774572     
  trcom prof sum =    561320.082774571     
  ps_ts2 cur sum  =   14649.3094967939     
  trcom cur sum  =    14649.3094967939     
  
  antenna # iant =            5
  powecha_use(iant) =    546184.204163558     
  ps_ts2 prof sum =   545881.179799481     
  trcom prof sum =    545881.179799481     
  ps_ts2 cur sum  =   16162.0874383988     
  trcom cur sum  =    16162.0874383988     
  
  Total ECH heating:      3000763.52028086     
  Total Current Drive:    77793.6969471454     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1436
 TA= 1.75500E+00 CPU TIME= 1.67298E-01 SECONDS.  DT= 7.52413E-04
  
 TEC1=    1.75499999999998     
 TEC2=    1.75999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.69586750000008     
  %check_save_state: izleft hours =    76.2955555555556     
 --> plasma_hash("gframe"): TA= 1.755000E+00 NSTEP=  1436 Hash code:  117673787
 ->PRGCHK: bdy curvature ratio at t= 1.7600E+00 seconds is:  5.4564E-02
% MHDEQ: TG1=     1.755000 ; TG2=     1.760000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4564E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.755000 TO TG2=    1.760000 @ NSTEP     1436
   GFRAME TG2 MOMENTS CHECKSUM:  2.4917884212206D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.45546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.06453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.53085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.47338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.98893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.17962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.71153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.40545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.92796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.46906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.50494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  3.74394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.95330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.80521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.98247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.99911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.76819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.45227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.13307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.13307E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7600E+00  1.7650E+00 total power(Watts):  2.9966E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.76000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.369510E+02    0.380707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.349834E+02    0.382287E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.364346E+02    0.363441E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.385646E+02    0.368649E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.384183E+02    0.391053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.362806E+02    0.398902E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.343507E+02    0.411682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.332853E+02    0.396547E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.331786E+02    0.377429E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.339250E+02    0.360216E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.357350E+02    0.346642E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.377703E+02    0.342793E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.396711E+02    0.348844E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.407939E+02    0.364050E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.409071E+02    0.383874E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.399269E+02    0.402979E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.381360E+02    0.415820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.361001E+02    0.418820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.341564E+02    0.443175E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.315391E+02    0.424841E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.302152E+02    0.395802E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.306576E+02    0.362980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.329408E+02    0.333209E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.362396E+02    0.315824E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.398030E+02    0.315814E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.428148E+02    0.333063E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.444104E+02    0.363226E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.435974E+02    0.400497E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.412606E+02    0.430254E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.376384E+02    0.445655E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.381481E+02    0.283939E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.361564E+02    0.286553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.375790E+02    0.266989E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.397498E+02    0.271209E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.396616E+02    0.293545E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.374240E+02    0.302935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.354106E+02    0.317394E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.342141E+02    0.303528E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.342291E+02    0.283184E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.350285E+02    0.265146E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.369225E+02    0.249392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.389752E+02    0.244557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.409171E+02    0.249718E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.420938E+02    0.264621E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.421640E+02    0.284992E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.411256E+02    0.305082E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.393460E+02    0.318949E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.372891E+02    0.323075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.352872E+02    0.349617E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.324286E+02    0.333342E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.311853E+02    0.303783E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.317210E+02    0.269419E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.340582E+02    0.236886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.374523E+02    0.216986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.410623E+02    0.215508E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.441590E+02    0.231285E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.455465E+02    0.262851E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.450431E+02    0.298969E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.423530E+02    0.332432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.388224E+02    0.350183E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.367422E+02    0.441514E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.348709E+02    0.441919E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.362512E+02    0.424468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.383644E+02    0.430378E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.382798E+02    0.451670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.360511E+02    0.458689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.342013E+02    0.469969E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.330817E+02    0.455302E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.329964E+02    0.436987E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.338485E+02    0.419745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.354962E+02    0.407675E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.375251E+02    0.404477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.394028E+02    0.411421E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.405892E+02    0.426810E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.408630E+02    0.445673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.397644E+02    0.463825E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.379623E+02    0.475446E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.359311E+02    0.477608E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.340406E+02    0.501783E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.313866E+02    0.482093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.300327E+02    0.453374E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.305132E+02    0.421740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.326598E+02    0.393581E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.360477E+02    0.376795E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.395935E+02    0.377953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.425586E+02    0.396587E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.441876E+02    0.427929E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.435242E+02    0.463009E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.411429E+02    0.491494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.375035E+02    0.505730E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.374021E+02    0.336527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.355114E+02    0.338014E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.369517E+02    0.318723E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.391034E+02    0.323493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.389844E+02    0.345831E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.367509E+02    0.354524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.348238E+02    0.367589E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.337379E+02    0.352941E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.336055E+02    0.334148E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.345084E+02    0.315441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.362309E+02    0.301772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.382744E+02    0.297432E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.400968E+02    0.303743E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.413411E+02    0.318244E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.413815E+02    0.338640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.404227E+02    0.357611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.386376E+02    0.370758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.365919E+02    0.374313E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.346586E+02    0.400018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.318454E+02    0.382565E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.306437E+02    0.353047E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.311337E+02    0.319660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.334040E+02    0.288832E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.367039E+02    0.270836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.403819E+02    0.269322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.433345E+02    0.286393E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.447703E+02    0.317459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.441095E+02    0.354059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.416014E+02    0.385131E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.381675E+02    0.401607E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.384026E+02    0.213994E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.364029E+02    0.217268E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.378932E+02    0.196201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.400860E+02    0.199863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.399401E+02    0.223323E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.376139E+02    0.234333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.355257E+02    0.250409E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.345592E+02    0.234389E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.343729E+02    0.215376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.354068E+02    0.194241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.370240E+02    0.180661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.392617E+02    0.173350E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.412231E+02    0.177878E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.423331E+02    0.193318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.424400E+02    0.213829E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.414323E+02    0.234506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.395722E+02    0.249786E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.375128E+02    0.254561E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.354559E+02    0.282627E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.326377E+02    0.266642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.314197E+02    0.236387E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.319910E+02    0.200381E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.341318E+02    0.169026E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.376831E+02    0.146279E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.414050E+02    0.142926E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.444466E+02    0.158570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.458995E+02    0.189493E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.453588E+02    0.226676E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.426174E+02    0.262157E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.391025E+02    0.281245E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685520.956243283     
  ps_ts2 prof sum =   685126.129920347     
  trcom prof sum =    685126.129920348     
  ps_ts2 cur sum  =   16555.7509906714     
  trcom cur sum  =    16555.7509906714     
  
  antenna # iant =            2
  powecha_use(iant) =    681288.903052869     
  ps_ts2 prof sum =   680903.435619194     
  trcom prof sum =    680903.435619193     
  ps_ts2 cur sum  =   18911.9503657941     
  trcom cur sum  =    18911.9503657941     
  
  antenna # iant =            3
  powecha_use(iant) =    524959.665487481     
  ps_ts2 prof sum =   524609.536967715     
  trcom prof sum =    524609.536967716     
  ps_ts2 cur sum  =   11205.6016439103     
  trcom cur sum  =    11205.6016439103     
  
  antenna # iant =            4
  powecha_use(iant) =    558356.085531355     
  ps_ts2 prof sum =   558053.459538596     
  trcom prof sum =    558053.459538595     
  ps_ts2 cur sum  =   14493.3022413661     
  trcom cur sum  =    14493.3022413661     
  
  antenna # iant =            5
  powecha_use(iant) =    546443.724135211     
  ps_ts2 prof sum =   546137.980678003     
  trcom prof sum =    546137.980678003     
  ps_ts2 cur sum  =   16095.2936420842     
  trcom cur sum  =    16095.2936420842     
  
  Total ECH heating:      2994830.54272386     
  Total Current Drive:    77261.8988838261     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1441
 TA= 1.76000E+00 CPU TIME= 1.62905E-01 SECONDS.  DT= 8.27334E-04
  
 TEC1=    1.75999999999998     
 TEC2=    1.76499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.71158916666650     
  %check_save_state: izleft hours =    76.2800000000000     
 --> plasma_hash("gframe"): TA= 1.760000E+00 NSTEP=  1441 Hash code:   87468533
 ->PRGCHK: bdy curvature ratio at t= 1.7650E+00 seconds is:  5.4563E-02
% MHDEQ: TG1=     1.760000 ; TG2=     1.765000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1710E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4563E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.760000 TO TG2=    1.765000 @ NSTEP     1441
   GFRAME TG2 MOMENTS CHECKSUM:  2.4915720712786D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7650E+00  1.7700E+00 total power(Watts):  2.9987E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.76500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.369561E+02    0.380951E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.349882E+02    0.382518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.364368E+02    0.363730E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.385701E+02    0.368915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.384235E+02    0.391282E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.362854E+02    0.399113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.343549E+02    0.411861E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.332924E+02    0.396737E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.331834E+02    0.377656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.339304E+02    0.360469E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.357405E+02    0.346922E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.377764E+02    0.343099E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.396771E+02    0.349153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.407994E+02    0.364343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.409142E+02    0.384125E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.399319E+02    0.403199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.381407E+02    0.416009E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.361046E+02    0.418999E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.341630E+02    0.443307E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.315434E+02    0.424996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.302192E+02    0.395985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.307411E+02    0.362650E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.329463E+02    0.333493E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.362463E+02    0.316142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.398097E+02    0.316152E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.428213E+02    0.333416E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.444163E+02    0.363542E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.436027E+02    0.400743E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.411673E+02    0.430757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.376425E+02    0.445812E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.381557E+02    0.284314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.361636E+02    0.286912E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.375870E+02    0.267388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.398540E+02    0.270850E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.396691E+02    0.293922E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.374310E+02    0.303274E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.354174E+02    0.317708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.342207E+02    0.303843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.342363E+02    0.283538E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.350366E+02    0.265537E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.369306E+02    0.249806E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.389848E+02    0.244989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.409261E+02    0.250167E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.421024E+02    0.265061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.421720E+02    0.285395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.411369E+02    0.305427E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.393524E+02    0.319274E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.372957E+02    0.323398E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.352924E+02    0.349891E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.324341E+02    0.333619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.311915E+02    0.304081E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.317284E+02    0.269780E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.340669E+02    0.237284E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.374622E+02    0.217419E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.410728E+02    0.215965E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.441691E+02    0.231767E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.457678E+02    0.261807E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.450508E+02    0.299363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.423597E+02    0.332774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.388284E+02    0.350488E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.367462E+02    0.441674E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.348748E+02    0.442071E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.362559E+02    0.424634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.383688E+02    0.430551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.382844E+02    0.451821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.360548E+02    0.458844E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.342049E+02    0.470099E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.330853E+02    0.455438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.330008E+02    0.437129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.338529E+02    0.419913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.355008E+02    0.407867E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.375300E+02    0.404688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.394079E+02    0.411623E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.405939E+02    0.426999E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.408702E+02    0.445829E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.397684E+02    0.463984E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.379660E+02    0.475585E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.359347E+02    0.477734E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.340441E+02    0.501851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.313900E+02    0.482197E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.301899E+02    0.452924E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.306729E+02    0.421110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.326643E+02    0.393784E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.360529E+02    0.377038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.395988E+02    0.378214E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.425639E+02    0.396833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.441924E+02    0.428141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133963E+03   -0.435285E+02    0.463184E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.411427E+02    0.491616E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.375069E+02    0.505810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.374061E+02    0.336855E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.355179E+02    0.338305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.369584E+02    0.319049E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.391096E+02    0.323819E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.389904E+02    0.346137E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.367567E+02    0.354815E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.348292E+02    0.367847E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.337431E+02    0.353209E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.336115E+02    0.334427E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.345152E+02    0.315752E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.362378E+02    0.302102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.382816E+02    0.297784E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.402011E+02    0.303412E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.413478E+02    0.318600E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.413878E+02    0.338965E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.404285E+02    0.357912E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.386429E+02    0.371027E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.365972E+02    0.374565E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.346630E+02    0.400220E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.318500E+02    0.382779E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.306483E+02    0.353304E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.311395E+02    0.319942E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.334108E+02    0.289168E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.367151E+02    0.271205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.403901E+02    0.269740E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.433427E+02    0.286809E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.447776E+02    0.317830E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.443233E+02    0.353324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.416066E+02    0.385395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.381724E+02    0.401821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.384124E+02    0.214438E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.364126E+02    0.217687E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.379042E+02    0.196648E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.400970E+02    0.200321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.399499E+02    0.223768E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.376231E+02    0.234758E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.355342E+02    0.250817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.345680E+02    0.234792E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.343827E+02    0.215777E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.354172E+02    0.194675E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.370353E+02    0.181106E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.392734E+02    0.173818E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.412352E+02    0.178363E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.423447E+02    0.193805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.424507E+02    0.214299E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.414418E+02    0.234962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.395809E+02    0.250218E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.375205E+02    0.254979E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.354632E+02    0.282988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.326457E+02    0.267016E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.314285E+02    0.236755E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.320006E+02    0.200777E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.341380E+02    0.169491E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.376958E+02    0.146730E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.414188E+02    0.143411E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.444594E+02    0.159086E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.459117E+02    0.189999E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.453690E+02    0.227168E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.426261E+02    0.262603E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.391102E+02    0.281632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689682.843969996     
  ps_ts2 prof sum =   689280.829984904     
  trcom prof sum =    689280.829984904     
  ps_ts2 cur sum  =   16569.9626731787     
  trcom cur sum  =    16569.9626731787     
  
  antenna # iant =            2
  powecha_use(iant) =    685235.913898224     
  ps_ts2 prof sum =   684859.575342409     
  trcom prof sum =    684859.575342408     
  ps_ts2 cur sum  =   18926.7042501510     
  trcom cur sum  =    18926.7042501510     
  
  antenna # iant =            3
  powecha_use(iant) =    522696.977907646     
  ps_ts2 prof sum =   522369.418808184     
  trcom prof sum =    522369.418808184     
  ps_ts2 cur sum  =   11097.8168000431     
  trcom cur sum  =    11097.8168000431     
  
  antenna # iant =            4
  powecha_use(iant) =    554503.757545723     
  ps_ts2 prof sum =   554211.734966219     
  trcom prof sum =    554211.734966219     
  ps_ts2 cur sum  =   14320.1762075406     
  trcom cur sum  =    14320.1762075406     
  
  antenna # iant =            5
  powecha_use(iant) =    546581.720174186     
  ps_ts2 prof sum =   546272.126021847     
  trcom prof sum =    546272.126021847     
  ps_ts2 cur sum  =   16021.1572227823     
  trcom cur sum  =    16021.1572227823     
  
  Total ECH heating:      2996993.68512356     
  Total Current Drive:    76935.8171536957     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1446
 TA= 1.76500E+00 CPU TIME= 1.59357E-01 SECONDS.  DT= 2.87376E-04
  
 TEC1=    1.76499999999998     
 TEC2=    1.76999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.72656388888845     
  %check_save_state: izleft hours =    76.2650000000000     
 --> plasma_hash("gframe"): TA= 1.765000E+00 NSTEP=  1446 Hash code:   83961225
 ->PRGCHK: bdy curvature ratio at t= 1.7700E+00 seconds is:  5.4562E-02
% MHDEQ: TG1=     1.765000 ; TG2=     1.770000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7652E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4562E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.765000 TO TG2=    1.770000 @ NSTEP     1446
   GFRAME TG2 MOMENTS CHECKSUM:  2.4913557213366D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.50969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.58247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.63218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.39814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.97104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.13609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.72483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.38088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.29252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.19951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.54625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.01428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.93341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.99433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.38949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.23348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.95634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.41336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.14126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.14126E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7700E+00  1.7750E+00 total power(Watts):  2.5786E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.77000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.369632E+02    0.381222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.349952E+02    0.382772E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.364458E+02    0.364017E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.385776E+02    0.369215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.384306E+02    0.391543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.362919E+02    0.399348E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.343610E+02    0.412068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.332989E+02    0.396965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.331900E+02    0.377912E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.339375E+02    0.360766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.357482E+02    0.347247E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.377847E+02    0.343444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.396857E+02    0.349507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.408075E+02    0.364669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.409179E+02    0.384431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.399390E+02    0.403447E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.381477E+02    0.416224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.361104E+02    0.419203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.341652E+02    0.443504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.315482E+02    0.425172E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.302250E+02    0.396198E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.306698E+02    0.363493E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.329541E+02    0.333814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.362553E+02    0.316498E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.398192E+02    0.316530E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.428304E+02    0.333807E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.444248E+02    0.363898E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.436103E+02    0.401017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.411740E+02    0.430968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.376484E+02    0.446002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.380731E+02    0.285472E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.361736E+02    0.287312E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.375978E+02    0.267827E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.397692E+02    0.272081E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.396793E+02    0.294332E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.374407E+02    0.303653E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.354260E+02    0.318053E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.342327E+02    0.304184E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.342461E+02    0.283934E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.350469E+02    0.265954E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.367617E+02    0.251917E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.389966E+02    0.245463E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.408404E+02    0.251469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.421138E+02    0.265539E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.421830E+02    0.285845E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.411428E+02    0.305851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.393619E+02    0.319642E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.373042E+02    0.323745E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.353000E+02    0.350209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.324418E+02    0.333933E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.311999E+02    0.304416E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.317379E+02    0.270172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.339092E+02    0.239464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.372934E+02    0.219677E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.410863E+02    0.216461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.441826E+02    0.232287E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.455678E+02    0.263846E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.450614E+02    0.299817E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.423686E+02    0.333162E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.388364E+02    0.350821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.367520E+02    0.441864E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.348805E+02    0.442251E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.362621E+02    0.424832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.383751E+02    0.430752E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.382900E+02    0.452027E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.360603E+02    0.459026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.342102E+02    0.470270E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.330904E+02    0.455609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.330062E+02    0.437306E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.338589E+02    0.420104E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.355073E+02    0.408083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.375366E+02    0.404914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.394148E+02    0.411848E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.406006E+02    0.427214E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.408765E+02    0.446033E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.397741E+02    0.464181E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.379713E+02    0.475767E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.359397E+02    0.477904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.340486E+02    0.501958E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.313942E+02    0.482345E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.300409E+02    0.453666E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.305219E+02    0.422070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.326709E+02    0.394010E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.360600E+02    0.377311E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.396064E+02    0.378506E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.425714E+02    0.397108E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.441995E+02    0.428367E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.435346E+02    0.463403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.411502E+02    0.491788E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.375118E+02    0.505931E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.374150E+02    0.337190E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.355272E+02    0.338627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.369674E+02    0.319401E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.391191E+02    0.324189E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.389986E+02    0.346487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.367648E+02    0.355137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.348364E+02    0.368133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.335812E+02    0.354672E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.336194E+02    0.334752E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.345237E+02    0.316094E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.362472E+02    0.302473E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.382914E+02    0.298175E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.401141E+02    0.304494E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.413573E+02    0.318984E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.413956E+02    0.339343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.404367E+02    0.358251E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.386506E+02    0.371327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.366046E+02    0.374845E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.346695E+02    0.400445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.318560E+02    0.383017E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.306555E+02    0.353583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.311474E+02    0.320258E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.334206E+02    0.289544E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.367217E+02    0.271652E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.404015E+02    0.270207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.433537E+02    0.287263E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.447877E+02    0.318246E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.441243E+02    0.354757E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.416143E+02    0.385684E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.381790E+02    0.402052E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.384258E+02    0.214906E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.364256E+02    0.218143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.379182E+02    0.197123E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.401113E+02    0.200810E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.399630E+02    0.224253E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.376358E+02    0.235212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.355452E+02    0.251250E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.345797E+02    0.235221E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.344798E+02    0.215286E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.354307E+02    0.195130E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.371397E+02    0.180584E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.392889E+02    0.174309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.411575E+02    0.179798E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.423599E+02    0.194316E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.424649E+02    0.214803E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.414555E+02    0.235447E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.395928E+02    0.250694E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.375318E+02    0.255433E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.354730E+02    0.283384E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.326548E+02    0.267408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.314394E+02    0.237166E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.320129E+02    0.201197E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.341573E+02    0.169906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.377126E+02    0.147206E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.414363E+02    0.143913E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.444773E+02    0.159635E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.459278E+02    0.190553E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.453827E+02    0.227709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.426378E+02    0.263088E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.391208E+02    0.282069E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.51 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    268803.903084489     
  ps_ts2 prof sum =   268646.366841567     
  trcom prof sum =    268646.366841567     
  ps_ts2 cur sum  =   6433.22427479441     
  trcom cur sum  =    6433.22427479440     
  
  antenna # iant =            2
  powecha_use(iant) =    688276.992265184     
  ps_ts2 prof sum =   687833.959634891     
  trcom prof sum =    687833.959634890     
  ps_ts2 cur sum  =   18940.3344605171     
  trcom cur sum  =    18940.3344605171     
  
  antenna # iant =            3
  powecha_use(iant) =    523575.283738236     
  ps_ts2 prof sum =   523224.673667456     
  trcom prof sum =    523224.673667457     
  ps_ts2 cur sum  =   11071.4937007870     
  trcom cur sum  =    11071.4937007870     
  
  antenna # iant =            4
  powecha_use(iant) =    552506.325600863     
  ps_ts2 prof sum =   552194.935632788     
  trcom prof sum =    552194.935632787     
  ps_ts2 cur sum  =   14214.6810022418     
  trcom cur sum  =    14214.6810022418     
  
  antenna # iant =            5
  powecha_use(iant) =    545432.033266447     
  ps_ts2 prof sum =   545153.500736811     
  trcom prof sum =    545153.500736811     
  ps_ts2 cur sum  =   15931.7176501799     
  trcom cur sum  =    15931.7176501798     
  
  Total ECH heating:      2577053.43651351     
  Total Current Drive:    66591.4510885201     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1454
 TA= 1.77000E+00 CPU TIME= 1.59597E-01 SECONDS.  DT= 8.35302E-04
  
 TEC1=    1.76999999999998     
 TEC2=    1.77499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.74202472222191     
  %check_save_state: izleft hours =    76.2494444444444     
 --> plasma_hash("gframe"): TA= 1.770000E+00 NSTEP=  1454 Hash code:  114566471
 ->PRGCHK: bdy curvature ratio at t= 1.7750E+00 seconds is:  5.4561E-02
% MHDEQ: TG1=     1.770000 ; TG2=     1.775000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4561E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.770000 TO TG2=    1.775000 @ NSTEP     1454
   GFRAME TG2 MOMENTS CHECKSUM:  2.4911393713946D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.7750E+00  1.7800E+00 total power(Watts):  2.3081E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.77500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.380846E+02    0.285876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.361850E+02    0.287698E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.376098E+02    0.268259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.397816E+02    0.272520E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.396911E+02    0.294733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.373598E+02    0.304714E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.354356E+02    0.318381E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.342391E+02    0.304548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.342568E+02    0.284314E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.351455E+02    0.265567E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.368647E+02    0.251531E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.390097E+02    0.245924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.408534E+02    0.251941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.420267E+02    0.266783E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.421954E+02    0.286274E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.411507E+02    0.306267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.393725E+02    0.320006E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.372229E+02    0.324732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.353089E+02    0.350519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.324506E+02    0.334238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.312092E+02    0.304739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.317485E+02    0.270555E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.339212E+02    0.239884E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.373980E+02    0.219242E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.411015E+02    0.216955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.440939E+02    0.233644E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.455815E+02    0.264351E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.450738E+02    0.300250E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.423795E+02    0.333527E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.388462E+02    0.351155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.367586E+02    0.442071E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.348006E+02    0.442754E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.362727E+02    0.425043E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.383824E+02    0.430973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.382968E+02    0.452225E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.360665E+02    0.459218E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.342159E+02    0.470455E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.330965E+02    0.455799E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.330126E+02    0.437498E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.338659E+02    0.420316E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.355145E+02    0.408318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.375443E+02    0.405161E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.394224E+02    0.412107E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.406082E+02    0.427453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.408837E+02    0.446264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.397806E+02    0.464399E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.379773E+02    0.475969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.359480E+02    0.478087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.340539E+02    0.502086E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.313992E+02    0.482506E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.300469E+02    0.453835E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.305284E+02    0.422262E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.327607E+02    0.393778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.360685E+02    0.377590E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.396152E+02    0.378803E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.425802E+02    0.397399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.442076E+02    0.428629E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.435417E+02    0.463641E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.411564E+02    0.491980E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.375175E+02    0.506066E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.374259E+02    0.337519E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.354485E+02    0.339556E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.368864E+02    0.320395E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.391294E+02    0.324544E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.390083E+02    0.346822E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.366828E+02    0.356007E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.348446E+02    0.368417E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.335897E+02    0.354972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.336280E+02    0.335059E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.345331E+02    0.316421E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.362577E+02    0.302834E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.383028E+02    0.298558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.401257E+02    0.304882E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.413686E+02    0.319361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.414058E+02    0.339709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.404464E+02    0.358586E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.386595E+02    0.371631E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.366130E+02    0.375130E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.346773E+02    0.400676E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.319453E+02    0.382764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.305845E+02    0.354456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.311562E+02    0.320562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.332635E+02    0.291410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.367298E+02    0.272104E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.403168E+02    0.271423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.433664E+02    0.287703E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.447994E+02    0.318648E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.441345E+02    0.355124E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.416232E+02    0.385988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.381871E+02    0.402315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.383476E+02    0.216281E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.362610E+02    0.220409E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.379328E+02    0.197606E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.401269E+02    0.201306E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.399771E+02    0.224734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.376489E+02    0.235666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.355576E+02    0.251683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.345921E+02    0.235653E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.344926E+02    0.215730E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.352717E+02    0.197513E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.371544E+02    0.181068E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.393048E+02    0.174817E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.411700E+02    0.180357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.423763E+02    0.194839E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.424802E+02    0.215315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.414696E+02    0.235940E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.396058E+02    0.251155E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.375463E+02    0.255864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.354843E+02    0.283774E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.326659E+02    0.267805E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.314510E+02    0.237571E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.319464E+02    0.202593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.341721E+02    0.170364E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.377301E+02    0.147693E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.414555E+02    0.144440E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.444962E+02    0.160192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.459450E+02    0.191117E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.451877E+02    0.229912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.426511E+02    0.263569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.390379E+02    0.283220E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    685637.356312595     
  ps_ts2 prof sum =   685238.337365728     
  trcom prof sum =    685238.337365727     
  ps_ts2 cur sum  =   18809.5069772262     
  trcom cur sum  =    18809.5069772262     
  
  antenna # iant =            3
  powecha_use(iant) =    524715.803440259     
  ps_ts2 prof sum =   524381.681722568     
  trcom prof sum =    524381.681722569     
  ps_ts2 cur sum  =   11056.2839339802     
  trcom cur sum  =    11056.2839339802     
  
  antenna # iant =            4
  powecha_use(iant) =    550975.069262671     
  ps_ts2 prof sum =   550651.864128652     
  trcom prof sum =    550651.864128652     
  ps_ts2 cur sum  =   14129.5218362246     
  trcom cur sum  =    14129.5218362246     
  
  antenna # iant =            5
  powecha_use(iant) =    546736.001395502     
  ps_ts2 prof sum =   546428.942203799     
  trcom prof sum =    546428.942203799     
  ps_ts2 cur sum  =   15923.1496488612     
  trcom cur sum  =    15923.1496488612     
  
  Total ECH heating:      2306700.82542075     
  Total Current Drive:    59918.4623962921     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1459
 TA= 1.77500E+00 CPU TIME= 1.59715E-01 SECONDS.  DT= 2.29950E-04
  
 TEC1=    1.77499999999998     
 TEC2=    1.77999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.75416083333334     
  %check_save_state: izleft hours =    76.2375000000000     
 --> plasma_hash("gframe"): TA= 1.775000E+00 NSTEP=  1459 Hash code:   27722394
 ->PRGCHK: bdy curvature ratio at t= 1.7800E+00 seconds is:  5.4560E-02
% MHDEQ: TG1=     1.775000 ; TG2=     1.780000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4560E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.775000 TO TG2=    1.780000 @ NSTEP     1459
   GFRAME TG2 MOMENTS CHECKSUM:  2.4909230214525D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.55834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.72307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.22756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.95499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.09704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.73676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.35885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.72259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.85465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.84683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.55512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.48218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.03113E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.82279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.77883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.65202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.12509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.37847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.29861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.29861E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7800E+00  1.7850E+00 total power(Watts):  2.8496E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.78000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.369755E+02    0.381762E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.350073E+02    0.383286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.364585E+02    0.364622E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.385908E+02    0.369826E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.384427E+02    0.392064E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.362136E+02    0.400257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.343711E+02    0.412487E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.331423E+02    0.398317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.330347E+02    0.379447E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.340354E+02    0.360792E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.357617E+02    0.347895E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.378007E+02    0.344109E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.396038E+02    0.350750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.408211E+02    0.365330E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.409330E+02    0.385005E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.399507E+02    0.403964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.381581E+02    0.416679E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.361206E+02    0.419622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.341749E+02    0.443841E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.313975E+02    0.426274E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.301575E+02    0.397087E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.306810E+02    0.364030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.328011E+02    0.335707E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.362709E+02    0.317187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.398360E+02    0.317276E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.429480E+02    0.333983E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.442312E+02    0.365603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.437253E+02    0.401189E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.412827E+02    0.431097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.376577E+02    0.446374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.380913E+02    0.286297E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.360128E+02    0.289584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.376172E+02    0.268709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.397887E+02    0.272970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.396974E+02    0.295148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.373658E+02    0.305091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.354410E+02    0.318725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.342460E+02    0.304898E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.342632E+02    0.284711E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.351526E+02    0.265995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.368724E+02    0.251979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.390182E+02    0.246391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.408616E+02    0.252428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.420346E+02    0.267265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.422062E+02    0.286701E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.411610E+02    0.306645E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.393780E+02    0.320374E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.372283E+02    0.325079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.353132E+02    0.350842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.324556E+02    0.334553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.312147E+02    0.305076E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.317551E+02    0.270953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.339290E+02    0.240312E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.374076E+02    0.219712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.411115E+02    0.217454E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.441036E+02    0.234158E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.455897E+02    0.264872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.450803E+02    0.300702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.423846E+02    0.333915E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.388507E+02    0.351500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.367614E+02    0.442221E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.348034E+02    0.442893E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.362722E+02    0.425239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.383855E+02    0.431153E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.382994E+02    0.452382E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.360688E+02    0.459357E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.342182E+02    0.470576E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.330989E+02    0.455931E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.330152E+02    0.437647E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.338683E+02    0.420505E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.355179E+02    0.408532E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.375475E+02    0.405390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.394258E+02    0.412332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.406113E+02    0.427658E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.406920E+02    0.446960E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.397831E+02    0.464548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.379798E+02    0.476088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.359469E+02    0.478204E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.340563E+02    0.502134E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.314014E+02    0.482597E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.300494E+02    0.453963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.305310E+02    0.422429E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.327646E+02    0.393996E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.359830E+02    0.378356E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.396191E+02    0.379096E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.425837E+02    0.397671E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.442109E+02    0.428857E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.435444E+02    0.463803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.411589E+02    0.492082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.375199E+02    0.506103E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.374311E+02    0.337867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.354533E+02    0.339887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.368919E+02    0.320746E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.391347E+02    0.324902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.389182E+02    0.347748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.366885E+02    0.356319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.348484E+02    0.368702E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.335938E+02    0.355274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.336332E+02    0.335388E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.345385E+02    0.316759E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.360849E+02    0.304609E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.383090E+02    0.298956E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.401319E+02    0.305279E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.412752E+02    0.320375E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.414121E+02    0.340071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.404508E+02    0.358920E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.386635E+02    0.371928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.366168E+02    0.375407E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.346806E+02    0.400897E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.319486E+02    0.383002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.305885E+02    0.354743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.311614E+02    0.320876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.332696E+02    0.291787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.367408E+02    0.272504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.403244E+02    0.271879E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.433734E+02    0.288166E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.448051E+02    0.319070E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.441391E+02    0.355498E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.416270E+02    0.386273E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.380973E+02    0.402963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.383575E+02    0.216762E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.362704E+02    0.220868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.378521E+02    0.199023E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.401389E+02    0.201782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.399866E+02    0.225227E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.376577E+02    0.236129E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.356538E+02    0.251281E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.344295E+02    0.237837E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.343325E+02    0.218010E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.352827E+02    0.197955E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.371666E+02    0.181532E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.393169E+02    0.175309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.411790E+02    0.180889E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.423874E+02    0.195356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.424909E+02    0.215830E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.414786E+02    0.236436E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.396138E+02    0.251629E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.375504E+02    0.256350E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.354940E+02    0.284145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.326726E+02    0.268212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.314590E+02    0.237985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.319562E+02    0.203018E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.341845E+02    0.170804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.377426E+02    0.148173E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.414690E+02    0.144953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.445096E+02    0.160735E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.460625E+02    0.190763E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.451976E+02    0.230447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.426589E+02    0.264064E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.390448E+02    0.283655E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    540359.224606382     
  ps_ts2 prof sum =   540010.879496639     
  trcom prof sum =    540010.879496640     
  ps_ts2 cur sum  =   12825.9559724291     
  trcom cur sum  =    12825.9559724291     
  
  antenna # iant =            2
  powecha_use(iant) =    688596.069671557     
  ps_ts2 prof sum =   688196.451457839     
  trcom prof sum =    688196.451457837     
  ps_ts2 cur sum  =   18801.2340774363     
  trcom cur sum  =    18801.2340774363     
  
  antenna # iant =            3
  powecha_use(iant) =    524242.707118665     
  ps_ts2 prof sum =   523902.596383874     
  trcom prof sum =    523902.596383875     
  ps_ts2 cur sum  =   10991.3568821750     
  trcom cur sum  =    10991.3568821751     
  
  antenna # iant =            4
  powecha_use(iant) =    549308.836983382     
  ps_ts2 prof sum =   548970.239414356     
  trcom prof sum =    548970.239414356     
  ps_ts2 cur sum  =   14018.5469174052     
  trcom cur sum  =    14018.5469174052     
  
  antenna # iant =            5
  powecha_use(iant) =    547058.461975184     
  ps_ts2 prof sum =   546749.952366452     
  trcom prof sum =    546749.952366451     
  ps_ts2 cur sum  =   15861.0411212969     
  trcom cur sum  =    15861.0411212968     
  
  Total ECH heating:      2847830.11911916     
  Total Current Drive:    72498.1349707425     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1468
 TA= 1.78000E+00 CPU TIME= 1.59015E-01 SECONDS.  DT= 5.46715E-04
  
 TEC1=    1.77999999999998     
 TEC2=    1.78499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.76607111111070     
  %check_save_state: izleft hours =    76.2255555555556     
 --> plasma_hash("gframe"): TA= 1.780000E+00 NSTEP=  1468 Hash code:  110150214
 ->PRGCHK: bdy curvature ratio at t= 1.7850E+00 seconds is:  5.4559E-02
% MHDEQ: TG1=     1.780000 ; TG2=     1.785000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4559E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.780000 TO TG2=    1.785000 @ NSTEP     1468
   GFRAME TG2 MOMENTS CHECKSUM:  2.4907066715105D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7850E+00  1.7900E+00 total power(Watts):  2.9425E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.78500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.369783E+02    0.382010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.350094E+02    0.383536E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.364615E+02    0.364910E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.385938E+02    0.370112E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.384455E+02    0.392306E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.362158E+02    0.400461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.343734E+02    0.412673E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.331447E+02    0.398513E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.330370E+02    0.379675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.340384E+02    0.361075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.357651E+02    0.348206E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.378009E+02    0.344457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.396072E+02    0.351080E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.408242E+02    0.365643E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.409357E+02    0.385265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.399531E+02    0.404186E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.381603E+02    0.416873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.361229E+02    0.419801E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.341767E+02    0.443971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.313994E+02    0.426422E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.301598E+02    0.397272E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.306837E+02    0.364288E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.328054E+02    0.336007E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.362750E+02    0.317523E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.398437E+02    0.317609E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.429520E+02    0.334354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.442342E+02    0.365940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.437278E+02    0.401438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.412847E+02    0.431281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.376592E+02    0.446522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.380968E+02    0.286696E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.360179E+02    0.289968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.376231E+02    0.269131E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.397949E+02    0.273410E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.397025E+02    0.295550E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.373705E+02    0.305458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.354453E+02    0.319053E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.343365E+02    0.304539E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.342683E+02    0.285093E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.351583E+02    0.266399E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.368791E+02    0.252403E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.390254E+02    0.246838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.408683E+02    0.252887E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.420409E+02    0.267725E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.422078E+02    0.287167E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.411658E+02    0.307027E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.393824E+02    0.320725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.372325E+02    0.325411E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.353162E+02    0.351151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.324595E+02    0.334856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.312198E+02    0.305402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.317608E+02    0.271337E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.339359E+02    0.240721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.374155E+02    0.220157E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.411202E+02    0.217936E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.441117E+02    0.234655E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.455962E+02    0.265368E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.450856E+02    0.301132E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.423888E+02    0.334273E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.388536E+02    0.351829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.367634E+02    0.442360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.348053E+02    0.443027E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.362706E+02    0.425427E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.383875E+02    0.431323E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.383011E+02    0.452515E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.360705E+02    0.459482E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.342196E+02    0.470689E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.331001E+02    0.456054E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.330169E+02    0.437782E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.338707E+02    0.420679E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.355202E+02    0.408727E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.375498E+02    0.405599E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.394279E+02    0.412541E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.406135E+02    0.427842E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.406937E+02    0.447110E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.397847E+02    0.464680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.379812E+02    0.476202E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.359494E+02    0.478303E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.340580E+02    0.502162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.314031E+02    0.482673E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.300509E+02    0.454071E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.305331E+02    0.422584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.327667E+02    0.394197E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.359858E+02    0.378605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.396218E+02    0.379367E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.425863E+02    0.397918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.442128E+02    0.429065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133914E+03   -0.435461E+02    0.463951E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134235E+03   -0.411604E+02    0.492174E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.375217E+02    0.506131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.374344E+02    0.338195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.354570E+02    0.340203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.368962E+02    0.321080E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.391390E+02    0.325251E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.389216E+02    0.348077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.366882E+02    0.356646E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.348513E+02    0.368972E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.335967E+02    0.355556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.334677E+02    0.336944E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.345426E+02    0.317084E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.360899E+02    0.304967E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.383143E+02    0.299341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.401367E+02    0.305657E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.412797E+02    0.320738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.414161E+02    0.340421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.404539E+02    0.359245E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.386663E+02    0.372214E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.366195E+02    0.375669E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.346830E+02    0.401099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.319511E+02    0.383222E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.305914E+02    0.355016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.311655E+02    0.321177E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.332739E+02    0.292144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.367465E+02    0.272920E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.403304E+02    0.272322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.433789E+02    0.288612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.448098E+02    0.319461E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.441424E+02    0.355852E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.416299E+02    0.386534E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.381000E+02    0.403177E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.383654E+02    0.217216E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.362791E+02    0.221298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.378616E+02    0.199472E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.401457E+02    0.202293E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.399945E+02    0.225695E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.376647E+02    0.236574E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.356599E+02    0.251700E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.344364E+02    0.238249E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.343404E+02    0.218432E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.352915E+02    0.198391E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.371762E+02    0.181983E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.393277E+02    0.175772E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.411926E+02    0.181346E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.423971E+02    0.195853E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.424994E+02    0.216323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.414862E+02    0.236908E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.396207E+02    0.252081E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.375588E+02    0.256765E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.354957E+02    0.284571E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.326784E+02    0.268600E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.314658E+02    0.238378E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.319644E+02    0.203423E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.341937E+02    0.171240E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.375743E+02    0.150721E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.414809E+02    0.145444E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.445205E+02    0.161259E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.460727E+02    0.191299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.452057E+02    0.230957E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.426655E+02    0.264533E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.390504E+02    0.284074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    634112.141359107     
  ps_ts2 prof sum =   633703.917754385     
  trcom prof sum =    633703.917754386     
  ps_ts2 cur sum  =   14969.4933281828     
  trcom cur sum  =    14969.4933281828     
  
  antenna # iant =            2
  powecha_use(iant) =    690639.908535730     
  ps_ts2 prof sum =   690253.707938186     
  trcom prof sum =    690253.707938185     
  ps_ts2 cur sum  =   18760.1546138337     
  trcom cur sum  =    18760.1546138337     
  
  antenna # iant =            3
  powecha_use(iant) =    524054.629987149     
  ps_ts2 prof sum =   523714.311631644     
  trcom prof sum =    523714.311631645     
  ps_ts2 cur sum  =   10925.0733590404     
  trcom cur sum  =    10925.0733590404     
  
  antenna # iant =            4
  powecha_use(iant) =    547875.769115886     
  ps_ts2 prof sum =   547524.910393834     
  trcom prof sum =    547524.910393833     
  ps_ts2 cur sum  =   13907.8548247416     
  trcom cur sum  =    13907.8548247416     
  
  antenna # iant =            5
  powecha_use(iant) =    545817.466408119     
  ps_ts2 prof sum =   545501.631668605     
  trcom prof sum =    545501.631668605     
  ps_ts2 cur sum  =   15747.4933104579     
  trcom cur sum  =    15747.4933104578     
  
  Total ECH heating:      2940698.47938665     
  Total Current Drive:    74310.0694362564     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1474
 TA= 1.78500E+00 CPU TIME= 1.63012E-01 SECONDS.  DT= 6.41368E-04
  
 TEC1=    1.78499999999998     
 TEC2=    1.78999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.78065583333296     
  %check_save_state: izleft hours =    76.2108333333333     
 --> plasma_hash("gframe"): TA= 1.785000E+00 NSTEP=  1474 Hash code:  101483784
 ->PRGCHK: bdy curvature ratio at t= 1.7900E+00 seconds is:  5.4558E-02
% MHDEQ: TG1=     1.785000 ; TG2=     1.790000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4558E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.785000 TO TG2=    1.790000 @ NSTEP     1474
   GFRAME TG2 MOMENTS CHECKSUM:  2.4904903215685D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.61143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.82226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.13285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.93748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.05443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.74978E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.33480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  6.01813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.56972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.17491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.76299E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.31486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.07129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.83187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.20378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.10885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.30927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.34038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.28838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.28838E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7900E+00  1.7950E+00 total power(Watts):  2.9470E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.79000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.369701E+02    0.382288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.350018E+02    0.383779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.364538E+02    0.365239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.385857E+02    0.370436E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.384369E+02    0.392548E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.362083E+02    0.400672E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.343663E+02    0.412828E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.331378E+02    0.398717E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.330303E+02    0.379942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.340314E+02    0.361394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.357579E+02    0.348571E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.377950E+02    0.344831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.395988E+02    0.351466E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.408155E+02    0.365995E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.409267E+02    0.385559E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.399444E+02    0.404399E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.381520E+02    0.417033E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.361146E+02    0.419949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.341693E+02    0.444037E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.313928E+02    0.426530E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.301532E+02    0.397472E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.306772E+02    0.364579E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.327991E+02    0.336366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.362689E+02    0.317937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.398329E+02    0.318076E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.428420E+02    0.335375E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.442246E+02    0.366315E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.436153E+02    0.402069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.412758E+02    0.431402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.376513E+02    0.446581E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.380916E+02    0.287172E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.360132E+02    0.290419E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.376187E+02    0.269628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.397899E+02    0.273922E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.396967E+02    0.296026E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.373648E+02    0.305895E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.354393E+02    0.319460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.343312E+02    0.304956E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.342638E+02    0.285540E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.351546E+02    0.266875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.368754E+02    0.252914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.390217E+02    0.247365E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.408645E+02    0.253425E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.420358E+02    0.268265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.421976E+02    0.287707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.411590E+02    0.307500E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.393755E+02    0.321158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.372259E+02    0.325824E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.353093E+02    0.351502E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.324536E+02    0.335217E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.312152E+02    0.305799E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.317575E+02    0.271784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.339339E+02    0.241202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.374141E+02    0.220656E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.411178E+02    0.218469E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.441078E+02    0.235224E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.455901E+02    0.265949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.450778E+02    0.301650E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.423806E+02    0.334711E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.388458E+02    0.352203E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.367554E+02    0.442436E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.347976E+02    0.443105E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.362659E+02    0.425535E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.383792E+02    0.431439E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.382928E+02    0.452568E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.360629E+02    0.459506E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.342127E+02    0.470667E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.330933E+02    0.456079E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.330094E+02    0.437862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.338633E+02    0.420808E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.355124E+02    0.408903E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.375416E+02    0.405796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.394191E+02    0.412722E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.406045E+02    0.427974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.408797E+02    0.446665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.397764E+02    0.464693E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.379732E+02    0.476183E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.359419E+02    0.478270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.340520E+02    0.502019E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.313967E+02    0.482618E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.300439E+02    0.454103E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.305266E+02    0.422694E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.327573E+02    0.394425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.360674E+02    0.378396E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.396133E+02    0.379667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.425767E+02    0.398173E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133836E+03   -0.442030E+02    0.429204E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.435369E+02    0.463981E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.411530E+02    0.492078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.375151E+02    0.505971E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.374275E+02    0.338583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.354505E+02    0.340580E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.368899E+02    0.321494E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.391340E+02    0.325666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.389139E+02    0.348458E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.366830E+02    0.356979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.348442E+02    0.369277E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.335904E+02    0.355890E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.336302E+02    0.336063E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.345370E+02    0.317483E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.361737E+02    0.304698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.383081E+02    0.299798E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.401303E+02    0.306123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.412724E+02    0.321185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.414079E+02    0.340840E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.404455E+02    0.359612E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.386580E+02    0.372524E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.366120E+02    0.375968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.346758E+02    0.401306E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.319441E+02    0.383463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.305854E+02    0.355329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.311604E+02    0.321552E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.332703E+02    0.292577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.367421E+02    0.273403E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.403254E+02    0.272839E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.433725E+02    0.289128E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.448014E+02    0.319945E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.441330E+02    0.356258E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.416206E+02    0.386828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.381847E+02    0.402975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.383639E+02    0.217717E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.362777E+02    0.221784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.378609E+02    0.199969E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.401459E+02    0.202801E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.399924E+02    0.226222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.376619E+02    0.237084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.356572E+02    0.252193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.344339E+02    0.238730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.343394E+02    0.218899E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.352913E+02    0.198865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.371766E+02    0.182486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.393279E+02    0.176292E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.411928E+02    0.181875E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.423961E+02    0.196395E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.424968E+02    0.216867E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.414828E+02    0.237455E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.396168E+02    0.252602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.375548E+02    0.257273E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.354879E+02    0.285053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.326753E+02    0.269060E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.314637E+02    0.238835E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.319662E+02    0.203853E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.341946E+02    0.171715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.375763E+02    0.151204E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.414828E+02    0.145973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.445224E+02    0.161826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.460713E+02    0.191872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.452019E+02    0.231538E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.426604E+02    0.265088E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.390450E+02    0.284557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    644942.811734252     
  ps_ts2 prof sum =   644509.851434636     
  trcom prof sum =    644509.851434636     
  ps_ts2 cur sum  =   15102.8419496687     
  trcom cur sum  =    15102.8419496687     
  
  antenna # iant =            2
  powecha_use(iant) =    686568.872436921     
  ps_ts2 prof sum =   686185.626010787     
  trcom prof sum =    686185.626010787     
  ps_ts2 cur sum  =   18510.3421204273     
  trcom cur sum  =    18510.3421204273     
  
  antenna # iant =            3
  powecha_use(iant) =    524623.284275835     
  ps_ts2 prof sum =   524291.042736001     
  trcom prof sum =    524291.042736001     
  ps_ts2 cur sum  =   10845.6649865962     
  trcom cur sum  =    10845.6649865962     
  
  antenna # iant =            4
  powecha_use(iant) =    545032.966179571     
  ps_ts2 prof sum =   544710.995467069     
  trcom prof sum =    544710.995467069     
  ps_ts2 cur sum  =   13727.9329039031     
  trcom cur sum  =    13727.9329039031     
  
  antenna # iant =            5
  powecha_use(iant) =    545856.158224242     
  ps_ts2 prof sum =   545544.400005130     
  trcom prof sum =    545544.400005129     
  ps_ts2 cur sum  =   15638.2835708841     
  trcom cur sum  =    15638.2835708841     
  
  Total ECH heating:      2945241.91565362     
  Total Current Drive:    73825.0655314794     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1479
 TA= 1.79000E+00 CPU TIME= 1.59262E-01 SECONDS.  DT= 1.62764E-03
  
 TEC1=    1.78999999999998     
 TEC2=    1.79499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.79568694444424     
  %check_save_state: izleft hours =    76.1958333333333     
 --> plasma_hash("gframe"): TA= 1.790000E+00 NSTEP=  1479 Hash code:   42653704
 ->PRGCHK: bdy curvature ratio at t= 1.7950E+00 seconds is:  5.4557E-02
% MHDEQ: TG1=     1.790000 ; TG2=     1.795000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7642E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4557E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.790000 TO TG2=    1.795000 @ NSTEP     1479
   GFRAME TG2 MOMENTS CHECKSUM:  2.4902739716265D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.7950E+00  1.8000E+00 total power(Watts):  2.9752E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.79500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.369622E+02    0.382567E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.349944E+02    0.384047E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.364462E+02    0.365563E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.385776E+02    0.370756E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.384285E+02    0.392802E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.362004E+02    0.400883E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.343581E+02    0.412999E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.332973E+02    0.398027E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.330231E+02    0.380204E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.340244E+02    0.361713E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.357511E+02    0.348936E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.377877E+02    0.345210E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.395908E+02    0.351846E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.408070E+02    0.366347E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.409178E+02    0.385848E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.399355E+02    0.404625E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.381432E+02    0.417200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.361069E+02    0.420096E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.341614E+02    0.444104E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.313856E+02    0.426638E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.303016E+02    0.396746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.306712E+02    0.364871E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.327930E+02    0.336726E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.362629E+02    0.318353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.398266E+02    0.318513E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.428338E+02    0.335812E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.444225E+02    0.365731E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.436054E+02    0.402320E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.412665E+02    0.431531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.376430E+02    0.446652E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.380864E+02    0.287653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.360085E+02    0.290869E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.376143E+02    0.270126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.397849E+02    0.274436E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.396907E+02    0.296504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.373589E+02    0.306335E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.354334E+02    0.319866E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.343258E+02    0.305373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.342602E+02    0.285988E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.351513E+02    0.267359E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.368722E+02    0.253410E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.390181E+02    0.247882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.408605E+02    0.253961E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.420305E+02    0.268799E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.421956E+02    0.288193E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.411523E+02    0.307969E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.393701E+02    0.321584E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.372190E+02    0.326234E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.353023E+02    0.351855E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.324469E+02    0.335573E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.312108E+02    0.306191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.317550E+02    0.272235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.339316E+02    0.241673E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.374125E+02    0.221156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.411159E+02    0.219003E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.441041E+02    0.235799E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.455842E+02    0.266525E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.450700E+02    0.302168E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.423724E+02    0.335150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.388380E+02    0.352576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.367473E+02    0.442516E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.348764E+02    0.442883E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.362579E+02    0.425662E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.383705E+02    0.431553E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.382843E+02    0.452627E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.360550E+02    0.459538E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.342056E+02    0.470664E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.330861E+02    0.456115E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.330022E+02    0.437947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.338559E+02    0.420941E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.355045E+02    0.409084E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.375334E+02    0.405998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.394100E+02    0.412907E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.405954E+02    0.428109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.408704E+02    0.446747E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.397680E+02    0.464713E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.379655E+02    0.476158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.359345E+02    0.478244E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.340459E+02    0.501876E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.313904E+02    0.482557E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.300371E+02    0.454141E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.305197E+02    0.422811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.327525E+02    0.394637E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.360599E+02    0.378686E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.396047E+02    0.379972E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.425670E+02    0.398431E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133817E+03   -0.441928E+02    0.429359E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133881E+03   -0.435274E+02    0.464013E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.411451E+02    0.491990E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.375085E+02    0.505811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.374208E+02    0.338976E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.354439E+02    0.340953E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.368839E+02    0.321901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.391236E+02    0.326108E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.389061E+02    0.348842E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.366753E+02    0.357324E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.348368E+02    0.369587E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.335834E+02    0.356214E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.336240E+02    0.336432E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.345314E+02    0.317892E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.360788E+02    0.305822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.383023E+02    0.300256E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.401238E+02    0.306582E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.412651E+02    0.321632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.413998E+02    0.341260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.404370E+02    0.359980E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.386502E+02    0.372847E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.366043E+02    0.376260E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.346676E+02    0.401506E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.319372E+02    0.383721E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.305798E+02    0.355644E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.311552E+02    0.321923E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.332659E+02    0.292999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.367377E+02    0.273891E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.403205E+02    0.273354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.433658E+02    0.289649E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.447933E+02    0.320426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.441237E+02    0.356661E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.416113E+02    0.387117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.381760E+02    0.403194E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.383625E+02    0.218224E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.362759E+02    0.222272E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.378602E+02    0.200475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.401446E+02    0.203325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.399904E+02    0.226747E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.376590E+02    0.237596E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.356535E+02    0.252685E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.344319E+02    0.239214E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.343378E+02    0.219369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.352910E+02    0.199343E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.371772E+02    0.182989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.393283E+02    0.176817E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.411928E+02    0.182411E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.423955E+02    0.196932E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.424947E+02    0.217418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.414793E+02    0.238004E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.396128E+02    0.253134E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.375518E+02    0.257785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.354865E+02    0.285486E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.326724E+02    0.269519E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.314616E+02    0.239292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.319629E+02    0.204343E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.341960E+02    0.172186E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.375785E+02    0.151699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.414842E+02    0.146505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.445226E+02    0.162392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.460696E+02    0.192464E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.452027E+02    0.232095E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.426550E+02    0.265634E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.390398E+02    0.285051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673627.101554899     
  ps_ts2 prof sum =   673214.612889347     
  trcom prof sum =    673214.612889348     
  ps_ts2 cur sum  =   15643.8385318042     
  trcom cur sum  =    15643.8385318042     
  
  antenna # iant =            2
  powecha_use(iant) =    686423.553006934     
  ps_ts2 prof sum =   686038.736546060     
  trcom prof sum =    686038.736546059     
  ps_ts2 cur sum  =   18366.0093599653     
  trcom cur sum  =    18366.0093599653     
  
  antenna # iant =            3
  powecha_use(iant) =    524306.113144576     
  ps_ts2 prof sum =   523971.513354883     
  trcom prof sum =    523971.513354884     
  ps_ts2 cur sum  =   10746.6152417261     
  trcom cur sum  =    10746.6152417262     
  
  antenna # iant =            4
  powecha_use(iant) =    544064.827821400     
  ps_ts2 prof sum =   543729.413614679     
  trcom prof sum =    543729.413614678     
  ps_ts2 cur sum  =   13594.1294406445     
  trcom cur sum  =    13594.1294406445     
  
  antenna # iant =            5
  powecha_use(iant) =    546806.528979721     
  ps_ts2 prof sum =   546495.593441127     
  trcom prof sum =    546495.593441126     
  ps_ts2 cur sum  =   15555.4125688276     
  trcom cur sum  =    15555.4125688276     
  
  Total ECH heating:      2973449.86984609     
  Total Current Drive:    73906.0051429678     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1482
 TA= 1.79500E+00 CPU TIME= 1.68803E-01 SECONDS.  DT= 1.67225E-03
  
 TEC1=    1.79499999999998     
 TEC2=    1.79999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.80740861111053     
  %check_save_state: izleft hours =    76.1841666666667     
 --> plasma_hash("gframe"): TA= 1.795000E+00 NSTEP=  1482 Hash code:   29182002
 ->PRGCHK: bdy curvature ratio at t= 1.8000E+00 seconds is:  5.4557E-02
% MHDEQ: TG1=     1.795000 ; TG2=     1.800000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7639E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4557E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.795000 TO TG2=    1.800000 @ NSTEP     1482
   GFRAME TG2 MOMENTS CHECKSUM:  2.4900576222286D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.66229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  3.50963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.91730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.00020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.92070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.01360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.76226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.31176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  2.75900E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.25484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.48924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.70063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.11263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.10977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.84056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.61093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.54653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.48574E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.30389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.93940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.93940E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.8000E+00  1.8050E+00 total power(Watts):  2.9982E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.80000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.369553E+02    0.382844E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.349881E+02    0.384313E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.364398E+02    0.365883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.385706E+02    0.371080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.384212E+02    0.393053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.361934E+02    0.401095E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.343513E+02    0.413158E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.331240E+02    0.399126E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.330170E+02    0.380468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.340185E+02    0.362030E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.357453E+02    0.349290E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.377813E+02    0.345597E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.395841E+02    0.352217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.407994E+02    0.366701E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.409099E+02    0.386139E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.399277E+02    0.404837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.381355E+02    0.417366E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.361000E+02    0.420239E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.341550E+02    0.444171E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.313801E+02    0.426747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.301414E+02    0.397861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.306662E+02    0.365162E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.327881E+02    0.337083E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.362578E+02    0.318758E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.398211E+02    0.318947E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.429282E+02    0.335675E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.444142E+02    0.366109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.435969E+02    0.402564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.412582E+02    0.431667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.376357E+02    0.446719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.380824E+02    0.288121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.360944E+02    0.290589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.376115E+02    0.270616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.397811E+02    0.274936E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.396860E+02    0.296974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.373544E+02    0.306777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.354291E+02    0.320268E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.343222E+02    0.305788E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.340867E+02    0.287921E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.351486E+02    0.267831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.368693E+02    0.253910E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.389220E+02    0.249214E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.408570E+02    0.254485E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.420268E+02    0.269333E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.421907E+02    0.288694E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.411467E+02    0.308429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.393611E+02    0.322032E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.372139E+02    0.326638E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.352966E+02    0.352208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.324423E+02    0.335937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.312073E+02    0.306583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.317521E+02    0.272672E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.339303E+02    0.242138E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.374111E+02    0.221654E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.411148E+02    0.219530E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.441016E+02    0.236362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.455797E+02    0.267096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.450637E+02    0.302681E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.423654E+02    0.335584E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.388312E+02    0.352944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.367402E+02    0.442609E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.347832E+02    0.443253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.362512E+02    0.425794E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.383630E+02    0.431673E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.382772E+02    0.452679E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.360484E+02    0.459568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.341992E+02    0.470658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.330799E+02    0.456147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.329960E+02    0.438027E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.338495E+02    0.421076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.354974E+02    0.409258E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.375263E+02    0.406199E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.394018E+02    0.413104E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.405873E+02    0.428250E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.408630E+02    0.446826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.397603E+02    0.464744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.379584E+02    0.476146E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.359282E+02    0.478209E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.340408E+02    0.501739E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.313849E+02    0.482510E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.300315E+02    0.454176E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.305137E+02    0.422933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.327462E+02    0.394849E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.360531E+02    0.378964E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.395974E+02    0.380268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.425588E+02    0.398683E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133798E+03   -0.441844E+02    0.429500E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.435192E+02    0.464055E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.411383E+02    0.491913E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.375029E+02    0.505657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.374146E+02    0.339363E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.354383E+02    0.341321E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.368786E+02    0.322319E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.391191E+02    0.326522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.388996E+02    0.349221E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.366691E+02    0.357674E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.348308E+02    0.369890E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.335781E+02    0.356544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.334506E+02    0.338032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.345268E+02    0.318289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.361639E+02    0.305566E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.382977E+02    0.300711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.401187E+02    0.307038E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.412591E+02    0.322074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.413930E+02    0.341671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.404297E+02    0.360345E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.386432E+02    0.373160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.365977E+02    0.376552E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.346615E+02    0.401710E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.319313E+02    0.383965E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.305747E+02    0.355953E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.311512E+02    0.322291E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.332624E+02    0.293422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.367351E+02    0.274377E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.403167E+02    0.273869E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.433607E+02    0.290170E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.447864E+02    0.320901E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.441157E+02    0.357066E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.416034E+02    0.387408E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.381707E+02    0.403397E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.383613E+02    0.218728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.363632E+02    0.221872E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.378607E+02    0.200970E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.401442E+02    0.203843E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.398932E+02    0.228120E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.376582E+02    0.238102E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.356516E+02    0.253170E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.344308E+02    0.239678E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.343388E+02    0.219843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.352922E+02    0.199818E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.371781E+02    0.183477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.392371E+02    0.178289E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.411941E+02    0.182936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.423955E+02    0.197474E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.424935E+02    0.217958E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.413787E+02    0.239358E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.396097E+02    0.253653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.374581E+02    0.259081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.354837E+02    0.285940E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.325879E+02    0.270764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.313823E+02    0.240616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.319651E+02    0.204776E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.341985E+02    0.172653E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.375827E+02    0.152187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.414875E+02    0.147026E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.445249E+02    0.162951E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.460696E+02    0.193039E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.451961E+02    0.232692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.426512E+02    0.266174E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.390358E+02    0.285530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.20 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694225.798387946     
  ps_ts2 prof sum =   693778.013567003     
  trcom prof sum =    693778.013567003     
  ps_ts2 cur sum  =   16000.4627307365     
  trcom cur sum  =    16000.4627307365     
  
  antenna # iant =            2
  powecha_use(iant) =    687523.368984837     
  ps_ts2 prof sum =   687140.106368947     
  trcom prof sum =    687140.106368947     
  ps_ts2 cur sum  =   18264.6237053987     
  trcom cur sum  =    18264.6237053987     
  
  antenna # iant =            3
  powecha_use(iant) =    523543.097163136     
  ps_ts2 prof sum =   523207.994291336     
  trcom prof sum =    523207.994291336     
  ps_ts2 cur sum  =   10647.5157458631     
  trcom cur sum  =    10647.5157458631     
  
  antenna # iant =            4
  powecha_use(iant) =    546844.556771022     
  ps_ts2 prof sum =   546511.255147191     
  trcom prof sum =    546511.255147191     
  ps_ts2 cur sum  =   13562.9526995040     
  trcom cur sum  =    13562.9526995040     
  
  antenna # iant =            5
  powecha_use(iant) =    546087.017753109     
  ps_ts2 prof sum =   545769.108412917     
  trcom prof sum =    545769.108412916     
  ps_ts2 cur sum  =   15430.4053018910     
  trcom cur sum  =    15430.4053018910     
  
  Total ECH heating:      2996406.47778739     
  Total Current Drive:    73905.9601833933     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1485
 TA= 1.80000E+00 CPU TIME= 1.62110E-01 SECONDS.  DT= 1.54678E-03
  
 TEC1=    1.79999999999998     
 TEC2=    1.80499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.82035805555506     
  %check_save_state: izleft hours =    76.1711111111111     
 --> plasma_hash("gframe"): TA= 1.800000E+00 NSTEP=  1485 Hash code:   31742709
 ->PRGCHK: bdy curvature ratio at t= 1.8050E+00 seconds is:  5.4556E-02
% MHDEQ: TG1=     1.800000 ; TG2=     1.805000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7637E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4556E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.800000 TO TG2=    1.805000 @ NSTEP     1485
   GFRAME TG2 MOMENTS CHECKSUM:  2.4898412728307D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8050E+00  1.8100E+00 total power(Watts):  2.9920E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.80500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.369487E+02    0.383129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.349817E+02    0.384576E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.364338E+02    0.366221E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.385637E+02    0.371407E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.384141E+02    0.393318E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.361869E+02    0.401323E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.343453E+02    0.413340E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.331179E+02    0.399340E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.330110E+02    0.380733E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.340131E+02    0.362362E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.357398E+02    0.349654E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.377754E+02    0.345986E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.395778E+02    0.352613E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.407923E+02    0.367061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.409023E+02    0.386437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.399201E+02    0.405071E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.381286E+02    0.417544E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.360953E+02    0.420389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.341484E+02    0.444254E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.313737E+02    0.426866E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.301358E+02    0.398068E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.306611E+02    0.365461E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.327839E+02    0.337450E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.361640E+02    0.319826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.398158E+02    0.319395E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.429214E+02    0.336126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.441986E+02    0.367457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.435886E+02    0.402827E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.412540E+02    0.431805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.376283E+02    0.446810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.380789E+02    0.288601E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.360906E+02    0.291050E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.376081E+02    0.271120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.397783E+02    0.275445E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.396817E+02    0.297453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.373500E+02    0.307219E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.354240E+02    0.320678E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.343185E+02    0.306213E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.340820E+02    0.288368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.351459E+02    0.268319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.368708E+02    0.254391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.389208E+02    0.249735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.408558E+02    0.255033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.420236E+02    0.269872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.420862E+02    0.289909E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.411417E+02    0.308905E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.393574E+02    0.322465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.372088E+02    0.327050E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.352038E+02    0.353128E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.324382E+02    0.336303E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.312041E+02    0.306985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.317496E+02    0.273122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.339304E+02    0.242620E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.374110E+02    0.222162E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.411143E+02    0.220072E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.440999E+02    0.236938E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.456813E+02    0.266949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.450578E+02    0.303208E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.423589E+02    0.336029E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.388250E+02    0.353328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.367332E+02    0.442694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.347764E+02    0.443332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.362446E+02    0.425934E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.383554E+02    0.431801E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.382697E+02    0.452760E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.360415E+02    0.459614E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.341925E+02    0.470677E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.330737E+02    0.456201E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.329901E+02    0.438127E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.338431E+02    0.421223E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.354908E+02    0.409453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.375196E+02    0.406409E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.393948E+02    0.413298E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.405795E+02    0.428399E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.408548E+02    0.446914E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.397529E+02    0.464781E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.379516E+02    0.476140E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.359218E+02    0.478193E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.340354E+02    0.501611E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.313794E+02    0.482465E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.300257E+02    0.454225E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.305083E+02    0.423063E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.327399E+02    0.395076E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.359576E+02    0.379749E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.395902E+02    0.380581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.425507E+02    0.398954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.441753E+02    0.429676E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133839E+03   -0.435145E+02    0.464100E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.411317E+02    0.491838E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.374973E+02    0.505510E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.374091E+02    0.339764E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.354327E+02    0.341696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.368734E+02    0.322731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.390190E+02    0.327563E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.388935E+02    0.349613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.366632E+02    0.358027E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.346519E+02    0.371228E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.335728E+02    0.356877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.334460E+02    0.338402E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.343507E+02    0.320010E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.361597E+02    0.306002E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.382936E+02    0.301174E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.401138E+02    0.307504E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.412532E+02    0.322533E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.413864E+02    0.342093E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.404230E+02    0.360721E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.386364E+02    0.373489E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.365910E+02    0.376866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.346548E+02    0.401924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.319258E+02    0.384220E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.305704E+02    0.356276E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.310683E+02    0.323332E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.332595E+02    0.293865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.367316E+02    0.274868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.403136E+02    0.274386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.433560E+02    0.290692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.447798E+02    0.321390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.441080E+02    0.357481E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.415956E+02    0.387707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.381599E+02    0.403638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.383611E+02    0.219243E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.363632E+02    0.222369E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.378620E+02    0.201483E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.400505E+02    0.205275E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.398933E+02    0.228653E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.376570E+02    0.238613E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.356505E+02    0.253666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.344308E+02    0.240160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.343385E+02    0.220317E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.352940E+02    0.200299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.371807E+02    0.183986E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.392392E+02    0.178813E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.411956E+02    0.183482E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.423963E+02    0.198026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.424930E+02    0.218514E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.413777E+02    0.239903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.396083E+02    0.254188E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.374560E+02    0.259586E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.354796E+02    0.286407E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.325859E+02    0.271215E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.313823E+02    0.241075E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.319664E+02    0.205236E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.342014E+02    0.173132E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.376760E+02    0.151664E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.413968E+02    0.148563E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.445273E+02    0.163521E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.460699E+02    0.193635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.451905E+02    0.233306E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.426481E+02    0.266726E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.390323E+02    0.286024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.59 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696412.590419748     
  ps_ts2 prof sum =   695950.624512882     
  trcom prof sum =    695950.624512882     
  ps_ts2 cur sum  =   15929.5556471484     
  trcom cur sum  =    15929.5556471484     
  
  antenna # iant =            2
  powecha_use(iant) =    683244.031278101     
  ps_ts2 prof sum =   682870.691966315     
  trcom prof sum =    682870.691966314     
  ps_ts2 cur sum  =   18025.2083829235     
  trcom cur sum  =    18025.2083829235     
  
  antenna # iant =            3
  powecha_use(iant) =    524009.438743007     
  ps_ts2 prof sum =   523670.411814738     
  trcom prof sum =    523670.411814739     
  ps_ts2 cur sum  =   10572.9988341278     
  trcom cur sum  =    10572.9988341278     
  
  antenna # iant =            4
  powecha_use(iant) =    542817.869333864     
  ps_ts2 prof sum =   542453.213938091     
  trcom prof sum =    542453.213938091     
  ps_ts2 cur sum  =   13365.1855536995     
  trcom cur sum  =    13365.1855536995     
  
  antenna # iant =            5
  powecha_use(iant) =    545548.332313361     
  ps_ts2 prof sum =   545245.280485203     
  trcom prof sum =    545245.280485203     
  ps_ts2 cur sum  =   15315.9417816184     
  trcom cur sum  =    15315.9417816184     
  
  Total ECH heating:      2990190.22271723     
  Total Current Drive:    73208.8901995176     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1488
 TA= 1.80500E+00 CPU TIME= 1.45830E-01 SECONDS.  DT= 1.89967E-03
  
 TEC1=    1.80499999999998     
 TEC2=    1.80999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.83878249999975     
  %check_save_state: izleft hours =    76.1527777777778     
 --> plasma_hash("gframe"): TA= 1.805000E+00 NSTEP=  1488 Hash code:  107208830
 ->PRGCHK: bdy curvature ratio at t= 1.8100E+00 seconds is:  5.4553E-02
% MHDEQ: TG1=     1.805000 ; TG2=     1.810000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4553E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.805000 TO TG2=    1.810000 @ NSTEP     1488
   GFRAME TG2 MOMENTS CHECKSUM:  2.4897286579750D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.39140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  3.13133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.63569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.90437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.82270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.78456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.22293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -6.07681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.20399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.57418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.72835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.21141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.26033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.76802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.93870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.82147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.63473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.22285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.43166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.43166E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.8100E+00  1.8150E+00 total power(Watts):  2.9903E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.81000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.368538E+02    0.384016E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.349784E+02    0.384979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.363406E+02    0.367201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.385600E+02    0.371889E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.384099E+02    0.393720E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.361826E+02    0.401680E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.342559E+02    0.414045E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.331976E+02    0.399245E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.330916E+02    0.380638E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.340103E+02    0.362821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.356488E+02    0.350726E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.376802E+02    0.347073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.395743E+02    0.353144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.406903E+02    0.368059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.407995E+02    0.387324E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.398187E+02    0.405841E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.381238E+02    0.417879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.360887E+02    0.420714E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.341443E+02    0.444495E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.313700E+02    0.427133E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.301327E+02    0.398391E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.306588E+02    0.365886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.327822E+02    0.337931E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.361628E+02    0.320351E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.398139E+02    0.319951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.427150E+02    0.337851E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.442973E+02    0.367532E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.436849E+02    0.402890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.412448E+02    0.432128E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.376237E+02    0.447058E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.380792E+02    0.289186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.360909E+02    0.291609E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.375181E+02    0.272502E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.397788E+02    0.276083E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.395856E+02    0.298721E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.373494E+02    0.307761E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.354229E+02    0.321194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.343181E+02    0.306727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.340843E+02    0.288918E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.349745E+02    0.270472E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.368703E+02    0.255041E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.389224E+02    0.250380E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.408569E+02    0.255711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.420240E+02    0.270545E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.420856E+02    0.290538E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.410418E+02    0.310132E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.392604E+02    0.323631E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.372070E+02    0.327580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.352010E+02    0.353620E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.323546E+02    0.337398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.312039E+02    0.307474E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.316714E+02    0.274464E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.338490E+02    0.244031E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.374150E+02    0.222721E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.410213E+02    0.221517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.441020E+02    0.237610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.456808E+02    0.267681E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.448463E+02    0.305122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.422551E+02    0.337180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.387275E+02    0.354396E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.367285E+02    0.442957E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.347722E+02    0.443583E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.361507E+02    0.426572E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.383506E+02    0.432103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.382647E+02    0.452993E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.360367E+02    0.459822E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.341038E+02    0.471037E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.330698E+02    0.456398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.329861E+02    0.438374E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.338391E+02    0.421522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.354865E+02    0.409794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.375115E+02    0.406785E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.393901E+02    0.413655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.406714E+02    0.428413E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.406544E+02    0.447707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.398437E+02    0.464786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.379474E+02    0.476294E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.359178E+02    0.478332E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.340330E+02    0.501620E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.313762E+02    0.482568E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.300225E+02    0.454414E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.305045E+02    0.423329E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.327365E+02    0.395431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.359542E+02    0.380168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.395858E+02    0.381039E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.426460E+02    0.398989E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.440665E+02    0.430314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.435052E+02    0.464332E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.411273E+02    0.491940E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.374944E+02    0.505522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.374047E+02    0.340303E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.354306E+02    0.342206E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.368724E+02    0.323256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.390166E+02    0.328113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.388903E+02    0.350143E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.366601E+02    0.358522E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.347350E+02    0.371151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.336546E+02    0.356788E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.334447E+02    0.338884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.344356E+02    0.319856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.361598E+02    0.306522E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.382001E+02    0.302418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.401125E+02    0.308075E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.412511E+02    0.323097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.413829E+02    0.342663E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.403216E+02    0.361757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.386323E+02    0.373968E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.364974E+02    0.377778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.345647E+02    0.402693E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.317604E+02    0.385562E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.305682E+02    0.356717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.310682E+02    0.323806E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.333433E+02    0.293660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.366431E+02    0.276221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.403144E+02    0.275028E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.432530E+02    0.292017E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.448810E+02    0.321416E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.442069E+02    0.357550E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.415907E+02    0.388158E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.380640E+02    0.404403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.383682E+02    0.219773E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.363677E+02    0.222910E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.378672E+02    0.202000E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.400554E+02    0.205829E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.398961E+02    0.229248E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.375653E+02    0.240075E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.354772E+02    0.255901E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.345185E+02    0.239874E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.343430E+02    0.220824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.353855E+02    0.199860E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.370979E+02    0.185462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.392462E+02    0.179351E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.412023E+02    0.184033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.423029E+02    0.199493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.423974E+02    0.219968E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.413800E+02    0.240555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.395147E+02    0.255632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.374570E+02    0.260221E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.353059E+02    0.288435E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.325877E+02    0.271792E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.313851E+02    0.241616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.319713E+02    0.205706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.341251E+02    0.174629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.376835E+02    0.152201E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.414039E+02    0.149145E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.444329E+02    0.165084E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.458653E+02    0.196018E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.453006E+02    0.233158E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.425480E+02    0.268155E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.390327E+02    0.286628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697321.741361300     
  ps_ts2 prof sum =   696900.942793543     
  trcom prof sum =    696900.942793543     
  ps_ts2 cur sum  =   15815.4766010385     
  trcom cur sum  =    15815.4766010385     
  
  antenna # iant =            2
  powecha_use(iant) =    683238.326196422     
  ps_ts2 prof sum =   682830.376748365     
  trcom prof sum =    682830.376748364     
  ps_ts2 cur sum  =   17889.5305727940     
  trcom cur sum  =    17889.5305727939     
  
  antenna # iant =            3
  powecha_use(iant) =    522990.297358477     
  ps_ts2 prof sum =   522684.759253782     
  trcom prof sum =    522684.759253782     
  ps_ts2 cur sum  =   10458.6583987110     
  trcom cur sum  =    10458.6583987110     
  
  antenna # iant =            4
  powecha_use(iant) =    540938.182589153     
  ps_ts2 prof sum =   540629.264640073     
  trcom prof sum =    540629.264640072     
  ps_ts2 cur sum  =   13212.4470963812     
  trcom cur sum  =    13212.4470963812     
  
  antenna # iant =            5
  powecha_use(iant) =    545797.977951270     
  ps_ts2 prof sum =   545498.257565928     
  trcom prof sum =    545498.257565927     
  ps_ts2 cur sum  =   15219.1614869009     
  trcom cur sum  =    15219.1614869009     
  
  Total ECH heating:      2988543.60100169     
  Total Current Drive:    72595.2741558255     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1491
 TA= 1.81000E+00 CPU TIME= 1.63034E-01 SECONDS.  DT= 9.07178E-04
  
 TEC1=    1.80999999999998     
 TEC2=    1.81499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.85399833333281     
  %check_save_state: izleft hours =    76.1375000000000     
 --> plasma_hash("gframe"): TA= 1.810000E+00 NSTEP=  1491 Hash code:  114532172
 ->PRGCHK: bdy curvature ratio at t= 1.8150E+00 seconds is:  5.4552E-02
% MHDEQ: TG1=     1.810000 ; TG2=     1.815000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4552E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.810000 TO TG2=    1.815000 @ NSTEP     1491
   GFRAME TG2 MOMENTS CHECKSUM:  2.4896160431193D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.8150E+00  1.8200E+00 total power(Watts):  2.9995E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.81500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.368489E+02    0.384436E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.349731E+02    0.385376E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.363359E+02    0.367666E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.384604E+02    0.372849E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.384034E+02    0.394123E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.361772E+02    0.402042E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.342504E+02    0.414350E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.331935E+02    0.399586E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.330841E+02    0.381053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.340057E+02    0.363280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.356446E+02    0.351221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.376757E+02    0.347593E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.395690E+02    0.353676E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.406841E+02    0.368570E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.407931E+02    0.387765E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.398123E+02    0.406210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.381176E+02    0.418201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.360834E+02    0.421008E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.341389E+02    0.444714E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.314454E+02    0.427025E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.301288E+02    0.398716E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.306551E+02    0.366306E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.328614E+02    0.337808E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.361596E+02    0.320867E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.397146E+02    0.321127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.427099E+02    0.338435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134210E+03   -0.442902E+02    0.368078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.436774E+02    0.403308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.410413E+02    0.433027E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.376175E+02    0.447289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.379850E+02    0.290476E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.360894E+02    0.292174E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.375172E+02    0.273110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.396818E+02    0.277444E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.395831E+02    0.299299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.373467E+02    0.308295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.353323E+02    0.322346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.341456E+02    0.308606E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.341647E+02    0.288759E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.349743E+02    0.271057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.367802E+02    0.256450E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.389221E+02    0.251011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.407592E+02    0.257137E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.419230E+02    0.271948E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.420832E+02    0.291160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.410387E+02    0.310699E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.392571E+02    0.324176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.372039E+02    0.328097E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.351965E+02    0.354100E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.323513E+02    0.337880E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.311234E+02    0.308653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.316718E+02    0.275019E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.338508E+02    0.244582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.373272E+02    0.224125E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.410233E+02    0.222091E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.440027E+02    0.239054E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.454681E+02    0.269830E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.449469E+02    0.305116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.422499E+02    0.337756E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.387223E+02    0.354915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.366323E+02    0.443473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.347667E+02    0.443806E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.361449E+02    0.426853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.383446E+02    0.432384E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.381654E+02    0.453461E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.360310E+02    0.460016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.340987E+02    0.471188E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.330649E+02    0.456582E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.329001E+02    0.438905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.338341E+02    0.421799E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.354813E+02    0.410118E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.375088E+02    0.407125E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.392883E+02    0.414365E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.404700E+02    0.429341E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.406478E+02    0.447950E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.396460E+02    0.465390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.379414E+02    0.476441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.359129E+02    0.478454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.339444E+02    0.501724E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.312924E+02    0.482836E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.300949E+02    0.454309E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.305784E+02    0.423211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.325669E+02    0.396676E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.359490E+02    0.380582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.394876E+02    0.381931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.426388E+02    0.399409E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133919E+03   -0.440585E+02    0.430641E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.434980E+02    0.464555E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.409265E+02    0.492247E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.375816E+02    0.505420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.373107E+02    0.341392E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.354267E+02    0.342713E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.368687E+02    0.323783E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.390133E+02    0.328647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.388853E+02    0.350671E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.366553E+02    0.359010E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.347301E+02    0.371593E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.336505E+02    0.357254E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.335248E+02    0.338774E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.344334E+02    0.320353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.361573E+02    0.307060E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.381976E+02    0.302967E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.401097E+02    0.308639E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.412471E+02    0.323664E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.412788E+02    0.343784E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.403162E+02    0.362273E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.385326E+02    0.374909E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.364922E+02    0.378213E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.345597E+02    0.403037E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.317570E+02    0.385935E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.305649E+02    0.357163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.310662E+02    0.324266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.333418E+02    0.294192E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.366420E+02    0.276822E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.403125E+02    0.275661E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.432504E+02    0.292645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.448758E+02    0.322032E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.442000E+02    0.358129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.415840E+02    0.388612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.380579E+02    0.404768E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.382761E+02    0.221215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.361936E+02    0.225187E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.377802E+02    0.203427E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.400581E+02    0.206355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.398978E+02    0.229838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.375695E+02    0.240638E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.354783E+02    0.256495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.345199E+02    0.240427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.344294E+02    0.220428E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.352178E+02    0.202210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.371022E+02    0.185962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.392507E+02    0.179880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.411103E+02    0.185508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.423067E+02    0.200039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.423994E+02    0.220555E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.413802E+02    0.241189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.395145E+02    0.256275E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.374563E+02    0.260841E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.353922E+02    0.288265E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.325874E+02    0.272352E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.313867E+02    0.242137E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.318954E+02    0.207107E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.341303E+02    0.175117E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.375112E+02    0.154763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.414099E+02    0.149712E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.444383E+02    0.165675E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.458686E+02    0.196607E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.450924E+02    0.235435E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.425465E+02    0.268826E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.390306E+02    0.287227E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698545.392746983     
  ps_ts2 prof sum =   698158.189454790     
  trcom prof sum =    698158.189454790     
  ps_ts2 cur sum  =   15689.8796907305     
  trcom cur sum  =    15689.8796907305     
  
  antenna # iant =            2
  powecha_use(iant) =    683353.517106604     
  ps_ts2 prof sum =   682930.619653211     
  trcom prof sum =    682930.619653210     
  ps_ts2 cur sum  =   17738.0714398351     
  trcom cur sum  =    17738.0714398351     
  
  antenna # iant =            3
  powecha_use(iant) =    521844.351447718     
  ps_ts2 prof sum =   521515.833603658     
  trcom prof sum =    521515.833603658     
  ps_ts2 cur sum  =   10329.4697713565     
  trcom cur sum  =    10329.4697713565     
  
  antenna # iant =            4
  powecha_use(iant) =    547776.056504274     
  ps_ts2 prof sum =   547488.910792460     
  trcom prof sum =    547488.910792460     
  ps_ts2 cur sum  =   13255.1890497488     
  trcom cur sum  =    13255.1890497488     
  
  antenna # iant =            5
  powecha_use(iant) =    547965.288290952     
  ps_ts2 prof sum =   547648.772451843     
  trcom prof sum =    547648.772451843     
  ps_ts2 cur sum  =   15160.7458252169     
  trcom cur sum  =    15160.7458252169     
  
  Total ECH heating:      2997742.32595596     
  Total Current Drive:    72173.3557768878     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1495
 TA= 1.81500E+00 CPU TIME= 1.59296E-01 SECONDS.  DT= 1.92673E-03
  
 TEC1=    1.81499999999998     
 TEC2=    1.81999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.87210888888831     
  %check_save_state: izleft hours =    76.1194444444444     
 --> plasma_hash("gframe"): TA= 1.815000E+00 NSTEP=  1495 Hash code:   21064620
 ->PRGCHK: bdy curvature ratio at t= 1.8200E+00 seconds is:  5.4553E-02
% MHDEQ: TG1=     1.815000 ; TG2=     1.820000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4553E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.815000 TO TG2=    1.820000 @ NSTEP     1495
   GFRAME TG2 MOMENTS CHECKSUM:  2.4895034282636D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.69390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.86096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.72435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.42140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.82237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.45062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.24950E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.86830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.40419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.12087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.50502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.56941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.58705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.23104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.95353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.77772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.07506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.30321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.30321E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8200E+00  1.8250E+00 total power(Watts):  2.9983E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.82000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.368452E+02    0.384883E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.348829E+02    0.386272E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.363329E+02    0.368168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.384569E+02    0.373352E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.383064E+02    0.394970E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.361735E+02    0.402429E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.342471E+02    0.414683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.331896E+02    0.399949E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.330841E+02    0.381464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.339183E+02    0.364296E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.356411E+02    0.351756E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.376731E+02    0.348143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.394704E+02    0.354770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.406767E+02    0.369128E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.407888E+02    0.388241E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.398078E+02    0.406615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.380204E+02    0.418900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.359900E+02    0.421688E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.340496E+02    0.445254E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.314416E+02    0.427309E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.301265E+02    0.399061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.305748E+02    0.367295E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.326958E+02    0.339528E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.361595E+02    0.321410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.397133E+02    0.321706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.428081E+02    0.338495E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.442852E+02    0.368666E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.436716E+02    0.403759E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.410362E+02    0.433350E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.375209E+02    0.447821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.379853E+02    0.291101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.360015E+02    0.293474E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.375185E+02    0.273761E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.396830E+02    0.278115E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.395834E+02    0.299909E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.372557E+02    0.309532E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.353322E+02    0.322878E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.342306E+02    0.308462E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.339995E+02    0.290768E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.350591E+02    0.270944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.367837E+02    0.257115E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.388318E+02    0.252482E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.407612E+02    0.257850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.419208E+02    0.272672E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.419837E+02    0.292502E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.410379E+02    0.311311E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.392552E+02    0.324757E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.371116E+02    0.329266E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.351975E+02    0.354603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.323511E+02    0.338387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.311242E+02    0.309165E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.316737E+02    0.275603E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.338544E+02    0.245184E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.373322E+02    0.224715E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.410280E+02    0.222720E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.440030E+02    0.239792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.455737E+02    0.269881E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.449453E+02    0.305789E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.422473E+02    0.338367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.387194E+02    0.355468E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.366279E+02    0.443746E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.347625E+02    0.444060E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.361409E+02    0.427159E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.382464E+02    0.433002E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.381608E+02    0.453706E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.359380E+02    0.460466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.340948E+02    0.471362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.329775E+02    0.457057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.328940E+02    0.439176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.337446E+02    0.422475E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.353900E+02    0.410865E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.374130E+02    0.407896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.392841E+02    0.414737E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.404644E+02    0.429677E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.407398E+02    0.447984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.396412E+02    0.465609E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.378447E+02    0.476786E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.358200E+02    0.478785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.339417E+02    0.501736E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.312895E+02    0.482936E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.300911E+02    0.454515E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.304185E+02    0.424232E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.326464E+02    0.396604E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.359455E+02    0.381045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.394802E+02    0.382431E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.424321E+02    0.400636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.440524E+02    0.431011E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133724E+03   -0.434925E+02    0.464797E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.410201E+02    0.492226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.373960E+02    0.505595E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.373088E+02    0.341946E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.353372E+02    0.343827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.367776E+02    0.324960E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.390117E+02    0.329223E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.387882E+02    0.351775E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.365624E+02    0.360065E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.347274E+02    0.372057E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.334801E+02    0.358851E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.333556E+02    0.340497E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.344329E+02    0.320886E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.360685E+02    0.308292E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.381979E+02    0.303559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.400128E+02    0.309891E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.411471E+02    0.324867E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.412760E+02    0.344377E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.403127E+02    0.362827E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.385291E+02    0.375405E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.364890E+02    0.378684E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.345562E+02    0.403403E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.318350E+02    0.385856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.304851E+02    0.358198E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.310648E+02    0.324768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.331738E+02    0.296208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.366432E+02    0.277455E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.402175E+02    0.277071E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.432502E+02    0.293320E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.446610E+02    0.323872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.439888E+02    0.359728E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.414801E+02    0.389517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.380539E+02    0.405164E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.382810E+02    0.221802E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.362865E+02    0.224889E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.377864E+02    0.203985E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.399700E+02    0.207830E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.398072E+02    0.231315E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.375732E+02    0.241281E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.355675E+02    0.256331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.343543E+02    0.242720E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.342667E+02    0.222754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.352238E+02    0.202735E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.371093E+02    0.186513E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.391664E+02    0.181406E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.411178E+02    0.186095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.423128E+02    0.200647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.424042E+02    0.221200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.412857E+02    0.242688E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.395169E+02    0.256965E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.373681E+02    0.262291E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.353926E+02    0.288860E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.325082E+02    0.273725E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.313120E+02    0.243565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.319018E+02    0.207601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.342208E+02    0.174661E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.376093E+02    0.154321E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.413243E+02    0.151328E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.443459E+02    0.167273E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.457707E+02    0.198130E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.450956E+02    0.236161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.425479E+02    0.269548E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.389373E+02    0.288568E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697301.981018033     
  ps_ts2 prof sum =   696902.029050018     
  trcom prof sum =    696902.029050019     
  ps_ts2 cur sum  =   15527.5715226817     
  trcom cur sum  =    15527.5715226817     
  
  antenna # iant =            2
  powecha_use(iant) =    684911.713527739     
  ps_ts2 prof sum =   684540.903342956     
  trcom prof sum =    684540.903342956     
  ps_ts2 cur sum  =   17642.9960043585     
  trcom cur sum  =    17642.9960043584     
  
  antenna # iant =            3
  powecha_use(iant) =    522295.365002494     
  ps_ts2 prof sum =   521955.581501722     
  trcom prof sum =    521955.581501723     
  ps_ts2 cur sum  =   10246.1020181873     
  trcom cur sum  =    10246.1020181873     
  
  antenna # iant =            4
  powecha_use(iant) =    547018.720300734     
  ps_ts2 prof sum =   546679.042322165     
  trcom prof sum =    546679.042322164     
  ps_ts2 cur sum  =   13129.6284133404     
  trcom cur sum  =    13129.6284133404     
  
  antenna # iant =            5
  powecha_use(iant) =    546786.792734621     
  ps_ts2 prof sum =   546483.903371318     
  trcom prof sum =    546483.903371318     
  ps_ts2 cur sum  =   15025.2090552789     
  trcom cur sum  =    15025.2090552789     
  
  Total ECH heating:      2996561.45958818     
  Total Current Drive:    71571.5070138467     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1498
 TA= 1.82000E+00 CPU TIME= 1.66513E-01 SECONDS.  DT= 8.31067E-04
  
 TEC1=    1.81999999999998     
 TEC2=    1.82499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.88556666666636     
  %check_save_state: izleft hours =    76.1061111111111     
 --> plasma_hash("gframe"): TA= 1.820000E+00 NSTEP=  1498 Hash code:   68475735
 ->PRGCHK: bdy curvature ratio at t= 1.8250E+00 seconds is:  5.4557E-02
% MHDEQ: TG1=     1.820000 ; TG2=     1.825000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4557E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.820000 TO TG2=    1.825000 @ NSTEP     1498
   GFRAME TG2 MOMENTS CHECKSUM:  2.4893908134079D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  1.8250E+00  1.8300E+00 total power(Watts):  2.9895E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.82500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.367542E+02    0.385790E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.348823E+02    0.386706E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.362436E+02    0.369173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.384570E+02    0.373861E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.383050E+02    0.395408E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.360831E+02    0.403226E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.341602E+02    0.415402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.331064E+02    0.400757E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.330014E+02    0.382378E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.339197E+02    0.364777E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.355547E+02    0.352834E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.375819E+02    0.349258E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.394709E+02    0.355336E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.405824E+02    0.370137E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.406896E+02    0.389157E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.397103E+02    0.407406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.380186E+02    0.419262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.359885E+02    0.422025E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.340485E+02    0.445521E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.312815E+02    0.428304E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.300472E+02    0.399874E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.305758E+02    0.367745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.326974E+02    0.340040E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.360728E+02    0.322589E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.396196E+02    0.322908E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.426067E+02    0.340228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.441807E+02    0.369728E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.435674E+02    0.404589E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.411320E+02    0.433411E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.375189E+02    0.448111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.378979E+02    0.292378E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.360054E+02    0.294033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.374332E+02    0.275117E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.395930E+02    0.279461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.394907E+02    0.301176E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.372586E+02    0.310085E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.351594E+02    0.324676E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.340636E+02    0.310344E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.340888E+02    0.290581E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.348957E+02    0.273029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.367001E+02    0.258523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.388387E+02    0.253140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.406708E+02    0.259283E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.418306E+02    0.274033E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.419882E+02    0.293125E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.409428E+02    0.312543E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.391628E+02    0.325939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.371154E+02    0.329817E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.351076E+02    0.355694E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.322710E+02    0.339496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.310488E+02    0.310337E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.315992E+02    0.276915E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.337774E+02    0.246607E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.372476E+02    0.226211E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.409406E+02    0.224209E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.439088E+02    0.241288E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.453688E+02    0.272015E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134465E+03   -0.448437E+02    0.307073E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.421477E+02    0.339544E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.386258E+02    0.356548E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.366260E+02    0.444032E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.346745E+02    0.444625E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.360499E+02    0.427821E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.382447E+02    0.433331E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.381588E+02    0.453987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.359377E+02    0.460706E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.340085E+02    0.471756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.329765E+02    0.457292E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.328927E+02    0.439450E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.337442E+02    0.422780E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.353887E+02    0.411224E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.374117E+02    0.408284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.392821E+02    0.415119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.405601E+02    0.429728E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.405431E+02    0.448794E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.397345E+02    0.465666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.378433E+02    0.476981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.358190E+02    0.478956E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.339416E+02    0.501773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.312888E+02    0.483055E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.299368E+02    0.455297E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.304184E+02    0.424526E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.326456E+02    0.396989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.358568E+02    0.381965E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.393838E+02    0.383364E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.425312E+02    0.400723E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134060E+03   -0.439470E+02    0.431673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.433882E+02    0.465271E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.410191E+02    0.492350E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.373958E+02    0.505620E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.372184E+02    0.343083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.353383E+02    0.344374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.367799E+02    0.325508E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.389188E+02    0.330401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.387888E+02    0.352336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.365631E+02    0.360587E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.346415E+02    0.373043E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.335648E+02    0.358805E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.334415E+02    0.340411E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.343502E+02    0.322053E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.360714E+02    0.308833E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.381089E+02    0.304793E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.400158E+02    0.310477E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.411491E+02    0.325471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.412767E+02    0.344980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.402155E+02    0.363888E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.384353E+02    0.376383E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.363987E+02    0.379623E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.344691E+02    0.404189E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.316727E+02    0.387211E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.304864E+02    0.358664E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.309889E+02    0.325906E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.332635E+02    0.295997E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.365591E+02    0.278785E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.402227E+02    0.277705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.431526E+02    0.294627E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.447704E+02    0.323917E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.440915E+02    0.359854E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.414790E+02    0.390004E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.379593E+02    0.405964E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.381985E+02    0.223275E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.361196E+02    0.227212E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.377059E+02    0.205475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.399795E+02    0.208448E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.398152E+02    0.231952E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.374900E+02    0.242736E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.353985E+02    0.258557E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.344456E+02    0.242477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.343589E+02    0.222430E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.351482E+02    0.204207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.370316E+02    0.188032E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.391773E+02    0.181998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.410329E+02    0.187638E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.422248E+02    0.202168E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.423145E+02    0.222703E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.412936E+02    0.243359E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.394288E+02    0.258398E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.373744E+02    0.262916E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.353104E+02    0.290138E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.325132E+02    0.274276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.313189E+02    0.244120E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.318323E+02    0.209059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.340660E+02    0.177173E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.374436E+02    0.156915E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.413374E+02    0.151942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.443580E+02    0.167928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.458856E+02    0.197939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.449999E+02    0.237670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.424533E+02    0.270951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.389417E+02    0.289165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696037.404678843     
  ps_ts2 prof sum =   695617.096363768     
  trcom prof sum =    695617.096363769     
  ps_ts2 cur sum  =   15398.4890261350     
  trcom cur sum  =    15398.4890261350     
  
  antenna # iant =            2
  powecha_use(iant) =    681370.994365937     
  ps_ts2 prof sum =   680928.206250436     
  trcom prof sum =    680928.206250435     
  ps_ts2 cur sum  =   17453.9213008344     
  trcom cur sum  =    17453.9213008344     
  
  antenna # iant =            3
  powecha_use(iant) =    523701.020285702     
  ps_ts2 prof sum =   523384.631741994     
  trcom prof sum =    523384.631741994     
  ps_ts2 cur sum  =   10201.5633071299     
  trcom cur sum  =    10201.5633071299     
  
  antenna # iant =            4
  powecha_use(iant) =    540904.129234607     
  ps_ts2 prof sum =   540609.542709624     
  trcom prof sum =    540609.542709624     
  ps_ts2 cur sum  =   12902.8030494836     
  trcom cur sum  =    12902.8030494836     
  
  antenna # iant =            5
  powecha_use(iant) =    547508.686564890     
  ps_ts2 prof sum =   547202.953679002     
  trcom prof sum =    547202.953679001     
  ps_ts2 cur sum  =   14969.8612853904     
  trcom cur sum  =    14969.8612853904     
  
  Total ECH heating:      2987742.43074482     
  Total Current Drive:    70926.6379689733     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1503
 TA= 1.82500E+00 CPU TIME= 1.60441E-01 SECONDS.  DT= 2.60474E-04
  
 TEC1=    1.82499999999998     
 TEC2=    1.82999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.89879027777761     
  %check_save_state: izleft hours =    76.0927777777778     
 --> plasma_hash("gframe"): TA= 1.825000E+00 NSTEP=  1503 Hash code:  121517965
 ->PRGCHK: bdy curvature ratio at t= 1.8300E+00 seconds is:  5.4562E-02
% MHDEQ: TG1=     1.825000 ; TG2=     1.830000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7671E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4562E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.825000 TO TG2=    1.830000 @ NSTEP     1503
   GFRAME TG2 MOMENTS CHECKSUM:  2.4892781985522D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.95453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.17973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.03973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.86588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.86244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.07001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.33881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.57250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.22400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.47692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.75622E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.89705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.39521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.54093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.09352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.92930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.91839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.43128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.43128E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.8300E+00  1.8350E+00 total power(Watts):  2.9904E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.83000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.367479E+02    0.386168E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.347903E+02    0.387516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.362377E+02    0.369604E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.383567E+02    0.374774E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.382984E+02    0.395754E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.360769E+02    0.403525E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.341544E+02    0.415652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.331008E+02    0.401045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.329956E+02    0.382737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.337443E+02    0.366252E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.355496E+02    0.353301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.375762E+02    0.349754E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.393692E+02    0.356353E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.405754E+02    0.370603E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.406823E+02    0.389547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.397029E+02    0.407722E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.379190E+02    0.419867E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.358932E+02    0.422612E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.340424E+02    0.445687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.313565E+02    0.428142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.300439E+02    0.400134E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.304935E+02    0.368665E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.327757E+02    0.339899E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.360686E+02    0.323069E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.396151E+02    0.323418E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.425972E+02    0.340797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.441724E+02    0.370238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.435591E+02    0.404950E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.409282E+02    0.434221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.375123E+02    0.448287E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.378950E+02    0.292885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.359147E+02    0.295214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.374316E+02    0.275649E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.395906E+02    0.280003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.394882E+02    0.301681E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.371641E+02    0.311226E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.352428E+02    0.324519E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.341460E+02    0.310124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.339182E+02    0.292483E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.349800E+02    0.272784E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.366994E+02    0.259089E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.387447E+02    0.254521E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.406695E+02    0.259891E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.418285E+02    0.274616E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.418853E+02    0.294340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.409380E+02    0.313067E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.391579E+02    0.326453E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.370180E+02    0.330928E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.351026E+02    0.356151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.322670E+02    0.339946E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.310481E+02    0.310752E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.315976E+02    0.277395E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.337774E+02    0.247157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.372516E+02    0.226782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.409411E+02    0.224849E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.439079E+02    0.241966E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.454706E+02    0.271939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.446301E+02    0.308880E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.421415E+02    0.340096E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.386199E+02    0.357036E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.365294E+02    0.444497E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.346684E+02    0.444794E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.360436E+02    0.428041E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.381444E+02    0.433857E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.380592E+02    0.454388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.358422E+02    0.461066E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.340012E+02    0.471838E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.329715E+02    0.457409E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.328043E+02    0.439942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.336538E+02    0.423358E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.353819E+02    0.411503E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.373133E+02    0.408965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.391799E+02    0.415755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.403582E+02    0.430568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.405356E+02    0.448980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.395369E+02    0.466189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.378378E+02    0.477043E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.358139E+02    0.479004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.338532E+02    0.501795E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.312051E+02    0.483247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.300093E+02    0.455138E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.304914E+02    0.424357E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.324766E+02    0.398154E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.358508E+02    0.382347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.393771E+02    0.383772E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.425232E+02    0.401081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.439386E+02    0.431929E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.433804E+02    0.465422E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.409164E+02    0.492437E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.374840E+02    0.505422E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.82 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.372133E+02    0.343577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.352456E+02    0.345423E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.366854E+02    0.326615E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.389138E+02    0.330915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.387827E+02    0.352837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.364673E+02    0.361567E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.346357E+02    0.373443E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.333917E+02    0.360327E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.334369E+02    0.340882E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.343458E+02    0.322520E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.359798E+02    0.309977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.381052E+02    0.305291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.399156E+02    0.311633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.410455E+02    0.326597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.411716E+02    0.346059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.402119E+02    0.364356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.384287E+02    0.376806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.363927E+02    0.380018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.344627E+02    0.404486E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.316678E+02    0.387540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.304042E+02    0.359628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.309858E+02    0.326345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.330965E+02    0.297869E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.365574E+02    0.279301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.401242E+02    0.278976E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.431487E+02    0.295186E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.446600E+02    0.325079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.438772E+02    0.361363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.415704E+02    0.389983E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.379530E+02    0.406256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.381993E+02    0.223890E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.362085E+02    0.226940E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.377069E+02    0.206089E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.398873E+02    0.209958E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.397215E+02    0.233409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.374897E+02    0.243333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.354858E+02    0.258304E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.342769E+02    0.244707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.341924E+02    0.224765E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.352358E+02    0.203872E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.368577E+02    0.190507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.390879E+02    0.183561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.410356E+02    0.188280E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.421286E+02    0.203708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.422153E+02    0.224198E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.411957E+02    0.244793E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.394275E+02    0.258996E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.372828E+02    0.264249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.353082E+02    0.290619E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.324309E+02    0.275542E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.312407E+02    0.245507E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.318348E+02    0.209607E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.339878E+02    0.178717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.375387E+02    0.156485E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.412466E+02    0.153546E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.442610E+02    0.169537E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.456789E+02    0.200376E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.449988E+02    0.238359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.423511E+02    0.272268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.388450E+02    0.290383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693293.848921535     
  ps_ts2 prof sum =   692890.921581398     
  trcom prof sum =    692890.921581398     
  ps_ts2 cur sum  =   15204.2848313217     
  trcom cur sum  =    15204.2848313217     
  
  antenna # iant =            2
  powecha_use(iant) =    679052.459135246     
  ps_ts2 prof sum =   678674.479305728     
  trcom prof sum =    678674.479305727     
  ps_ts2 cur sum  =   17258.6440282390     
  trcom cur sum  =    17258.6440282390     
  
  antenna # iant =            3
  powecha_use(iant) =    523295.750104267     
  ps_ts2 prof sum =   522965.733643098     
  trcom prof sum =    522965.733643098     
  ps_ts2 cur sum  =   10104.8616452029     
  trcom cur sum  =    10104.8616452029     
  
  antenna # iant =            4
  powecha_use(iant) =    547422.581287096     
  ps_ts2 prof sum =   547099.629105913     
  trcom prof sum =    547099.629105912     
  ps_ts2 cur sum  =   12950.6127175439     
  trcom cur sum  =    12950.6127175439     
  
  antenna # iant =            5
  powecha_use(iant) =    547375.009012531     
  ps_ts2 prof sum =   547051.786197459     
  trcom prof sum =    547051.786197459     
  ps_ts2 cur sum  =   14858.8473020087     
  trcom cur sum  =    14858.8473020087     
  
  Total ECH heating:      2988682.54983359     
  Total Current Drive:    70377.2505243162     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1511
 TA= 1.83000E+00 CPU TIME= 1.58778E-01 SECONDS.  DT= 1.34218E-03
  
 TEC1=    1.82999999999998     
 TEC2=    1.83499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.91204861111100     
  %check_save_state: izleft hours =    76.0794444444444     
 --> plasma_hash("gframe"): TA= 1.830000E+00 NSTEP=  1511 Hash code:   13423958
 ->PRGCHK: bdy curvature ratio at t= 1.8350E+00 seconds is:  5.4570E-02
% MHDEQ: TG1=     1.830000 ; TG2=     1.835000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4570E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.830000 TO TG2=    1.835000 @ NSTEP     1511
   GFRAME TG2 MOMENTS CHECKSUM:  2.4891655836965D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.8350E+00  1.8400E+00 total power(Watts):  2.9902E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.83500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.367405E+02    0.386530E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.347836E+02    0.387854E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.362307E+02    0.370027E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.383492E+02    0.375190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.381970E+02    0.396513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.359799E+02    0.404227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.341479E+02    0.415878E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.330935E+02    0.401332E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.328231E+02    0.384030E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.338226E+02    0.366147E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.354558E+02    0.354305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.374778E+02    0.350779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.393617E+02    0.356845E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.405673E+02    0.371059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.406739E+02    0.389931E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.396948E+02    0.408020E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.379115E+02    0.420106E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.358863E+02    0.422830E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.339504E+02    0.446142E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.313494E+02    0.428339E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.301152E+02    0.399970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.304880E+02    0.369044E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.326058E+02    0.341542E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.359750E+02    0.324171E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.396091E+02    0.323926E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.424915E+02    0.341876E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.439565E+02    0.371642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.434473E+02    0.405653E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.409195E+02    0.434448E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.374127E+02    0.448713E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.378914E+02    0.293370E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.359112E+02    0.295688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.373380E+02    0.276902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.395875E+02    0.280526E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.393886E+02    0.302843E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.371593E+02    0.311706E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.352381E+02    0.324989E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.341421E+02    0.310576E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.339148E+02    0.292943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.348060E+02    0.274802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.366975E+02    0.259648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.387426E+02    0.255108E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.405705E+02    0.261242E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.418248E+02    0.275176E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.418803E+02    0.294872E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.408348E+02    0.314210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.390571E+02    0.327565E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.370120E+02    0.331412E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.350092E+02    0.357147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.323436E+02    0.339797E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.310430E+02    0.311193E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.315161E+02    0.278618E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.336943E+02    0.248535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.371617E+02    0.228233E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.408436E+02    0.226325E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.440073E+02    0.241851E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.452566E+02    0.273950E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.446246E+02    0.309423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.420349E+02    0.341177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.385184E+02    0.358038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.60 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.365220E+02    0.444667E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.346616E+02    0.444963E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.360358E+02    0.428255E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.381365E+02    0.434052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.380516E+02    0.454536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.358352E+02    0.461180E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.339973E+02    0.471900E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.328821E+02    0.457790E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.327980E+02    0.440105E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.336477E+02    0.423572E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.352879E+02    0.412134E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.373056E+02    0.409239E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.391721E+02    0.416021E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.403492E+02    0.430812E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.406245E+02    0.448915E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.395292E+02    0.466299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.377386E+02    0.477279E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.357188E+02    0.479216E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.338491E+02    0.501687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.312002E+02    0.483240E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.300035E+02    0.455250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.303289E+02    0.425286E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.325519E+02    0.398014E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.357550E+02    0.383179E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.393691E+02    0.384166E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.423165E+02    0.402178E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.439289E+02    0.432175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.433719E+02    0.465554E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.409101E+02    0.492407E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.372960E+02    0.505485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.372067E+02    0.344074E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.352400E+02    0.345891E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.366809E+02    0.327095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.388134E+02    0.332007E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.386813E+02    0.353860E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.364604E+02    0.362018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.345429E+02    0.374336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.334699E+02    0.360214E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.332642E+02    0.342513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.341708E+02    0.324248E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.359753E+02    0.310444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.380079E+02    0.306440E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.399103E+02    0.312132E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.410389E+02    0.327120E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.411638E+02    0.346590E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.402009E+02    0.364847E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.384208E+02    0.377224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.363855E+02    0.380401E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.344561E+02    0.404765E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.317431E+02    0.387396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.303993E+02    0.360037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.309033E+02    0.327413E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.330927E+02    0.298314E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.364655E+02    0.280537E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.401210E+02    0.279507E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.430421E+02    0.296385E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.446522E+02    0.325651E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.439711E+02    0.361406E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.413638E+02    0.391199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.379451E+02    0.406560E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.60 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.381988E+02    0.224500E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.362107E+02    0.227507E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.377082E+02    0.206683E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.398875E+02    0.210584E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.397200E+02    0.234033E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.373979E+02    0.244737E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.353109E+02    0.260424E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.343607E+02    0.244438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.342767E+02    0.224454E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.352370E+02    0.204448E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.369482E+02    0.190160E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.390900E+02    0.184170E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.409414E+02    0.189826E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.421290E+02    0.204354E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.422152E+02    0.224842E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.411934E+02    0.245421E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.393312E+02    0.260343E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.372802E+02    0.264796E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.351312E+02    0.292508E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.324286E+02    0.276011E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.312405E+02    0.246034E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.317565E+02    0.211068E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.339902E+02    0.179273E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.375406E+02    0.157060E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.412500E+02    0.154154E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.442631E+02    0.170200E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.456787E+02    0.201074E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.448927E+02    0.239824E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.423476E+02    0.272845E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.388414E+02    0.290886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688479.173104356     
  ps_ts2 prof sum =   688055.369366378     
  trcom prof sum =    688055.369366377     
  ps_ts2 cur sum  =   14959.2434815518     
  trcom cur sum  =    14959.2434815518     
  
  antenna # iant =            2
  powecha_use(iant) =    678290.160475963     
  ps_ts2 prof sum =   677883.320897547     
  trcom prof sum =    677883.320897546     
  ps_ts2 cur sum  =   17096.4803911541     
  trcom cur sum  =    17096.4803911541     
  
  antenna # iant =            3
  powecha_use(iant) =    523995.144942439     
  ps_ts2 prof sum =   523658.732548965     
  trcom prof sum =    523658.732548966     
  ps_ts2 cur sum  =   10019.1523268797     
  trcom cur sum  =    10019.1523268797     
  
  antenna # iant =            4
  powecha_use(iant) =    551677.914077108     
  ps_ts2 prof sum =   551350.792423979     
  trcom prof sum =    551350.792423978     
  ps_ts2 cur sum  =   12935.5132373258     
  trcom cur sum  =    12935.5132373258     
  
  antenna # iant =            5
  powecha_use(iant) =    547758.176484088     
  ps_ts2 prof sum =   547463.050406483     
  trcom prof sum =    547463.050406483     
  ps_ts2 cur sum  =   14756.2074503989     
  trcom cur sum  =    14756.2074503989     
  
  Total ECH heating:      2988411.26564335     
  Total Current Drive:    69766.5968873104     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1514
 TA= 1.83500E+00 CPU TIME= 1.60265E-01 SECONDS.  DT= 2.47511E-03
  
 TEC1=    1.83499999999998     
 TEC2=    1.83999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.93042611111082     
  %check_save_state: izleft hours =    76.0611111111111     
 --> plasma_hash("gframe"): TA= 1.835000E+00 NSTEP=  1514 Hash code:   63100320
 ->PRGCHK: bdy curvature ratio at t= 1.8400E+00 seconds is:  5.4581E-02
% MHDEQ: TG1=     1.835000 ; TG2=     1.840000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6210E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4581E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.835000 TO TG2=    1.840000 @ NSTEP     1514
   GFRAME TG2 MOMENTS CHECKSUM:  2.4890529688408D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.26126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.65162E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.26969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.79035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.90114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.90002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.77547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.42256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.23279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.05504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -4.77453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.76423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.20427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.21534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.83150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.22478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.07143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.77150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.43135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.43135E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8400E+00  1.8450E+00 total power(Watts):  2.9868E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.84000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.366326E+02    0.387171E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.347669E+02    0.388032E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.361232E+02    0.370793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.383302E+02    0.375456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.381791E+02    0.396659E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.359629E+02    0.404329E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.341287E+02    0.415926E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.329948E+02    0.401864E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.328907E+02    0.383749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.338058E+02    0.366424E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.354378E+02    0.354640E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.374592E+02    0.351133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.393420E+02    0.357195E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.404495E+02    0.371827E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.405563E+02    0.390543E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.396760E+02    0.408117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.378943E+02    0.420130E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.358699E+02    0.422843E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.339363E+02    0.446065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.311763E+02    0.429020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.299461E+02    0.400944E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.304730E+02    0.369290E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.325902E+02    0.341888E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.359580E+02    0.324542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.394946E+02    0.324932E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.424703E+02    0.342284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.440373E+02    0.371510E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.434261E+02    0.405779E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.409999E+02    0.434128E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.373974E+02    0.448633E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.377827E+02    0.294470E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.358953E+02    0.296073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.373220E+02    0.277351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.394754E+02    0.281692E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.393705E+02    0.303247E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.371421E+02    0.312088E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.350473E+02    0.326595E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.339570E+02    0.312266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.339844E+02    0.292610E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.348771E+02    0.274480E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.365934E+02    0.260923E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.387268E+02    0.255646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.405536E+02    0.261767E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.417080E+02    0.276374E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.418611E+02    0.295311E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.408156E+02    0.314616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.390382E+02    0.327950E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.369944E+02    0.331801E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.349917E+02    0.357462E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.321651E+02    0.341337E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.309501E+02    0.312209E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.315040E+02    0.279016E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.336808E+02    0.249043E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.371479E+02    0.228801E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.408279E+02    0.226928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.437857E+02    0.244013E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.452365E+02    0.274472E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.447059E+02    0.309269E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.420128E+02    0.341592E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.384993E+02    0.358377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.365062E+02    0.444617E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.345605E+02    0.445182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.360196E+02    0.428249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.381202E+02    0.434028E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.380362E+02    0.454438E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.358208E+02    0.461056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.339844E+02    0.471731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.328687E+02    0.457682E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.327840E+02    0.440060E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.336323E+02    0.423575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.352713E+02    0.412198E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.372883E+02    0.409321E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.391538E+02    0.416067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.404293E+02    0.430478E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.404125E+02    0.449330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.396094E+02    0.465945E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.377248E+02    0.477064E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.357061E+02    0.478986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.338394E+02    0.501310E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.311896E+02    0.482981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.298367E+02    0.455717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.303152E+02    0.425281E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.325363E+02    0.398135E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.357375E+02    0.383387E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.392543E+02    0.384825E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.423929E+02    0.401947E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.439090E+02    0.432174E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.432528E+02    0.465584E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.408972E+02    0.492069E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.372859E+02    0.505067E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.370974E+02    0.345002E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.352233E+02    0.346241E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.366622E+02    0.327477E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.387941E+02    0.332404E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.386620E+02    0.354210E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.364420E+02    0.362321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.345256E+02    0.374578E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.334538E+02    0.360508E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.333320E+02    0.342272E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.342401E+02    0.323971E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.359585E+02    0.310815E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.379898E+02    0.306838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.397959E+02    0.313161E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.410186E+02    0.327528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.410485E+02    0.347491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.400839E+02    0.365654E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.383995E+02    0.377483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.362779E+02    0.381094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.343543E+02    0.405266E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.317277E+02    0.387563E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.303845E+02    0.360321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.308886E+02    0.327759E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.331609E+02    0.297978E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.364499E+02    0.280965E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.400078E+02    0.280679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.430224E+02    0.296827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.444220E+02    0.327227E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.439486E+02    0.361769E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.413434E+02    0.391391E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.378345E+02    0.407034E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.380935E+02    0.225931E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.361071E+02    0.228939E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.376054E+02    0.208166E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.397789E+02    0.212061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.396105E+02    0.235433E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.373834E+02    0.245286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.353834E+02    0.260125E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.341797E+02    0.246602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.340966E+02    0.226738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.350549E+02    0.206835E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.369356E+02    0.190749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.389851E+02    0.185710E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.409274E+02    0.190451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.421136E+02    0.204985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.421987E+02    0.225464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.410796E+02    0.246785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.393149E+02    0.260862E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.372645E+02    0.265284E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.352028E+02    0.292193E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.324159E+02    0.276420E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.312296E+02    0.246529E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.317458E+02    0.211600E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.339790E+02    0.179832E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.374423E+02    0.158628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.411425E+02    0.155741E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.441479E+02    0.171791E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.455586E+02    0.202596E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.448742E+02    0.240451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.423293E+02    0.273340E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.387306E+02    0.291993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686319.250524286     
  ps_ts2 prof sum =   685899.698730262     
  trcom prof sum =    685899.698730262     
  ps_ts2 cur sum  =   14741.5063384579     
  trcom cur sum  =    14741.5063384579     
  
  antenna # iant =            2
  powecha_use(iant) =    678988.281310835     
  ps_ts2 prof sum =   678570.801589109     
  trcom prof sum =    678570.801589108     
  ps_ts2 cur sum  =   16937.8520805343     
  trcom cur sum  =    16937.8520805343     
  
  antenna # iant =            3
  powecha_use(iant) =    525253.732095303     
  ps_ts2 prof sum =   524928.809210331     
  trcom prof sum =    524928.809210332     
  ps_ts2 cur sum  =   9925.57179097009     
  trcom cur sum  =    9925.57179097010     
  
  antenna # iant =            4
  powecha_use(iant) =    548419.030854124     
  ps_ts2 prof sum =   548110.943525952     
  trcom prof sum =    548110.943525952     
  ps_ts2 cur sum  =   12718.1722030130     
  trcom cur sum  =    12718.1722030130     
  
  antenna # iant =            5
  powecha_use(iant) =    547827.599905925     
  ps_ts2 prof sum =   547509.055229353     
  trcom prof sum =    547509.055229353     
  ps_ts2 cur sum  =   14617.3824632416     
  trcom cur sum  =    14617.3824632416     
  
  Total ECH heating:      2985019.30828501     
  Total Current Drive:    68940.4848762169     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1516
 TA= 1.84000E+00 CPU TIME= 1.59513E-01 SECONDS.  DT= 3.15611E-03
  
 TEC1=    1.83999999999998     
 TEC2=    1.84499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.94352583333307     
  %check_save_state: izleft hours =    76.0480555555555     
 --> plasma_hash("gframe"): TA= 1.840000E+00 NSTEP=  1516 Hash code:   85321587
 ->PRGCHK: bdy curvature ratio at t= 1.8450E+00 seconds is:  5.4533E-02
% MHDEQ: TG1=     1.840000 ; TG2=     1.845000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7691E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4533E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.840000 TO TG2=    1.845000 @ NSTEP     1516
   GFRAME TG2 MOMENTS CHECKSUM:  2.4889403539851D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.8450E+00  1.8500E+00 total power(Watts):  2.9996E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.84500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.366163E+02    0.387373E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.347512E+02    0.388227E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.361070E+02    0.371076E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.382196E+02    0.376201E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.381621E+02    0.396817E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.359482E+02    0.404442E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.340320E+02    0.416345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.329805E+02    0.401967E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.328755E+02    0.383951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.336219E+02    0.367748E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.354221E+02    0.354987E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.374425E+02    0.351506E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.392288E+02    0.358070E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.404312E+02    0.372134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.405383E+02    0.390751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.395630E+02    0.408595E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.378783E+02    0.420178E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.358545E+02    0.422866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.339233E+02    0.446020E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.312435E+02    0.428672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.299336E+02    0.401054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.305370E+02    0.369029E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.326579E+02    0.341655E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.359423E+02    0.324924E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.394775E+02    0.325336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.425510E+02    0.342182E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.440168E+02    0.371845E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.434072E+02    0.405912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.407864E+02    0.434717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.373828E+02    0.448581E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.377680E+02    0.294881E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.357936E+02    0.297161E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.373081E+02    0.277801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.394581E+02    0.282163E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.393547E+02    0.303664E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.370373E+02    0.313117E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.351192E+02    0.326359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.340281E+02    0.311972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.338031E+02    0.294411E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.348650E+02    0.274922E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.365803E+02    0.261427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.386204E+02    0.256954E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.405389E+02    0.262295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.416920E+02    0.276863E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.417454E+02    0.296411E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.407982E+02    0.315034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.390211E+02    0.328365E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.368875E+02    0.332790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.349762E+02    0.357798E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.321510E+02    0.341689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.309378E+02    0.312557E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.314929E+02    0.279419E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.337527E+02    0.248741E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.371357E+02    0.229365E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.407189E+02    0.228362E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.437699E+02    0.244635E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.453228E+02    0.274312E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.444792E+02    0.310942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.419933E+02    0.342021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.384820E+02    0.358736E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.364019E+02    0.444844E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.345471E+02    0.445139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.359165E+02    0.428586E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.381041E+02    0.434038E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.379286E+02    0.454606E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.358075E+02    0.460962E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.338877E+02    0.471766E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.328563E+02    0.457597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.326880E+02    0.440342E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.336183E+02    0.423598E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.352563E+02    0.412262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.372723E+02    0.409413E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.390421E+02    0.416480E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.402173E+02    0.431110E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.403967E+02    0.449274E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.395954E+02    0.465810E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.377124E+02    0.476864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.356947E+02    0.478768E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.337458E+02    0.501066E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.311802E+02    0.482737E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.298252E+02    0.455634E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.303033E+02    0.425296E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.323578E+02    0.399127E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.357213E+02    0.383616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.392368E+02    0.385056E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.423744E+02    0.402101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.437880E+02    0.432455E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133971E+03   -0.432372E+02    0.465451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.408859E+02    0.491729E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.372769E+02    0.504661E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.370809E+02    0.345377E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.351194E+02    0.347179E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.365564E+02    0.328472E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.387771E+02    0.332812E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.386447E+02    0.354583E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.364260E+02    0.362657E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.345101E+02    0.374832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.334383E+02    0.360820E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.333169E+02    0.342634E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.342256E+02    0.324344E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.358559E+02    0.311847E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.379752E+02    0.307233E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.397791E+02    0.313573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.409028E+02    0.328538E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.410263E+02    0.347919E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.400658E+02    0.365998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.382913E+02    0.378199E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.362617E+02    0.381334E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.343397E+02    0.405365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.315519E+02    0.388668E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.303704E+02    0.360620E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.308753E+02    0.328111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.329830E+02    0.299746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.364362E+02    0.281397E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.399926E+02    0.281138E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.431058E+02    0.296637E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.445057E+02    0.327124E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.437224E+02    0.363105E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.414236E+02    0.391188E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.378182E+02    0.407140E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.380816E+02    0.226509E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.360956E+02    0.229494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.375943E+02    0.208753E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.397667E+02    0.212666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.395979E+02    0.236019E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.372807E+02    0.246643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.353711E+02    0.260620E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.341680E+02    0.247127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.340866E+02    0.227281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.351293E+02    0.206497E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.368376E+02    0.192266E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.389748E+02    0.186317E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.408205E+02    0.191984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.420032E+02    0.206487E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.420872E+02    0.226903E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.410653E+02    0.247369E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.392071E+02    0.262138E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.371616E+02    0.266527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.351892E+02    0.292584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.323261E+02    0.277567E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.311408E+02    0.247865E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.317369E+02    0.212135E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.338896E+02    0.181354E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.374326E+02    0.159210E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.411322E+02    0.156350E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.441361E+02    0.172449E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.455434E+02    0.203276E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.449609E+02    0.240322E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.422136E+02    0.274556E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.387135E+02    0.292435E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696205.031537646     
  ps_ts2 prof sum =   695817.139880281     
  trcom prof sum =    695817.139880282     
  ps_ts2 cur sum  =   14794.3258920210     
  trcom cur sum  =    14794.3258920209     
  
  antenna # iant =            2
  powecha_use(iant) =    679370.947240064     
  ps_ts2 prof sum =   678997.822279223     
  trcom prof sum =    678997.822279222     
  ps_ts2 cur sum  =   16782.7886993579     
  trcom cur sum  =    16782.7886993579     
  
  antenna # iant =            3
  powecha_use(iant) =    524859.781998561     
  ps_ts2 prof sum =   524514.663277830     
  trcom prof sum =    524514.663277831     
  ps_ts2 cur sum  =   9808.97790555724     
  trcom cur sum  =    9808.97790555724     
  
  antenna # iant =            4
  powecha_use(iant) =    550639.106407948     
  ps_ts2 prof sum =   550333.787313245     
  trcom prof sum =    550333.787313244     
  ps_ts2 cur sum  =   12638.2275996218     
  trcom cur sum  =    12638.2275996217     
  
  antenna # iant =            5
  powecha_use(iant) =    548519.168955473     
  ps_ts2 prof sum =   548221.506491309     
  trcom prof sum =    548221.506491308     
  ps_ts2 cur sum  =   14505.1012274789     
  trcom cur sum  =    14505.1012274789     
  
  Total ECH heating:      2997884.91924189     
  Total Current Drive:    68529.4213240368     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1518
 TA= 1.84500E+00 CPU TIME= 1.62443E-01 SECONDS.  DT= 2.30486E-03
  
 TEC1=    1.84499999999998     
 TEC2=    1.84999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.95980305555531     
  %check_save_state: izleft hours =    76.0316666666667     
 --> plasma_hash("gframe"): TA= 1.845000E+00 NSTEP=  1518 Hash code:  104302591
 ->PRGCHK: bdy curvature ratio at t= 1.8500E+00 seconds is:  5.4484E-02
% MHDEQ: TG1=     1.845000 ; TG2=     1.850000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4484E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.845000 TO TG2=    1.850000 @ NSTEP     1518
   GFRAME TG2 MOMENTS CHECKSUM:  2.4888277391293D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.56798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.12351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  7.75695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.82229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.82873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.29137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.93760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -3.48093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.50631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.89308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.88607E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -1.47267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.92476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.51149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.55672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.12207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.35604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.21356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.62460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.19287E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.19287E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8500E+00  1.8550E+00 total power(Watts):  3.0048E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.85000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.366000E+02    0.387569E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.346498E+02    0.388858E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.360912E+02    0.371360E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.382027E+02    0.376457E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.380526E+02    0.397380E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.358432E+02    0.404945E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.340180E+02    0.416385E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.329663E+02    0.402074E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.328613E+02    0.384149E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.336917E+02    0.367515E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.353188E+02    0.355863E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.373342E+02    0.352404E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.392113E+02    0.358426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.404129E+02    0.372439E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.405206E+02    0.390947E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.395462E+02    0.408701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.377701E+02    0.420552E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.357515E+02    0.423231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.339095E+02    0.445977E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.312329E+02    0.428670E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.299209E+02    0.401159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.303676E+02    0.370325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.324797E+02    0.343182E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.358387E+02    0.325925E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.394606E+02    0.325747E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.423310E+02    0.343674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.437908E+02    0.373057E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.431842E+02    0.406747E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.407700E+02    0.434698E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.372759E+02    0.448794E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.377536E+02    0.295284E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.357799E+02    0.297548E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.372042E+02    0.278967E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.393516E+02    0.283294E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.392443E+02    0.304723E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.370212E+02    0.313509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.351042E+02    0.326736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.340144E+02    0.312334E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.337905E+02    0.294785E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.346815E+02    0.276839E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.364792E+02    0.262693E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.386070E+02    0.257487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.404285E+02    0.263572E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.415783E+02    0.278048E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.417289E+02    0.296853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.406840E+02    0.316065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.389105E+02    0.329361E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.368714E+02    0.333175E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.348741E+02    0.358657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.322186E+02    0.341452E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.309259E+02    0.312902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.314026E+02    0.280564E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.335761E+02    0.250886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.370353E+02    0.230787E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.407058E+02    0.228975E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.436527E+02    0.246036E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.450972E+02    0.276214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.445638E+02    0.310794E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.418750E+02    0.342977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.383712E+02    0.359591E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.363875E+02    0.444806E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.345333E+02    0.445095E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.359016E+02    0.428591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.379954E+02    0.434326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.379145E+02    0.454522E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.357056E+02    0.461079E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.338765E+02    0.471601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.328448E+02    0.457493E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.326752E+02    0.440308E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.335198E+02    0.423967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.351537E+02    0.412703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.371651E+02    0.409864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.390260E+02    0.416529E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.402014E+02    0.431107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.404788E+02    0.448965E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.393903E+02    0.466079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.377936E+02    0.476465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.356841E+02    0.478543E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.337375E+02    0.500699E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.310916E+02    0.482669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.298918E+02    0.455264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.303690E+02    0.424933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.324264E+02    0.398815E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.356179E+02    0.384280E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.392196E+02    0.385276E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.421548E+02    0.402993E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134064E+03   -0.437698E+02    0.432469E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.432221E+02    0.465312E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.407768E+02    0.491520E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.371760E+02    0.504368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.370645E+02    0.345755E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.351038E+02    0.347534E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.365414E+02    0.328860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.386665E+02    0.333802E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.385337E+02    0.355471E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.363201E+02    0.363484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.344093E+02    0.375581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.333400E+02    0.361661E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.331358E+02    0.344155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.340408E+02    0.325967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.358415E+02    0.312234E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.378678E+02    0.308274E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.397626E+02    0.313989E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.408851E+02    0.328961E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.410079E+02    0.348321E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.400479E+02    0.366318E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.382742E+02    0.378463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.362460E+02    0.381548E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.343250E+02    0.405458E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.316194E+02    0.388379E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.302792E+02    0.361449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.307845E+02    0.329088E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.330530E+02    0.299416E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.363342E+02    0.282543E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.399779E+02    0.281592E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.428866E+02    0.298380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.444860E+02    0.327577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.438049E+02    0.363007E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.412078E+02    0.392197E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.378024E+02    0.407235E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.379788E+02    0.227937E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.359103E+02    0.231756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.374940E+02    0.210231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.397548E+02    0.213282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.395842E+02    0.236617E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.372682E+02    0.247199E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.351868E+02    0.262665E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.342407E+02    0.246841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.341598E+02    0.226970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.349507E+02    0.208864E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.368279E+02    0.192862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.388729E+02    0.187859E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.408095E+02    0.192617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.419907E+02    0.207134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.420729E+02    0.227536E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.410542E+02    0.247948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.391933E+02    0.262661E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.371481E+02    0.267015E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.350032E+02    0.294376E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.323122E+02    0.278000E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.311306E+02    0.248369E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.316502E+02    0.213581E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.338817E+02    0.181920E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.373374E+02    0.160794E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.410291E+02    0.157956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.440243E+02    0.174043E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.454261E+02    0.204810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.447390E+02    0.242508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.421981E+02    0.275052E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.387007E+02    0.292832E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698645.413319934     
  ps_ts2 prof sum =   698199.798544606     
  trcom prof sum =    698199.798502233     
  ps_ts2 cur sum  =   14683.8516821373     
  trcom cur sum  =    14683.8516821373     
  
  antenna # iant =            2
  powecha_use(iant) =    680388.977068418     
  ps_ts2 prof sum =   679970.804422027     
  trcom prof sum =    679970.804422026     
  ps_ts2 cur sum  =   16643.0850424915     
  trcom cur sum  =    16643.0850424914     
  
  antenna # iant =            3
  powecha_use(iant) =    524583.718325058     
  ps_ts2 prof sum =   524256.288435025     
  trcom prof sum =    524256.288435026     
  ps_ts2 cur sum  =   9693.65093969077     
  trcom cur sum  =    9693.65093969077     
  
  antenna # iant =            4
  powecha_use(iant) =    554079.415213132     
  ps_ts2 prof sum =   553752.835533063     
  trcom prof sum =    553752.835533063     
  ps_ts2 cur sum  =   12584.4402285845     
  trcom cur sum  =    12584.4402285845     
  
  antenna # iant =            5
  powecha_use(iant) =    547102.408599336     
  ps_ts2 prof sum =   546782.227732001     
  trcom prof sum =    546782.227732001     
  ps_ts2 cur sum  =   14336.5150934409     
  trcom cur sum  =    14336.5150934408     
  
  Total ECH heating:      3002961.95462435     
  Total Current Drive:    67941.5429863449     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1520
 TA= 1.85000E+00 CPU TIME= 1.60306E-01 SECONDS.  DT= 3.36892E-03
  
 TEC1=    1.84999999999998     
 TEC2=    1.85499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.97440083333322     
  %check_save_state: izleft hours =    76.0172222222222     
 --> plasma_hash("gframe"): TA= 1.850000E+00 NSTEP=  1520 Hash code:   13036002
 ->PRGCHK: bdy curvature ratio at t= 1.8550E+00 seconds is:  5.4438E-02
% MHDEQ: TG1=     1.850000 ; TG2=     1.855000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7705E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4438E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.850000 TO TG2=    1.855000 @ NSTEP     1520
   GFRAME TG2 MOMENTS CHECKSUM:  2.4887151242736D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8550E+00  1.8600E+00 total power(Watts):  2.9984E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.85500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.364933E+02    0.388211E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.346344E+02    0.389035E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.359855E+02    0.372124E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.381849E+02    0.376726E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.380357E+02    0.397525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.358280E+02    0.405036E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.340041E+02    0.416421E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.327861E+02    0.403022E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.327641E+02    0.384808E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.336763E+02    0.367797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.353025E+02    0.356201E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.373173E+02    0.352774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.391933E+02    0.358787E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.402972E+02    0.373210E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.404044E+02    0.391558E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.395291E+02    0.408790E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.377540E+02    0.420581E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.357360E+02    0.423247E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.338120E+02    0.446199E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.310574E+02    0.429374E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.298311E+02    0.401690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.303540E+02    0.370581E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.325471E+02    0.342951E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.358237E+02    0.326309E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.393487E+02    0.326752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.423117E+02    0.344099E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.438766E+02    0.372934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.432673E+02    0.406509E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.408513E+02    0.434401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.372618E+02    0.448730E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.376454E+02    0.296393E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.357657E+02    0.297942E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.371904E+02    0.279411E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.393363E+02    0.283745E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.392281E+02    0.305133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.369154E+02    0.314540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.350056E+02    0.327712E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.338315E+02    0.314015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.338616E+02    0.294469E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.347542E+02    0.276538E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.364662E+02    0.263196E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.385009E+02    0.258791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.404134E+02    0.264109E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.415622E+02    0.278535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.417118E+02    0.297298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.406665E+02    0.316486E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.388930E+02    0.329779E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.368550E+02    0.333579E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.348580E+02    0.358983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.320417E+02    0.342977E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.308349E+02    0.313923E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.313912E+02    0.280964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.335643E+02    0.251410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.370232E+02    0.231374E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.405967E+02    0.230417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.436374E+02    0.246663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.451829E+02    0.276059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.445441E+02    0.311253E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.418558E+02    0.343402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.383535E+02    0.359936E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.363735E+02    0.444755E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.344336E+02    0.445326E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.358870E+02    0.428588E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.379798E+02    0.434307E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.379001E+02    0.454436E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.356926E+02    0.460964E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.338654E+02    0.471410E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.327491E+02    0.457653E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.326621E+02    0.440273E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.335058E+02    0.423979E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.351387E+02    0.412757E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.371492E+02    0.409947E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.390093E+02    0.416578E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.401846E+02    0.431107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.404631E+02    0.448898E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.393760E+02    0.465943E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.375956E+02    0.476612E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.355841E+02    0.478486E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.337292E+02    0.500324E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.310817E+02    0.482415E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.297261E+02    0.455732E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.301990E+02    0.425673E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.324124E+02    0.398933E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.356015E+02    0.384486E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.391063E+02    0.385942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.422368E+02    0.402755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.437478E+02    0.432453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134113E+03   -0.431045E+02    0.465359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.407653E+02    0.491167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.371671E+02    0.503944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.369569E+02    0.346692E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.350887E+02    0.347901E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.365250E+02    0.329261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.386492E+02    0.334208E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.385159E+02    0.355834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.363035E+02    0.363794E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.343936E+02    0.375823E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.333246E+02    0.361971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.332042E+02    0.343933E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.341111E+02    0.325719E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.358264E+02    0.312617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.378520E+02    0.308675E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.396504E+02    0.315022E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.408668E+02    0.329388E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.408910E+02    0.349253E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.399328E+02    0.367135E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.381631E+02    0.379182E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.361400E+02    0.382240E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.342239E+02    0.405936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.316051E+02    0.388542E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.302658E+02    0.361744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.307713E+02    0.329446E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.328753E+02    0.301170E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.363206E+02    0.282971E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.398671E+02    0.282751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.428689E+02    0.298832E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.442587E+02    0.329162E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.437842E+02    0.363388E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.411891E+02    0.392400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.376936E+02    0.407706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.379664E+02    0.228540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.359858E+02    0.231491E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.374828E+02    0.210846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.396490E+02    0.214775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.394772E+02    0.238030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.372559E+02    0.247765E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.352604E+02    0.262389E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.340628E+02    0.248998E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.339832E+02    0.229250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.350253E+02    0.208558E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.367302E+02    0.194392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.388622E+02    0.188498E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.407030E+02    0.194167E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.418804E+02    0.208651E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.419607E+02    0.229000E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.409399E+02    0.249338E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.391787E+02    0.263187E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.370450E+02    0.268255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.350760E+02    0.294071E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.323810E+02    0.277666E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.310432E+02    0.249704E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138189E+03   -0.316408E+02    0.214133E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.337910E+02    0.183474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.373276E+02    0.161417E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.410185E+02    0.158613E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.440122E+02    0.174738E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.454116E+02    0.205512E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.448253E+02    0.242398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.421819E+02    0.275560E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.385923E+02    0.293933E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696004.626478300     
  ps_ts2 prof sum =   695565.123255270     
  trcom prof sum =    695565.123255271     
  ps_ts2 cur sum  =   14476.0228734526     
  trcom cur sum  =    14476.0228734526     
  
  antenna # iant =            2
  powecha_use(iant) =    680872.757699954     
  ps_ts2 prof sum =   680479.333919206     
  trcom prof sum =    680479.333919204     
  ps_ts2 cur sum  =   16495.2224291932     
  trcom cur sum  =    16495.2224291932     
  
  antenna # iant =            3
  powecha_use(iant) =    524118.932162913     
  ps_ts2 prof sum =   523775.708952937     
  trcom prof sum =    523775.708952938     
  ps_ts2 cur sum  =   9582.83672156022     
  trcom cur sum  =    9582.83672156024     
  
  antenna # iant =            4
  powecha_use(iant) =    549381.793404954     
  ps_ts2 prof sum =   549055.583838304     
  trcom prof sum =    549055.583838304     
  ps_ts2 cur sum  =   12351.7556368333     
  trcom cur sum  =    12351.7556368332     
  
  antenna # iant =            5
  powecha_use(iant) =    548018.612379733     
  ps_ts2 prof sum =   547729.281471547     
  trcom prof sum =    547729.281471546     
  ps_ts2 cur sum  =   14230.6439591779     
  trcom cur sum  =    14230.6439591779     
  
  Total ECH heating:      2996605.03143726     
  Total Current Drive:    67136.4816202172     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1522
 TA= 1.85500E+00 CPU TIME= 1.61152E-01 SECONDS.  DT= 2.03885E-03
  
 TEC1=    1.85499999999998     
 TEC2=    1.85999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    3.98508555555509     
  %check_save_state: izleft hours =    76.0063888888889     
 --> plasma_hash("gframe"): TA= 1.855000E+00 NSTEP=  1522 Hash code:   40648694
 ->PRGCHK: bdy curvature ratio at t= 1.8600E+00 seconds is:  5.4378E-02
% MHDEQ: TG1=     1.855000 ; TG2=     1.860000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0721E-02 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4378E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.855000 TO TG2=    1.860000 @ NSTEP     1522
   GFRAME TG2 MOMENTS CHECKSUM:  2.4895118918794D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.90948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -6.55255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.79470E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.75257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.01255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.66083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.29358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.58136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.58803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.33849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.51831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.58914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.21896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.71808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.80656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.06743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.81147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.71409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.21780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.21780E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.8600E+00  1.8650E+00 total power(Watts):  2.9937E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.86000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.365616E+02    0.388063E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.346135E+02    0.389310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.360531E+02    0.372002E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.381622E+02    0.377090E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.380127E+02    0.397775E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.358062E+02    0.405226E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.339838E+02    0.416527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.329328E+02    0.402378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.326611E+02    0.385571E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.336562E+02    0.368164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.352818E+02    0.356609E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.372955E+02    0.353209E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.391702E+02    0.359215E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.402728E+02    0.373591E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.404776E+02    0.391454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.395054E+02    0.408960E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.377317E+02    0.420673E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.357148E+02    0.423311E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.337915E+02    0.446144E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.311991E+02    0.428690E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.299671E+02    0.401015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.303358E+02    0.370919E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.324464E+02    0.343967E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.358031E+02    0.326866E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.393260E+02    0.327332E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.422869E+02    0.344610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.438504E+02    0.373347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.432413E+02    0.406734E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.407294E+02    0.434691E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.372403E+02    0.448646E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.376263E+02    0.297066E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.357466E+02    0.298604E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.371716E+02    0.280110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.393158E+02    0.284461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.392065E+02    0.305812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.369852E+02    0.314524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.350731E+02    0.327643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.339817E+02    0.313308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.338436E+02    0.295117E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.347369E+02    0.277210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.364485E+02    0.263895E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.384826E+02    0.259515E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.403936E+02    0.264845E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.415409E+02    0.279281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.416891E+02    0.298020E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.406435E+02    0.317129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.388709E+02    0.330330E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.368344E+02    0.334095E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.348377E+02    0.359385E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.321856E+02    0.342247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.308179E+02    0.314484E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.313762E+02    0.281596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.335469E+02    0.252110E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.370069E+02    0.232135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.406743E+02    0.230400E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.436166E+02    0.247460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.451593E+02    0.276861E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.445191E+02    0.311967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.418313E+02    0.343913E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.383308E+02    0.360358E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.363522E+02    0.444691E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.345001E+02    0.444980E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.358657E+02    0.428612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.379578E+02    0.434312E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.378786E+02    0.454317E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.356722E+02    0.460823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.338466E+02    0.471202E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.327303E+02    0.457525E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.326434E+02    0.440239E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.334860E+02    0.424034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.351177E+02    0.412891E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.371268E+02    0.410102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.389899E+02    0.416690E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.401612E+02    0.431126E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.404402E+02    0.448808E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.393538E+02    0.465757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.377614E+02    0.475987E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.355646E+02    0.478241E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.337131E+02    0.499895E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.310654E+02    0.482142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.298639E+02    0.455057E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.303375E+02    0.424981E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.323931E+02    0.399146E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.355800E+02    0.384794E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.391782E+02    0.385838E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.421110E+02    0.403351E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.437267E+02    0.432470E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.431829E+02    0.464988E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.407453E+02    0.490800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.371494E+02    0.503504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.369354E+02    0.347151E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.350683E+02    0.348331E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.365045E+02    0.329801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.386272E+02    0.334743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.384933E+02    0.356267E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.362820E+02    0.364198E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.343728E+02    0.376160E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.333053E+02    0.362354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.331019E+02    0.344944E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.340924E+02    0.326260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.358066E+02    0.313228E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.378312E+02    0.309326E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.397236E+02    0.315049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.408435E+02    0.329964E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.409652E+02    0.349206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.399089E+02    0.367540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.382337E+02    0.379070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.362077E+02    0.382104E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.342895E+02    0.405721E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.315862E+02    0.388816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.302472E+02    0.362116E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.307541E+02    0.329939E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.330225E+02    0.300422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.363020E+02    0.283659E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.398464E+02    0.283474E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.428454E+02    0.299558E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.444398E+02    0.328670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.437583E+02    0.363832E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.411642E+02    0.392700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.377635E+02    0.407505E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.379497E+02    0.229314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.359700E+02    0.232239E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.374669E+02    0.211630E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.396319E+02    0.215577E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.394594E+02    0.238802E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.372379E+02    0.248491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.352432E+02    0.263074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.340461E+02    0.249694E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.339675E+02    0.229986E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.350106E+02    0.209319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.366285E+02    0.196097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.388471E+02    0.189309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.407814E+02    0.194112E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.418625E+02    0.209485E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.419392E+02    0.229826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.409205E+02    0.250098E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.391597E+02    0.263912E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.370269E+02    0.268953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.350576E+02    0.294733E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.322844E+02    0.279068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.310295E+02    0.250369E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.316280E+02    0.214861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.337789E+02    0.184217E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.373176E+02    0.162190E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.410050E+02    0.159444E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.439956E+02    0.175605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.453926E+02    0.206398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.447017E+02    0.243977E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.421602E+02    0.276311E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.385719E+02    0.294633E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693032.075722084     
  ps_ts2 prof sum =   692596.255474784     
  trcom prof sum =    692596.255474784     
  ps_ts2 cur sum  =   14274.2921465859     
  trcom cur sum  =    14274.2921465859     
  
  antenna # iant =            2
  powecha_use(iant) =    681053.256656244     
  ps_ts2 prof sum =   680680.008715886     
  trcom prof sum =    680680.008715885     
  ps_ts2 cur sum  =   16373.4101199764     
  trcom cur sum  =    16373.4101199764     
  
  antenna # iant =            3
  powecha_use(iant) =    523711.838073756     
  ps_ts2 prof sum =   523382.425477089     
  trcom prof sum =    523382.425477090     
  ps_ts2 cur sum  =   9470.38360795284     
  trcom cur sum  =    9470.38360795284     
  
  antenna # iant =            4
  powecha_use(iant) =    548175.715229770     
  ps_ts2 prof sum =   547866.954547669     
  trcom prof sum =    547866.954547668     
  ps_ts2 cur sum  =   12216.8055999187     
  trcom cur sum  =    12216.8055999187     
  
  antenna # iant =            5
  powecha_use(iant) =    547717.902196058     
  ps_ts2 prof sum =   547389.739835137     
  trcom prof sum =    547389.739835136     
  ps_ts2 cur sum  =   14133.3502396267     
  trcom cur sum  =    14133.3502396267     
  
  Total ECH heating:      2991915.38405056     
  Total Current Drive:    66468.2417140605     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1525
 TA= 1.86000E+00 CPU TIME= 1.59347E-01 SECONDS.  DT= 5.15745E-04
  
 TEC1=    1.85999999999998     
 TEC2=    1.86499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.00027638888855     
  %check_save_state: izleft hours =    75.9913888888889     
 --> plasma_hash("gframe"): TA= 1.860000E+00 NSTEP=  1525 Hash code:   39652585
 ->PRGCHK: bdy curvature ratio at t= 1.8650E+00 seconds is:  5.4287E-02
% MHDEQ: TG1=     1.860000 ; TG2=     1.865000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4287E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.860000 TO TG2=    1.865000 @ NSTEP     1525
   GFRAME TG2 MOMENTS CHECKSUM:  2.4903086594853D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8650E+00  1.8700E+00 total power(Watts):  2.9954E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.86500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.365384E+02    0.388343E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.345912E+02    0.389579E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.360302E+02    0.372354E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.381377E+02    0.377429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.380814E+02    0.397599E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.358728E+02    0.405005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.339613E+02    0.416619E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.329118E+02    0.402550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.328062E+02    0.384916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.336346E+02    0.368513E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.353470E+02    0.356486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.373632E+02    0.353108E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.391430E+02    0.359638E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.403444E+02    0.373499E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.404515E+02    0.391722E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.394797E+02    0.409129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.377071E+02    0.420755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.356922E+02    0.423375E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.338568E+02    0.445758E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.311796E+02    0.428710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.298705E+02    0.401622E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.303163E+02    0.371246E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.324264E+02    0.344394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.357815E+02    0.327394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.393968E+02    0.327307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.422602E+02    0.345106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.439215E+02    0.373322E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.433157E+02    0.406567E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.407042E+02    0.434681E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.373097E+02    0.448284E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.29 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.376979E+02    0.297052E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.357260E+02    0.299254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.371512E+02    0.280799E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.392938E+02    0.285170E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.391834E+02    0.306467E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.369632E+02    0.315125E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.350487E+02    0.328181E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.339616E+02    0.313891E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.337407E+02    0.296452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.346322E+02    0.278614E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.364294E+02    0.264599E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.385541E+02    0.259492E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.403721E+02    0.265582E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.415176E+02    0.280018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.416647E+02    0.298729E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.406191E+02    0.317753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.388471E+02    0.330868E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.368119E+02    0.334595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.348153E+02    0.359773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.321659E+02    0.342680E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.308781E+02    0.314378E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.313614E+02    0.282213E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.335319E+02    0.252779E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.369886E+02    0.232892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.406539E+02    0.231205E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.435943E+02    0.248258E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.450301E+02    0.278317E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.444921E+02    0.312660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.420040E+02    0.343357E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.383999E+02    0.360262E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.363301E+02    0.444615E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.344792E+02    0.444894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.358433E+02    0.428641E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.379340E+02    0.434298E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.378554E+02    0.454186E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.357401E+02    0.460415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.338273E+02    0.470979E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.327938E+02    0.457116E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.326228E+02    0.440188E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.335497E+02    0.423727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.351833E+02    0.412632E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.371031E+02    0.410253E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.389607E+02    0.416820E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.401360E+02    0.431140E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.403182E+02    0.448957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.395232E+02    0.465133E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.376463E+02    0.475911E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.356339E+02    0.477766E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.336955E+02    0.499478E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.311284E+02    0.481653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.298451E+02    0.454929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.303190E+02    0.425022E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.322897E+02    0.399759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.356460E+02    0.384641E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.391531E+02    0.386139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.422848E+02    0.402833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.436958E+02    0.432483E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.431580E+02    0.464761E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.408218E+02    0.490288E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.373153E+02    0.502819E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.370033E+02    0.347047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.350460E+02    0.348766E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.364824E+02    0.330321E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.386034E+02    0.335255E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.384688E+02    0.356691E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.362588E+02    0.364573E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.344372E+02    0.376007E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.331999E+02    0.363241E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.330813E+02    0.345370E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.339868E+02    0.327394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.357853E+02    0.313828E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.378090E+02    0.309958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.396997E+02    0.315670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.408185E+02    0.330523E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.409392E+02    0.349668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.399796E+02    0.367455E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.382088E+02    0.379405E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.361846E+02    0.382415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.342676E+02    0.405889E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.314857E+02    0.389521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.302280E+02    0.362470E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.307357E+02    0.330419E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.330036E+02    0.301045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.362817E+02    0.284340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.399191E+02    0.283503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.428201E+02    0.300280E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.444126E+02    0.329269E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.436280E+02    0.364720E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.413349E+02    0.392177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.377390E+02    0.407683E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.379312E+02    0.230085E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.359523E+02    0.232988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.374502E+02    0.212414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.396137E+02    0.216378E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.394393E+02    0.239573E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.372192E+02    0.249222E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.351391E+02    0.264528E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.341958E+02    0.248785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.339517E+02    0.230709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.349111E+02    0.210967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.367877E+02    0.195061E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.388309E+02    0.190117E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.407639E+02    0.194942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.419406E+02    0.209472E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.420194E+02    0.229822E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.409940E+02    0.250112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.391389E+02    0.264645E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.370966E+02    0.268917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.349512E+02    0.296069E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.322667E+02    0.279714E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.310907E+02    0.250216E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.316142E+02    0.215584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.338472E+02    0.184025E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.373015E+02    0.163006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.409893E+02    0.160278E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.439776E+02    0.176473E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.453712E+02    0.207277E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.446785E+02    0.244796E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.421367E+02    0.277062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.386424E+02    0.294651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684767.801215946     
  ps_ts2 prof sum =   684348.499460616     
  trcom prof sum =    684348.499460617     
  ps_ts2 cur sum  =   13961.0278330413     
  trcom cur sum  =    13961.0278330413     
  
  antenna # iant =            2
  powecha_use(iant) =    681100.896072337     
  ps_ts2 prof sum =   680697.548953477     
  trcom prof sum =    680697.548953476     
  ps_ts2 cur sum  =   16244.3614696368     
  trcom cur sum  =    16244.3614696367     
  
  antenna # iant =            3
  powecha_use(iant) =    524874.192381750     
  ps_ts2 prof sum =   524545.284689959     
  trcom prof sum =    524545.284689960     
  ps_ts2 cur sum  =   9382.19922685259     
  trcom cur sum  =    9382.19922685260     
  
  antenna # iant =            4
  powecha_use(iant) =    556605.626018497     
  ps_ts2 prof sum =   556249.637970152     
  trcom prof sum =    556249.637970152     
  ps_ts2 cur sum  =   12292.5950670864     
  trcom cur sum  =    12292.5950670864     
  
  antenna # iant =            5
  powecha_use(iant) =    548048.594768434     
  ps_ts2 prof sum =   547727.184647365     
  trcom prof sum =    547727.184647364     
  ps_ts2 cur sum  =   14048.3618989028     
  trcom cur sum  =    14048.3618989028     
  
  Total ECH heating:      2993568.15572157     
  Total Current Drive:    65928.5454955198     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1531
 TA= 1.86500E+00 CPU TIME= 1.58939E-01 SECONDS.  DT= 9.59083E-04
  
 TEC1=    1.86499999999998     
 TEC2=    1.86999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    4.01881388888864     
  %check_save_state: izleft hours =    75.9727777777778     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  1.8650000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 1.865000E+00 NSTEP=  1531 Hash code:   81595527
 ->PRGCHK: bdy curvature ratio at t= 1.8700E+00 seconds is:  5.4350E-02
% MHDEQ: TG1=     1.865000 ; TG2=     1.870000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4350E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.865000 TO TG2=    1.870000 @ NSTEP     1531
   GFRAME TG2 MOMENTS CHECKSUM:  2.4911054288256D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.47141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.20478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.64028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.06943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.60079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.88117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.98996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.60737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  3.02624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.14623E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.28733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.89062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.33994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.20631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.10721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.76062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.26334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.73748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.08395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.75675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.75675E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  1.8700E+00  1.8750E+00 total power(Watts):  2.9956E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.87000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.365169E+02    0.388644E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.345711E+02    0.389862E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.360096E+02    0.372726E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.381155E+02    0.377797E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.380584E+02    0.397871E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.358517E+02    0.405207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.339420E+02    0.416740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.328920E+02    0.402752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.327877E+02    0.385221E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.336159E+02    0.368881E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.353274E+02    0.356914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.373428E+02    0.353557E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.391220E+02    0.360087E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.403208E+02    0.373892E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.404275E+02    0.392026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.394564E+02    0.409315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.377782E+02    0.420515E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.357608E+02    0.423111E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.338377E+02    0.445699E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.311616E+02    0.428744E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.298531E+02    0.401820E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.302990E+02    0.371592E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.324093E+02    0.344843E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.357623E+02    0.327957E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.393756E+02    0.327906E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.424371E+02    0.344600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.438957E+02    0.373748E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.432902E+02    0.406799E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.408776E+02    0.434128E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.372890E+02    0.448197E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.376773E+02    0.297775E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.357080E+02    0.299945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.371328E+02    0.281534E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.392741E+02    0.285924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.391636E+02    0.307156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.369444E+02    0.315763E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.350301E+02    0.328733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.339438E+02    0.314507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.337237E+02    0.297118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.346162E+02    0.279314E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.364129E+02    0.265333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.385370E+02    0.260255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.403532E+02    0.266358E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.414969E+02    0.280799E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.416437E+02    0.299475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.406944E+02    0.317816E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.388260E+02    0.331436E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.367918E+02    0.335117E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.348828E+02    0.359662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.320678E+02    0.343710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.308622E+02    0.314968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.313438E+02    0.282911E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.335205E+02    0.253471E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.369745E+02    0.233674E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.406377E+02    0.232032E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.435748E+02    0.249095E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.450084E+02    0.279136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.443648E+02    0.313981E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.419807E+02    0.343892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.383784E+02    0.360693E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.363998E+02    0.444282E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.344592E+02    0.444838E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.358223E+02    0.428681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.380055E+02    0.434011E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.378339E+02    0.454072E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.357206E+02    0.460262E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.338086E+02    0.470772E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.327747E+02    0.457003E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.326869E+02    0.439846E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.335300E+02    0.423798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.351627E+02    0.412785E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.371727E+02    0.410050E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.389377E+02    0.416953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.403078E+02    0.430576E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.402951E+02    0.448868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.395019E+02    0.464954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.376265E+02    0.475669E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.356148E+02    0.477525E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.337648E+02    0.498947E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.311117E+02    0.481398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.297497E+02    0.455113E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.302230E+02    0.425444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.322702E+02    0.399988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.356251E+02    0.384953E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.391300E+02    0.386463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.422598E+02    0.403085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.436721E+02    0.432527E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.431346E+02    0.464572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.408016E+02    0.489940E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.372050E+02    0.502492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.369833E+02    0.347518E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.350270E+02    0.349214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.364631E+02    0.330865E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.385825E+02    0.335795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.384474E+02    0.357129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.362384E+02    0.364971E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.344173E+02    0.376355E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.331813E+02    0.363625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.332306E+02    0.344688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.339680E+02    0.327940E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.357665E+02    0.314459E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.377897E+02    0.310620E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.396785E+02    0.316331E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.407963E+02    0.331111E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.409160E+02    0.350164E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.399563E+02    0.367877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.381866E+02    0.379753E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.361634E+02    0.382746E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.342477E+02    0.406070E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.314673E+02    0.389793E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.302125E+02    0.362833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.307193E+02    0.330923E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.329048E+02    0.302378E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.362642E+02    0.285056E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.398995E+02    0.284263E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.427979E+02    0.301039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.443882E+02    0.329901E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.436021E+02    0.365182E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.413113E+02    0.392473E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.377168E+02    0.407863E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.379167E+02    0.230879E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.359385E+02    0.233756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.374367E+02    0.213227E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.395990E+02    0.217214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.395169E+02    0.239577E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.372038E+02    0.249983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.351232E+02    0.265244E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.341821E+02    0.249514E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.339389E+02    0.231463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.348986E+02    0.211747E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.367755E+02    0.195870E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.388183E+02    0.190943E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.407501E+02    0.195789E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.419251E+02    0.210338E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.420022E+02    0.230670E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.409795E+02    0.250895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.391210E+02    0.265407E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.370797E+02    0.269658E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.349339E+02    0.296752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.322519E+02    0.280392E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.310783E+02    0.250914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.316029E+02    0.216329E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.338370E+02    0.184807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.372917E+02    0.163820E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.409780E+02    0.161133E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.439635E+02    0.177378E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.453544E+02    0.208181E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.446589E+02    0.245658E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.421158E+02    0.277849E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.386228E+02    0.295376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682613.951523772     
  ps_ts2 prof sum =   682211.704057349     
  trcom prof sum =    682211.704018016     
  ps_ts2 cur sum  =   13793.0484707583     
  trcom cur sum  =    13793.0484707583     
  
  antenna # iant =            2
  powecha_use(iant) =    685594.617565005     
  ps_ts2 prof sum =   685171.089394452     
  trcom prof sum =    685171.089394451     
  ps_ts2 cur sum  =   16245.8818318012     
  trcom cur sum  =    16245.8818318012     
  
  antenna # iant =            3
  powecha_use(iant) =    523265.094547392     
  ps_ts2 prof sum =   522928.371290655     
  trcom prof sum =    522928.371290655     
  ps_ts2 cur sum  =   9257.10739406510     
  trcom cur sum  =    9257.10739406511     
  
  antenna # iant =            4
  powecha_use(iant) =    555185.606315680     
  ps_ts2 prof sum =   554821.194422888     
  trcom prof sum =    554821.194422887     
  ps_ts2 cur sum  =   12165.7525747834     
  trcom cur sum  =    12165.7525747834     
  
  antenna # iant =            5
  powecha_use(iant) =    548922.102020147     
  ps_ts2 prof sum =   548600.585305722     
  trcom prof sum =    548600.585305722     
  ps_ts2 cur sum  =   14000.1284919527     
  trcom cur sum  =    14000.1284919527     
  
  Total ECH heating:      2993732.94443173     
  Total Current Drive:    65461.9187633606     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1535
 TA= 1.87000E+00 CPU TIME= 1.60020E-01 SECONDS.  DT= 1.67937E-03
  
 TEC1=    1.86999999999998     
 TEC2=    1.87499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.03439027777767     
  %check_save_state: izleft hours =    75.9572222222222     
 --> plasma_hash("gframe"): TA= 1.870000E+00 NSTEP=  1535 Hash code:   67236261
 ->PRGCHK: bdy curvature ratio at t= 1.8750E+00 seconds is:  5.4258E-02
% MHDEQ: TG1=     1.870000 ; TG2=     1.875000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7662E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4258E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.870000 TO TG2=    1.875000 @ NSTEP     1535
   GFRAME TG2 MOMENTS CHECKSUM:  2.4919021981659D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8750E+00  1.8800E+00 total power(Watts):  2.9940E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.87500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.364960E+02    0.388951E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.346380E+02    0.389718E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.359893E+02    0.373108E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.380938E+02    0.378172E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.380364E+02    0.398126E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.358308E+02    0.405407E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.339225E+02    0.416862E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.328736E+02    0.402962E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.327687E+02    0.385525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.335125E+02    0.369762E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.353087E+02    0.357343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.373218E+02    0.354028E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.391018E+02    0.360528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.402979E+02    0.374301E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.404037E+02    0.392347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.394335E+02    0.409514E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.377566E+02    0.420626E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.357402E+02    0.423195E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.338187E+02    0.445636E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.310636E+02    0.429138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.298358E+02    0.402018E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.304382E+02    0.370932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.325560E+02    0.344160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.357441E+02    0.328522E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.393545E+02    0.328502E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.424142E+02    0.345141E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.438708E+02    0.374188E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.432654E+02    0.407033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.408547E+02    0.434150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.372680E+02    0.448121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.74 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.376593E+02    0.298496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.356903E+02    0.300632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.371160E+02    0.282270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.392561E+02    0.286677E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.391440E+02    0.307866E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.369247E+02    0.316410E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.350116E+02    0.329287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.339267E+02    0.315132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.337076E+02    0.297797E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.346009E+02    0.280029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.363977E+02    0.266075E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.385213E+02    0.261023E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.403360E+02    0.267149E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.414781E+02    0.281588E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.416233E+02    0.300236E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.405766E+02    0.319087E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.388058E+02    0.332012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.367723E+02    0.335650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.348641E+02    0.360084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.320507E+02    0.344164E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.308468E+02    0.315564E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.313298E+02    0.283586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.335043E+02    0.254216E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.369606E+02    0.234471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.406228E+02    0.232872E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.435572E+02    0.249944E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.449871E+02    0.279985E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.443420E+02    0.314716E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.419580E+02    0.344430E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.383566E+02    0.361155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.363792E+02    0.444238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.344401E+02    0.444784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.358021E+02    0.428734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.379841E+02    0.434040E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.379068E+02    0.453706E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.357010E+02    0.460110E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.338764E+02    0.470352E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.327574E+02    0.456865E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.326690E+02    0.439824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.335109E+02    0.423874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.351424E+02    0.412935E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.371513E+02    0.410233E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.390108E+02    0.416742E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.402851E+02    0.430628E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.402730E+02    0.448788E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.394810E+02    0.464753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.376068E+02    0.475429E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.355960E+02    0.477272E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.337489E+02    0.498555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.310960E+02    0.481132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.297339E+02    0.454992E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.302052E+02    0.425501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.324166E+02    0.399363E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.356045E+02    0.385277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.391072E+02    0.386800E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.422355E+02    0.403337E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.436490E+02    0.432570E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.431120E+02    0.464381E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.407820E+02    0.489577E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.371878E+02    0.502053E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.369635E+02    0.347995E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.350080E+02    0.349677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.364437E+02    0.331421E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.385619E+02    0.336338E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.384261E+02    0.357582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.362183E+02    0.365386E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.343979E+02    0.376714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.333307E+02    0.362992E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.332122E+02    0.345152E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.339509E+02    0.328488E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.357488E+02    0.315100E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.377698E+02    0.311306E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.396584E+02    0.317004E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.407751E+02    0.331704E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.408937E+02    0.350672E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.399335E+02    0.368315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.381645E+02    0.380124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.361427E+02    0.383093E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.342280E+02    0.406263E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.314492E+02    0.390072E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.301958E+02    0.363212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.307029E+02    0.331431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.328886E+02    0.303032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.362475E+02    0.285783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.398810E+02    0.285035E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.427765E+02    0.301806E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.443644E+02    0.330551E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.435773E+02    0.365668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.412875E+02    0.392794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.376951E+02    0.408061E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.379030E+02    0.231690E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.359252E+02    0.234542E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.374248E+02    0.214039E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.395859E+02    0.218046E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.394080E+02    0.241188E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.371886E+02    0.250754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.351086E+02    0.265970E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.341660E+02    0.250277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.339270E+02    0.232222E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.348878E+02    0.212532E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.367645E+02    0.196695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.388075E+02    0.191787E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.407377E+02    0.196653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.419110E+02    0.211211E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.419867E+02    0.231530E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.408652E+02    0.252466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.391045E+02    0.266180E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.370637E+02    0.270406E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.349170E+02    0.297442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.322377E+02    0.281080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.310670E+02    0.251624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.315932E+02    0.217080E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.339099E+02    0.184663E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.372836E+02    0.164665E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.409686E+02    0.162020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.439517E+02    0.178277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.453393E+02    0.209109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.446410E+02    0.246526E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.420970E+02    0.278653E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.386042E+02    0.296113E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682945.928914576     
  ps_ts2 prof sum =   682548.107212470     
  trcom prof sum =    682548.107171248     
  ps_ts2 cur sum  =   13684.9471177244     
  trcom cur sum  =    13684.9471177244     
  
  antenna # iant =            2
  powecha_use(iant) =    685791.948510066     
  ps_ts2 prof sum =   685363.086395956     
  trcom prof sum =    685363.086395955     
  ps_ts2 cur sum  =   16146.9654752718     
  trcom cur sum  =    16146.9654752718     
  
  antenna # iant =            3
  powecha_use(iant) =    524862.513941771     
  ps_ts2 prof sum =   524537.019352720     
  trcom prof sum =    524537.019352720     
  ps_ts2 cur sum  =   9195.15308702602     
  trcom cur sum  =    9195.15308702603     
  
  antenna # iant =            4
  powecha_use(iant) =    551697.000674229     
  ps_ts2 prof sum =   551342.326576254     
  trcom prof sum =    551342.326576254     
  ps_ts2 cur sum  =   11999.8624055905     
  trcom cur sum  =    11999.8624055904     
  
  antenna # iant =            5
  powecha_use(iant) =    548722.577489086     
  ps_ts2 prof sum =   548406.584059947     
  trcom prof sum =    548406.584059946     
  ps_ts2 cur sum  =   13925.0808374434     
  trcom cur sum  =    13925.0808374434     
  
  Total ECH heating:      2992197.12355612     
  Total Current Drive:    64952.0089230560     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1538
 TA= 1.87500E+00 CPU TIME= 1.67000E-01 SECONDS.  DT= 1.52677E-03
  
 TEC1=    1.87499999999998     
 TEC2=    1.87999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.04823444444423     
  %check_save_state: izleft hours =    75.9433333333333     
 --> plasma_hash("gframe"): TA= 1.875000E+00 NSTEP=  1538 Hash code:   53846014
 ->PRGCHK: bdy curvature ratio at t= 1.8800E+00 seconds is:  5.4022E-02
% MHDEQ: TG1=     1.875000 ; TG2=     1.880000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7652E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4022E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.875000 TO TG2=    1.880000 @ NSTEP     1538
   GFRAME TG2 MOMENTS CHECKSUM:  2.4926989675063D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.97146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.76832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.81022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -3.39250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.42577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.34567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.50751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  5.01129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.45074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.27782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.39720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.56595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.23378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.52054E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.75612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.49111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.86097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.43916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.94004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.94004E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.8800E+00  1.8850E+00 total power(Watts):  2.9987E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.88000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.364740E+02    0.389122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.346175E+02    0.389881E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.359679E+02    0.373362E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.380708E+02    0.378410E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.380145E+02    0.398241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.358095E+02    0.405485E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.339886E+02    0.416490E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.328541E+02    0.403045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.327490E+02    0.385710E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.336611E+02    0.369024E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.352879E+02    0.357658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.373001E+02    0.354353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.390814E+02    0.360829E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.402734E+02    0.374575E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.403798E+02    0.392516E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.394103E+02    0.409566E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.377350E+02    0.420600E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.357194E+02    0.423159E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.338001E+02    0.445448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.310429E+02    0.429067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.298178E+02    0.402110E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.304202E+02    0.371173E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.325367E+02    0.344513E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.357236E+02    0.328978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.393323E+02    0.328988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.423899E+02    0.345539E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.438448E+02    0.374473E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.432404E+02    0.407110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.408319E+02    0.434030E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.372473E+02    0.447915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.376388E+02    0.299104E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.356710E+02    0.301220E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.370968E+02    0.282906E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.392351E+02    0.287325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.391221E+02    0.308455E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.369039E+02    0.316940E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.349916E+02    0.329724E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.339083E+02    0.315647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.336895E+02    0.298376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.345824E+02    0.280645E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.363798E+02    0.266726E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.385022E+02    0.261707E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.403140E+02    0.267846E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.414563E+02    0.282265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.415998E+02    0.300878E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.406504E+02    0.319041E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.387834E+02    0.332458E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.367516E+02    0.336069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.348435E+02    0.360386E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.320325E+02    0.344512E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.308296E+02    0.316052E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.313138E+02    0.284170E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.334891E+02    0.254862E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.369448E+02    0.235183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.406048E+02    0.233619E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.435359E+02    0.250699E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.449634E+02    0.280702E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.443169E+02    0.315317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.418344E+02    0.345343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.383348E+02    0.361442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.363588E+02    0.444066E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.344203E+02    0.444624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.357815E+02    0.428659E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.379626E+02    0.433927E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.378862E+02    0.453473E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.356817E+02    0.459846E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.338596E+02    0.470023E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.327398E+02    0.456615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.326509E+02    0.439677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.334919E+02    0.423825E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.351219E+02    0.412962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.371295E+02    0.410276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.389884E+02    0.416745E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.401645E+02    0.430841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.404472E+02    0.448075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.393639E+02    0.464655E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.375843E+02    0.475068E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.355783E+02    0.476910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.337300E+02    0.498096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.310812E+02    0.480779E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.297177E+02    0.454765E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.301878E+02    0.425443E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.323974E+02    0.399464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.355832E+02    0.385473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.390837E+02    0.387003E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.422108E+02    0.403438E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.437297E+02    0.432186E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.430898E+02    0.464053E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.407633E+02    0.489113E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.371715E+02    0.501538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.369421E+02    0.348346E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.349877E+02    0.350001E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.364233E+02    0.331857E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385401E+02    0.336764E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.384976E+02    0.357404E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.362866E+02    0.365178E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.343775E+02    0.376946E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.333112E+02    0.363274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.331930E+02    0.345501E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.341016E+02    0.327734E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.357291E+02    0.315633E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.377487E+02    0.311867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.396361E+02    0.317551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.407509E+02    0.332178E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.408699E+02    0.351030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.399098E+02    0.368601E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.381418E+02    0.380347E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.361210E+02    0.383294E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.342036E+02    0.406342E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.314299E+02    0.390222E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.302550E+02    0.362963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.307643E+02    0.331225E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.328705E+02    0.303586E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.362286E+02    0.286407E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.398598E+02    0.285692E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.427529E+02    0.302453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.443393E+02    0.331049E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.437573E+02    0.365079E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.411638E+02    0.393358E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.376727E+02    0.408123E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.378865E+02    0.232412E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.359098E+02    0.235243E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.374097E+02    0.214769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.395689E+02    0.218795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.393900E+02    0.241901E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.371716E+02    0.251437E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.350913E+02    0.266608E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.341541E+02    0.250907E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.339123E+02    0.232902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.348745E+02    0.213233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.367543E+02    0.197393E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.387925E+02    0.192549E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.407221E+02    0.197429E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.418938E+02    0.211985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.419678E+02    0.232293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.409421E+02    0.252437E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.390848E+02    0.266862E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.370450E+02    0.271064E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.348981E+02    0.298030E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.322173E+02    0.281709E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.310526E+02    0.252251E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.315809E+02    0.217756E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.338981E+02    0.185377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.372713E+02    0.165431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.409545E+02    0.162827E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.439353E+02    0.179107E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.453198E+02    0.209919E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.446195E+02    0.247292E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.420749E+02    0.279341E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.385835E+02    0.296738E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686685.708964376     
  ps_ts2 prof sum =   686284.651890410     
  trcom prof sum =    686284.651890410     
  ps_ts2 cur sum  =   13643.6779142909     
  trcom cur sum  =    13643.6779142909     
  
  antenna # iant =            2
  powecha_use(iant) =    684679.649023722     
  ps_ts2 prof sum =   684238.827232693     
  trcom prof sum =    684238.827232692     
  ps_ts2 cur sum  =   16018.0185930933     
  trcom cur sum  =    16018.0185930933     
  
  antenna # iant =            3
  powecha_use(iant) =    522236.128678848     
  ps_ts2 prof sum =   521893.620928023     
  trcom prof sum =    521893.620928023     
  ps_ts2 cur sum  =   9061.08444722691     
  trcom cur sum  =    9061.08444722692     
  
  antenna # iant =            4
  powecha_use(iant) =    557405.009481827     
  ps_ts2 prof sum =   557075.302007964     
  trcom prof sum =    557075.302007963     
  ps_ts2 cur sum  =   12033.3343956594     
  trcom cur sum  =    12033.3343956594     
  
  antenna # iant =            5
  powecha_use(iant) =    547730.989273897     
  ps_ts2 prof sum =   547415.506359216     
  trcom prof sum =    547415.506359217     
  ps_ts2 cur sum  =   13829.6775626238     
  trcom cur sum  =    13829.6775626238     
  
  Total ECH heating:      2996907.90841831     
  Total Current Drive:    64585.7929128944     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1541
 TA= 1.88000E+00 CPU TIME= 1.59176E-01 SECONDS.  DT= 1.95595E-03
  
 TEC1=    1.87999999999998     
 TEC2=    1.88499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.06399749999969     
  %check_save_state: izleft hours =    75.9275000000000     
 --> plasma_hash("gframe"): TA= 1.880000E+00 NSTEP=  1541 Hash code:   53474700
 ->PRGCHK: bdy curvature ratio at t= 1.8850E+00 seconds is:  5.3950E-02
% MHDEQ: TG1=     1.880000 ; TG2=     1.885000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.7330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7641E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3950E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.880000 TO TG2=    1.885000 @ NSTEP     1541
   GFRAME TG2 MOMENTS CHECKSUM:  2.4934957368466D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8850E+00  1.8900E+00 total power(Watts):  3.0028E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.88500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.364502E+02    0.389269E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.345950E+02    0.390014E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.359446E+02    0.373577E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.381397E+02    0.378163E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.379896E+02    0.398340E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.357869E+02    0.405521E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.339673E+02    0.416453E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.327491E+02    0.403505E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.327276E+02    0.385860E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.336400E+02    0.369249E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.352655E+02    0.357909E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.372762E+02    0.354636E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.391484E+02    0.360612E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.402470E+02    0.374805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.405494E+02    0.391855E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.394816E+02    0.409227E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.377113E+02    0.420542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.356973E+02    0.423082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.337800E+02    0.445238E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.311862E+02    0.428264E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.297985E+02    0.402163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.303225E+02    0.371880E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.325164E+02    0.344820E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.357874E+02    0.328811E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.393076E+02    0.329419E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.422625E+02    0.346396E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.438163E+02    0.374714E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.432131E+02    0.407143E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.407081E+02    0.434168E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.372248E+02    0.447688E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.376157E+02    0.299673E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.356493E+02    0.301772E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.370746E+02    0.283513E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.393057E+02    0.287268E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.390973E+02    0.309014E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.368812E+02    0.317435E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.349696E+02    0.330137E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.338871E+02    0.316124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.336692E+02    0.298922E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.347333E+02    0.279801E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.364472E+02    0.266623E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.384803E+02    0.262361E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.402943E+02    0.268484E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.415294E+02    0.282241E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.415738E+02    0.301481E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.406247E+02    0.319554E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.388528E+02    0.332312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.367280E+02    0.336447E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.348212E+02    0.360635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.320111E+02    0.344818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.308107E+02    0.316514E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.312952E+02    0.284726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.334709E+02    0.255474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.369254E+02    0.235859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.405834E+02    0.234331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.435114E+02    0.251421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.449358E+02    0.281390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.442889E+02    0.315884E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.418075E+02    0.345693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.383100E+02    0.361708E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.363371E+02    0.443855E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.344876E+02    0.444112E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.358491E+02    0.428224E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.379395E+02    0.433782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.378634E+02    0.453212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.356612E+02    0.459543E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.338410E+02    0.469677E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.327209E+02    0.456346E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.326312E+02    0.439503E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.334708E+02    0.423751E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.350997E+02    0.412951E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.371059E+02    0.410284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.389639E+02    0.416714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.401401E+02    0.430702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.404237E+02    0.447825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.393415E+02    0.464312E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.377528E+02    0.474288E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.355589E+02    0.476538E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.337144E+02    0.497607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.310644E+02    0.480403E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.298560E+02    0.453951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.301692E+02    0.425362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.323765E+02    0.399539E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.355600E+02    0.385634E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.390582E+02    0.387165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.420831E+02    0.403856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133740E+03   -0.437054E+02    0.432034E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133626E+03   -0.431689E+02    0.463490E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.407429E+02    0.488624E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.371541E+02    0.500993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.369186E+02    0.348655E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.350528E+02    0.349758E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.363997E+02    0.332264E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.386088E+02    0.336596E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.384727E+02    0.357679E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.362633E+02    0.365416E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.343552E+02    0.377144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.332898E+02    0.363516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.331720E+02    0.345800E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.340805E+02    0.328144E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.357067E+02    0.316124E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.377255E+02    0.312395E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.396110E+02    0.318063E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.407255E+02    0.332604E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.408438E+02    0.351347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.398841E+02    0.368846E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.381174E+02    0.380542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.360973E+02    0.383474E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.341839E+02    0.406364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.315712E+02    0.389450E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.302356E+02    0.363185E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.307449E+02    0.331596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.328506E+02    0.304115E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.362068E+02    0.287004E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.398359E+02    0.286314E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.429270E+02    0.301844E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.443110E+02    0.331507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.437291E+02    0.365353E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.411371E+02    0.393490E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.376487E+02    0.408150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.378667E+02    0.233100E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.358047E+02    0.236719E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.373913E+02    0.215465E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.396423E+02    0.218681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.394624E+02    0.241816E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.371508E+02    0.252097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.350713E+02    0.267224E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.341346E+02    0.251550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.340611E+02    0.231895E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.348576E+02    0.213903E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.367351E+02    0.198125E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.387752E+02    0.193273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.407027E+02    0.198171E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.418731E+02    0.212728E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.419456E+02    0.233022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.409200E+02    0.253126E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.390623E+02    0.267509E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.370235E+02    0.271685E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.350495E+02    0.297249E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.322019E+02    0.282240E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.310358E+02    0.252856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.315659E+02    0.218396E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.338023E+02    0.186994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.372549E+02    0.166168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.409371E+02    0.163596E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.439154E+02    0.179889E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.452972E+02    0.210703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.445944E+02    0.248038E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.420499E+02    0.280000E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.385598E+02    0.297321E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685482.267776252     
  ps_ts2 prof sum =   685064.956334311     
  trcom prof sum =    685064.956334312     
  ps_ts2 cur sum  =   13491.4123039674     
  trcom cur sum  =    13491.4123039674     
  
  antenna # iant =            2
  powecha_use(iant) =    687079.034338452     
  ps_ts2 prof sum =   686645.321230473     
  trcom prof sum =    686645.321230472     
  ps_ts2 cur sum  =   15953.9646067210     
  trcom cur sum  =    15953.9646067209     
  
  antenna # iant =            3
  powecha_use(iant) =    522817.463206394     
  ps_ts2 prof sum =   522474.784348445     
  trcom prof sum =    522474.784348445     
  ps_ts2 cur sum  =   8974.42487369045     
  trcom cur sum  =    8974.42487369046     
  
  antenna # iant =            4
  powecha_use(iant) =    558628.618526540     
  ps_ts2 prof sum =   558304.927318422     
  trcom prof sum =    558304.927318421     
  ps_ts2 cur sum  =   11957.3510661665     
  trcom cur sum  =    11957.3510661665     
  
  antenna # iant =            5
  powecha_use(iant) =    548781.938511692     
  ps_ts2 prof sum =   548465.269368453     
  trcom prof sum =    548465.269368452     
  ps_ts2 cur sum  =   13771.0222879105     
  trcom cur sum  =    13771.0222879105     
  
  Total ECH heating:      3000955.25860010     
  Total Current Drive:    64148.1751384558     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1544
 TA= 1.88500E+00 CPU TIME= 1.59596E-01 SECONDS.  DT= 7.48899E-04
  
 TEC1=    1.88499999999998     
 TEC2=    1.88999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.07696805555520     
  %check_save_state: izleft hours =    75.9147222222222     
 --> plasma_hash("gframe"): TA= 1.885000E+00 NSTEP=  1544 Hash code:   55147247
 ->PRGCHK: bdy curvature ratio at t= 1.8900E+00 seconds is:  5.3626E-02
% MHDEQ: TG1=     1.885000 ; TG2=     1.890000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7631E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3626E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.885000 TO TG2=    1.890000 @ NSTEP     1544
   GFRAME TG2 MOMENTS CHECKSUM:  2.4942925061869D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.36919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.29343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.90036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.16507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.51244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.95761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.74533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.92182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  6.86094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -3.78390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.33717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.91588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.31313E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.07441E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.97389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.27711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.02376E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  1.39458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.77013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.09803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.09803E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.8900E+00  1.8950E+00 total power(Watts):  2.9901E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.89000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.365150E+02    0.388647E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.345738E+02    0.389795E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.360111E+02    0.372958E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.381154E+02    0.377987E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.379669E+02    0.398058E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.357658E+02    0.405210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.339480E+02    0.416090E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.328969E+02    0.402406E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.326238E+02    0.386136E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.336184E+02    0.369128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.352421E+02    0.357826E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.372522E+02    0.354546E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.391226E+02    0.360507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.402212E+02    0.374638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.404268E+02    0.391991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.394590E+02    0.408870E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.376903E+02    0.420139E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.356781E+02    0.422666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.338492E+02    0.444451E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.311718E+02    0.427846E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.299363E+02    0.401049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.303031E+02    0.371765E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.324122E+02    0.345351E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.357660E+02    0.328864E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.392805E+02    0.329490E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.422342E+02    0.346349E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134163E+03   -0.437889E+02    0.374532E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.432910E+02    0.406429E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.406873E+02    0.433651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.372995E+02    0.446879E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.375891E+02    0.299910E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.356239E+02    0.301992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.371385E+02    0.283099E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.392763E+02    0.287550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.391641E+02    0.308590E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.368546E+02    0.317586E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.349454E+02    0.330196E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.337786E+02    0.316906E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.338130E+02    0.297801E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.347088E+02    0.280084E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.364212E+02    0.266940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.384534E+02    0.262700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.403593E+02    0.268111E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.414999E+02    0.282534E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.415441E+02    0.301722E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.405966E+02    0.319689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.388268E+02    0.332356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.367936E+02    0.335904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.347982E+02    0.360540E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.319895E+02    0.344796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.307889E+02    0.316669E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.313519E+02    0.284272E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.336125E+02    0.254261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.368993E+02    0.236250E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.405543E+02    0.234743E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.436823E+02    0.250345E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.451118E+02    0.280394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.444648E+02    0.314903E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.417796E+02    0.345650E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.382847E+02    0.361601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.363188E+02    0.443348E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.344708E+02    0.443611E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.358297E+02    0.427785E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.379197E+02    0.433295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.378454E+02    0.452641E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.356450E+02    0.458973E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.338263E+02    0.469101E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.327905E+02    0.455542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.326147E+02    0.439037E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.334525E+02    0.423351E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.350795E+02    0.412601E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.370844E+02    0.409941E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.389420E+02    0.416320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.401190E+02    0.430214E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.403057E+02    0.447505E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.395149E+02    0.463248E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.376461E+02    0.473835E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.356344E+02    0.475715E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.337048E+02    0.496924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.310515E+02    0.479833E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.298425E+02    0.453455E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.303097E+02    0.424255E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.323575E+02    0.399280E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.355378E+02    0.385441E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.391294E+02    0.386535E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.422602E+02    0.402796E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.436804E+02    0.431503E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133633E+03   -0.431506E+02    0.462805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.408278E+02    0.487741E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.373289E+02    0.499993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.368933E+02    0.348608E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.350299E+02    0.349700E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.364642E+02    0.331736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.385833E+02    0.336604E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.384475E+02    0.357587E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.362396E+02    0.365302E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.343332E+02    0.376990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.332685E+02    0.363412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.331504E+02    0.345767E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.340572E+02    0.328215E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.357696E+02    0.315660E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.377909E+02    0.311950E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.395833E+02    0.318211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.407950E+02    0.332097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.409149E+02    0.350772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.398585E+02    0.368695E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.381864E+02    0.379926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.361646E+02    0.382845E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.342530E+02    0.405652E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.315515E+02    0.389250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.302159E+02    0.363094E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.307239E+02    0.331664E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.328271E+02    0.304327E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.362697E+02    0.286579E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.398077E+02    0.286593E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.427962E+02    0.302688E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.441776E+02    0.332080E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.437012E+02    0.365203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.411122E+02    0.393218E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.377201E+02    0.407438E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.379301E+02    0.232698E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.359519E+02    0.235494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.373651E+02    0.215897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.396149E+02    0.219117E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.394345E+02    0.242205E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.371247E+02    0.252454E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.352181E+02    0.266060E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.341111E+02    0.251896E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.340374E+02    0.232285E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.348332E+02    0.214329E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.367093E+02    0.198594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.388392E+02    0.192874E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.406747E+02    0.198655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.418439E+02    0.213179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.419155E+02    0.233443E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.408896E+02    0.253497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.390344E+02    0.267834E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.369979E+02    0.271992E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.350247E+02    0.297479E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.321825E+02    0.282486E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.310143E+02    0.253192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.315442E+02    0.218796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.337790E+02    0.187469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.372297E+02    0.166697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.409097E+02    0.164150E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.438856E+02    0.180430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.454707E+02    0.209572E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.445627E+02    0.248436E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.420199E+02    0.280298E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.385299E+02    0.297586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680821.707035109     
  ps_ts2 prof sum =   680395.633263254     
  trcom prof sum =    680395.633263254     
  ps_ts2 cur sum  =   13303.9209041790     
  trcom cur sum  =    13303.9209041790     
  
  antenna # iant =            2
  powecha_use(iant) =    687351.246838640     
  ps_ts2 prof sum =   686971.393202387     
  trcom prof sum =    686971.393202386     
  ps_ts2 cur sum  =   15871.8428159433     
  trcom cur sum  =    15871.8428159433     
  
  antenna # iant =            3
  powecha_use(iant) =    521539.834431156     
  ps_ts2 prof sum =   521211.900706155     
  trcom prof sum =    521211.900706155     
  ps_ts2 cur sum  =   8878.89721913362     
  trcom cur sum  =    8878.89721913362     
  
  antenna # iant =            4
  powecha_use(iant) =    551221.931842448     
  ps_ts2 prof sum =   550902.421991874     
  trcom prof sum =    550902.421991874     
  ps_ts2 cur sum  =   11724.0360521342     
  trcom cur sum  =    11724.0360521342     
  
  antenna # iant =            5
  powecha_use(iant) =    549117.267738457     
  ps_ts2 prof sum =   548818.832057576     
  trcom prof sum =    548818.832057576     
  ps_ts2 cur sum  =   13716.4463714963     
  trcom cur sum  =    13716.4463714963     
  
  Total ECH heating:      2988300.18122125     
  Total Current Drive:    63495.1433628864     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1549
 TA= 1.89000E+00 CPU TIME= 1.59270E-01 SECONDS.  DT= 8.52659E-04
  
 TEC1=    1.88999999999998     
 TEC2=    1.89499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.09359305555517     
  %check_save_state: izleft hours =    75.8980555555556     
 --> plasma_hash("gframe"): TA= 1.890000E+00 NSTEP=  1549 Hash code:   73193207
 ->PRGCHK: bdy curvature ratio at t= 1.8950E+00 seconds is:  5.3255E-02
% MHDEQ: TG1=     1.890000 ; TG2=     1.895000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7620E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3255E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.890000 TO TG2=    1.895000 @ NSTEP     1549
   GFRAME TG2 MOMENTS CHECKSUM:  2.4950892755273D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.8950E+00  1.9000E+00 total power(Watts):  2.9928E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.89500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.364949E+02    0.388400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.345517E+02    0.389575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.359875E+02    0.372801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.380902E+02    0.377812E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.380378E+02    0.397369E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.358339E+02    0.404502E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.339285E+02    0.415720E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.328771E+02    0.402116E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.327702E+02    0.385020E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.335962E+02    0.368993E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.352181E+02    0.357730E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.372269E+02    0.354460E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.390965E+02    0.360386E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.402927E+02    0.374004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.404016E+02    0.391731E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.394356E+02    0.408506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.377625E+02    0.419368E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.357477E+02    0.421900E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.338322E+02    0.443943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.311576E+02    0.427418E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.298402E+02    0.401214E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.302831E+02    0.371636E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.323898E+02    0.345325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.357398E+02    0.328943E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.392534E+02    0.329554E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.422056E+02    0.346286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.438640E+02    0.373905E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.432657E+02    0.406047E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.408638E+02    0.432550E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.372816E+02    0.446321E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.375620E+02    0.300125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.356864E+02    0.301546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.371118E+02    0.283358E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.392518E+02    0.287776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.391359E+02    0.308779E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.369214E+02    0.317096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.350079E+02    0.329675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.337542E+02    0.317044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.337886E+02    0.298016E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.346852E+02    0.280343E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.363950E+02    0.267238E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.384251E+02    0.263012E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.403303E+02    0.268416E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.414696E+02    0.282804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.416129E+02    0.301315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.405683E+02    0.319812E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.387995E+02    0.332397E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.367682E+02    0.335921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.347749E+02    0.360433E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.321297E+02    0.343641E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.307668E+02    0.316805E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.313291E+02    0.284516E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.335874E+02    0.254592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.369610E+02    0.235859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.405249E+02    0.235167E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.435504E+02    0.251436E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.450792E+02    0.280679E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.444334E+02    0.315062E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.417512E+02    0.345596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.382589E+02    0.361482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.363926E+02    0.442514E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.344539E+02    0.443096E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.358100E+02    0.427339E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.379932E+02    0.432497E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.379221E+02    0.451793E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.357192E+02    0.458126E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.338114E+02    0.468509E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.327746E+02    0.455005E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.325977E+02    0.438562E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.335195E+02    0.422580E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.351481E+02    0.411862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.371553E+02    0.409209E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.389193E+02    0.415914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.402931E+02    0.429116E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.402856E+02    0.446923E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.395002E+02    0.462587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.376327E+02    0.473181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.356197E+02    0.475078E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.337830E+02    0.496074E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.311208E+02    0.479012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.297505E+02    0.453237E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.302927E+02    0.423860E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.322542E+02    0.399440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.356040E+02    0.384784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.391044E+02    0.386304E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.422351E+02    0.402450E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.436573E+02    0.430962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.431313E+02    0.462109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.408127E+02    0.487006E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.372228E+02    0.499396E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.369595E+02    0.348018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.350058E+02    0.349641E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.364394E+02    0.331778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.385563E+02    0.336620E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.384214E+02    0.357487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.362154E+02    0.365177E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.343973E+02    0.376353E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.332460E+02    0.363299E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.330435E+02    0.346292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.340335E+02    0.328289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.357438E+02    0.315802E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.377636E+02    0.312122E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.395551E+02    0.318348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.407667E+02    0.332142E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.408876E+02    0.350686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.399287E+02    0.368088E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.381618E+02    0.379728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.361415E+02    0.382636E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.342352E+02    0.405330E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.314506E+02    0.389498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.301956E+02    0.362992E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.307019E+02    0.331721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.329688E+02    0.303188E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.362436E+02    0.286827E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.397786E+02    0.286850E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.427657E+02    0.302888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.443538E+02    0.331082E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.435694E+02    0.365494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.412853E+02    0.392157E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.376981E+02    0.407090E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.379040E+02    0.233109E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.359268E+02    0.235889E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.374268E+02    0.215510E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.395856E+02    0.219576E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.394070E+02    0.242598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.370979E+02    0.252796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.351937E+02    0.266356E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.340018E+02    0.253021E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.339297E+02    0.233509E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.349764E+02    0.213060E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.366833E+02    0.199086E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.388121E+02    0.193386E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.406451E+02    0.199167E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.418133E+02    0.213673E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.418853E+02    0.233873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.408600E+02    0.253851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.390997E+02    0.267421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.369717E+02    0.272275E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.349994E+02    0.297695E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.323173E+02    0.281325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.309920E+02    0.253521E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.315989E+02    0.218363E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.337554E+02    0.187972E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.371162E+02    0.168196E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.409746E+02    0.163795E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.439534E+02    0.180125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.454378E+02    0.210078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.447356E+02    0.247368E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.419892E+02    0.280578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.385063E+02    0.297784E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684717.531757397     
  ps_ts2 prof sum =   684298.771012793     
  trcom prof sum =    684298.771012793     
  ps_ts2 cur sum  =   13284.0273508984     
  trcom cur sum  =    13284.0273508984     
  
  antenna # iant =            2
  powecha_use(iant) =    684566.861447545     
  ps_ts2 prof sum =   684189.173712360     
  trcom prof sum =    684189.173712360     
  ps_ts2 cur sum  =   15715.0315534781     
  trcom cur sum  =    15715.0315534781     
  
  antenna # iant =            3
  powecha_use(iant) =    520787.452161338     
  ps_ts2 prof sum =   520456.988766535     
  trcom prof sum =    520456.988766536     
  ps_ts2 cur sum  =   8793.06932673528     
  trcom cur sum  =    8793.06932673529     
  
  antenna # iant =            4
  powecha_use(iant) =    554144.125610892     
  ps_ts2 prof sum =   553813.950142843     
  trcom prof sum =    553813.950142842     
  ps_ts2 cur sum  =   11709.1580564113     
  trcom cur sum  =    11709.1580564113     
  
  antenna # iant =            5
  powecha_use(iant) =    548585.270048043     
  ps_ts2 prof sum =   548299.123713299     
  trcom prof sum =    548299.123713299     
  ps_ts2 cur sum  =   13635.0514789140     
  trcom cur sum  =    13635.0514789140     
  
  Total ECH heating:      2991058.00734783     
  Total Current Drive:    63136.3377664370     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1554
 TA= 1.89500E+00 CPU TIME= 1.61363E-01 SECONDS.  DT= 1.04861E-04
  
 TEC1=    1.89499999999998     
 TEC2=    1.89999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.10938333333297     
  %check_save_state: izleft hours =    75.8822222222222     
 --> plasma_hash("gframe"): TA= 1.895000E+00 NSTEP=  1554 Hash code:    4489741
 ->PRGCHK: bdy curvature ratio at t= 1.9000E+00 seconds is:  5.3024E-02
% MHDEQ: TG1=     1.895000 ; TG2=     1.900000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1710E-03 SECONDS
   DATA R*BT AT EDGE:  2.7609E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3024E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.895000 TO TG2=    1.900000 @ NSTEP     1554
   GFRAME TG2 MOMENTS CHECKSUM:  2.4958860400670D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.97156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.89542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.15011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.41102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.56732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.39679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.41838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.00779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.25880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.51049E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.72182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -4.50385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.34720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -1.31877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10= -1.39727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.35681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.14956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.07878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.07878E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9000E+00  1.9050E+00 total power(Watts):  3.0008E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.90000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.364753E+02    0.388150E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.346168E+02    0.388912E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.359633E+02    0.372644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.380649E+02    0.377624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.380130E+02    0.397087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.358116E+02    0.404184E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.339085E+02    0.415345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.328565E+02    0.401826E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.327487E+02    0.384825E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.334884E+02    0.369360E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.352819E+02    0.357124E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.372931E+02    0.353866E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.390695E+02    0.360279E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.402659E+02    0.373830E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.403756E+02    0.391468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.396051E+02    0.407405E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.377403E+02    0.418946E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.357269E+02    0.421478E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.338145E+02    0.443431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.310551E+02    0.427375E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.298206E+02    0.400953E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.304193E+02    0.370491E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.323668E+02    0.345304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.357147E+02    0.329015E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.393202E+02    0.329063E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.423774E+02    0.345235E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.438350E+02    0.373709E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.432396E+02    0.405668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.408417E+02    0.432021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.372619E+02    0.445779E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.375345E+02    0.300336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.356598E+02    0.301764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.370845E+02    0.283628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.392202E+02    0.288061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.391071E+02    0.308974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.368924E+02    0.317263E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.349835E+02    0.329738E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.338988E+02    0.315955E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.337639E+02    0.298244E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.346583E+02    0.280621E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.363684E+02    0.267549E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.383968E+02    0.263340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.403005E+02    0.268739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.414390E+02    0.283091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.415821E+02    0.301540E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.405384E+02    0.319953E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.387717E+02    0.332460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.367422E+02    0.335951E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.348382E+02    0.359820E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.321079E+02    0.343626E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.308225E+02    0.316321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.313074E+02    0.284775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.334805E+02    0.255704E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.369361E+02    0.236256E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.405907E+02    0.234808E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.435183E+02    0.251821E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.450459E+02    0.280996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.444012E+02    0.315229E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.418218E+02    0.345049E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.383267E+02    0.360879E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.363734E+02    0.441987E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.344351E+02    0.442588E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.358802E+02    0.426551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.379722E+02    0.432001E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.379027E+02    0.451223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.357015E+02    0.457553E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.338825E+02    0.467685E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.327581E+02    0.454465E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.326640E+02    0.437760E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.335002E+02    0.422164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.351271E+02    0.411498E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.371329E+02    0.408840E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.389922E+02    0.415155E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.401726E+02    0.428921E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.404625E+02    0.445809E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.393881E+02    0.462168E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.376130E+02    0.472537E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.356041E+02    0.474454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.337694E+02    0.495395E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.311069E+02    0.478431E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.297340E+02    0.452744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.301967E+02    0.423840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.323999E+02    0.398320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.355813E+02    0.384581E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.390793E+02    0.386073E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.422094E+02    0.402101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.437375E+02    0.430129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133423E+03   -0.432147E+02    0.461204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.407969E+02    0.486268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.372098E+02    0.498660E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.369339E+02    0.347968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.349813E+02    0.349587E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.364132E+02    0.331850E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.385290E+02    0.336647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.383949E+02    0.357388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.361906E+02    0.365053E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.343747E+02    0.376184E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.333074E+02    0.362680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.331877E+02    0.345152E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.339237E+02    0.328972E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.357177E+02    0.315961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.377360E+02    0.312301E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.396213E+02    0.317910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.407377E+02    0.332206E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.408591E+02    0.350612E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.399021E+02    0.367931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.381367E+02    0.379533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.361181E+02    0.382436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.342105E+02    0.405025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.314301E+02    0.389290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.301741E+02    0.362899E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.306796E+02    0.331783E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.329448E+02    0.303400E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.362170E+02    0.287089E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.397500E+02    0.287128E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.427338E+02    0.303119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.443225E+02    0.331139E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133989E+03   -0.437465E+02    0.364439E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.411595E+02    0.392276E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.376747E+02    0.406749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.378770E+02    0.233525E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.359011E+02    0.236291E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.374002E+02    0.215981E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.395580E+02    0.220029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.393772E+02    0.242994E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.371600E+02    0.252399E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.351671E+02    0.266663E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.339772E+02    0.253366E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.339054E+02    0.233908E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.349516E+02    0.213508E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.366568E+02    0.199579E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.387844E+02    0.193897E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.406171E+02    0.199680E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.417835E+02    0.214150E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.418548E+02    0.234303E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.408303E+02    0.254213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.390710E+02    0.267739E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.369434E+02    0.272577E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.349738E+02    0.297926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.322138E+02    0.282312E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.309686E+02    0.253856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.315761E+02    0.218784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.337315E+02    0.188470E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.372656E+02    0.166856E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.409465E+02    0.164376E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.439230E+02    0.180690E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.453028E+02    0.211392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.447031E+02    0.247769E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.420573E+02    0.280205E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.385697E+02    0.297375E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687391.296823096     
  ps_ts2 prof sum =   686964.482312332     
  trcom prof sum =    686964.482312332     
  ps_ts2 cur sum  =   13237.2757834655     
  trcom cur sum  =    13237.2757834654     
  
  antenna # iant =            2
  powecha_use(iant) =    685534.142487887     
  ps_ts2 prof sum =   685157.536055937     
  trcom prof sum =    685157.536055937     
  ps_ts2 cur sum  =   15643.3084832042     
  trcom cur sum  =    15643.3084832042     
  
  antenna # iant =            3
  powecha_use(iant) =    519818.918767657     
  ps_ts2 prof sum =   519479.532983904     
  trcom prof sum =    519479.532983905     
  ps_ts2 cur sum  =   8702.40407802519     
  trcom cur sum  =    8702.40407802519     
  
  antenna # iant =            4
  powecha_use(iant) =    558896.154121426     
  ps_ts2 prof sum =   558541.757880546     
  trcom prof sum =    558541.757880546     
  ps_ts2 cur sum  =   11730.4023218548     
  trcom cur sum  =    11730.4023218548     
  
  antenna # iant =            5
  powecha_use(iant) =    549195.503783708     
  ps_ts2 prof sum =   548894.562874780     
  trcom prof sum =    548894.562874780     
  ps_ts2 cur sum  =   13581.8402264278     
  trcom cur sum  =    13581.8402264278     
  
  Total ECH heating:      2999037.87210750     
  Total Current Drive:    62895.2308929774     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1566
 TA= 1.90000E+00 CPU TIME= 1.59601E-01 SECONDS.  DT= 6.70601E-04
  
 TEC1=    1.89999999999998     
 TEC2=    1.90499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.12555999999995     
  %check_save_state: izleft hours =    75.8661111111111     
 --> plasma_hash("gframe"): TA= 1.900000E+00 NSTEP=  1566 Hash code:   92435493
 ->PRGCHK: bdy curvature ratio at t= 1.9050E+00 seconds is:  5.2349E-02
% MHDEQ: TG1=     1.900000 ; TG2=     1.905000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7599E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2349E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.900000 TO TG2=    1.905000 @ NSTEP     1566
   GFRAME TG2 MOMENTS CHECKSUM:  2.4966828046068D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9050E+00  1.9100E+00 total power(Watts):  2.9872E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.90500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.364484E+02    0.387940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.345946E+02    0.388685E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.359395E+02    0.372488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.381321E+02    0.376994E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.379894E+02    0.396806E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.357900E+02    0.403868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.339753E+02    0.414588E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.328362E+02    0.401542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.327275E+02    0.384626E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.336365E+02    0.368233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.352584E+02    0.357020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.372672E+02    0.353778E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.391388E+02    0.359660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.402392E+02    0.373650E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.405465E+02    0.390405E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.394845E+02    0.407408E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.377182E+02    0.418535E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.357064E+02    0.421060E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.337969E+02    0.442936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.311997E+02    0.426238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.298019E+02    0.400695E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.303208E+02    0.370868E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.325093E+02    0.344152E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.356891E+02    0.329090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.392923E+02    0.329135E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.422473E+02    0.345694E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.438064E+02    0.373509E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.432137E+02    0.405289E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.407201E+02    0.431800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.372426E+02    0.445239E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.375980E+02    0.299929E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.356340E+02    0.301973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.370574E+02    0.283905E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.391921E+02    0.288332E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.390787E+02    0.309165E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.368659E+02    0.317415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.349584E+02    0.329807E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.338743E+02    0.316102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.336550E+02    0.299136E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.345476E+02    0.281602E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.363418E+02    0.267871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.384614E+02    0.262950E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.402711E+02    0.269064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.414088E+02    0.283374E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.415520E+02    0.301767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.406066E+02    0.319513E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.388387E+02    0.331953E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.367160E+02    0.335976E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.348149E+02    0.359702E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.320037E+02    0.344172E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.308002E+02    0.316473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.312828E+02    0.285034E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.334571E+02    0.256041E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.369076E+02    0.236673E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.405620E+02    0.235240E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.434870E+02    0.252213E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.449094E+02    0.281928E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.442657E+02    0.315959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.417926E+02    0.345007E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.383011E+02    0.360747E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.363509E+02    0.441479E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.345051E+02    0.441785E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.358602E+02    0.426098E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.379514E+02    0.431514E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.378838E+02    0.450652E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.356844E+02    0.456978E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.338674E+02    0.467102E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.327422E+02    0.453936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.326468E+02    0.437292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.334811E+02    0.421756E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.351058E+02    0.411142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.371102E+02    0.408498E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.389696E+02    0.414751E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.401504E+02    0.428427E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.404422E+02    0.445220E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.393667E+02    0.461541E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.376906E+02    0.471693E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.355883E+02    0.473842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.337571E+02    0.494731E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.310941E+02    0.477849E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.298771E+02    0.451638E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.301794E+02    0.423446E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.323797E+02    0.398058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.355582E+02    0.384371E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.390536E+02    0.385846E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.420820E+02    0.402122E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133552E+03   -0.437140E+02    0.429586E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133435E+03   -0.431952E+02    0.460523E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.407811E+02    0.485542E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.373847E+02    0.497644E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.369083E+02    0.347913E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.350448E+02    0.348991E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.363877E+02    0.331902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.385958E+02    0.336123E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.384631E+02    0.356777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.362569E+02    0.364424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.343522E+02    0.376018E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.332853E+02    0.362556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.331649E+02    0.345118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.340699E+02    0.327854E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.356920E+02    0.316115E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.377095E+02    0.312470E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.395931E+02    0.318056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.407087E+02    0.332259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.408307E+02    0.350547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.398753E+02    0.367773E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.381116E+02    0.379341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.360946E+02    0.382237E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.341896E+02    0.404712E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.315725E+02    0.388165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.302320E+02    0.362267E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.307364E+02    0.331240E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.328373E+02    0.304262E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.361904E+02    0.287352E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.398169E+02    0.286729E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.427028E+02    0.303344E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.442911E+02    0.331195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.437175E+02    0.364280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.411331E+02    0.392010E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.376518E+02    0.406403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.378479E+02    0.233955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.358761E+02    0.236697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.373742E+02    0.216435E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.395293E+02    0.220499E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.393486E+02    0.243395E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.371333E+02    0.252763E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.351409E+02    0.266982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.339529E+02    0.253708E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.338808E+02    0.234318E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.349271E+02    0.213975E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.365443E+02    0.200961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.387578E+02    0.194426E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.406832E+02    0.199348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.417539E+02    0.214644E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.418253E+02    0.234739E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.408009E+02    0.254579E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.390425E+02    0.268064E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.370062E+02    0.272180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.348615E+02    0.298813E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.321889E+02    0.282575E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.310243E+02    0.253410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.315533E+02    0.219220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.337076E+02    0.188973E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.372406E+02    0.167410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.409194E+02    0.164953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.438931E+02    0.181270E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.452706E+02    0.211907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.445680E+02    0.248896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.420266E+02    0.280509E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.385412E+02    0.297615E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681424.745282050     
  ps_ts2 prof sum =   681013.114133410     
  trcom prof sum =    681013.114133410     
  ps_ts2 cur sum  =   13026.9020816117     
  trcom cur sum  =    13026.9020816116     
  
  antenna # iant =            2
  powecha_use(iant) =    684913.228926096     
  ps_ts2 prof sum =   684478.664204423     
  trcom prof sum =    684478.664204422     
  ps_ts2 cur sum  =   15540.2262255184     
  trcom cur sum  =    15540.2262255183     
  
  antenna # iant =            3
  powecha_use(iant) =    520105.016484176     
  ps_ts2 prof sum =   519758.051449898     
  trcom prof sum =    519758.051420987     
  ps_ts2 cur sum  =   8632.25640091661     
  trcom cur sum  =    8632.25640091661     
  
  antenna # iant =            4
  powecha_use(iant) =    553157.610526891     
  ps_ts2 prof sum =   552834.147792525     
  trcom prof sum =    552834.147792524     
  ps_ts2 cur sum  =   11534.9971143891     
  trcom cur sum  =    11534.9971143891     
  
  antenna # iant =            5
  powecha_use(iant) =    547625.783521320     
  ps_ts2 prof sum =   547294.314948548     
  trcom prof sum =    547294.314948548     
  ps_ts2 cur sum  =   13479.2294163460     
  trcom cur sum  =    13479.2294163460     
  
  Total ECH heating:      2985378.29249989     
  Total Current Drive:    62213.6112387817     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1571
 TA= 1.90500E+00 CPU TIME= 1.60642E-01 SECONDS.  DT= 1.41696E-03
  
 TEC1=    1.90499999999998     
 TEC2=    1.90999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.13790444444430     
  %check_save_state: izleft hours =    75.8536111111111     
 --> plasma_hash("gframe"): TA= 1.905000E+00 NSTEP=  1571 Hash code:   18855920
 ->PRGCHK: bdy curvature ratio at t= 1.9100E+00 seconds is:  5.2621E-02
% MHDEQ: TG1=     1.905000 ; TG2=     1.910000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7605E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2621E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.905000 TO TG2=    1.910000 @ NSTEP     1571
   GFRAME TG2 MOMENTS CHECKSUM:  2.4958016452872D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.73171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.19845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.63060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.39516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.67288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  9.52183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.66974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.47219E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.38213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.33270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.04117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.95537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -7.36703E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.03364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -4.54336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10= -4.97252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.99091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.03083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.94874E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.94874E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9100E+00  1.9150E+00 total power(Watts):  2.9825E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.91000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.364358E+02    0.387500E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.345821E+02    0.388253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.359254E+02    0.372167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.380217E+02    0.377092E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.379766E+02    0.396292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.357785E+02    0.403321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.338780E+02    0.414396E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.328265E+02    0.401022E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.327150E+02    0.384236E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.335381E+02    0.368441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.352439E+02    0.356798E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.372519E+02    0.353564E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.390272E+02    0.359899E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.402238E+02    0.373305E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.403356E+02    0.390722E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.393743E+02    0.407199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.377073E+02    0.417901E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.356957E+02    0.420446E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.337882E+02    0.442273E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.310284E+02    0.426385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.297925E+02    0.400212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.302298E+02    0.371091E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.323312E+02    0.345112E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.356738E+02    0.328955E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.391811E+02    0.329559E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.423315E+02    0.344985E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.437906E+02    0.373133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.432003E+02    0.404663E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.408089E+02    0.430795E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.372337E+02    0.444522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.374917E+02    0.300539E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.356197E+02    0.301934E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.370430E+02    0.283979E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.391766E+02    0.288381E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.390637E+02    0.309082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.368514E+02    0.317302E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.349440E+02    0.329670E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.338609E+02    0.315998E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.337259E+02    0.298443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.346188E+02    0.280992E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.363280E+02    0.268036E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.383541E+02    0.263876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.402554E+02    0.269245E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.413927E+02    0.283465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.415362E+02    0.301721E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.404928E+02    0.319971E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.387277E+02    0.332359E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.367009E+02    0.335829E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.348010E+02    0.359466E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.320723E+02    0.343456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.307090E+02    0.317012E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.312700E+02    0.285104E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.335267E+02    0.255475E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.368947E+02    0.236909E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.404518E+02    0.236263E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.434705E+02    0.252465E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134123E+03   -0.449959E+02    0.281393E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.443520E+02    0.315282E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.418762E+02    0.344299E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.382855E+02    0.360494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.363449E+02    0.440789E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.344081E+02    0.441430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.357592E+02    0.425817E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.379409E+02    0.430848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.378756E+02    0.449910E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.356768E+02    0.456238E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.338617E+02    0.466318E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.327350E+02    0.453238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.326383E+02    0.436659E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.334707E+02    0.421170E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.350946E+02    0.410572E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.370984E+02    0.407918E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.389576E+02    0.414125E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.401392E+02    0.427742E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.404325E+02    0.444479E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.393632E+02    0.460725E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.375901E+02    0.471072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.355826E+02    0.473015E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.337546E+02    0.493860E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.310899E+02    0.477064E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.297132E+02    0.451596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.301704E+02    0.422883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.323692E+02    0.397564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.355451E+02    0.383967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.390393E+02    0.385413E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.421702E+02    0.401165E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133550E+03   -0.437022E+02    0.428850E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133433E+03   -0.431873E+02    0.459651E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.407771E+02    0.484576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.371943E+02    0.496997E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.368926E+02    0.347734E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.349431E+02    0.349341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.363725E+02    0.331753E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.384857E+02    0.336513E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.383532E+02    0.357044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.361520E+02    0.364648E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.343389E+02    0.375674E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.331031E+02    0.363338E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.329838E+02    0.346062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.339705E+02    0.328314E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.356780E+02    0.316010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.376936E+02    0.312380E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.395779E+02    0.317933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.406916E+02    0.332097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.408124E+02    0.350340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.398598E+02    0.367477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.380975E+02    0.378959E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.360810E+02    0.381847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.341788E+02    0.404180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.313980E+02    0.388674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.301419E+02    0.362559E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.306445E+02    0.331717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.329075E+02    0.303554E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.361762E+02    0.287399E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.397042E+02    0.287449E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.426864E+02    0.303291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.442736E+02    0.331030E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.434938E+02    0.364885E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.412191E+02    0.391103E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.376395E+02    0.405834E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.378347E+02    0.234199E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.358667E+02    0.236905E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.373609E+02    0.216731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.395156E+02    0.220785E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.393344E+02    0.243637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.370299E+02    0.253731E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.351279E+02    0.267156E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.339405E+02    0.253913E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.338681E+02    0.234543E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.349161E+02    0.214260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.366199E+02    0.200429E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.387452E+02    0.194804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.405752E+02    0.200567E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.417397E+02    0.214965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.418100E+02    0.234998E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.407858E+02    0.254810E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.390274E+02    0.268246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.369019E+02    0.273035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.349343E+02    0.298132E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.322570E+02    0.281952E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.309347E+02    0.254394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.314648E+02    0.220343E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.336976E+02    0.189350E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.370564E+02    0.169707E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.408145E+02    0.166327E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.437799E+02    0.182583E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134260E+03   -0.453581E+02    0.211467E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.446545E+02    0.248442E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.419111E+02    0.281275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.384327E+02    0.298240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681374.368768893     
  ps_ts2 prof sum =   680938.398688387     
  trcom prof sum =    680938.398688387     
  ps_ts2 cur sum  =   12959.8745135303     
  trcom cur sum  =    12959.8745135303     
  
  antenna # iant =            2
  powecha_use(iant) =    682646.585282923     
  ps_ts2 prof sum =   682302.357401682     
  trcom prof sum =    682302.357401681     
  ps_ts2 cur sum  =   15438.7331849045     
  trcom cur sum  =    15438.7331849045     
  
  antenna # iant =            3
  powecha_use(iant) =    519799.289247874     
  ps_ts2 prof sum =   519460.494153966     
  trcom prof sum =    519460.494153967     
  ps_ts2 cur sum  =   8574.25064174748     
  trcom cur sum  =    8574.25064174748     
  
  antenna # iant =            4
  powecha_use(iant) =    550962.207838905     
  ps_ts2 prof sum =   550608.463771606     
  trcom prof sum =    550608.463771605     
  ps_ts2 cur sum  =   11440.6540592247     
  trcom cur sum  =    11440.6540592246     
  
  antenna # iant =            5
  powecha_use(iant) =    547718.989664819     
  ps_ts2 prof sum =   547425.823555689     
  trcom prof sum =    547425.823555689     
  ps_ts2 cur sum  =   13454.4850570450     
  trcom cur sum  =    13454.4850570450     
  
  Total ECH heating:      2980735.53757133     
  Total Current Drive:    61867.9974564520     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1574
 TA= 1.91000E+00 CPU TIME= 1.59502E-01 SECONDS.  DT= 2.26480E-03
  
 TEC1=    1.90999999999998     
 TEC2=    1.91499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.15226027777749     
  %check_save_state: izleft hours =    75.8394444444444     
 --> plasma_hash("gframe"): TA= 1.910000E+00 NSTEP=  1574 Hash code:   35962167
 ->PRGCHK: bdy curvature ratio at t= 1.9150E+00 seconds is:  5.2936E-02
% MHDEQ: TG1=     1.910000 ; TG2=     1.915000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7611E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2936E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.910000 TO TG2=    1.915000 @ NSTEP     1574
   GFRAME TG2 MOMENTS CHECKSUM:  2.4949204859675D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9150E+00  1.9200E+00 total power(Watts):  2.9934E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.91500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.364234E+02    0.387040E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.344808E+02    0.388249E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.359100E+02    0.371811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.380094E+02    0.376681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.379620E+02    0.395769E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.357650E+02    0.402772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.338661E+02    0.413804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.328136E+02    0.400516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.327019E+02    0.383824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.335228E+02    0.368125E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.351396E+02    0.357048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.371433E+02    0.353819E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.390100E+02    0.359605E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.402069E+02    0.372915E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.403189E+02    0.390236E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.393601E+02    0.406595E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.376940E+02    0.417260E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.356841E+02    0.419806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.337783E+02    0.441594E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.310996E+02    0.425409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.297804E+02    0.399733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.302167E+02    0.370775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.323152E+02    0.344919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.356581E+02    0.328794E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.391628E+02    0.329395E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.421109E+02    0.345760E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.437726E+02    0.372727E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.431846E+02    0.404036E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.407964E+02    0.430056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.372229E+02    0.443804E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.374751E+02    0.300490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.355155E+02    0.302523E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.370266E+02    0.284018E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.391589E+02    0.288394E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.390456E+02    0.308991E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.367444E+02    0.317778E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.349282E+02    0.329517E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.336755E+02    0.317133E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.337108E+02    0.298405E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.346043E+02    0.281040E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.363122E+02    0.268155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.383374E+02    0.264008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.402376E+02    0.269369E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.413744E+02    0.283512E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.414183E+02    0.302277E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.404740E+02    0.319835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.387101E+02    0.332183E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.366841E+02    0.335642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.346977E+02    0.359701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.320574E+02    0.343251E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.306945E+02    0.316903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.312571E+02    0.285130E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.335122E+02    0.255638E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.367911E+02    0.237911E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.404358E+02    0.236487E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.433503E+02    0.253378E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.449761E+02    0.281459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.443322E+02    0.315153E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.416569E+02    0.345086E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.381743E+02    0.360691E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.363342E+02    0.440077E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.343979E+02    0.440744E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.357474E+02    0.425164E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.379293E+02    0.430142E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.378651E+02    0.449153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.356680E+02    0.455488E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.338543E+02    0.465549E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.327266E+02    0.452528E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.326285E+02    0.436003E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.334598E+02    0.420553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.350820E+02    0.409992E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.370846E+02    0.407339E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.388467E+02    0.413855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.402255E+02    0.426702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.404218E+02    0.443693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.394489E+02    0.459663E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.375863E+02    0.470227E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.355757E+02    0.472189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.337524E+02    0.492988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.310845E+02    0.476277E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.297050E+02    0.450932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.301602E+02    0.422299E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.321895E+02    0.397947E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.355308E+02    0.383539E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.390237E+02    0.384953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.421545E+02    0.400572E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.435847E+02    0.428374E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.430734E+02    0.458993E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.407715E+02    0.483619E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.371902E+02    0.496072E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.367846E+02    0.348027E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.349270E+02    0.349113E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.363557E+02    0.331580E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.384683E+02    0.336317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.383359E+02    0.356766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.361359E+02    0.364340E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.343246E+02    0.375309E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.331727E+02    0.362535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.329676E+02    0.345864E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.339544E+02    0.328165E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.356625E+02    0.315888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.376745E+02    0.312287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.394635E+02    0.318395E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.406734E+02    0.331923E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.407918E+02    0.350098E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.398429E+02    0.367120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.380813E+02    0.378553E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.360664E+02    0.381431E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.341663E+02    0.403631E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.313854E+02    0.388252E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.301281E+02    0.362289E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.306299E+02    0.331566E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.327266E+02    0.304807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.361603E+02    0.287422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.396847E+02    0.287485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.426672E+02    0.303221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134058E+03   -0.442537E+02    0.330845E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.435790E+02    0.364071E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.412026E+02    0.390600E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.376254E+02    0.405262E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.07 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.377286E+02    0.235208E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.356753E+02    0.238710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.372572E+02    0.217830E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.395004E+02    0.221055E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.393178E+02    0.243835E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.370140E+02    0.253909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.351124E+02    0.267282E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.340096E+02    0.253308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.339378E+02    0.233940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.347321E+02    0.216233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.366061E+02    0.200750E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.386393E+02    0.196030E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.405602E+02    0.200906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.417240E+02    0.215255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.417933E+02    0.235230E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.407679E+02    0.254989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.389166E+02    0.269077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.368859E+02    0.273129E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.349186E+02    0.298095E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.320814E+02    0.283416E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.309216E+02    0.254547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.314522E+02    0.220592E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.336859E+02    0.189684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.371312E+02    0.169164E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.408007E+02    0.166739E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.437633E+02    0.182997E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.451352E+02    0.213372E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.444299E+02    0.250085E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.418924E+02    0.281337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.384158E+02    0.298200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684774.928998943     
  ps_ts2 prof sum =   684355.630290009     
  trcom prof sum =    684355.630290008     
  ps_ts2 cur sum  =   12936.3628078472     
  trcom cur sum  =    12936.3628078472     
  
  antenna # iant =            2
  powecha_use(iant) =    683357.715812851     
  ps_ts2 prof sum =   682984.464726642     
  trcom prof sum =    682984.464726642     
  ps_ts2 cur sum  =   15383.6277914372     
  trcom cur sum  =    15383.6277914372     
  
  antenna # iant =            3
  powecha_use(iant) =    519299.898319787     
  ps_ts2 prof sum =   518969.415653454     
  trcom prof sum =    518969.415653454     
  ps_ts2 cur sum  =   8496.64977161199     
  trcom cur sum  =    8496.64977161199     
  
  antenna # iant =            4
  powecha_use(iant) =    557733.438618929     
  ps_ts2 prof sum =   557397.950327958     
  trcom prof sum =    557397.950327957     
  ps_ts2 cur sum  =   11514.2822271184     
  trcom cur sum  =    11514.2822271184     
  
  antenna # iant =            5
  powecha_use(iant) =    548272.823731177     
  ps_ts2 prof sum =   547967.302853004     
  trcom prof sum =    547967.302853004     
  ps_ts2 cur sum  =   13422.4330454688     
  trcom cur sum  =    13422.4330454688     
  
  Total ECH heating:      2991674.76385107     
  Total Current Drive:    61753.3556434836     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1576
 TA= 1.91500E+00 CPU TIME= 1.59520E-01 SECONDS.  DT= 3.41900E-03
  
 TEC1=    1.91499999999998     
 TEC2=    1.91999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.16582055555546     
  %check_save_state: izleft hours =    75.8258333333333     
 --> plasma_hash("gframe"): TA= 1.915000E+00 NSTEP=  1576 Hash code:  108868213
 ->PRGCHK: bdy curvature ratio at t= 1.9200E+00 seconds is:  5.2913E-02
% MHDEQ: TG1=     1.915000 ; TG2=     1.920000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7617E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2913E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.915000 TO TG2=    1.920000 @ NSTEP     1576
   GFRAME TG2 MOMENTS CHECKSUM:  2.4940393266479D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.74875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.23425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.13847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.44840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.96214E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.37009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.75499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -3.98266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.84669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  4.46079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.46610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.02654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -7.00347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -1.83728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -5.56260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.20207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.19023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.53186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.53630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.53630E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9200E+00  1.9250E+00 total power(Watts):  2.9897E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.92000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.363167E+02    0.387054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.344682E+02    0.387820E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.358062E+02    0.371949E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.379951E+02    0.376304E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.378540E+02    0.395685E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.356620E+02    0.402660E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.338550E+02    0.413241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.328023E+02    0.400027E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.325220E+02    0.384363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.335097E+02    0.367818E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.351251E+02    0.356797E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.371281E+02    0.353581E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.389947E+02    0.359316E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.400927E+02    0.373009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.403048E+02    0.389748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.393470E+02    0.406016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.375881E+02    0.417003E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.355824E+02    0.419566E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.337697E+02    0.440939E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.310940E+02    0.424808E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.298488E+02    0.398826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.302039E+02    0.370478E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.323856E+02    0.344166E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.356434E+02    0.328663E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.391464E+02    0.329258E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.420932E+02    0.345554E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.436516E+02    0.372771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.431707E+02    0.403433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.405849E+02    0.429977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.372133E+02    0.443101E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.374603E+02    0.300469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.355015E+02    0.302494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.369215E+02    0.284781E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.390487E+02    0.289113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.389349E+02    0.309538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.367290E+02    0.317686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.348257E+02    0.329957E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.337466E+02    0.316415E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.335277E+02    0.299734E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.344185E+02    0.282542E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.362091E+02    0.269046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.382302E+02    0.264939E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.401254E+02    0.270248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.412594E+02    0.284271E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.414015E+02    0.302256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.404574E+02    0.319729E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.386943E+02    0.332037E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.365778E+02    0.336049E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.346835E+02    0.359434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.318809E+02    0.344203E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.306819E+02    0.316816E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.311645E+02    0.285913E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.333336E+02    0.257377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.367786E+02    0.238173E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.404216E+02    0.236773E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.433346E+02    0.253624E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.448542E+02    0.282216E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.441057E+02    0.316199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.416397E+02    0.344887E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.381594E+02    0.360399E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.362317E+02    0.439723E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.343891E+02    0.440084E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.357369E+02    0.424533E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.378229E+02    0.429810E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.377608E+02    0.448705E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.356596E+02    0.454773E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.337603E+02    0.465061E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.327192E+02    0.451848E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.325346E+02    0.435714E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.333637E+02    0.420331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.349810E+02    0.409827E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.369790E+02    0.407166E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.388347E+02    0.413243E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.400152E+02    0.426676E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.402127E+02    0.443510E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.394382E+02    0.458879E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.375775E+02    0.469413E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.355700E+02    0.471400E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.336589E+02    0.492350E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.310798E+02    0.475524E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.297773E+02    0.449971E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.302304E+02    0.421345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.322617E+02    0.397043E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.354278E+02    0.383585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.390090E+02    0.384522E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.421408E+02    0.399998E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.435726E+02    0.427637E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.430649E+02    0.458151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.407669E+02    0.482702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.371872E+02    0.495185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.367694E+02    0.347818E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.349126E+02    0.348900E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.362503E+02    0.332012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.384523E+02    0.336160E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.383212E+02    0.356507E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.361220E+02    0.364042E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.342240E+02    0.375440E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.331592E+02    0.362259E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.330385E+02    0.345113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.339407E+02    0.328038E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.355592E+02    0.316414E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.375694E+02    0.312808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.394472E+02    0.318302E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.405580E+02    0.332319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.406803E+02    0.350353E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.397295E+02    0.367261E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.380671E+02    0.378164E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.360526E+02    0.381034E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.341547E+02    0.403113E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.314559E+02    0.387378E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.301153E+02    0.362031E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.306178E+02    0.331420E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.327131E+02    0.304774E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.360572E+02    0.288159E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.396667E+02    0.287567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.425487E+02    0.303797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.441317E+02    0.331213E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.435619E+02    0.363748E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.409881E+02    0.390910E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.376126E+02    0.404710E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.377161E+02    0.235482E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.357491E+02    0.238186E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.372456E+02    0.218162E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.393937E+02    0.222192E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.392105E+02    0.244854E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.370003E+02    0.254134E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.350129E+02    0.268175E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.338297E+02    0.255060E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.337593E+02    0.235834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.348060E+02    0.215711E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.365078E+02    0.202001E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.386287E+02    0.196429E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.404532E+02    0.202155E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.416130E+02    0.216429E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.416805E+02    0.236291E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.406557E+02    0.255964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.389014E+02    0.269262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.368715E+02    0.273282E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.349046E+02    0.298096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.320680E+02    0.283501E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.309102E+02    0.254754E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.314417E+02    0.220881E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.335939E+02    0.190987E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.371220E+02    0.169605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.407904E+02    0.167207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.437516E+02    0.183462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.451204E+02    0.213764E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.445167E+02    0.249636E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.418758E+02    0.281453E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.384004E+02    0.298196E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680322.536386348     
  ps_ts2 prof sum =   679905.625427237     
  trcom prof sum =    679905.625427236     
  ps_ts2 cur sum  =   12778.7471857225     
  trcom cur sum  =    12778.7471857225     
  
  antenna # iant =            2
  powecha_use(iant) =    683260.066392731     
  ps_ts2 prof sum =   682825.665989209     
  trcom prof sum =    682825.665989208     
  ps_ts2 cur sum  =   15324.6925367729     
  trcom cur sum  =    15324.6925367729     
  
  antenna # iant =            3
  powecha_use(iant) =    520964.382965322     
  ps_ts2 prof sum =   520632.780614112     
  trcom prof sum =    520632.780614112     
  ps_ts2 cur sum  =   8463.02085991001     
  trcom cur sum  =    8463.02085991001     
  
  antenna # iant =            4
  powecha_use(iant) =    557817.280469057     
  ps_ts2 prof sum =   557493.747083282     
  trcom prof sum =    557493.747083282     
  ps_ts2 cur sum  =   11461.6393434128     
  trcom cur sum  =    11461.6393434128     
  
  antenna # iant =            5
  powecha_use(iant) =    547321.571128183     
  ps_ts2 prof sum =   547031.759118969     
  trcom prof sum =    547031.759118969     
  ps_ts2 cur sum  =   13368.4752077007     
  trcom cur sum  =    13368.4752077007     
  
  Total ECH heating:      2987889.57823281     
  Total Current Drive:    61396.5751335189     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1578
 TA= 1.92000E+00 CPU TIME= 1.59041E-01 SECONDS.  DT= 1.97625E-03
  
 TEC1=    1.91999999999998     
 TEC2=    1.92499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.17880416666662     
  %check_save_state: izleft hours =    75.8127777777778     
 --> plasma_hash("gframe"): TA= 1.920000E+00 NSTEP=  1578 Hash code:   44368454
 ->PRGCHK: bdy curvature ratio at t= 1.9250E+00 seconds is:  5.2990E-02
% MHDEQ: TG1=     1.920000 ; TG2=     1.925000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2990E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.920000 TO TG2=    1.925000 @ NSTEP     1578
   GFRAME TG2 MOMENTS CHECKSUM:  2.4931581673283D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9250E+00  1.9300E+00 total power(Watts):  2.9795E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.92500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.363020E+02    0.386650E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.344558E+02    0.387411E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.357926E+02    0.371625E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.378866E+02    0.376401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.378416E+02    0.395196E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.356504E+02    0.402155E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.338444E+02    0.412702E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.327066E+02    0.399986E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.325944E+02    0.383513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.333265E+02    0.368521E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.351123E+02    0.356563E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.371143E+02    0.353359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.388835E+02    0.359556E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.400778E+02    0.372662E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.401919E+02    0.389701E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.393347E+02    0.405461E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.375766E+02    0.416414E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.355720E+02    0.418977E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.336737E+02    0.440623E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.310836E+02    0.424241E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.296820E+02    0.399269E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.302720E+02    0.369672E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.322066E+02    0.345134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.355401E+02    0.329133E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.390352E+02    0.329695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.419752E+02    0.345868E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.436361E+02    0.372395E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.430533E+02    0.403220E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.406746E+02    0.428968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.371096E+02    0.442733E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.373544E+02    0.301106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.354883E+02    0.302479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.369079E+02    0.284877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.390343E+02    0.289182E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.389201E+02    0.309498E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.367149E+02    0.317609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.348130E+02    0.329841E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.337345E+02    0.316338E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.335995E+02    0.299075E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.344924E+02    0.281947E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.361964E+02    0.269222E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.382168E+02    0.265121E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.401119E+02    0.270418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.412440E+02    0.284376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.412861E+02    0.302866E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.403439E+02    0.320213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.385839E+02    0.332466E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.365638E+02    0.335906E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.346712E+02    0.359186E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.319503E+02    0.343477E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.306700E+02    0.316748E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.311529E+02    0.285999E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.334059E+02    0.256807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.366776E+02    0.239216E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.403132E+02    0.237823E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.432182E+02    0.254588E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.448375E+02    0.282341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.441932E+02    0.315558E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.417241E+02    0.344185E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.381447E+02    0.360142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.65 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.362232E+02    0.439055E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.343803E+02    0.439440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.357271E+02    0.423918E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.378125E+02    0.429161E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.377519E+02    0.448010E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.355618E+02    0.454336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.337544E+02    0.464343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.326272E+02    0.451489E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.325265E+02    0.435097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.333539E+02    0.419760E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.349699E+02    0.409297E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.369675E+02    0.406626E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.388227E+02    0.412657E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.400048E+02    0.426005E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.403020E+02    0.442522E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.392320E+02    0.458616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.376644E+02    0.468404E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.354727E+02    0.470886E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.336538E+02    0.491555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.309937E+02    0.475047E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.297703E+02    0.449345E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.300624E+02    0.421574E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.322513E+02    0.396590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.354148E+02    0.383195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.388986E+02    0.384537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.420251E+02    0.399832E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.435609E+02    0.426930E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.430570E+02    0.457328E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134252E+03   -0.406613E+02    0.482015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.370890E+02    0.494510E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.367567E+02    0.347624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.348112E+02    0.349250E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.362364E+02    0.331884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.383426E+02    0.336564E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.382111E+02    0.356766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.360175E+02    0.364255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.342117E+02    0.375098E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.331468E+02    0.362000E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.330261E+02    0.344943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.337560E+02    0.329114E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.355452E+02    0.316341E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.375552E+02    0.312746E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.393362E+02    0.318801E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.405423E+02    0.332184E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.406646E+02    0.350140E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.397145E+02    0.366957E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.379588E+02    0.378243E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.359484E+02    0.381115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.340591E+02    0.403020E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.312810E+02    0.387916E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.301826E+02    0.361254E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.305270E+02    0.331909E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.327836E+02    0.304098E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.360434E+02    0.288237E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.395608E+02    0.288274E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.425322E+02    0.303789E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.441149E+02    0.331077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.433375E+02    0.364350E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.409740E+02    0.390435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.375063E+02    0.404571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.376137E+02    0.236543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.357381E+02    0.238447E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.371458E+02    0.219317E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.393828E+02    0.222517E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.391976E+02    0.245112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.368978E+02    0.255104E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.350003E+02    0.268344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.339013E+02    0.254509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.338330E+02    0.235275E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.346276E+02    0.217724E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.364986E+02    0.202377E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.385278E+02    0.197694E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.404423E+02    0.202552E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.416014E+02    0.216789E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.416673E+02    0.236586E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.406418E+02    0.256187E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.387937E+02    0.270131E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.367680E+02    0.274139E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.348053E+02    0.298755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.321374E+02    0.282894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.308220E+02    0.255733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.313553E+02    0.222030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.335873E+02    0.191364E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.370261E+02    0.170978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.406875E+02    0.168592E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.436414E+02    0.184783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.450047E+02    0.214941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.442954E+02    0.251324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.417608E+02    0.282234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.382924E+02    0.298845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676632.564533882     
  ps_ts2 prof sum =   676202.211365822     
  trcom prof sum =    676202.211365821     
  ps_ts2 cur sum  =   12646.1159746170     
  trcom cur sum  =    12646.1159746170     
  
  antenna # iant =            2
  powecha_use(iant) =    679077.680361803     
  ps_ts2 prof sum =   678743.375821211     
  trcom prof sum =    678743.375821211     
  ps_ts2 cur sum  =   15185.8519880373     
  trcom cur sum  =    15185.8519880373     
  
  antenna # iant =            3
  powecha_use(iant) =    520703.096598529     
  ps_ts2 prof sum =   520369.410105516     
  trcom prof sum =    520369.410105516     
  ps_ts2 cur sum  =   8404.35781027453     
  trcom cur sum  =    8404.35781027453     
  
  antenna # iant =            4
  powecha_use(iant) =    554546.492305769     
  ps_ts2 prof sum =   554208.809354392     
  trcom prof sum =    554208.809354392     
  ps_ts2 cur sum  =   11348.4437233312     
  trcom cur sum  =    11348.4437233312     
  
  antenna # iant =            5
  powecha_use(iant) =    548548.579256894     
  ps_ts2 prof sum =   548266.781076855     
  trcom prof sum =    548266.781076855     
  ps_ts2 cur sum  =   13376.2342220077     
  trcom cur sum  =    13376.2342220077     
  
  Total ECH heating:      2977790.58772379     
  Total Current Drive:    60961.0037182677     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1581
 TA= 1.92500E+00 CPU TIME= 1.66079E-01 SECONDS.  DT= 6.91796E-04
  
 TEC1=    1.92499999999998     
 TEC2=    1.92999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.19245722222195     
  %check_save_state: izleft hours =    75.7991666666667     
 --> plasma_hash("gframe"): TA= 1.925000E+00 NSTEP=  1581 Hash code:  104325983
 ->PRGCHK: bdy curvature ratio at t= 1.9300E+00 seconds is:  5.3167E-02
% MHDEQ: TG1=     1.925000 ; TG2=     1.930000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7629E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3167E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.925000 TO TG2=    1.930000 @ NSTEP     1581
   GFRAME TG2 MOMENTS CHECKSUM:  2.4922770080087D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.77220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.28349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.52163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  7.68215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.95358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.17967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.87226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -6.06044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.94578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -2.52428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.05062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.12443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -6.50337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.04727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.33548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.21737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.46442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.84549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.19893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.19893E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9300E+00  1.9350E+00 total power(Watts):  2.9953E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.93000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.362888E+02    0.386186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.343563E+02    0.387405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.357799E+02    0.371239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.378733E+02    0.375979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.378292E+02    0.394682E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.356392E+02    0.401623E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.337477E+02    0.412529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.326961E+02    0.399483E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.325828E+02    0.383091E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.333997E+02    0.367666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.350100E+02    0.356782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.370073E+02    0.353582E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.388686E+02    0.359227E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.400634E+02    0.372244E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.401783E+02    0.389193E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.392248E+02    0.405266E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.375655E+02    0.415811E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.355611E+02    0.418392E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.336658E+02    0.439998E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.309108E+02    0.424438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.296721E+02    0.398802E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.301028E+02    0.370350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.321939E+02    0.344895E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.355262E+02    0.328923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.390201E+02    0.329476E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.419591E+02    0.345591E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.435163E+02    0.372386E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.430403E+02    0.402603E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.406640E+02    0.428288E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.371007E+02    0.442064E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.373399E+02    0.300998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.353861E+02    0.303012E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.368030E+02    0.285542E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.390193E+02    0.289144E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.388097E+02    0.309952E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.366091E+02    0.318028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.347116E+02    0.330219E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.335506E+02    0.317419E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.334175E+02    0.300302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.343066E+02    0.283350E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.360937E+02    0.269996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.382025E+02    0.265199E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.400003E+02    0.271166E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.411290E+02    0.285017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.412701E+02    0.302752E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.403283E+02    0.320016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.385692E+02    0.332234E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.365497E+02    0.335677E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.345698E+02    0.359391E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.319382E+02    0.343243E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.305795E+02    0.317218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.310611E+02    0.286691E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.332272E+02    0.258425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.366652E+02    0.239375E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.402988E+02    0.237993E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.432024E+02    0.254711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.446115E+02    0.283608E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.439676E+02    0.316492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.415066E+02    0.344936E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.380356E+02    0.360309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.362149E+02    0.438399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.342832E+02    0.439138E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.356252E+02    0.423672E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.378025E+02    0.428517E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.377444E+02    0.447308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.355544E+02    0.453661E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.337488E+02    0.463660E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.326198E+02    0.450859E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.325181E+02    0.434494E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.333449E+02    0.419177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.349597E+02    0.408735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.369566E+02    0.406057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.387142E+02    0.412423E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.400933E+02    0.425012E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.402937E+02    0.441795E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.392284E+02    0.457884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.374657E+02    0.468141E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.354678E+02    0.470155E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.336538E+02    0.490790E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.309898E+02    0.474357E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.296060E+02    0.449386E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.300526E+02    0.421034E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.322412E+02    0.396102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.354026E+02    0.382755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.388854E+02    0.384067E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.420122E+02    0.399249E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.434447E+02    0.426513E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.429444E+02    0.456781E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.406568E+02    0.481184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.370866E+02    0.493689E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.366495E+02    0.347895E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.347979E+02    0.348981E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.362220E+02    0.331668E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.383275E+02    0.336326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.381965E+02    0.356456E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.360039E+02    0.363912E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.341996E+02    0.374703E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.330497E+02    0.362194E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.328441E+02    0.345819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.338291E+02    0.328315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.355311E+02    0.316170E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.375401E+02    0.312586E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.393205E+02    0.318608E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.405261E+02    0.331959E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.407482E+02    0.349343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.396996E+02    0.366576E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.379454E+02    0.377812E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.359360E+02    0.380679E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.340471E+02    0.402504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.312701E+02    0.387485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.300137E+02    0.362022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.305148E+02    0.331711E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.326051E+02    0.305289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.359410E+02    0.288875E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.395458E+02    0.288241E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.424142E+02    0.304268E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.439932E+02    0.331365E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.434259E+02    0.363508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.410615E+02    0.389501E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.374951E+02    0.404004E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.376008E+02    0.236711E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.356379E+02    0.239394E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.371336E+02    0.219535E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.392759E+02    0.223535E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.390896E+02    0.246005E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.368844E+02    0.255210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.348138E+02    0.269859E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.338892E+02    0.254609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.336541E+02    0.237048E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.347007E+02    0.217102E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.363990E+02    0.203503E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.385157E+02    0.197978E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.403348E+02    0.203670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.414902E+02    0.217832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.415545E+02    0.237519E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.405297E+02    0.257017E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.387791E+02    0.270189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.367541E+02    0.274177E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.347912E+02    0.298665E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.319623E+02    0.284306E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.308100E+02    0.255831E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.313450E+02    0.222224E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.334945E+02    0.192552E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.368404E+02    0.173166E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.406775E+02    0.168955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.435288E+02    0.185972E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.450929E+02    0.214425E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.443827E+02    0.250756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.417443E+02    0.282237E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.382770E+02    0.298760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684364.475912045     
  ps_ts2 prof sum =   683931.008301110     
  trcom prof sum =    683931.008301110     
  ps_ts2 cur sum  =   12728.6419766021     
  trcom cur sum  =    12728.6419766021     
  
  antenna # iant =            2
  powecha_use(iant) =    679842.976376263     
  ps_ts2 prof sum =   679395.780078279     
  trcom prof sum =    679395.780078279     
  ps_ts2 cur sum  =   15162.8005177603     
  trcom cur sum  =    15162.8005177603     
  
  antenna # iant =            3
  powecha_use(iant) =    521545.696180179     
  ps_ts2 prof sum =   521209.264707826     
  trcom prof sum =    521209.264707826     
  ps_ts2 cur sum  =   8364.73832113919     
  trcom cur sum  =    8364.73832113919     
  
  antenna # iant =            4
  powecha_use(iant) =    560783.135088962     
  ps_ts2 prof sum =   560453.661457168     
  trcom prof sum =    560453.661457167     
  ps_ts2 cur sum  =   11433.1378635826     
  trcom cur sum  =    11433.1378635826     
  
  antenna # iant =            5
  powecha_use(iant) =    548757.265770878     
  ps_ts2 prof sum =   548450.514158957     
  trcom prof sum =    548450.514158957     
  ps_ts2 cur sum  =   13363.9875705980     
  trcom cur sum  =    13363.9875705979     
  
  Total ECH heating:      2993440.22870334     
  Total Current Drive:    61053.3062496821     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1586
 TA= 1.93000E+00 CPU TIME= 1.66046E-01 SECONDS.  DT= 1.26421E-03
  
 TEC1=    1.92999999999998     
 TEC2=    1.93499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.21203527777766     
  %check_save_state: izleft hours =    75.7794444444445     
 --> plasma_hash("gframe"): TA= 1.930000E+00 NSTEP=  1586 Hash code:   95592982
 ->PRGCHK: bdy curvature ratio at t= 1.9350E+00 seconds is:  5.2992E-02
% MHDEQ: TG1=     1.930000 ; TG2=     1.935000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7636E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2992E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.930000 TO TG2=    1.935000 @ NSTEP     1586
   GFRAME TG2 MOMENTS CHECKSUM:  2.4913958486891D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9350E+00  1.9400E+00 total power(Watts):  2.9978E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.93500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.362744E+02    0.385698E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.343432E+02    0.386924E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.356743E+02    0.371322E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.378581E+02    0.375532E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.377201E+02    0.394559E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.356273E+02    0.401060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.337367E+02    0.411964E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.326847E+02    0.398962E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.325707E+02    0.382642E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.333860E+02    0.367294E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.349952E+02    0.356459E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.369912E+02    0.353269E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.388524E+02    0.358873E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.399485E+02    0.372262E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.401635E+02    0.388656E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.392109E+02    0.404673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.374585E+02    0.415566E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.355503E+02    0.417780E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.336573E+02    0.439359E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.309810E+02    0.423498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.296613E+02    0.398308E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.300904E+02    0.369992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.322637E+02    0.344074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.355108E+02    0.328690E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.390032E+02    0.329230E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.420425E+02    0.344783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.434992E+02    0.371915E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.430258E+02    0.401970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.406523E+02    0.427591E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.370914E+02    0.441393E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.373230E+02    0.300894E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.353702E+02    0.302893E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.367870E+02    0.285506E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.389066E+02    0.289749E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.387926E+02    0.309786E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.365936E+02    0.317830E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.346958E+02    0.329994E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.336207E+02    0.316609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.334027E+02    0.300199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.342917E+02    0.283328E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.360786E+02    0.270031E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.380936E+02    0.265966E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.399829E+02    0.271199E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.411109E+02    0.284993E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.412522E+02    0.302615E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.402122E+02    0.320381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.385520E+02    0.331991E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.364422E+02    0.335990E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.345555E+02    0.359057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.317594E+02    0.344127E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.305652E+02    0.317049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.310480E+02    0.286659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.332127E+02    0.258501E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.366500E+02    0.239518E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.401869E+02    0.238910E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.430825E+02    0.255519E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.446967E+02    0.282953E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.440528E+02    0.315719E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.414887E+02    0.344633E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.380193E+02    0.359955E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.362040E+02    0.437754E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.342744E+02    0.438496E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.356147E+02    0.423052E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.377915E+02    0.427854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.377352E+02    0.446620E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.355464E+02    0.452983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.336540E+02    0.463254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.326126E+02    0.450207E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.325094E+02    0.433879E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.333337E+02    0.418598E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.349483E+02    0.408157E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.368500E+02    0.405880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.387014E+02    0.411807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.400812E+02    0.424331E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.400833E+02    0.441677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.393179E+02    0.456892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.374576E+02    0.467406E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.354610E+02    0.469448E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.336498E+02    0.490044E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.309849E+02    0.473685E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.295981E+02    0.448789E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.300444E+02    0.420470E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.320615E+02    0.396492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.352990E+02    0.382746E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.388705E+02    0.383566E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.419980E+02    0.398638E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.434365E+02    0.425780E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.429356E+02    0.455990E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134256E+03   -0.406517E+02    0.480348E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.370828E+02    0.492883E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.366335E+02    0.347605E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.347831E+02    0.348697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.361152E+02    0.332007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.383109E+02    0.336068E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.381801E+02    0.356124E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.359889E+02    0.363547E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.340988E+02    0.374764E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.330359E+02    0.361855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.329148E+02    0.344994E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.338144E+02    0.328093E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.354267E+02    0.316591E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.374307E+02    0.313018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.393033E+02    0.318400E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.404096E+02    0.332252E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.405319E+02    0.350034E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.395854E+02    0.366649E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.379303E+02    0.377354E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.359220E+02    0.380220E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.340344E+02    0.401962E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.313401E+02    0.386556E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.300009E+02    0.361697E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.305012E+02    0.331494E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.325905E+02    0.305163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.359252E+02    0.288829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.394318E+02    0.288853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.423955E+02    0.304127E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.439749E+02    0.331085E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.434084E+02    0.363087E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.408445E+02    0.389782E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.374819E+02    0.403432E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.375852E+02    0.236860E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.356237E+02    0.239530E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.371192E+02    0.219742E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.392606E+02    0.223734E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.390738E+02    0.246133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.368691E+02    0.255299E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.348859E+02    0.269174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.337060E+02    0.256222E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.336405E+02    0.237191E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.346875E+02    0.217307E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.363860E+02    0.203743E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.384105E+02    0.199102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.403202E+02    0.203929E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.414741E+02    0.218056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.415376E+02    0.237675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.405128E+02    0.257108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.387622E+02    0.270227E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.366480E+02    0.274899E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.346014E+02    0.299882E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.319486E+02    0.284281E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.307184E+02    0.256692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.313324E+02    0.222410E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.334831E+02    0.192811E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.369167E+02    0.172565E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.405693E+02    0.170211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.435138E+02    0.186296E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.448692E+02    0.216229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.441577E+02    0.252287E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.417261E+02    0.282224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.382605E+02    0.298657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685589.359527059     
  ps_ts2 prof sum =   685201.237587674     
  trcom prof sum =    685201.237587673     
  ps_ts2 cur sum  =   12679.8739345901     
  trcom cur sum  =    12679.8739345901     
  
  antenna # iant =            2
  powecha_use(iant) =    682314.949745810     
  ps_ts2 prof sum =   681897.281028063     
  trcom prof sum =    681897.281028063     
  ps_ts2 cur sum  =   15164.4428300821     
  trcom cur sum  =    15164.4428300821     
  
  antenna # iant =            3
  powecha_use(iant) =    521161.014939398     
  ps_ts2 prof sum =   520824.170385089     
  trcom prof sum =    520824.170357029     
  ps_ts2 cur sum  =   8298.22557569378     
  trcom cur sum  =    8298.22557569378     
  
  antenna # iant =            4
  powecha_use(iant) =    560375.771993129     
  ps_ts2 prof sum =   560052.195793410     
  trcom prof sum =    560052.195793409     
  ps_ts2 cur sum  =   11372.8728880292     
  trcom cur sum  =    11372.8728880292     
  
  antenna # iant =            5
  powecha_use(iant) =    548345.476772370     
  ps_ts2 prof sum =   548041.482415324     
  trcom prof sum =    548041.482415324     
  ps_ts2 cur sum  =   13323.7612477486     
  trcom cur sum  =    13323.7612477486     
  
  Total ECH heating:      2996016.36718150     
  Total Current Drive:    60839.1764761437     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1590
 TA= 1.93500E+00 CPU TIME= 1.59345E-01 SECONDS.  DT= 2.25273E-04
  
 TEC1=    1.93499999999998     
 TEC2=    1.93999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.22402916666670     
  %check_save_state: izleft hours =    75.7675000000000     
 --> plasma_hash("gframe"): TA= 1.935000E+00 NSTEP=  1590 Hash code:    2717997
 ->PRGCHK: bdy curvature ratio at t= 1.9400E+00 seconds is:  5.2875E-02
% MHDEQ: TG1=     1.935000 ; TG2=     1.940000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7642E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2875E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.935000 TO TG2=    1.940000 @ NSTEP     1590
   GFRAME TG2 MOMENTS CHECKSUM:  2.4905146893695D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.79138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.32376E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.58151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  5.81779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.61300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.34813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.96815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -7.75946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -3.63506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -8.23600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.52859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.20447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -6.09443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.97954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.55531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.28147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.68863E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.28424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.83414E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.83414E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9400E+00  1.9450E+00 total power(Watts):  2.9912E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.94000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.361722E+02    0.385602E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.343351E+02    0.386386E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.356647E+02    0.370800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.378479E+02    0.374986E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.377112E+02    0.393977E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.355280E+02    0.400917E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.337291E+02    0.411410E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.326777E+02    0.398417E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.323934E+02    0.383080E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.333768E+02    0.366802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.349845E+02    0.355988E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.369803E+02    0.352784E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.387435E+02    0.358859E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.399375E+02    0.371712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.402536E+02    0.387626E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.392024E+02    0.404063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.374513E+02    0.414971E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.354525E+02    0.417581E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.336516E+02    0.438806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.309757E+02    0.422955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.297341E+02    0.397341E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.300814E+02    0.369532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.322520E+02    0.343635E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.354098E+02    0.328822E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.389902E+02    0.328754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.420301E+02    0.344253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.434879E+02    0.371314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.429122E+02    0.401689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.404446E+02    0.427603E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.370862E+02    0.440793E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.372174E+02    0.301145E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.353578E+02    0.302513E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.367735E+02    0.285189E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.388928E+02    0.289403E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.387793E+02    0.309365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.365807E+02    0.317393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.346847E+02    0.329547E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.336096E+02    0.316195E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.334758E+02    0.299185E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.343651E+02    0.282338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.360644E+02    0.269782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.380786E+02    0.265718E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.399681E+02    0.270921E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.410962E+02    0.284652E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.412374E+02    0.302201E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.401987E+02    0.319911E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.384447E+02    0.332073E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.364303E+02    0.335527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.345449E+02    0.358579E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.317478E+02    0.343699E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.305545E+02    0.316652E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.310356E+02    0.286367E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.332826E+02    0.257541E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.365460E+02    0.240141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.401707E+02    0.238745E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.430660E+02    0.255286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.444712E+02    0.283859E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.440388E+02    0.315215E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.415771E+02    0.343606E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.380081E+02    0.359441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.361059E+02    0.437492E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.342683E+02    0.437945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.356078E+02    0.422476E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.376889E+02    0.427601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.376342E+02    0.446319E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.355421E+02    0.452397E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.336510E+02    0.462676E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.326085E+02    0.449655E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.324183E+02    0.433688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.332406E+02    0.418431E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.348508E+02    0.407998E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.368420E+02    0.405298E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.386933E+02    0.411203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.398748E+02    0.424391E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.400783E+02    0.441031E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.393151E+02    0.456237E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.374590E+02    0.466770E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.354587E+02    0.468834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.336493E+02    0.489416E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.309832E+02    0.473112E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.296739E+02    0.447929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.301183E+02    0.419545E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.321384E+02    0.395508E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.352903E+02    0.382207E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.387635E+02    0.383437E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.417835E+02    0.398774E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.434288E+02    0.425104E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133889E+03   -0.429308E+02    0.455315E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.406503E+02    0.479652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.370823E+02    0.492218E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.366222E+02    0.347131E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.347724E+02    0.348232E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.361035E+02    0.331549E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.382037E+02    0.336142E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.381692E+02    0.355617E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.359787E+02    0.363048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.340892E+02    0.374258E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.330261E+02    0.361383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.329046E+02    0.344547E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.338027E+02    0.327654E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.354148E+02    0.316166E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.374179E+02    0.312589E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.392900E+02    0.317948E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.403971E+02    0.331754E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.405184E+02    0.349533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.395740E+02    0.366103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.378249E+02    0.377261E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.358218E+02    0.380144E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.340263E+02    0.401409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.313328E+02    0.386036E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.299918E+02    0.361262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.304894E+02    0.331092E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.326621E+02    0.304131E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.359121E+02    0.288495E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.394178E+02    0.288505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.423809E+02    0.303690E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.439612E+02    0.330560E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.433961E+02    0.362524E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.408346E+02    0.389173E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.374737E+02    0.402842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.374793E+02    0.237496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.356101E+02    0.239376E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.370152E+02    0.220468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.392450E+02    0.223624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.390582E+02    0.245950E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.367646E+02    0.255832E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.348719E+02    0.268930E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.336926E+02    0.256027E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.337105E+02    0.236253E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.345034E+02    0.218908E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.363718E+02    0.203707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.383956E+02    0.199073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.403039E+02    0.203878E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.414578E+02    0.217959E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.415216E+02    0.237517E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.404973E+02    0.256882E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.386534E+02    0.270657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.366338E+02    0.274625E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.346764E+02    0.298867E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.319360E+02    0.283994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.307063E+02    0.256511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.312409E+02    0.223176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.334686E+02    0.192816E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.369021E+02    0.172638E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.405534E+02    0.170292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.434968E+02    0.186314E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.448518E+02    0.216134E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.441409E+02    0.252058E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.416107E+02    0.282547E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.381528E+02    0.298912E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683896.337621429     
  ps_ts2 prof sum =   683497.678291123     
  trcom prof sum =    683497.678291122     
  ps_ts2 cur sum  =   12607.4446999497     
  trcom cur sum  =    12607.4446999496     
  
  antenna # iant =            2
  powecha_use(iant) =    682305.010087792     
  ps_ts2 prof sum =   681936.300560638     
  trcom prof sum =    681936.300560638     
  ps_ts2 cur sum  =   15154.5282921398     
  trcom cur sum  =    15154.5282921398     
  
  antenna # iant =            3
  powecha_use(iant) =    522727.378131563     
  ps_ts2 prof sum =   522390.071885185     
  trcom prof sum =    522390.071885185     
  ps_ts2 cur sum  =   8278.02660085161     
  trcom cur sum  =    8278.02660085160     
  
  antenna # iant =            4
  powecha_use(iant) =    553110.423088642     
  ps_ts2 prof sum =   552811.836650157     
  trcom prof sum =    552811.836650156     
  ps_ts2 cur sum  =   11203.9713591500     
  trcom cur sum  =    11203.9713591500     
  
  antenna # iant =            5
  powecha_use(iant) =    549118.536228047     
  ps_ts2 prof sum =   548820.798974709     
  trcom prof sum =    548820.798974709     
  ps_ts2 cur sum  =   13350.3069721115     
  trcom cur sum  =    13350.3069721115     
  
  Total ECH heating:      2989456.68636181     
  Total Current Drive:    60594.2779242025     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1599
 TA= 1.94000E+00 CPU TIME= 1.59963E-01 SECONDS.  DT= 6.62708E-04
  
 TEC1=    1.93999999999998     
 TEC2=    1.94499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.23774472222203     
  %check_save_state: izleft hours =    75.7538888888889     
 --> plasma_hash("gframe"): TA= 1.940000E+00 NSTEP=  1599 Hash code:   35005336
 ->PRGCHK: bdy curvature ratio at t= 1.9450E+00 seconds is:  5.2858E-02
% MHDEQ: TG1=     1.940000 ; TG2=     1.945000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0750E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2858E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.940000 TO TG2=    1.945000 @ NSTEP     1599
   GFRAME TG2 MOMENTS CHECKSUM:  2.4896335300499D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9450E+00  1.9500E+00 total power(Watts):  2.9991E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.94500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.361637E+02    0.385044E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.343269E+02    0.385844E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.356554E+02    0.370287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.377428E+02    0.374909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.377028E+02    0.393395E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.355201E+02    0.400358E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.337232E+02    0.410855E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.324995E+02    0.398770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.324704E+02    0.382078E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.333675E+02    0.366318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.349733E+02    0.355526E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.369691E+02    0.352299E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.387326E+02    0.358350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.399269E+02    0.371155E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.400445E+02    0.387888E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.391937E+02    0.403470E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.374435E+02    0.414398E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.354455E+02    0.417024E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.336473E+02    0.438258E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.309696E+02    0.422435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.295691E+02    0.397749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.300733E+02    0.369061E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.320760E+02    0.344342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.353979E+02    0.328386E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.388816E+02    0.328852E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.418129E+02    0.344770E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.434773E+02    0.370713E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.429041E+02    0.401039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.404382E+02    0.426987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.369871E+02    0.440525E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.57 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.372041E+02    0.300765E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.353456E+02    0.302144E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.366690E+02    0.285558E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.388781E+02    0.289064E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.387662E+02    0.308941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.365686E+02    0.316966E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.346730E+02    0.329108E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.335985E+02    0.315787E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.334640E+02    0.298838E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.343526E+02    0.282052E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.360508E+02    0.269533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.380647E+02    0.265483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.398561E+02    0.271348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.410816E+02    0.284315E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.411231E+02    0.302410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.401859E+02    0.319450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.384323E+02    0.331604E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.364191E+02    0.335071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.345347E+02    0.358111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.317390E+02    0.343268E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.305436E+02    0.316269E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.310245E+02    0.286090E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.331024E+02    0.258873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.365321E+02    0.240000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.401555E+02    0.238598E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.430498E+02    0.255070E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.444553E+02    0.283514E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.438144E+02    0.315874E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.413614E+02    0.344137E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.379976E+02    0.358939E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.361014E+02    0.436918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.342640E+02    0.437385E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.356014E+02    0.421921E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.376833E+02    0.427012E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.376295E+02    0.445728E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.354462E+02    0.452132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.336482E+02    0.462113E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.326048E+02    0.449117E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.324132E+02    0.433160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.332343E+02    0.417892E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.348438E+02    0.407444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.368341E+02    0.404724E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.386854E+02    0.410609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.398689E+02    0.423767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.401740E+02    0.440104E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.391134E+02    0.456164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.374557E+02    0.466176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.354562E+02    0.468248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.335606E+02    0.489033E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.308982E+02    0.472831E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.296709E+02    0.447414E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.301132E+02    0.419031E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.321311E+02    0.394974E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.352815E+02    0.381671E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.387537E+02    0.382866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.418779E+02    0.397743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.434216E+02    0.424441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.429274E+02    0.454637E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.405473E+02    0.479187E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.371779E+02    0.491368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.366107E+02    0.346663E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.346729E+02    0.348325E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.360925E+02    0.331094E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.381915E+02    0.335674E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.380627E+02    0.355628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.358772E+02    0.363056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.340808E+02    0.373740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.330173E+02    0.360911E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.328945E+02    0.344105E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.337062E+02    0.327821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.354028E+02    0.315749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.374056E+02    0.312167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.391807E+02    0.318082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.403842E+02    0.331269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.405070E+02    0.349026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.395634E+02    0.365571E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.378153E+02    0.376709E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.358128E+02    0.379604E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.339302E+02    0.401294E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.313255E+02    0.385521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.299834E+02    0.360813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.304000E+02    0.331287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.326510E+02    0.303772E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.358992E+02    0.288175E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.394028E+02    0.288167E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.424689E+02    0.302657E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.437374E+02    0.331112E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.432804E+02    0.362410E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.408255E+02    0.388564E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.373703E+02    0.402671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.374649E+02    0.237356E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.354213E+02    0.240804E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.370004E+02    0.220378E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.391363E+02    0.224321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.389488E+02    0.246531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.367502E+02    0.255637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.348589E+02    0.268686E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.337634E+02    0.255080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.335293E+02    0.237738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.344894E+02    0.218829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.361811E+02    0.205380E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.383805E+02    0.199041E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.401934E+02    0.204666E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.413440E+02    0.218669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.414071E+02    0.238119E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.403845E+02    0.257388E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.386389E+02    0.270398E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.366201E+02    0.274358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.346642E+02    0.298510E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.318426E+02    0.284431E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.306935E+02    0.256336E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.312286E+02    0.223090E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.333730E+02    0.193724E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.368875E+02    0.172714E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.405373E+02    0.170383E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.433801E+02    0.187181E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.449387E+02    0.215260E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.442282E+02    0.251143E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.415961E+02    0.282219E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.381391E+02    0.298539E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686116.320610641     
  ps_ts2 prof sum =   685673.283067716     
  trcom prof sum =    685673.283067715     
  ps_ts2 cur sum  =   12609.3645585091     
  trcom cur sum  =    12609.3645585091     
  
  antenna # iant =            2
  powecha_use(iant) =    686725.802564307     
  ps_ts2 prof sum =   686340.629119637     
  trcom prof sum =    686340.629119637     
  ps_ts2 cur sum  =   15240.1697290975     
  trcom cur sum  =    15240.1697290975     
  
  antenna # iant =            3
  powecha_use(iant) =    521867.505938779     
  ps_ts2 prof sum =   521551.477027262     
  trcom prof sum =    521551.477027262     
  ps_ts2 cur sum  =   8223.42186738474     
  trcom cur sum  =    8223.42186738473     
  
  antenna # iant =            4
  powecha_use(iant) =    555484.132990749     
  ps_ts2 prof sum =   555174.396080412     
  trcom prof sum =    555174.396080411     
  ps_ts2 cur sum  =   11230.2473267711     
  trcom cur sum  =    11230.2473267710     
  
  antenna # iant =            5
  powecha_use(iant) =    548872.610459296     
  ps_ts2 prof sum =   548548.568981719     
  trcom prof sum =    548548.568981719     
  ps_ts2 cur sum  =   13349.0154513160     
  trcom cur sum  =    13349.0154513160     
  
  Total ECH heating:      2997288.35427675     
  Total Current Drive:    60652.2189330784     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1604
 TA= 1.94500E+00 CPU TIME= 1.59796E-01 SECONDS.  DT= 1.47384E-03
  
 TEC1=    1.94499999999998     
 TEC2=    1.94999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.25045555555562     
  %check_save_state: izleft hours =    75.7411111111111     
 --> plasma_hash("gframe"): TA= 1.945000E+00 NSTEP=  1604 Hash code:   78131206
 ->PRGCHK: bdy curvature ratio at t= 1.9500E+00 seconds is:  5.2564E-02
% MHDEQ: TG1=     1.945000 ; TG2=     1.950000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2564E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.945000 TO TG2=    1.950000 @ NSTEP     1604
   GFRAME TG2 MOMENTS CHECKSUM:  2.4887523707303D+04
 %MFRCHK - LABEL "RMS11", #       1=  5.05876E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.81270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.36854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  3.74468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.23428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.53545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.07478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       4=  1.34807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -7.33467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  2.03806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  5.06008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.29348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -5.63971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.12817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.79976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.80720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.93793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.66015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.70645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.70645E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9500E+00  1.9550E+00 total power(Watts):  3.0019E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.95000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.361537E+02    0.384491E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.343183E+02    0.385301E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.356450E+02    0.369771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.377322E+02    0.374369E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.376938E+02    0.392811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.355127E+02    0.399792E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.337161E+02    0.410316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.325775E+02    0.397791E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.324616E+02    0.381564E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.332717E+02    0.366345E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.348741E+02    0.355567E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.368637E+02    0.352339E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.387214E+02    0.357831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.399159E+02    0.370589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.400351E+02    0.387283E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.390876E+02    0.403258E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.374371E+02    0.413806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.354395E+02    0.416456E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.335545E+02    0.438063E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.309633E+02    0.421915E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.295619E+02    0.397247E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.301449E+02    0.368062E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.320651E+02    0.343915E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.353853E+02    0.327946E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.388677E+02    0.328381E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.417998E+02    0.344248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.433604E+02    0.370559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.428954E+02    0.400382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.405328E+02    0.426027E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.369812E+02    0.439961E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.371903E+02    0.300394E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.352430E+02    0.302422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.366543E+02    0.285247E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.387682E+02    0.289384E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.386557E+02    0.309144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.364636E+02    0.317154E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.345727E+02    0.329264E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.334140E+02    0.316649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.332801E+02    0.299828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.341652E+02    0.283164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.359467E+02    0.270005E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.379554E+02    0.265959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.398402E+02    0.271080E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.409664E+02    0.284640E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.411084E+02    0.301996E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.401712E+02    0.318990E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.384187E+02    0.331131E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.364063E+02    0.334617E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.344355E+02    0.358155E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.318113E+02    0.342260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.304529E+02    0.316528E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.310110E+02    0.285805E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.330887E+02    0.258684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.365169E+02    0.239855E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.400422E+02    0.239213E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.430323E+02    0.254858E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.445434E+02    0.282523E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.437989E+02    0.315398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.413482E+02    0.343623E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.378907E+02    0.358931E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.360962E+02    0.436355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.342593E+02    0.436835E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.355958E+02    0.421350E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.376769E+02    0.426425E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.376246E+02    0.445141E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.354418E+02    0.451563E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.336448E+02    0.461561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.325147E+02    0.448902E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.324094E+02    0.432622E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.332287E+02    0.417354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.348362E+02    0.406888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.368266E+02    0.404140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.386780E+02    0.410014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.398617E+02    0.423167E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.401679E+02    0.439499E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.391083E+02    0.455568E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.373565E+02    0.465830E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.353610E+02    0.467941E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.335598E+02    0.488447E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.308964E+02    0.472286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.296668E+02    0.446904E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.299468E+02    0.419346E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.321234E+02    0.394450E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.352716E+02    0.381128E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.387436E+02    0.382291E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.418688E+02    0.397104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.434133E+02    0.423790E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.429230E+02    0.453979E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.405456E+02    0.478529E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.369859E+02    0.491143E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.365064E+02    0.346730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.346619E+02    0.347859E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.360802E+02    0.330646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.381785E+02    0.335207E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.380503E+02    0.355130E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.358669E+02    0.362555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.340710E+02    0.373236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.328357E+02    0.361498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.327115E+02    0.344807E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.336938E+02    0.327399E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.353904E+02    0.315332E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.373922E+02    0.311751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.391664E+02    0.317639E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.403701E+02    0.330791E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.403944E+02    0.349024E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.395514E+02    0.365034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.378050E+02    0.376159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.358026E+02    0.379066E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.339215E+02    0.400747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.311518E+02    0.385981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.298947E+02    0.360912E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.303888E+02    0.330882E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.324709E+02    0.304739E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.357953E+02    0.288534E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.393885E+02    0.287829E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.422488E+02    0.303450E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.438280E+02    0.330063E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.432682E+02    0.361832E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.409170E+02    0.387523E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.373624E+02    0.402087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.374496E+02    0.237216E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.354940E+02    0.239873E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.369855E+02    0.220289E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.391199E+02    0.224215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.389323E+02    0.246364E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.367353E+02    0.255443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.346701E+02    0.269908E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.335801E+02    0.256427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.335153E+02    0.237612E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.345608E+02    0.217910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.362545E+02    0.204485E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.383650E+02    0.199025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.401771E+02    0.204619E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.413275E+02    0.218571E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.413898E+02    0.237973E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.403677E+02    0.257177E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.386232E+02    0.270142E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.366055E+02    0.274090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.346507E+02    0.298162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.318299E+02    0.284149E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.306806E+02    0.256165E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.312151E+02    0.223005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.333588E+02    0.193735E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.366962E+02    0.174639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.404270E+02    0.171370E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.433626E+02    0.187209E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.447132E+02    0.216724E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.440028E+02    0.252349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.415802E+02    0.281895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.381251E+02    0.298161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686216.345747842     
  ps_ts2 prof sum =   685808.946567581     
  trcom prof sum =    685808.946567580     
  ps_ts2 cur sum  =   12567.6079319631     
  trcom cur sum  =    12567.6079319630     
  
  antenna # iant =            2
  powecha_use(iant) =    683561.156857194     
  ps_ts2 prof sum =   683120.586960690     
  trcom prof sum =    683120.586960690     
  ps_ts2 cur sum  =   15150.0059790629     
  trcom cur sum  =    15150.0059790629     
  
  antenna # iant =            3
  powecha_use(iant) =    521817.128016949     
  ps_ts2 prof sum =   521489.104116067     
  trcom prof sum =    521489.104116066     
  ps_ts2 cur sum  =   8177.20917735122     
  trcom cur sum  =    8177.20917735122     
  
  antenna # iant =            4
  powecha_use(iant) =    560970.032039264     
  ps_ts2 prof sum =   560613.574178505     
  trcom prof sum =    560613.574178505     
  ps_ts2 cur sum  =   11314.7314693826     
  trcom cur sum  =    11314.7314693826     
  
  antenna # iant =            5
  powecha_use(iant) =    549304.726687690     
  ps_ts2 prof sum =   548983.321846484     
  trcom prof sum =    548983.321846484     
  ps_ts2 cur sum  =   13354.7997169478     
  trcom cur sum  =    13354.7997169478     
  
  Total ECH heating:      3000015.53366933     
  Total Current Drive:    60564.3542747076     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1607
 TA= 1.95000E+00 CPU TIME= 1.92192E-01 SECONDS.  DT= 2.10481E-03
  
 TEC1=    1.94999999999998     
 TEC2=    1.95499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.26795888888887     
  %check_save_state: izleft hours =    75.7236111111111     
 --> plasma_hash("gframe"): TA= 1.950000E+00 NSTEP=  1607 Hash code:   55388436
 ->PRGCHK: bdy curvature ratio at t= 1.9550E+00 seconds is:  5.1698E-02
% MHDEQ: TG1=     1.950000 ; TG2=     1.955000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7670E-03 SECONDS
   DATA R*BT AT EDGE:  2.7660E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.1698E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.950000 TO TG2=    1.955000 @ NSTEP     1607
   GFRAME TG2 MOMENTS CHECKSUM:  2.4878712114107D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9550E+00  1.9600E+00 total power(Watts):  2.9946E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.95500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.361444E+02    0.383946E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.342189E+02    0.385252E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.356331E+02    0.369273E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.377199E+02    0.373830E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.376833E+02    0.392250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.355018E+02    0.399255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.336196E+02    0.410201E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.325683E+02    0.397275E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.324514E+02    0.381068E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.332602E+02    0.365874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.348618E+02    0.355102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.368509E+02    0.351864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.387074E+02    0.357339E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.398029E+02    0.370529E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.400231E+02    0.386706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.390769E+02    0.402687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.374277E+02    0.413248E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.354308E+02    0.415924E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.335480E+02    0.437537E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.307915E+02    0.422228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.295531E+02    0.396764E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.299738E+02    0.368684E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.320530E+02    0.343491E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.353720E+02    0.327518E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.388528E+02    0.327929E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.417846E+02    0.343743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.433467E+02    0.369971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.428845E+02    0.399750E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.405237E+02    0.425440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.369740E+02    0.439403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.371753E+02    0.300026E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.352282E+02    0.302067E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.366384E+02    0.284948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.387518E+02    0.289054E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.386401E+02    0.308747E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.364491E+02    0.316745E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.345595E+02    0.328842E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.334863E+02    0.315633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.332667E+02    0.299499E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.341505E+02    0.282885E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.359311E+02    0.269769E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.379390E+02    0.265737E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.398231E+02    0.270818E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.409488E+02    0.284319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.410915E+02    0.301601E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.401553E+02    0.318555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.384042E+02    0.330678E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.363917E+02    0.334175E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.344240E+02    0.357683E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.317995E+02    0.341840E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.304409E+02    0.316170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.309179E+02    0.286248E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.330738E+02    0.258509E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.365006E+02    0.239724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.400245E+02    0.239072E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.429113E+02    0.255359E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.445257E+02    0.282182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.438874E+02    0.314367E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.413332E+02    0.343122E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.378767E+02    0.358444E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.360893E+02    0.435796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.341632E+02    0.436655E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.354953E+02    0.421197E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.376683E+02    0.425872E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.376175E+02    0.444574E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.354362E+02    0.451011E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.336404E+02    0.461017E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.325091E+02    0.448375E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.324025E+02    0.432111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.332201E+02    0.416840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.348272E+02    0.406352E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.368168E+02    0.403593E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.385701E+02    0.409835E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.399530E+02    0.422221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.401607E+02    0.438895E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.391022E+02    0.454962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.373514E+02    0.465243E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.353567E+02    0.467365E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.335573E+02    0.487865E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.308932E+02    0.471753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.295016E+02    0.447098E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.299385E+02    0.418868E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.321132E+02    0.393940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.352614E+02    0.380601E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.387322E+02    0.381731E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.418577E+02    0.396487E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.432987E+02    0.423489E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.428107E+02    0.453594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.405422E+02    0.477871E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.369841E+02    0.490513E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.364931E+02    0.346268E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.346492E+02    0.347408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.359743E+02    0.330793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.381640E+02    0.334746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.380366E+02    0.354643E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.358543E+02    0.362071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.340599E+02    0.372738E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.329098E+02    0.360514E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.327863E+02    0.343805E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.336807E+02    0.326990E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.352860E+02    0.315564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.372834E+02    0.311971E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.391508E+02    0.317214E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.402553E+02    0.330869E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.403797E+02    0.348528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.394393E+02    0.364989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.377925E+02    0.375638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.357921E+02    0.378540E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.339134E+02    0.400222E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.311426E+02    0.385491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.298830E+02    0.360490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.303775E+02    0.330488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.324572E+02    0.304391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.357797E+02    0.288226E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.392709E+02    0.288187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.422317E+02    0.303041E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.438119E+02    0.329555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.432534E+02    0.361280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.407024E+02    0.387790E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.373524E+02    0.401529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.374327E+02    0.237094E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.354765E+02    0.239764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.369648E+02    0.220242E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.391024E+02    0.224121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.389151E+02    0.246203E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.367191E+02    0.255257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.347423E+02    0.268950E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.335649E+02    0.256258E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.334997E+02    0.237498E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.345450E+02    0.217844E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.362385E+02    0.204461E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.382561E+02    0.199876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.401595E+02    0.204596E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.413090E+02    0.218491E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.413716E+02    0.237833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.403504E+02    0.256974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.386069E+02    0.269891E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.365899E+02    0.273832E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.346368E+02    0.297818E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.318153E+02    0.283881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.306669E+02    0.255999E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.312006E+02    0.222935E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.333438E+02    0.193769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.367679E+02    0.173822E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.404095E+02    0.171485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.433439E+02    0.187254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.446935E+02    0.216642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.439834E+02    0.252153E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.415624E+02    0.281579E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.381080E+02    0.297810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685057.011735146     
  ps_ts2 prof sum =   684627.113847483     
  trcom prof sum =    684627.113847482     
  ps_ts2 cur sum  =   12498.2869356389     
  trcom cur sum  =    12498.2869356389     
  
  antenna # iant =            2
  powecha_use(iant) =    683760.626338427     
  ps_ts2 prof sum =   683357.693774922     
  trcom prof sum =    683357.693774921     
  ps_ts2 cur sum  =   15135.5296800168     
  trcom cur sum  =    15135.5296800168     
  
  antenna # iant =            3
  powecha_use(iant) =    522330.566247369     
  ps_ts2 prof sum =   521992.669456166     
  trcom prof sum =    521992.669456166     
  ps_ts2 cur sum  =   8137.29817118753     
  trcom cur sum  =    8137.29817118753     
  
  antenna # iant =            4
  powecha_use(iant) =    556921.700331565     
  ps_ts2 prof sum =   556575.370680655     
  trcom prof sum =    556575.370680655     
  ps_ts2 cur sum  =   11204.8013665198     
  trcom cur sum  =    11204.8013665198     
  
  antenna # iant =            5
  powecha_use(iant) =    546551.204770844     
  ps_ts2 prof sum =   546277.236342014     
  trcom prof sum =    546277.236342014     
  ps_ts2 cur sum  =   13287.2745467020     
  trcom cur sum  =    13287.2745467020     
  
  Total ECH heating:      2992830.08410124     
  Total Current Drive:    60263.1907000650     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1610
 TA= 1.95500E+00 CPU TIME= 1.60045E-01 SECONDS.  DT= 3.30212E-04
  
 TEC1=    1.95499999999998     
 TEC2=    1.95999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.28293611111098     
  %check_save_state: izleft hours =    75.7086111111111     
 --> plasma_hash("gframe"): TA= 1.955000E+00 NSTEP=  1610 Hash code:   92808500
 ->PRGCHK: bdy curvature ratio at t= 1.9600E+00 seconds is:  5.2621E-02
% MHDEQ: TG1=     1.955000 ; TG2=     1.960000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7667E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2621E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.955000 TO TG2=    1.960000 @ NSTEP     1610
   GFRAME TG2 MOMENTS CHECKSUM:  2.4865363883844D+04
 %MFRCHK - LABEL "RMS11", #       1=  8.70855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.72877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.40695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  3.57094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.46268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.03153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       4=  1.34203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.29483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4=  1.87609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.56304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.23640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -4.92153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -6.43819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.72512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.75541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.87208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  2.61985E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.56425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.56425E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9600E+00  1.9650E+00 total power(Watts):  2.9943E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.96000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.361305E+02    0.383547E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.341997E+02    0.384904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.356109E+02    0.368853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.376979E+02    0.373419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.375678E+02    0.392322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.354842E+02    0.398919E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.336042E+02    0.409898E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.325520E+02    0.396965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.324334E+02    0.380718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.332398E+02    0.365467E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.348395E+02    0.354666E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.368270E+02    0.351414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.386830E+02    0.356851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.397798E+02    0.370058E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.400013E+02    0.386301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.390575E+02    0.402330E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.374103E+02    0.412900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.354148E+02    0.415592E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.335352E+02    0.437216E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.307836E+02    0.421905E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.295373E+02    0.396483E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.299560E+02    0.368309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.320312E+02    0.343116E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.353467E+02    0.327213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.388248E+02    0.327602E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.418592E+02    0.342730E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.433210E+02    0.369472E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.428626E+02    0.399353E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.405069E+02    0.425043E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.369601E+02    0.439051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.371446E+02    0.299827E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.351999E+02    0.301874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.366071E+02    0.284722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.387187E+02    0.288825E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.386094E+02    0.308525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.364213E+02    0.316510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.345346E+02    0.328539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.334604E+02    0.315427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.332386E+02    0.299323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.341205E+02    0.282680E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.358996E+02    0.269538E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.379047E+02    0.265492E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.397882E+02    0.270563E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.409139E+02    0.284062E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.410580E+02    0.301372E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.400260E+02    0.318870E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.383770E+02    0.330328E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.362747E+02    0.334381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.344018E+02    0.357255E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.316118E+02    0.342635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.304164E+02    0.315987E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.308910E+02    0.286064E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.330439E+02    0.258327E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.362856E+02    0.241179E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.399865E+02    0.238949E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.428722E+02    0.255127E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.444875E+02    0.281896E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.438540E+02    0.314065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.413053E+02    0.342646E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.378532E+02    0.357968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.360753E+02    0.435456E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.341498E+02    0.436328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.354800E+02    0.420851E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.376527E+02    0.425508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.376039E+02    0.444224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.354240E+02    0.450689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.336300E+02    0.460732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.324978E+02    0.448077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.323899E+02    0.431794E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.332056E+02    0.416528E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.348104E+02    0.406042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.367983E+02    0.403253E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.385515E+02    0.409488E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.399359E+02    0.421833E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.401454E+02    0.438514E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.390848E+02    0.454626E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.373374E+02    0.464954E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.353460E+02    0.467091E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.335501E+02    0.487618E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.308849E+02    0.471516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.294916E+02    0.446818E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.299261E+02    0.418570E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.319280E+02    0.394561E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.351501E+02    0.380705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.387104E+02    0.381321E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.418359E+02    0.396100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.432773E+02    0.423077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134144E+03   -0.427961E+02    0.453203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.405316E+02    0.477564E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.369758E+02    0.490245E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.364687E+02    0.345838E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.346265E+02    0.346985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.359486E+02    0.330467E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.381373E+02    0.334364E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.380128E+02    0.354170E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.358317E+02    0.361633E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.339519E+02    0.372841E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.328895E+02    0.360090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.327639E+02    0.343417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.336557E+02    0.326704E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.352586E+02    0.315343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.372555E+02    0.311741E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.391206E+02    0.316957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.402267E+02    0.330508E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.403519E+02    0.348052E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.394157E+02    0.364517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.377708E+02    0.375206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.357710E+02    0.378153E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.338960E+02    0.399906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.311255E+02    0.385173E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.298647E+02    0.360102E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.303556E+02    0.330215E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.324300E+02    0.304231E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.357495E+02    0.288014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.392447E+02    0.287905E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.421970E+02    0.302809E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.437811E+02    0.329146E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.432274E+02    0.360738E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.406802E+02    0.387382E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.373335E+02    0.401185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.373967E+02    0.236989E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.354424E+02    0.239660E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.368459E+02    0.220949E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.390640E+02    0.224057E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.388788E+02    0.246049E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.365947E+02    0.255810E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.347117E+02    0.268733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.335341E+02    0.256089E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.334673E+02    0.237426E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.343396E+02    0.219489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.362020E+02    0.204430E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.382142E+02    0.199873E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.401193E+02    0.204549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.412686E+02    0.218424E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.413325E+02    0.237698E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.403137E+02    0.256750E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.385727E+02    0.269642E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.364669E+02    0.274304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.344319E+02    0.298969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.317878E+02    0.283690E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.305595E+02    0.256628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.311695E+02    0.222909E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.333096E+02    0.193761E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.367301E+02    0.173858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.403674E+02    0.171516E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.432996E+02    0.187218E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.446493E+02    0.216569E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.439429E+02    0.251931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.414261E+02    0.281977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.380774E+02    0.297593E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684140.925903561     
  ps_ts2 prof sum =   683724.017442008     
  trcom prof sum =    683724.017442007     
  ps_ts2 cur sum  =   12369.9511948863     
  trcom cur sum  =    12369.9511948863     
  
  antenna # iant =            2
  powecha_use(iant) =    685619.861243775     
  ps_ts2 prof sum =   685185.511621334     
  trcom prof sum =    685185.511621334     
  ps_ts2 cur sum  =   15043.3481129125     
  trcom cur sum  =    15043.3481129125     
  
  antenna # iant =            3
  powecha_use(iant) =    522735.654319497     
  ps_ts2 prof sum =   522388.334662537     
  trcom prof sum =    522388.334662536     
  ps_ts2 cur sum  =   8066.62232786266     
  trcom cur sum  =    8066.62232786266     
  
  antenna # iant =            4
  powecha_use(iant) =    556152.587800206     
  ps_ts2 prof sum =   555814.014912131     
  trcom prof sum =    555814.014912131     
  ps_ts2 cur sum  =   11091.3343187384     
  trcom cur sum  =    11091.3343187384     
  
  antenna # iant =            5
  powecha_use(iant) =    545665.845401233     
  ps_ts2 prof sum =   545357.480118330     
  trcom prof sum =    545357.480118330     
  ps_ts2 cur sum  =   13148.8194765552     
  trcom cur sum  =    13148.8194765552     
  
  Total ECH heating:      2992469.35875634     
  Total Current Drive:    59720.0754309550     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1618
 TA= 1.96000E+00 CPU TIME= 1.61577E-01 SECONDS.  DT= 2.81872E-05
  
 TEC1=    1.95999999999998     
 TEC2=    1.96499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.29811055555501     
  %check_save_state: izleft hours =    75.6933333333333     
 --> plasma_hash("gframe"): TA= 1.960000E+00 NSTEP=  1618 Hash code:   99835832
 ->PRGCHK: bdy curvature ratio at t= 1.9650E+00 seconds is:  5.2846E-02
% MHDEQ: TG1=     1.960000 ; TG2=     1.965000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7675E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2846E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.960000 TO TG2=    1.965000 @ NSTEP     1618
   GFRAME TG2 MOMENTS CHECKSUM:  2.4852015653580D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.9650E+00  1.9700E+00 total power(Watts):  3.0030E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.96500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.361059E+02    0.383195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.341804E+02    0.384557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.355899E+02    0.368448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.376746E+02    0.373006E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.375468E+02    0.391962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.354659E+02    0.398577E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.335874E+02    0.409587E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.325339E+02    0.396652E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.324145E+02    0.380372E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.332177E+02    0.365101E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.348163E+02    0.354284E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.368020E+02    0.351014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.386579E+02    0.356434E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.397549E+02    0.369638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.399787E+02    0.385889E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.390375E+02    0.401960E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.373923E+02    0.412564E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.353984E+02    0.415268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.335215E+02    0.436926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.307677E+02    0.421636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.295220E+02    0.396190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.299373E+02    0.367974E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.320083E+02    0.342783E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.353196E+02    0.326912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.387959E+02    0.327268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.418311E+02    0.342293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.432954E+02    0.368982E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.428403E+02    0.398931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.404885E+02    0.424694E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.369451E+02    0.438732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.371135E+02    0.299595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.351702E+02    0.301656E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.365750E+02    0.284523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.386854E+02    0.288607E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.385781E+02    0.308259E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.363926E+02    0.316240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.345090E+02    0.328233E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.334338E+02    0.315180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.332105E+02    0.299126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.341773E+02    0.281797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.358666E+02    0.269353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.378704E+02    0.265300E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.397523E+02    0.270354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.408782E+02    0.283833E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.410241E+02    0.301109E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.399947E+02    0.318563E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.383492E+02    0.329977E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.362489E+02    0.334035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.343797E+02    0.356874E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.315888E+02    0.342313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.303927E+02    0.315767E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.308640E+02    0.285905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.330120E+02    0.258181E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.362470E+02    0.241082E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.399483E+02    0.238789E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.428322E+02    0.254912E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.442380E+02    0.282923E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.438198E+02    0.313734E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.412775E+02    0.342224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.378284E+02    0.357564E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.360597E+02    0.435153E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.341357E+02    0.436033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.354636E+02    0.420541E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.376355E+02    0.425189E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.375894E+02    0.443897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.354109E+02    0.450383E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.336187E+02    0.460438E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.324859E+02    0.447789E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.323763E+02    0.431508E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.331909E+02    0.416216E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.347930E+02    0.405713E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.367806E+02    0.402898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.385327E+02    0.409132E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.399174E+02    0.421487E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.401293E+02    0.438158E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.390760E+02    0.454275E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.373301E+02    0.464622E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.353350E+02    0.466789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.335400E+02    0.487358E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.308758E+02    0.471253E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.294802E+02    0.446562E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.299126E+02    0.418299E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.319108E+02    0.394248E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.351302E+02    0.380341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.386877E+02    0.380923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.418135E+02    0.395686E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.432576E+02    0.422695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.427808E+02    0.452825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.405204E+02    0.477220E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.369677E+02    0.489956E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.364440E+02    0.345448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.346028E+02    0.346616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.359192E+02    0.330158E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.381104E+02    0.333993E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.379873E+02    0.353757E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.358085E+02    0.361235E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.339307E+02    0.372477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.328682E+02    0.359729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.327409E+02    0.343068E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.336305E+02    0.326409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.352309E+02    0.315085E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.372238E+02    0.311491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.390904E+02    0.316660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.401974E+02    0.330147E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.403311E+02    0.347592E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.393908E+02    0.364092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.377482E+02    0.374809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.357504E+02    0.377771E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.338795E+02    0.399578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.311074E+02    0.384853E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.298456E+02    0.359758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.303324E+02    0.329939E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.324032E+02    0.304028E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.357183E+02    0.287814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.392076E+02    0.287705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.421625E+02    0.302532E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.437491E+02    0.328750E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.432007E+02    0.360255E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.406573E+02    0.386972E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.373152E+02    0.400822E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.372688E+02    0.237636E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.354082E+02    0.239531E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.368053E+02    0.220890E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.389314E+02    0.224749E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.388422E+02    0.245882E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.365605E+02    0.255641E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.346796E+02    0.268553E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.335015E+02    0.255948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.334346E+02    0.237315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.343051E+02    0.219422E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.361647E+02    0.204390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.381781E+02    0.199809E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.400784E+02    0.204487E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.411293E+02    0.219116E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.412931E+02    0.237544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.402764E+02    0.256552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.385378E+02    0.269442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.364342E+02    0.274110E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.344027E+02    0.298766E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.317596E+02    0.283528E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138634E+03   -0.305303E+02    0.256497E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.311378E+02    0.222844E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.332747E+02    0.193767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.366904E+02    0.173922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.403253E+02    0.171573E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.432550E+02    0.187205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.446007E+02    0.216474E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.439027E+02    0.251712E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.413898E+02    0.281744E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.380456E+02    0.297361E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685284.570674506     
  ps_ts2 prof sum =   684865.470261151     
  trcom prof sum =    684865.470261150     
  ps_ts2 cur sum  =   12265.7714199589     
  trcom cur sum  =    12265.7714199589     
  
  antenna # iant =            2
  powecha_use(iant) =    684197.724561196     
  ps_ts2 prof sum =   683766.215592378     
  trcom prof sum =    683766.215592377     
  ps_ts2 cur sum  =   14868.1881164944     
  trcom cur sum  =    14868.1881164944     
  
  antenna # iant =            3
  powecha_use(iant) =    522073.867896821     
  ps_ts2 prof sum =   521728.150288741     
  trcom prof sum =    521728.150288741     
  ps_ts2 cur sum  =   7968.79054934273     
  trcom cur sum  =    7968.79054934273     
  
  antenna # iant =            4
  powecha_use(iant) =    565107.569157457     
  ps_ts2 prof sum =   564763.124706629     
  trcom prof sum =    564763.124706629     
  ps_ts2 cur sum  =   11160.0007567968     
  trcom cur sum  =    11160.0007567968     
  
  antenna # iant =            5
  powecha_use(iant) =    546380.645917656     
  ps_ts2 prof sum =   546066.118673085     
  trcom prof sum =    546066.118673085     
  ps_ts2 cur sum  =   13045.0387204858     
  trcom cur sum  =    13045.0387204858     
  
  Total ECH heating:      3001189.07952198     
  Total Current Drive:    59307.7895630786     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1636
 TA= 1.96500E+00 CPU TIME= 1.59258E-01 SECONDS.  DT= 1.32114E-04
  
 TEC1=    1.96499999999998     
 TEC2=    1.96999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.31111972222197     
  %check_save_state: izleft hours =    75.6805555555556     
 --> plasma_hash("gframe"): TA= 1.965000E+00 NSTEP=  1636 Hash code:   71939894
 ->PRGCHK: bdy curvature ratio at t= 1.9700E+00 seconds is:  5.2915E-02
% MHDEQ: TG1=     1.965000 ; TG2=     1.970000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2915E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.965000 TO TG2=    1.970000 @ NSTEP     1636
   GFRAME TG2 MOMENTS CHECKSUM:  2.4838667403848D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.53940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.44148E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.44000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  5.20320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.30264E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.84250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -7.71202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -3.01328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5= -5.02098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.05406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.03636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -3.91017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -5.00812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8=  1.34109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.98943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.50112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.13540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.91488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.91488E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.9700E+00  1.9750E+00 total power(Watts):  3.0090E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.97000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.360870E+02    0.382838E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.341623E+02    0.384218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.354786E+02    0.368596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.376549E+02    0.372618E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.375276E+02    0.391615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.354485E+02    0.398256E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.335725E+02    0.409294E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.325191E+02    0.396340E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.323971E+02    0.380043E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.331985E+02    0.364746E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.347943E+02    0.353911E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.367791E+02    0.350629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.386354E+02    0.356014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.397323E+02    0.369237E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.399576E+02    0.385510E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.390188E+02    0.401610E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.372802E+02    0.412641E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.353830E+02    0.414964E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.335094E+02    0.436632E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.308372E+02    0.420956E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.295064E+02    0.395918E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.299185E+02    0.367661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.320715E+02    0.341858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.352050E+02    0.327217E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.387695E+02    0.326923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.418044E+02    0.341873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.432708E+02    0.368534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.428195E+02    0.398532E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.404722E+02    0.424337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.369318E+02    0.438417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.369916E+02    0.300030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.351429E+02    0.301444E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.365451E+02    0.284330E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.386539E+02    0.288396E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.385485E+02    0.308015E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.363657E+02    0.315978E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.344846E+02    0.327940E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.334090E+02    0.314942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.332691E+02    0.298262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.341484E+02    0.281623E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.358361E+02    0.269181E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.378372E+02    0.265116E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.397186E+02    0.270151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.408445E+02    0.283614E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.408919E+02    0.301487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.399659E+02    0.318263E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.382268E+02    0.330222E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.362238E+02    0.333706E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.343582E+02    0.356509E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.315686E+02    0.341986E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.303673E+02    0.315568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138510E+03   -0.308381E+02    0.285745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.330668E+02    0.257273E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.363101E+02    0.240127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.399115E+02    0.238667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.427947E+02    0.254726E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.442018E+02    0.282673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.437872E+02    0.313408E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.412501E+02    0.341818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.378065E+02    0.357157E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.360427E+02    0.434851E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.341233E+02    0.435733E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.354492E+02    0.420236E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.376205E+02    0.424864E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.375766E+02    0.443571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.353995E+02    0.450081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.336095E+02    0.460149E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.324752E+02    0.447507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.323638E+02    0.431224E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.331765E+02    0.415927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.347771E+02    0.405400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.366682E+02    0.403007E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.385153E+02    0.408802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.399019E+02    0.421122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.399126E+02    0.438467E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.391683E+02    0.453631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.373177E+02    0.464313E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.353257E+02    0.466495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.335377E+02    0.487094E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.308687E+02    0.470991E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.294711E+02    0.446292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.299004E+02    0.418035E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.318948E+02    0.393948E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.351112E+02    0.379993E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.386671E+02    0.380540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.415860E+02    0.396133E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.432398E+02    0.422305E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.427675E+02    0.452448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.405115E+02    0.476879E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.369605E+02    0.489678E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.364198E+02    0.345077E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.345802E+02    0.346253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.358999E+02    0.329813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.379888E+02    0.334216E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.379649E+02    0.353356E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.357879E+02    0.360858E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.339117E+02    0.372125E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.328465E+02    0.359387E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.327199E+02    0.342731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.336064E+02    0.326131E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.352048E+02    0.314836E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.371955E+02    0.311241E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.390613E+02    0.316371E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.401700E+02    0.329792E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.403011E+02    0.347200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.393682E+02    0.363679E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.377250E+02    0.374426E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.357312E+02    0.377410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.338626E+02    0.399272E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.311737E+02    0.384043E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.298273E+02    0.359437E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.303113E+02    0.329673E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.324619E+02    0.303163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.356894E+02    0.287625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.391756E+02    0.287492E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.421303E+02    0.302263E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.437193E+02    0.328358E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.431749E+02    0.359799E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.406358E+02    0.386595E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.372967E+02    0.400493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.372344E+02    0.237533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.352002E+02    0.241010E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.367707E+02    0.220829E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.388948E+02    0.224666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.388065E+02    0.245737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.365278E+02    0.255491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.346470E+02    0.268406E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.334720E+02    0.255810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.334877E+02    0.236414E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.342724E+02    0.219380E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.359533E+02    0.206097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.381410E+02    0.199796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.399443E+02    0.205293E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.410910E+02    0.219036E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.411560E+02    0.238172E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.402411E+02    0.256373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.384103E+02    0.269957E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.364031E+02    0.273931E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.344631E+02    0.297899E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.317330E+02    0.283364E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.305030E+02    0.256381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.310297E+02    0.223659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.333245E+02    0.192889E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.366538E+02    0.174011E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.401892E+02    0.172564E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.431120E+02    0.188058E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.446705E+02    0.215538E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.438631E+02    0.251525E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.413555E+02    0.281524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.379209E+02    0.297792E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686028.876890262     
  ps_ts2 prof sum =   685634.573394786     
  trcom prof sum =    685634.573374749     
  ps_ts2 cur sum  =   12167.4333052749     
  trcom cur sum  =    12167.4333052749     
  
  antenna # iant =            2
  powecha_use(iant) =    687932.101641708     
  ps_ts2 prof sum =   687539.422601971     
  trcom prof sum =    687539.422601971     
  ps_ts2 cur sum  =   14816.6849593083     
  trcom cur sum  =    14816.6849593083     
  
  antenna # iant =            3
  powecha_use(iant) =    524342.820653757     
  ps_ts2 prof sum =   523993.660181438     
  trcom prof sum =    523993.660181438     
  ps_ts2 cur sum  =   7925.67725622430     
  trcom cur sum  =    7925.67725622430     
  
  antenna # iant =            4
  powecha_use(iant) =    565100.446693873     
  ps_ts2 prof sum =   564785.753458163     
  trcom prof sum =    564785.753458163     
  ps_ts2 cur sum  =   11060.4662681615     
  trcom cur sum  =    11060.4662681615     
  
  antenna # iant =            5
  powecha_use(iant) =    545579.233811063     
  ps_ts2 prof sum =   545258.024633085     
  trcom prof sum =    545258.024633085     
  ps_ts2 cur sum  =   12911.7002579063     
  trcom cur sum  =    12911.7002579063     
  
  Total ECH heating:      3007211.43424941     
  Total Current Drive:    58881.9620468753     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1647
 TA= 1.97000E+00 CPU TIME= 1.67076E-01 SECONDS.  DT= 7.58520E-04
  
 TEC1=    1.96999999999998     
 TEC2=    1.97499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.32662777777773     
  %check_save_state: izleft hours =    75.6650000000000     
 --> plasma_hash("gframe"): TA= 1.970000E+00 NSTEP=  1647 Hash code:  117905373
 ->PRGCHK: bdy curvature ratio at t= 1.9750E+00 seconds is:  5.3123E-02
% MHDEQ: TG1=     1.970000 ; TG2=     1.975000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7690E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3123E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.970000 TO TG2=    1.975000 @ NSTEP     1647
   GFRAME TG2 MOMENTS CHECKSUM:  2.4825319154115D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  1.9750E+00  1.9800E+00 total power(Watts):  2.9988E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.97500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.359755E+02    0.383020E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.341452E+02    0.383932E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.354595E+02    0.368277E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.376348E+02    0.372287E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.375096E+02    0.391309E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.353400E+02    0.398433E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.335576E+02    0.409042E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.325028E+02    0.396090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.322103E+02    0.380776E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.331816E+02    0.364434E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.347752E+02    0.353590E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.367587E+02    0.350290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.385161E+02    0.356198E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.397114E+02    0.368871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.400381E+02    0.384720E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.390006E+02    0.401314E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.372637E+02    0.412378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.352765E+02    0.415107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.334979E+02    0.436370E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.308252E+02    0.420717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.294936E+02    0.395676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.299027E+02    0.367385E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.320529E+02    0.341571E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.351821E+02    0.326949E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.386472E+02    0.327226E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.415743E+02    0.342586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.432475E+02    0.368142E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.426943E+02    0.398604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.402535E+02    0.424755E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.369193E+02    0.438125E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.369656E+02    0.299825E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.351176E+02    0.301251E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.364256E+02    0.284852E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.386256E+02    0.288203E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.385217E+02    0.307779E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.363416E+02    0.315734E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.344623E+02    0.327672E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.333854E+02    0.314727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.332447E+02    0.298088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.341224E+02    0.281467E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.358074E+02    0.269025E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.378082E+02    0.264965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.395901E+02    0.270681E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.407149E+02    0.284082E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.408622E+02    0.301249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.399392E+02    0.317991E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.382024E+02    0.329924E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.362010E+02    0.333409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.343400E+02    0.356183E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.315501E+02    0.341708E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.303525E+02    0.315332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.308140E+02    0.285612E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.330393E+02    0.257177E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.362766E+02    0.240088E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.397813E+02    0.239354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.427599E+02    0.254578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.442745E+02    0.281792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.437580E+02    0.313114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.413278E+02    0.340909E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.377852E+02    0.356811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.359412E+02    0.434921E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.341114E+02    0.435472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.354342E+02    0.419979E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.375080E+02    0.424950E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.374678E+02    0.443607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.353893E+02    0.449793E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.335115E+02    0.460192E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.324650E+02    0.447247E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.322662E+02    0.431355E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.330757E+02    0.416090E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.346708E+02    0.405576E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.366510E+02    0.402737E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.384979E+02    0.408518E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.396841E+02    0.421582E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.398988E+02    0.438160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.391523E+02    0.453322E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.373081E+02    0.464022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.353170E+02    0.466218E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.335300E+02    0.486860E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.308614E+02    0.470752E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.294619E+02    0.446057E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.299696E+02    0.417371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.319642E+02    0.393217E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.350929E+02    0.379689E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.385494E+02    0.380683E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.415670E+02    0.395798E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.432232E+02    0.421969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.427548E+02    0.452098E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.405025E+02    0.476567E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.369540E+02    0.489419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.363994E+02    0.344753E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.344696E+02    0.346515E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.358740E+02    0.329553E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.379645E+02    0.333907E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.379432E+02    0.353007E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.357682E+02    0.360529E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.338944E+02    0.371819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.328343E+02    0.359038E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.326989E+02    0.342439E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.334113E+02    0.327116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.351806E+02    0.314606E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.371704E+02    0.311011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.389390E+02    0.316720E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.401443E+02    0.329479E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.402775E+02    0.346846E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.393462E+02    0.363325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.376151E+02    0.374570E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.356206E+02    0.377598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.338469E+02    0.399006E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.311583E+02    0.383772E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.298097E+02    0.359157E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.302915E+02    0.329434E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.324384E+02    0.302982E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.356622E+02    0.287455E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.391468E+02    0.287297E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.422018E+02    0.301395E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.434807E+02    0.329125E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.429406E+02    0.360391E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.406158E+02    0.386250E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.372791E+02    0.400213E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.96 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.372031E+02    0.237471E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.352579E+02    0.240161E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.367382E+02    0.220816E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.388609E+02    0.224634E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.386805E+02    0.246404E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.364981E+02    0.255372E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.346251E+02    0.268228E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.335297E+02    0.254942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.332911E+02    0.238001E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.342420E+02    0.219384E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.360090E+02    0.205263E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.381065E+02    0.199830E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.399084E+02    0.205311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.410549E+02    0.219013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.411211E+02    0.238096E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.401109E+02    0.256958E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.383798E+02    0.269792E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.363745E+02    0.273773E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.344379E+02    0.297721E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.317902E+02    0.282499E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138669E+03   -0.304778E+02    0.256301E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.310025E+02    0.223661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.331293E+02    0.194760E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.365322E+02    0.175047E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.401532E+02    0.172675E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.430731E+02    0.188108E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.444204E+02    0.217103E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.439313E+02    0.250661E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.413247E+02    0.281324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.378941E+02    0.297585E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685383.313284388     
  ps_ts2 prof sum =   684947.431614516     
  trcom prof sum =    684947.431600995     
  ps_ts2 cur sum  =   12050.5616401845     
  trcom cur sum  =    12050.5616401845     
  
  antenna # iant =            2
  powecha_use(iant) =    684564.467180375     
  ps_ts2 prof sum =   684199.315776316     
  trcom prof sum =    684199.315776316     
  ps_ts2 cur sum  =   14632.3858919766     
  trcom cur sum  =    14632.3858919766     
  
  antenna # iant =            3
  powecha_use(iant) =    524499.537897807     
  ps_ts2 prof sum =   524141.336094755     
  trcom prof sum =    524141.336094755     
  ps_ts2 cur sum  =   7852.99404706448     
  trcom cur sum  =    7852.99404706448     
  
  antenna # iant =            4
  powecha_use(iant) =    560178.632709045     
  ps_ts2 prof sum =   559843.684377843     
  trcom prof sum =    559843.684377843     
  ps_ts2 cur sum  =   10875.1397928299     
  trcom cur sum  =    10875.1397928298     
  
  antenna # iant =            5
  powecha_use(iant) =    544190.865186597     
  ps_ts2 prof sum =   543900.279835255     
  trcom prof sum =    543900.279835255     
  ps_ts2 cur sum  =   12787.4980467595     
  trcom cur sum  =    12787.4980467595     
  
  Total ECH heating:      2997032.04768516     
  Total Current Drive:    58198.5794188149     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1652
 TA= 1.97500E+00 CPU TIME= 1.59102E-01 SECONDS.  DT= 7.83322E-04
  
 TEC1=    1.97499999999998     
 TEC2=    1.97999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.33811833333289     
  %check_save_state: izleft hours =    75.6533333333333     
 --> plasma_hash("gframe"): TA= 1.975000E+00 NSTEP=  1652 Hash code:   32930808
 ->PRGCHK: bdy curvature ratio at t= 1.9800E+00 seconds is:  5.3023E-02
% MHDEQ: TG1=     1.975000 ; TG2=     1.980000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7697E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3023E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.975000 TO TG2=    1.980000 @ NSTEP     1652
   GFRAME TG2 MOMENTS CHECKSUM:  2.4811970904382D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.35959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.47427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.28792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  6.75304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.46010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  9.56818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.66302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -5.91422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.10383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       5=  2.96138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.62129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.84642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -2.94989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -3.65027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -5.09231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.98410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -2.14889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.62492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.87511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.87511E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  1.9800E+00  1.9850E+00 total power(Watts):  3.0065E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.98000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.359604E+02    0.382800E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.341308E+02    0.383719E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.354427E+02    0.368047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.375223E+02    0.372533E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.374944E+02    0.391097E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.353268E+02    0.398239E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.335440E+02    0.408880E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.324907E+02    0.395909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.322809E+02    0.380071E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.331665E+02    0.364200E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.347584E+02    0.353334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.367406E+02    0.350023E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.384971E+02    0.355924E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.396933E+02    0.368604E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.398205E+02    0.385402E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.389856E+02    0.401108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.372506E+02    0.412187E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.352636E+02    0.414940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.334884E+02    0.436200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.308141E+02    0.420572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.295614E+02    0.395027E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.298904E+02    0.367164E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.320346E+02    0.341344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.351637E+02    0.326726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.386265E+02    0.326988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.415510E+02    0.342296E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.432281E+02    0.367839E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.426779E+02    0.398364E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.402404E+02    0.424552E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.369092E+02    0.437935E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.369429E+02    0.299648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.350082E+02    0.301740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.364017E+02    0.284687E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.385054E+02    0.288698E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.384037E+02    0.308209E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.362275E+02    0.316168E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.344438E+02    0.327449E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.333665E+02    0.314543E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.332238E+02    0.297931E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.340970E+02    0.281337E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.356931E+02    0.269608E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.376877E+02    0.265540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.395639E+02    0.270509E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.406835E+02    0.283919E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.408369E+02    0.301054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.399161E+02    0.317764E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.381814E+02    0.329685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.361780E+02    0.333185E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.343233E+02    0.355931E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.315311E+02    0.341497E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.304104E+02    0.314534E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.307939E+02    0.285482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.328508E+02    0.258602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.362497E+02    0.240001E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.397525E+02    0.239260E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.426303E+02    0.255122E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.442446E+02    0.281584E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.435223E+02    0.314036E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.411029E+02    0.341709E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.377664E+02    0.356546E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.359296E+02    0.434743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.341016E+02    0.435300E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.354225E+02    0.419803E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.375001E+02    0.424763E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.374578E+02    0.443415E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.353799E+02    0.449618E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.335037E+02    0.460034E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.324570E+02    0.447081E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.322568E+02    0.431196E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.330635E+02    0.415932E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.346577E+02    0.405402E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.366371E+02    0.402545E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.384842E+02    0.408318E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.396710E+02    0.421383E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.399891E+02    0.437602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.391429E+02    0.453115E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.373003E+02    0.463833E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.353097E+02    0.466047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.334356E+02    0.486977E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.308557E+02    0.470607E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.295346E+02    0.445541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.299584E+02    0.417231E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.319513E+02    0.393038E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.350780E+02    0.379471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.385330E+02    0.380441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.416520E+02    0.395149E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.432091E+02    0.421741E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.427444E+02    0.451865E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.404954E+02    0.476371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.369490E+02    0.489261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.363805E+02    0.344487E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.344542E+02    0.346263E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.358550E+02    0.329314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.379444E+02    0.333649E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.378281E+02    0.353277E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.356596E+02    0.360807E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.338788E+02    0.371597E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.328149E+02    0.358817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.326824E+02    0.342203E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.334800E+02    0.326284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.351590E+02    0.314420E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.371474E+02    0.310816E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.389153E+02    0.316506E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.401224E+02    0.329226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.402568E+02    0.346554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.393261E+02    0.363054E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.375956E+02    0.374331E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.356047E+02    0.377373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.337457E+02    0.399283E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.311450E+02    0.383588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.297969E+02    0.358931E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.301954E+02    0.329876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.324190E+02    0.302824E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.355492E+02    0.287985E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.391219E+02    0.287113E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.419729E+02    0.302421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.435621E+02    0.328277E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.430261E+02    0.359566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.405989E+02    0.386005E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.371692E+02    0.400451E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.371759E+02    0.237389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.352311E+02    0.240082E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.367105E+02    0.220770E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.388317E+02    0.224567E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.386523E+02    0.246293E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.364721E+02    0.255249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.344239E+02    0.269581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.335077E+02    0.254825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.332651E+02    0.237943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.343006E+02    0.218507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.359813E+02    0.205251E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.379852E+02    0.200676E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.398775E+02    0.205272E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.410230E+02    0.218953E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.410916E+02    0.237991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.400824E+02    0.256814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.383534E+02    0.269630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.363497E+02    0.273614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.344163E+02    0.297557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138541E+03   -0.316056E+02    0.283817E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.304553E+02    0.256206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.309786E+02    0.223637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.331032E+02    0.194773E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.365021E+02    0.175100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.401196E+02    0.172731E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.430390E+02    0.188092E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.443864E+02    0.217033E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.436918E+02    0.251945E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.412978E+02    0.281132E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.378707E+02    0.297407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.10 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688809.824130115     
  ps_ts2 prof sum =   688399.840122862     
  trcom prof sum =    688399.840122861     
  ps_ts2 cur sum  =   12017.4381294927     
  trcom cur sum  =    12017.4381294926     
  
  antenna # iant =            2
  powecha_use(iant) =    682831.398623200     
  ps_ts2 prof sum =   682427.506180866     
  trcom prof sum =    682427.506180866     
  ps_ts2 cur sum  =   14490.7793213608     
  trcom cur sum  =    14490.7793213608     
  
  antenna # iant =            3
  powecha_use(iant) =    525069.416364958     
  ps_ts2 prof sum =   524744.053969405     
  trcom prof sum =    524744.053969405     
  ps_ts2 cur sum  =   7794.79884029221     
  trcom cur sum  =    7794.79884029222     
  
  antenna # iant =            4
  powecha_use(iant) =    564694.180789878     
  ps_ts2 prof sum =   564360.596267040     
  trcom prof sum =    564360.596267039     
  ps_ts2 cur sum  =   10884.0266040599     
  trcom cur sum  =    10884.0266040599     
  
  antenna # iant =            5
  powecha_use(iant) =    545131.294455494     
  ps_ts2 prof sum =   544837.728363636     
  trcom prof sum =    544837.728363636     
  ps_ts2 cur sum  =   12720.5314558898     
  trcom cur sum  =    12720.5314558898     
  
  Total ECH heating:      3004769.72490381     
  Total Current Drive:    57907.5743510953     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1657
 TA= 1.98000E+00 CPU TIME= 1.60616E-01 SECONDS.  DT= 6.04572E-04
  
 TEC1=    1.97999999999998     
 TEC2=    1.98499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.35332749999975     
  %check_save_state: izleft hours =    75.6383333333333     
 --> plasma_hash("gframe"): TA= 1.980000E+00 NSTEP=  1657 Hash code:  111612574
 ->PRGCHK: bdy curvature ratio at t= 1.9850E+00 seconds is:  5.2937E-02
% MHDEQ: TG1=     1.980000 ; TG2=     1.985000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2937E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.980000 TO TG2=    1.985000 @ NSTEP     1657
   GFRAME TG2 MOMENTS CHECKSUM:  2.4798622654650D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  1.9850E+00  1.9900E+00 total power(Watts):  3.0079E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.98500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.359441E+02    0.382569E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.341153E+02    0.383514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.354256E+02    0.367790E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.375043E+02    0.372280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.374789E+02    0.390864E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.353115E+02    0.398047E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.335351E+02    0.408686E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.324773E+02    0.395720E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.322665E+02    0.379856E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.331497E+02    0.363961E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.347403E+02    0.353079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.366274E+02    0.350309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.384781E+02    0.355625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.396743E+02    0.368318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.398029E+02    0.385141E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.389700E+02    0.400886E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.372366E+02    0.411989E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.352506E+02    0.414754E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.334780E+02    0.436018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.308032E+02    0.420412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.295489E+02    0.394859E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.298757E+02    0.366953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.320179E+02    0.341102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.351418E+02    0.326503E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.386033E+02    0.326730E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.415305E+02    0.341978E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.432075E+02    0.367510E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.426608E+02    0.398107E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.402267E+02    0.424334E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.368024E+02    0.438091E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.369169E+02    0.299452E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.349833E+02    0.301550E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.363750E+02    0.284511E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.384774E+02    0.288508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.383782E+02    0.307997E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.362050E+02    0.315947E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.344242E+02    0.327217E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.331727E+02    0.315657E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.332019E+02    0.297756E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.340759E+02    0.281147E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.356680E+02    0.269445E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.376600E+02    0.265379E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.395354E+02    0.270319E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.406632E+02    0.283662E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.408116E+02    0.300817E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.398924E+02    0.317513E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.381594E+02    0.329414E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.361639E+02    0.332895E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.343056E+02    0.355672E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.315983E+02    0.340647E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138757E+03   -0.302315E+02    0.315689E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.307722E+02    0.285331E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.328242E+02    0.258487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.362211E+02    0.239908E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.397216E+02    0.239146E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.425950E+02    0.254968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.442152E+02    0.281340E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.434957E+02    0.313769E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.410809E+02    0.341405E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.377472E+02    0.356261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.359191E+02    0.434544E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.340909E+02    0.435115E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.354100E+02    0.419616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.374843E+02    0.424576E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.374469E+02    0.443211E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.352783E+02    0.449756E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.334956E+02    0.459851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.324481E+02    0.446905E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.322463E+02    0.431022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.330515E+02    0.415759E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.346443E+02    0.405213E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.366226E+02    0.402338E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.384692E+02    0.408109E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.396575E+02    0.421163E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.399768E+02    0.437384E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.391322E+02    0.452902E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.372912E+02    0.463641E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.353017E+02    0.465861E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.334308E+02    0.486824E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.307662E+02    0.470753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.295262E+02    0.445384E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.299475E+02    0.417070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.319379E+02    0.392847E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.350617E+02    0.379241E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.385156E+02    0.380190E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.416407E+02    0.394872E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.431939E+02    0.421502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.427331E+02    0.451617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.403848E+02    0.476404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.370388E+02    0.488873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.26 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.363615E+02    0.344217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.344358E+02    0.345999E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.358342E+02    0.329070E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.379229E+02    0.333387E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.378086E+02    0.352994E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.356413E+02    0.360548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.338626E+02    0.371363E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.327982E+02    0.358575E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.326657E+02    0.341956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.334606E+02    0.326063E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.351376E+02    0.314202E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.371245E+02    0.310592E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.388921E+02    0.316268E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.400994E+02    0.328937E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.402359E+02    0.346249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.393130E+02    0.362734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.375775E+02    0.374077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.355882E+02    0.377135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.337310E+02    0.399097E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.311307E+02    0.383387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138500E+03   -0.297817E+02    0.358703E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.301779E+02    0.329670E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.322265E+02    0.304033E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.355248E+02    0.287805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.390937E+02    0.286916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.419457E+02    0.302184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.435374E+02    0.327969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.430043E+02    0.359245E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.406826E+02    0.385285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.371542E+02    0.400242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.371459E+02    0.237293E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.352040E+02    0.239988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.365899E+02    0.221537E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.387995E+02    0.224494E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.386224E+02    0.246168E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.364405E+02    0.255137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.343989E+02    0.269434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.333110E+02    0.256264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.332388E+02    0.237871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.342722E+02    0.218460E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.359515E+02    0.205223E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.379529E+02    0.200646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.398442E+02    0.205238E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.409891E+02    0.218881E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.410591E+02    0.237875E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.400516E+02    0.256655E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.383259E+02    0.269452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.363237E+02    0.273444E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.343925E+02    0.297375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138560E+03   -0.315835E+02    0.283669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138708E+03   -0.304327E+02    0.256101E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.309535E+02    0.223600E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.330747E+02    0.194779E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.364708E+02    0.175146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.400847E+02    0.172767E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.429018E+02    0.188931E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.443501E+02    0.216943E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.436592E+02    0.251767E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.412676E+02    0.280924E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.378439E+02    0.297204E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689446.661199682     
  ps_ts2 prof sum =   689036.217865045     
  trcom prof sum =    689036.217865044     
  ps_ts2 cur sum  =   11929.6431847037     
  trcom cur sum  =    11929.6431849590     
  
  antenna # iant =            2
  powecha_use(iant) =    684410.213075506     
  ps_ts2 prof sum =   683995.601173513     
  trcom prof sum =    683995.601173513     
  ps_ts2 cur sum  =   14415.3853310174     
  trcom cur sum  =    14415.3853310174     
  
  antenna # iant =            3
  powecha_use(iant) =    524455.440320219     
  ps_ts2 prof sum =   524134.725563711     
  trcom prof sum =    524134.725563711     
  ps_ts2 cur sum  =   7716.19405600382     
  trcom cur sum  =    7716.19405600382     
  
  antenna # iant =            4
  powecha_use(iant) =    564286.940079329     
  ps_ts2 prof sum =   563954.502183232     
  trcom prof sum =    563954.502183232     
  ps_ts2 cur sum  =   10791.1980232701     
  trcom cur sum  =    10791.1980232701     
  
  antenna # iant =            5
  powecha_use(iant) =    545315.632430336     
  ps_ts2 prof sum =   545013.674586224     
  trcom prof sum =    545013.674586224     
  ps_ts2 cur sum  =   12631.5316242891     
  trcom cur sum  =    12631.5316242891     
  
  Total ECH heating:      3006134.72137172     
  Total Current Drive:    57483.9522195394     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1663
 TA= 1.98500E+00 CPU TIME= 1.69055E-01 SECONDS.  DT= 4.78275E-05
  
 TEC1=    1.98499999999998     
 TEC2=    1.98999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.36799583333300     
  %check_save_state: izleft hours =    75.6236111111111     
 --> plasma_hash("gframe"): TA= 1.985000E+00 NSTEP=  1663 Hash code:   64142346
 ->PRGCHK: bdy curvature ratio at t= 1.9900E+00 seconds is:  5.2976E-02
% MHDEQ: TG1=     1.985000 ; TG2=     1.990000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7712E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2976E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.985000 TO TG2=    1.990000 @ NSTEP     1663
   GFRAME TG2 MOMENTS CHECKSUM:  2.4785274404917D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.16151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.51039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.12493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  8.46041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.63356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  5.63197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.46530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -3.93368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.62212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.64237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.36407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.63717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6= -1.89200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6= -2.15440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9= -2.99742E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10= -1.64111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.76086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.16420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.56626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.56626E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9900E+00  1.9950E+00 total power(Watts):  2.9938E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.99000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.359378E+02    0.382637E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.341094E+02    0.383581E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.354187E+02    0.367821E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.374971E+02    0.372310E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.374716E+02    0.390962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.353046E+02    0.398159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.335277E+02    0.408813E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.323857E+02    0.396303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.322606E+02    0.379924E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.331405E+02    0.364001E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.347334E+02    0.353076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.366198E+02    0.350301E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.384700E+02    0.355620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.396665E+02    0.368339E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.397954E+02    0.385224E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.390621E+02    0.400564E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.372304E+02    0.412120E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.352449E+02    0.414887E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.333848E+02    0.436528E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.307990E+02    0.420543E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.293849E+02    0.395951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.299499E+02    0.366436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.318438E+02    0.342305E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.351340E+02    0.326479E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.385941E+02    0.326708E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.415213E+02    0.341949E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.430933E+02    0.368016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.426532E+02    0.398211E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.403225E+02    0.424092E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.367974E+02    0.438225E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.90 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.369079E+02    0.299407E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.349744E+02    0.301530E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.363651E+02    0.284441E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.384676E+02    0.288431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.383693E+02    0.307956E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.361970E+02    0.315926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.343270E+02    0.327825E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.331661E+02    0.315637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.331895E+02    0.297747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.338925E+02    0.282532E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.356518E+02    0.269389E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.376489E+02    0.265276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.395228E+02    0.270217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.406477E+02    0.283601E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.408006E+02    0.300761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.398823E+02    0.317487E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.381504E+02    0.329397E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.361531E+02    0.332896E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.342099E+02    0.356240E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.315919E+02    0.340648E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138774E+03   -0.302233E+02    0.315697E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138811E+03   -0.306828E+02    0.286024E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138369E+03   -0.328132E+02    0.258412E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.362085E+02    0.239826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.397063E+02    0.239054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.425811E+02    0.254849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.442019E+02    0.281234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.435900E+02    0.313128E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.410717E+02    0.341375E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.376442E+02    0.356790E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.85 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.359139E+02    0.434679E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.340860E+02    0.435249E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.354044E+02    0.419751E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.374784E+02    0.424713E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.374417E+02    0.443349E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.352734E+02    0.449891E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.334921E+02    0.459987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.324442E+02    0.447033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.322420E+02    0.431155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.330465E+02    0.415893E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.346385E+02    0.405335E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.366162E+02    0.402456E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.384626E+02    0.408233E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.396511E+02    0.421301E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.399711E+02    0.437520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.389278E+02    0.453659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.372872E+02    0.463778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.352978E+02    0.466010E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.334274E+02    0.487011E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.307628E+02    0.470908E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.295230E+02    0.445510E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.299433E+02    0.417204E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.319323E+02    0.392953E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.350551E+02    0.379306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.385082E+02    0.380254E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.416287E+02    0.394991E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.431870E+02    0.421635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134214E+03   -0.427274E+02    0.451759E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.403799E+02    0.476581E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.370356E+02    0.489055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.363531E+02    0.344204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.344284E+02    0.345994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.358261E+02    0.329053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.379145E+02    0.333365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.378011E+02    0.352977E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.356346E+02    0.360548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.338561E+02    0.371399E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.327919E+02    0.358589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.324885E+02    0.343140E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.334520E+02    0.326057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.351299E+02    0.314184E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.370225E+02    0.311211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.388825E+02    0.316241E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.399898E+02    0.329507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.403273E+02    0.345680E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.393007E+02    0.362767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.375705E+02    0.374119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.355815E+02    0.377190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.337258E+02    0.399209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.311252E+02    0.383465E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.298555E+02    0.358149E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138715E+03   -0.301716E+02    0.329674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.322204E+02    0.304001E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.355138E+02    0.287751E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.389869E+02    0.287515E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.419344E+02    0.302129E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.435225E+02    0.327941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.429954E+02    0.359241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.406749E+02    0.385362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.371485E+02    0.400348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.371328E+02    0.237210E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.351915E+02    0.239914E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.365758E+02    0.221460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.386917E+02    0.225211E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.386082E+02    0.246070E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.363452E+02    0.255760E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.344746E+02    0.268610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.332994E+02    0.256191E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.332276E+02    0.237806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.342587E+02    0.218394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.359366E+02    0.205147E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.379376E+02    0.200566E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.398286E+02    0.205143E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.408765E+02    0.219589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.410434E+02    0.237779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.400381E+02    0.256550E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.383142E+02    0.269352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.363127E+02    0.273363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.343831E+02    0.297336E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.315734E+02    0.283622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.304230E+02    0.256038E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138706E+03   -0.309418E+02    0.223538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.330613E+02    0.194721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.364549E+02    0.175098E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.399725E+02    0.173618E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.428838E+02    0.188834E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.444382E+02    0.216040E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.436406E+02    0.251670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.411569E+02    0.281502E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.378343E+02    0.297156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685785.303593615     
  ps_ts2 prof sum =   685366.045317660     
  trcom prof sum =    685366.045317660     
  ps_ts2 cur sum  =   11803.9590237074     
  trcom cur sum  =    11803.9590237074     
  
  antenna # iant =            2
  powecha_use(iant) =    679240.332889263     
  ps_ts2 prof sum =   678809.743513957     
  trcom prof sum =    678809.743513957     
  ps_ts2 cur sum  =   14248.0087739953     
  trcom cur sum  =    14248.0087739953     
  
  antenna # iant =            3
  powecha_use(iant) =    524554.060194045     
  ps_ts2 prof sum =   524234.065200161     
  trcom prof sum =    524234.065200161     
  ps_ts2 cur sum  =   7667.09230445313     
  trcom cur sum  =    7667.09230445312     
  
  antenna # iant =            4
  powecha_use(iant) =    558779.375173195     
  ps_ts2 prof sum =   558446.923842102     
  trcom prof sum =    558446.923842102     
  ps_ts2 cur sum  =   10636.6934621689     
  trcom cur sum  =    10636.6934621689     
  
  antenna # iant =            5
  powecha_use(iant) =    545486.739753743     
  ps_ts2 prof sum =   545191.181778642     
  trcom prof sum =    545191.181778642     
  ps_ts2 cur sum  =   12589.5911771147     
  trcom cur sum  =    12589.5911771147     
  
  Total ECH heating:      2992047.95965252     
  Total Current Drive:    56945.3447414393     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1678
 TA= 1.99000E+00 CPU TIME= 1.46614E-01 SECONDS.  DT= 1.05178E-03
  
 TEC1=    1.98999999999998     
 TEC2=    1.99499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.38174749999962     
  %check_save_state: izleft hours =    75.6097222222222     
 --> plasma_hash("gframe"): TA= 1.990000E+00 NSTEP=  1678 Hash code:   45100761
 ->PRGCHK: bdy curvature ratio at t= 1.9950E+00 seconds is:  5.2603E-02
% MHDEQ: TG1=     1.990000 ; TG2=     1.995000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7719E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2603E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.990000 TO TG2=    1.995000 @ NSTEP     1678
   GFRAME TG2 MOMENTS CHECKSUM:  2.4771926155185D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  1.9950E+00  2.0000E+00 total power(Watts):  2.9941E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         1.99500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.359312E+02    0.382699E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.341030E+02    0.383654E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.354113E+02    0.367855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.374895E+02    0.372356E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.374646E+02    0.391058E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.353040E+02    0.398242E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.335220E+02    0.408936E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.323800E+02    0.396410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.322538E+02    0.379998E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.330527E+02    0.364543E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.346359E+02    0.353652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.366116E+02    0.350309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.384610E+02    0.355642E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.396579E+02    0.368373E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.397880E+02    0.385288E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.388567E+02    0.401549E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.372242E+02    0.412238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.352388E+02    0.415018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.333807E+02    0.436643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.307941E+02    0.420672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138591E+03   -0.293801E+02    0.396054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138259E+03   -0.299438E+02    0.366473E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.318368E+02    0.342321E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.351252E+02    0.326489E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.385841E+02    0.326709E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.415113E+02    0.341938E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.430842E+02    0.368032E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.426445E+02    0.398324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.403156E+02    0.424224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.367918E+02    0.438349E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.368972E+02    0.299341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.349649E+02    0.301468E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.363554E+02    0.284323E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.384559E+02    0.288317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.383585E+02    0.307908E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.361875E+02    0.315910E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.343184E+02    0.327840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.331570E+02    0.315639E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.330155E+02    0.299020E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.338820E+02    0.282420E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.356477E+02    0.269225E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.376365E+02    0.265155E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.395106E+02    0.270076E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.406361E+02    0.283462E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.407889E+02    0.300682E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.398713E+02    0.317462E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.381407E+02    0.329394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.361445E+02    0.332902E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.342012E+02    0.356268E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.315844E+02    0.340659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138792E+03   -0.302166E+02    0.315686E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.306738E+02    0.285934E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.328008E+02    0.258337E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.361049E+02    0.240577E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.396919E+02    0.239003E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.425674E+02    0.254726E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.441888E+02    0.281078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.435780E+02    0.313077E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.410619E+02    0.341365E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.376354E+02    0.356815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.359084E+02    0.434803E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.340819E+02    0.435366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.353986E+02    0.419877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.374731E+02    0.424832E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.374359E+02    0.443482E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.352691E+02    0.450010E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.334881E+02    0.460112E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.323532E+02    0.447510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.322368E+02    0.431284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.330399E+02    0.416024E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.346288E+02    0.405470E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.366097E+02    0.402570E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.384560E+02    0.408350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.396442E+02    0.421430E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.399646E+02    0.437656E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.389225E+02    0.453785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.373797E+02    0.463613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.352012E+02    0.466436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.334252E+02    0.487174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.307596E+02    0.471047E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.295185E+02    0.445637E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.299389E+02    0.417324E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.319264E+02    0.393056E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.350487E+02    0.379362E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.385007E+02    0.380307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.416209E+02    0.395085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.431792E+02    0.421776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.427216E+02    0.451880E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.403757E+02    0.476724E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.370321E+02    0.489236E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.362520E+02    0.344782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.344205E+02    0.346002E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.358172E+02    0.329058E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.379051E+02    0.333365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.377928E+02    0.352991E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.356271E+02    0.360575E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.338492E+02    0.371457E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.327845E+02    0.358614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.324813E+02    0.343160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.334432E+02    0.326069E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.350314E+02    0.314817E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.370126E+02    0.311171E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.388720E+02    0.316216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.399803E+02    0.329496E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.403179E+02    0.345674E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.392922E+02    0.362788E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.375631E+02    0.374163E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.355748E+02    0.377244E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.337204E+02    0.399312E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.309538E+02    0.384566E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.298493E+02    0.358182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138739E+03   -0.301610E+02    0.329715E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.322125E+02    0.303952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.355045E+02    0.287639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.389750E+02    0.287398E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.419219E+02    0.302053E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.435178E+02    0.327899E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.429858E+02    0.359245E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.406668E+02    0.385427E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.371413E+02    0.400462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.370272E+02    0.237968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.351784E+02    0.239878E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.365618E+02    0.221459E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.386782E+02    0.225190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.385945E+02    0.246007E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.363292E+02    0.255691E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.344656E+02    0.268489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.332884E+02    0.256120E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.332148E+02    0.237790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.340756E+02    0.220102E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.359214E+02    0.205141E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.379216E+02    0.200553E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.397187E+02    0.205953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.408601E+02    0.219575E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.410298E+02    0.237716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.400250E+02    0.256434E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.383021E+02    0.269218E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.362109E+02    0.273955E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.343746E+02    0.297266E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138601E+03   -0.315640E+02    0.283525E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138750E+03   -0.304119E+02    0.255968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.309284E+02    0.223564E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.330436E+02    0.194750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.364382E+02    0.175083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.399550E+02    0.173587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.428653E+02    0.188793E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.444200E+02    0.216010E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.436337E+02    0.251511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.411439E+02    0.281361E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.378235E+02    0.297076E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685981.603450311     
  ps_ts2 prof sum =   685551.484740767     
  trcom prof sum =    685551.484740767     
  ps_ts2 cur sum  =   11747.0633837103     
  trcom cur sum  =    11747.0633837103     
  
  antenna # iant =            2
  powecha_use(iant) =    678183.708378955     
  ps_ts2 prof sum =   677742.562958837     
  trcom prof sum =    677742.562958837     
  ps_ts2 cur sum  =   14171.0827724903     
  trcom cur sum  =    14171.0827724903     
  
  antenna # iant =            3
  powecha_use(iant) =    523984.322932461     
  ps_ts2 prof sum =   523668.348628428     
  trcom prof sum =    523668.348613719     
  ps_ts2 cur sum  =   7611.48059085205     
  trcom cur sum  =    7611.48059085204     
  
  antenna # iant =            4
  powecha_use(iant) =    560167.248530319     
  ps_ts2 prof sum =   559819.439569540     
  trcom prof sum =    559819.439569539     
  ps_ts2 cur sum  =   10614.9093063689     
  trcom cur sum  =    10614.9093063689     
  
  antenna # iant =            5
  powecha_use(iant) =    545794.004060115     
  ps_ts2 prof sum =   545479.541385090     
  trcom prof sum =    545479.541385090     
  ps_ts2 cur sum  =   12554.3689440471     
  trcom cur sum  =    12554.3689440471     
  
  Total ECH heating:      2992261.37726795     
  Total Current Drive:    56698.9049974686     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1682
 TA= 1.99500E+00 CPU TIME= 1.59320E-01 SECONDS.  DT= 1.23763E-03
  
 TEC1=    1.99499999999998     
 TEC2=    1.99999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.39680361111050     
  %check_save_state: izleft hours =    75.5947222222222     
 --> plasma_hash("gframe"): TA= 1.995000E+00 NSTEP=  1682 Hash code:   61498153
 ->PRGCHK: bdy curvature ratio at t= 2.0000E+00 seconds is:  5.2368E-02
% MHDEQ: TG1=     1.995000 ; TG2=     2.000000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2368E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    1.995000 TO TG2=    2.000000 @ NSTEP     1682
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758577905452D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.97788E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.54388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.30194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.79437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  1.98305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.28200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.09769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.20577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.78132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.42033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.44320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  5.30230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7=  4.46673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10=  5.30146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  3.39589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.40115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.66411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.39885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.39885E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0000E+00  2.0050E+00 total power(Watts):  2.9912E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.00000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.359235E+02    0.382783E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.340962E+02    0.383738E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.354040E+02    0.367885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.374817E+02    0.372394E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.374566E+02    0.391145E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.352924E+02    0.398368E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.335150E+02    0.409074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.323740E+02    0.396516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.322480E+02    0.380056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.330428E+02    0.364592E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.346289E+02    0.353665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.366030E+02    0.350315E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.384523E+02    0.355645E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.396495E+02    0.368396E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.397793E+02    0.385359E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.388490E+02    0.401660E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.372171E+02    0.412367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.352326E+02    0.415146E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.333750E+02    0.436780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.307893E+02    0.420803E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138601E+03   -0.293748E+02    0.396158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.299376E+02    0.366508E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.318284E+02    0.342341E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.351162E+02    0.326491E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.385741E+02    0.326705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.415012E+02    0.341928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.430747E+02    0.368051E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.426360E+02    0.398421E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.403084E+02    0.424361E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.367858E+02    0.438486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.368863E+02    0.299277E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.349546E+02    0.301422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.363440E+02    0.284217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.384448E+02    0.288214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.383472E+02    0.307872E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.361768E+02    0.315903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.343096E+02    0.327845E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.331479E+02    0.315628E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.330034E+02    0.298991E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.338717E+02    0.282315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.356338E+02    0.269119E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.376242E+02    0.265029E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.394972E+02    0.269935E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.406233E+02    0.283332E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.407765E+02    0.300613E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.398602E+02    0.317450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.381310E+02    0.329395E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.361347E+02    0.332911E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.341982E+02    0.356255E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.315762E+02    0.340678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138808E+03   -0.302081E+02    0.315692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138853E+03   -0.306655E+02    0.285840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.327910E+02    0.258248E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.360909E+02    0.240530E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.396782E+02    0.238931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.425529E+02    0.254595E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.441743E+02    0.280923E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.435655E+02    0.313030E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.410514E+02    0.341359E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.376269E+02    0.356822E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.359022E+02    0.434945E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.339861E+02    0.435883E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.353922E+02    0.420021E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.374660E+02    0.424977E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.374306E+02    0.443604E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.352637E+02    0.450144E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.334840E+02    0.460245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.323487E+02    0.447639E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.322319E+02    0.431412E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.330380E+02    0.416143E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.346268E+02    0.405573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.366025E+02    0.402691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.384484E+02    0.408477E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.396369E+02    0.421573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.399586E+02    0.437780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.389175E+02    0.453910E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.373748E+02    0.463748E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.351968E+02    0.466572E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.334223E+02    0.487341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.307538E+02    0.471193E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.295146E+02    0.445763E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.297723E+02    0.418336E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.319208E+02    0.393152E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.350415E+02    0.379429E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.384928E+02    0.380371E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.416118E+02    0.395191E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.431716E+02    0.421906E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.427149E+02    0.452023E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.403717E+02    0.476864E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.370292E+02    0.489398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.362435E+02    0.344787E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.344122E+02    0.346015E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.358075E+02    0.329070E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.378951E+02    0.333370E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.377839E+02    0.352996E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.356183E+02    0.360598E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.338424E+02    0.371489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.326058E+02    0.359763E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.324724E+02    0.343172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.334352E+02    0.326073E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.350212E+02    0.314804E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.370014E+02    0.311154E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.388608E+02    0.316203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.399691E+02    0.329499E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.403083E+02    0.345667E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.392836E+02    0.362800E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.375550E+02    0.374217E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.355676E+02    0.377302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.337134E+02    0.399425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.309485E+02    0.384635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.298422E+02    0.358208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138738E+03   -0.301589E+02    0.329696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.322031E+02    0.303919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.354933E+02    0.287541E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.389637E+02    0.287289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.419098E+02    0.301979E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.435043E+02    0.327888E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.429763E+02    0.359241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.406583E+02    0.385507E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.371337E+02    0.400579E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.370140E+02    0.237922E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.351646E+02    0.239829E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.365470E+02    0.221430E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.386614E+02    0.225167E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.385818E+02    0.245917E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.363173E+02    0.255592E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.344535E+02    0.268377E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.332769E+02    0.256035E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.332020E+02    0.237758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.340611E+02    0.220089E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.359062E+02    0.205119E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.379052E+02    0.200521E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.396992E+02    0.205936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.408435E+02    0.219531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.409159E+02    0.238417E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.400123E+02    0.256310E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.382898E+02    0.269081E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.361995E+02    0.273832E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.343649E+02    0.297204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.315549E+02    0.283426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.304018E+02    0.255906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138749E+03   -0.309164E+02    0.223556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.330317E+02    0.194702E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.364210E+02    0.175061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.399358E+02    0.173554E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.428460E+02    0.188741E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.444017E+02    0.215952E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.436160E+02    0.251397E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.411308E+02    0.281226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.378119E+02    0.297002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.80 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683707.381655683     
  ps_ts2 prof sum =   683280.069218103     
  trcom prof sum =    683280.069218102     
  ps_ts2 cur sum  =   11644.3867833268     
  trcom cur sum  =    11644.3867833267     
  
  antenna # iant =            2
  powecha_use(iant) =    677055.267539835     
  ps_ts2 prof sum =   676614.684841794     
  trcom prof sum =    676614.684841794     
  ps_ts2 cur sum  =   14089.2062288808     
  trcom cur sum  =    14089.2062288808     
  
  antenna # iant =            3
  powecha_use(iant) =    523545.158908301     
  ps_ts2 prof sum =   523214.958319692     
  trcom prof sum =    523214.958306728     
  ps_ts2 cur sum  =   7554.05722623268     
  trcom cur sum  =    7554.05722623268     
  
  antenna # iant =            4
  powecha_use(iant) =    562489.063453298     
  ps_ts2 prof sum =   562127.465092378     
  trcom prof sum =    562127.465092378     
  ps_ts2 cur sum  =   10609.0498019259     
  trcom cur sum  =    10609.0498019259     
  
  antenna # iant =            5
  powecha_use(iant) =    544419.331486968     
  ps_ts2 prof sum =   544102.003085852     
  trcom prof sum =    544102.003085852     
  ps_ts2 cur sum  =   12474.4735095667     
  trcom cur sum  =    12474.4735095667     
  
  Total ECH heating:      2989339.18054486     
  Total Current Drive:    56371.1735499328     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1686
 TA= 2.00000E+00 CPU TIME= 1.61115E-01 SECONDS.  DT= 3.51906E-04
  
 TEC1=    1.99999999999998     
 TEC2=    2.00499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.41409777777790     
  %check_save_state: izleft hours =    75.5775000000000     
 --> plasma_hash("gframe"): TA= 2.000000E+00 NSTEP=  1686 Hash code:   65543389
 ->PRGCHK: bdy curvature ratio at t= 2.0050E+00 seconds is:  5.2192E-02
% MHDEQ: TG1=     2.000000 ; TG2=     2.005000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7734E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2192E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.000000 TO TG2=    2.005000 @ NSTEP     1686
   GFRAME TG2 MOMENTS CHECKSUM:  2.4745229655719D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0050E+00  2.0100E+00 total power(Watts):  2.9901E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.00500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.359166E+02    0.382853E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.340006E+02    0.384313E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.353969E+02    0.367930E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.374742E+02    0.372446E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.374495E+02    0.391241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.352861E+02    0.398481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.334211E+02    0.409643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.323677E+02    0.396627E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.322417E+02    0.380131E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.330365E+02    0.364627E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.346207E+02    0.353680E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.365951E+02    0.350322E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.384442E+02    0.355657E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.396394E+02    0.368438E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.397714E+02    0.385439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.388418E+02    0.401780E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.372108E+02    0.412499E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.352269E+02    0.415273E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.333708E+02    0.436904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.307842E+02    0.420938E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.293676E+02    0.396281E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.299312E+02    0.366565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.318210E+02    0.342357E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.351073E+02    0.326499E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.385638E+02    0.326705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.414914E+02    0.341920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.430655E+02    0.368078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.426281E+02    0.398529E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.403022E+02    0.424493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.367810E+02    0.438608E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.04 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.368754E+02    0.299215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.349444E+02    0.301368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.363330E+02    0.284109E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.384330E+02    0.288107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.383366E+02    0.307831E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.361671E+02    0.315890E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.343011E+02    0.327858E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.332249E+02    0.314965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.329931E+02    0.298939E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.338615E+02    0.282213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.356223E+02    0.269007E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.376118E+02    0.264912E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.394852E+02    0.269804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.406108E+02    0.283204E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.407649E+02    0.300537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.397508E+02    0.318043E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.381211E+02    0.329398E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.361261E+02    0.332917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.341872E+02    0.356293E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.315693E+02    0.340697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138824E+03   -0.302004E+02    0.315694E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138873E+03   -0.306553E+02    0.285768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.327800E+02    0.258175E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.360787E+02    0.240473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.396629E+02    0.238875E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.425381E+02    0.254479E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.441614E+02    0.280776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.435538E+02    0.312993E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.410422E+02    0.341353E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.376191E+02    0.356836E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.358974E+02    0.435069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.339817E+02    0.436004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.352944E+02    0.420557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.374606E+02    0.425106E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.374258E+02    0.443730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.352598E+02    0.450267E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.334806E+02    0.460368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.323448E+02    0.447762E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.322275E+02    0.431541E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.330298E+02    0.416285E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.346197E+02    0.405699E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.365960E+02    0.402803E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.385395E+02    0.408191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.397313E+02    0.421322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.399531E+02    0.437906E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.389126E+02    0.454038E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.373707E+02    0.463883E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.351932E+02    0.466709E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.334193E+02    0.487517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.307547E+02    0.471324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.295111E+02    0.445886E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.297672E+02    0.418473E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.319149E+02    0.393252E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.350347E+02    0.379493E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.384849E+02    0.380432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.416043E+02    0.395282E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.430583E+02    0.422402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.426034E+02    0.452438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.403676E+02    0.477019E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.368333E+02    0.490056E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.362352E+02    0.344805E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.344045E+02    0.346028E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.357075E+02    0.329685E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.378862E+02    0.333368E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.377757E+02    0.353004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.356112E+02    0.360621E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.338356E+02    0.371546E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.325992E+02    0.359793E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.324658E+02    0.343194E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.334271E+02    0.326083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.350111E+02    0.314795E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.369910E+02    0.311126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.388491E+02    0.316190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.399591E+02    0.329494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.400989E+02    0.346768E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.391768E+02    0.363343E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.375476E+02    0.374269E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.355607E+02    0.377360E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.337075E+02    0.399543E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.309423E+02    0.384727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138787E+03   -0.296775E+02    0.359400E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.301486E+02    0.329734E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138441E+03   -0.321931E+02    0.303884E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.354826E+02    0.287453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.389517E+02    0.287177E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.418979E+02    0.301905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.434931E+02    0.327876E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.429665E+02    0.359256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.406504E+02    0.385585E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.371269E+02    0.400691E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.370000E+02    0.237871E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.351531E+02    0.239782E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.365328E+02    0.221406E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.386461E+02    0.225132E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.385676E+02    0.245844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.363048E+02    0.255503E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.344423E+02    0.268269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.332657E+02    0.255964E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.331899E+02    0.237731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.340476E+02    0.220077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.358907E+02    0.205098E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.378889E+02    0.200487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.396826E+02    0.205895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.408272E+02    0.219495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.409001E+02    0.238361E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.399989E+02    0.256205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.382773E+02    0.268960E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.361881E+02    0.273717E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.343546E+02    0.297136E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.315448E+02    0.283344E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139014E+03   -0.303127E+02    0.256643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138768E+03   -0.309039E+02    0.223549E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138459E+03   -0.330168E+02    0.194678E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.364051E+02    0.175030E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.399166E+02    0.173517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.428277E+02    0.188680E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.443839E+02    0.215892E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.436001E+02    0.251280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.411174E+02    0.281097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.378016E+02    0.296921E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681873.782303851     
  ps_ts2 prof sum =   681449.807629837     
  trcom prof sum =    681449.807587630     
  ps_ts2 cur sum  =   11545.2033644511     
  trcom cur sum  =    11545.2033644510     
  
  antenna # iant =            2
  powecha_use(iant) =    677897.794625584     
  ps_ts2 prof sum =   677471.884489202     
  trcom prof sum =    677471.884489202     
  ps_ts2 cur sum  =   14041.9762240521     
  trcom cur sum  =    14041.9762240521     
  
  antenna # iant =            3
  powecha_use(iant) =    524879.427394310     
  ps_ts2 prof sum =   524547.338251959     
  trcom prof sum =    524547.338240587     
  ps_ts2 cur sum  =   7520.40417279876     
  trcom cur sum  =    7520.40417279875     
  
  antenna # iant =            4
  powecha_use(iant) =    559810.572528464     
  ps_ts2 prof sum =   559425.393475682     
  trcom prof sum =    559425.393475682     
  ps_ts2 cur sum  =   10503.7128452282     
  trcom cur sum  =    10503.7128452282     
  
  antenna # iant =            5
  powecha_use(iant) =    545619.527618106     
  ps_ts2 prof sum =   545301.403965926     
  trcom prof sum =    545301.403965926     
  ps_ts2 cur sum  =   12451.6317215287     
  trcom cur sum  =    12451.6317215287     
  
  Total ECH heating:      2988195.82775903     
  Total Current Drive:    56062.9283280589     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1693
 TA= 2.00500E+00 CPU TIME= 1.64978E-01 SECONDS.  DT= 1.29746E-03
  
 TEC1=    2.00499999999998     
 TEC2=    2.00999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.42828055555515     
  %check_save_state: izleft hours =    75.5633333333333     
 --> plasma_hash("gframe"): TA= 2.005000E+00 NSTEP=  1693 Hash code:    5905738
 ->PRGCHK: bdy curvature ratio at t= 2.0100E+00 seconds is:  5.2238E-02
% MHDEQ: TG1=     2.005000 ; TG2=     2.010000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2238E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.005000 TO TG2=    2.010000 @ NSTEP     1693
   GFRAME TG2 MOMENTS CHECKSUM:  2.4747491994793D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.90818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.66112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.74103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.82424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4=  5.30694E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.18448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.26090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.53025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.27690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.04814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.28662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  1.99304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  2.21771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16=  2.26326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  4.34569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.29063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.87977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.22992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.22992E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0100E+00  2.0150E+00 total power(Watts):  2.9899E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.01000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.359141E+02    0.382852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.340877E+02    0.383810E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.353948E+02    0.367924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.374715E+02    0.372436E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.374473E+02    0.391250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.352843E+02    0.398491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.335082E+02    0.409226E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.323662E+02    0.396643E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.322404E+02    0.380132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.331209E+02    0.364075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.347078E+02    0.353102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.365921E+02    0.350303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.384415E+02    0.355635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.396391E+02    0.368419E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.397689E+02    0.385441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.390378E+02    0.400917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.372089E+02    0.412539E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.352252E+02    0.415319E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.333696E+02    0.436964E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.307831E+02    0.420988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.295278E+02    0.395291E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.298503E+02    0.367118E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.319863E+02    0.341109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.351040E+02    0.326425E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.385600E+02    0.326629E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.414879E+02    0.341873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.431676E+02    0.367583E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.426260E+02    0.398529E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.403004E+02    0.424543E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.367793E+02    0.438667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.368713E+02    0.299097E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.349405E+02    0.301257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.363282E+02    0.283994E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.384282E+02    0.287987E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.383327E+02    0.307712E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.361635E+02    0.315795E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.343866E+02    0.327159E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.331354E+02    0.315538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.331603E+02    0.297431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.340303E+02    0.280650E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.356171E+02    0.268884E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.376061E+02    0.264783E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.394796E+02    0.269663E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.406055E+02    0.283075E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.407607E+02    0.300409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.398463E+02    0.317316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.381174E+02    0.329333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.361229E+02    0.332848E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.342740E+02    0.355722E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.315670E+02    0.340663E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138833E+03   -0.301974E+02    0.315614E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.307321E+02    0.284923E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.327744E+02    0.258050E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.361621E+02    0.239526E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.396561E+02    0.238718E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.425314E+02    0.254316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.441556E+02    0.280625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.434445E+02    0.313469E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.410386E+02    0.341302E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.377122E+02    0.356273E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.358961E+02    0.435125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.340705E+02    0.435684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.353852E+02    0.420196E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.374590E+02    0.425157E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.374242E+02    0.443788E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.352587E+02    0.450320E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.334795E+02    0.460418E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.324307E+02    0.447461E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.322262E+02    0.431597E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.330283E+02    0.416330E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.346180E+02    0.405722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.365939E+02    0.402823E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.384397E+02    0.408633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.396290E+02    0.421749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.399514E+02    0.437960E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.391109E+02    0.453466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.372732E+02    0.464219E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.352848E+02    0.466463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.334188E+02    0.487578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.307558E+02    0.471367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.295107E+02    0.445938E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.299276E+02    0.417642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.319132E+02    0.393270E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.350325E+02    0.379496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.384822E+02    0.380433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.416022E+02    0.395286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.431627E+02    0.422083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.427083E+02    0.452197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.403665E+02    0.477069E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.370251E+02    0.489651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.74 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.363249E+02    0.344187E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.344020E+02    0.346000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.357955E+02    0.329005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.378829E+02    0.333305E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.377728E+02    0.352986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.356090E+02    0.360616E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.338338E+02    0.371548E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.327687E+02    0.358659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.326333E+02    0.341955E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.334239E+02    0.326013E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.350974E+02    0.314048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.370808E+02    0.310373E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.388485E+02    0.316062E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.400547E+02    0.328828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.401957E+02    0.346182E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.392725E+02    0.362814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.375448E+02    0.374266E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.355582E+02    0.377367E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.337061E+02    0.399553E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.311081E+02    0.383698E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.298350E+02    0.358236E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138769E+03   -0.301462E+02    0.329680E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.323572E+02    0.302404E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.354782E+02    0.287344E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.390432E+02    0.286368E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.418935E+02    0.301768E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.434893E+02    0.327781E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.429636E+02    0.359231E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.406477E+02    0.385585E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.371248E+02    0.400708E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.370848E+02    0.236927E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.351468E+02    0.239639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.365248E+02    0.221265E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.387326E+02    0.224156E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.385613E+02    0.245694E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.363895E+02    0.254603E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.343501E+02    0.268906E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.334293E+02    0.254263E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.331846E+02    0.237592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.342109E+02    0.218228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.358829E+02    0.204966E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.378803E+02    0.200348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.397690E+02    0.204910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.408195E+02    0.219333E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.409914E+02    0.237413E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.399923E+02    0.256050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.382715E+02    0.268830E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.362736E+02    0.272862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.343504E+02    0.297040E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.315413E+02    0.283237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.303870E+02    0.255719E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.308984E+02    0.223427E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138470E+03   -0.330094E+02    0.194572E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.363933E+02    0.174922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.399076E+02    0.173396E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.428171E+02    0.188542E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.443744E+02    0.215719E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.435931E+02    0.251111E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.412133E+02    0.280272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.377968E+02    0.296807E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.71 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682649.540192529     
  ps_ts2 prof sum =   682245.065496671     
  trcom prof sum =    682245.065496670     
  ps_ts2 cur sum  =   11554.6690049032     
  trcom cur sum  =    11554.6690049031     
  
  antenna # iant =            2
  powecha_use(iant) =    675990.850982318     
  ps_ts2 prof sum =   675569.088987534     
  trcom prof sum =    675569.088987534     
  ps_ts2 cur sum  =   14006.8121150892     
  trcom cur sum  =    14006.8121150892     
  
  antenna # iant =            3
  powecha_use(iant) =    524854.000694793     
  ps_ts2 prof sum =   524532.427173137     
  trcom prof sum =    524532.427161001     
  ps_ts2 cur sum  =   7510.24221819395     
  trcom cur sum  =    7510.24221819394     
  
  antenna # iant =            4
  powecha_use(iant) =    561809.415831895     
  ps_ts2 prof sum =   561495.690210225     
  trcom prof sum =    561495.690210225     
  ps_ts2 cur sum  =   10542.3427516729     
  trcom cur sum  =    10542.3427516729     
  
  antenna # iant =            5
  powecha_use(iant) =    544553.917441339     
  ps_ts2 prof sum =   544254.601542155     
  trcom prof sum =    544254.601542154     
  ps_ts2 cur sum  =   12428.8381043540     
  trcom cur sum  =    12428.8381043540     
  
  Total ECH heating:      2988096.87339758     
  Total Current Drive:    56042.9041942132     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1697
 TA= 2.01000E+00 CPU TIME= 1.60099E-01 SECONDS.  DT= 6.67969E-05
  
 TEC1=    2.00999999999998     
 TEC2=    2.01499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.44515916666637     
  %check_save_state: izleft hours =    75.5463888888889     
 --> plasma_hash("gframe"): TA= 2.010000E+00 NSTEP=  1697 Hash code:   77572482
 ->PRGCHK: bdy curvature ratio at t= 2.0150E+00 seconds is:  5.2285E-02
% MHDEQ: TG1=     2.010000 ; TG2=     2.015000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7720E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2285E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.010000 TO TG2=    2.015000 @ NSTEP     1697
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749754333866D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0150E+00  2.0200E+00 total power(Watts):  2.9972E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.01500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.359116E+02    0.382856E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.340847E+02    0.383827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.353922E+02    0.367902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.375640E+02    0.371911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.374444E+02    0.391264E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.352819E+02    0.398517E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.335060E+02    0.409267E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.324500E+02    0.396188E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.321529E+02    0.380656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.331181E+02    0.364054E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.347049E+02    0.353062E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.366825E+02    0.349691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.384382E+02    0.355592E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.396379E+02    0.368383E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.399664E+02    0.384499E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.389360E+02    0.401381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.372068E+02    0.412569E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.352228E+02    0.415358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.334567E+02    0.436623E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.307816E+02    0.421028E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.295277E+02    0.395306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138527E+03   -0.298478E+02    0.367110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.319836E+02    0.341058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.350997E+02    0.326356E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.385564E+02    0.326533E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.416888E+02    0.340690E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.431639E+02    0.367557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.426229E+02    0.398554E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.401965E+02    0.424951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.368731E+02    0.438348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.368669E+02    0.298967E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.350259E+02    0.300450E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.364149E+02    0.283132E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.385186E+02    0.287140E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.384235E+02    0.306953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.362513E+02    0.315054E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.343827E+02    0.327090E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.333043E+02    0.314121E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.331564E+02    0.297324E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.340254E+02    0.280508E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.357011E+02    0.267977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.376936E+02    0.263866E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.394729E+02    0.269494E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.406992E+02    0.282220E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.407555E+02    0.300269E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.398413E+02    0.317216E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.381141E+02    0.329240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.361192E+02    0.332788E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.342710E+02    0.355694E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.314808E+02    0.341233E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.302742E+02    0.314853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138668E+03   -0.307279E+02    0.284796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.329364E+02    0.256344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.361550E+02    0.239396E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.396479E+02    0.238559E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.426261E+02    0.253402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.440448E+02    0.281106E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.436494E+02    0.312139E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.412374E+02    0.340116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.377088E+02    0.356236E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.358944E+02    0.435163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.340688E+02    0.435722E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.353837E+02    0.420228E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.374570E+02    0.425191E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.374227E+02    0.443822E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.353499E+02    0.450020E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.334787E+02    0.460461E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.324296E+02    0.447499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.322253E+02    0.431633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.330265E+02    0.416366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.346159E+02    0.405758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.365914E+02    0.402850E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.384375E+02    0.408661E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.398278E+02    0.421015E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.398482E+02    0.438343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.391092E+02    0.453503E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.372720E+02    0.464266E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.352836E+02    0.466511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.334177E+02    0.487650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.308398E+02    0.471110E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.295097E+02    0.445979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.299261E+02    0.417680E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.319116E+02    0.393283E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.350296E+02    0.379492E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.384792E+02    0.380430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.414957E+02    0.395737E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.431600E+02    0.422118E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.427067E+02    0.452225E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.404673E+02    0.476882E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.369275E+02    0.489962E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.363216E+02    0.344133E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.343990E+02    0.345951E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.357912E+02    0.328935E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.378791E+02    0.333240E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.378654E+02    0.352389E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.356979E+02    0.360038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.338316E+02    0.371527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.327656E+02    0.358633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.326305E+02    0.341903E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.335068E+02    0.325302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.350937E+02    0.313948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.370766E+02    0.310264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.388463E+02    0.315947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.400513E+02    0.328734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.401920E+02    0.346121E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.392690E+02    0.362782E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.375420E+02    0.374253E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.355550E+02    0.377363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.337919E+02    0.399117E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.311081E+02    0.383695E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138570E+03   -0.297529E+02    0.358794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.302235E+02    0.328970E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.323540E+02    0.302295E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.355633E+02    0.286492E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.390380E+02    0.286206E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.420928E+02    0.300346E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.435905E+02    0.327103E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.430646E+02    0.358686E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.405430E+02    0.386044E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.372187E+02    0.400277E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.370773E+02    0.236785E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.351399E+02    0.239500E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.366065E+02    0.220288E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.387249E+02    0.224010E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.385538E+02    0.245540E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.363830E+02    0.254454E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.345186E+02    0.267252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.334240E+02    0.254124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.331766E+02    0.237469E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.342032E+02    0.218098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.358742E+02    0.204826E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.378708E+02    0.200212E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.397594E+02    0.204760E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.409080E+02    0.218361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.409841E+02    0.237250E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.399858E+02    0.255880E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.382660E+02    0.268654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.362659E+02    0.272720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.343463E+02    0.296914E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.316999E+02    0.281631E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138813E+03   -0.303825E+02    0.255592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138790E+03   -0.308916E+02    0.223307E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.330013E+02    0.194443E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.363848E+02    0.174794E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.399904E+02    0.172346E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.429064E+02    0.187516E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.442609E+02    0.216347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.437926E+02    0.249459E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.412071E+02    0.280098E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.377920E+02    0.296668E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684846.462500353     
  ps_ts2 prof sum =   684418.229267729     
  trcom prof sum =    684418.229267728     
  ps_ts2 cur sum  =   11583.0974135560     
  trcom cur sum  =    11583.0974135560     
  
  antenna # iant =            2
  powecha_use(iant) =    676151.686751713     
  ps_ts2 prof sum =   675774.506385381     
  trcom prof sum =    675774.506385381     
  ps_ts2 cur sum  =   14009.7655041950     
  trcom cur sum  =    14009.7655041950     
  
  antenna # iant =            3
  powecha_use(iant) =    523411.236553680     
  ps_ts2 prof sum =   523058.334547503     
  trcom prof sum =    523058.334534450     
  ps_ts2 cur sum  =   7476.29964946713     
  trcom cur sum  =    7476.29964946713     
  
  antenna # iant =            4
  powecha_use(iant) =    566791.265755816     
  ps_ts2 prof sum =   566469.762340605     
  trcom prof sum =    566469.762340605     
  ps_ts2 cur sum  =   10633.7098947544     
  trcom cur sum  =    10633.7098947544     
  
  antenna # iant =            5
  powecha_use(iant) =    545992.509963180     
  ps_ts2 prof sum =   545697.634419491     
  trcom prof sum =    545697.634419491     
  ps_ts2 cur sum  =   12460.4550795193     
  trcom cur sum  =    12460.4550795193     
  
  Total ECH heating:      2995418.46694765     
  Total Current Drive:    56163.3275414918     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1711
 TA= 2.01500E+00 CPU TIME= 1.59775E-01 SECONDS.  DT= 5.08845E-04
  
 TEC1=    2.01499999999998     
 TEC2=    2.01999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.46063861111065     
  %check_save_state: izleft hours =    75.5308333333333     
 --> plasma_hash("gframe"): TA= 2.015000E+00 NSTEP=  1711 Hash code:  122598869
 ->PRGCHK: bdy curvature ratio at t= 2.0200E+00 seconds is:  5.2332E-02
% MHDEQ: TG1=     2.015000 ; TG2=     2.020000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7713E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2332E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.015000 TO TG2=    2.020000 @ NSTEP     1711
   GFRAME TG2 MOMENTS CHECKSUM:  2.4752016851591D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.96933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.86241E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.61458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.70733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -1.86180E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.18873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.58810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.54506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.02612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.70796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.18265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7=  1.56949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.96833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16=  1.36015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  2.88610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.46333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.76591E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.50508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.50508E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0200E+00  2.0250E+00 total power(Watts):  2.9966E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.02000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.360030E+02    0.382390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.340837E+02    0.383853E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.353905E+02    0.367906E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.375625E+02    0.371928E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.374435E+02    0.391297E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.353728E+02    0.398097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.335053E+02    0.409314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.324491E+02    0.396226E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.323220E+02    0.379636E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.331180E+02    0.364049E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.347031E+02    0.353046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.366807E+02    0.349669E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.385334E+02    0.355036E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.396332E+02    0.368406E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.398648E+02    0.384998E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.389354E+02    0.401416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.372059E+02    0.412624E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.352230E+02    0.415399E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.334565E+02    0.436677E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.307817E+02    0.421075E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.294491E+02    0.395829E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.298477E+02    0.367112E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.319818E+02    0.341029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.350981E+02    0.326292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.386513E+02    0.325864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.416865E+02    0.340645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.431624E+02    0.367549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.427269E+02    0.398166E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.403988E+02    0.424263E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.368728E+02    0.438404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.368645E+02    0.298859E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.350233E+02    0.300358E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.364114E+02    0.283004E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.385153E+02    0.287016E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.384214E+02    0.306851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.362493E+02    0.314976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.343806E+02    0.327033E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.333018E+02    0.314051E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.331544E+02    0.297221E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.340223E+02    0.280387E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.356974E+02    0.267849E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.376899E+02    0.263734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.394690E+02    0.269349E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.406956E+02    0.282076E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.407527E+02    0.300152E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.398391E+02    0.317131E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.381121E+02    0.329186E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.361175E+02    0.332740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.342703E+02    0.355671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.314794E+02    0.341198E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.302721E+02    0.314786E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.307249E+02    0.284692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.329330E+02    0.256211E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.361499E+02    0.239260E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.397389E+02    0.237634E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.426212E+02    0.253243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.440409E+02    0.280946E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.436471E+02    0.312023E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.411340E+02    0.340628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.377075E+02    0.356218E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.359875E+02    0.434851E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.340685E+02    0.435779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.353833E+02    0.420280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.375527E+02    0.424863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.376161E+02    0.443190E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.353497E+02    0.450081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.334785E+02    0.460529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.324296E+02    0.447554E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.322249E+02    0.431689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.331137E+02    0.415989E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.346152E+02    0.405800E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.365906E+02    0.402894E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.384364E+02    0.408711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.398269E+02    0.421072E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.400502E+02    0.437709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.391098E+02    0.453556E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.372719E+02    0.464333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.352843E+02    0.466571E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.335075E+02    0.487477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.308361E+02    0.471196E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.294299E+02    0.446403E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.299261E+02    0.417730E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.319100E+02    0.393327E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.350289E+02    0.379512E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.385722E+02    0.379981E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.417017E+02    0.394896E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.431591E+02    0.422170E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134249E+03   -0.427062E+02    0.452288E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.404673E+02    0.476957E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.369277E+02    0.490045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.363175E+02    0.344112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.344865E+02    0.345339E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.357897E+02    0.328877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.378770E+02    0.333183E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.378642E+02    0.352363E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.356973E+02    0.360024E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.338301E+02    0.371537E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.327658E+02    0.358617E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.326288E+02    0.341875E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.335045E+02    0.325255E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.350915E+02    0.313876E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.370744E+02    0.310175E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.389369E+02    0.315262E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.400489E+02    0.328676E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.401899E+02    0.346083E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.392678E+02    0.362776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.376362E+02    0.373760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.356465E+02    0.376865E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.337921E+02    0.399152E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.311033E+02    0.383743E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.297520E+02    0.358794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.302226E+02    0.328924E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.323521E+02    0.302201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.355604E+02    0.286368E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.390346E+02    0.286077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.419876E+02    0.300867E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.435883E+02    0.327027E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.430632E+02    0.358661E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.405418E+02    0.386076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.372178E+02    0.400318E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.370719E+02    0.236648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.350470E+02    0.240186E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.366016E+02    0.220159E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.387182E+02    0.223883E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.385489E+02    0.245396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.363785E+02    0.254307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.345153E+02    0.267118E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.334197E+02    0.254001E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.333411E+02    0.235694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.341129E+02    0.218840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.358682E+02    0.204703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.379558E+02    0.199206E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.397531E+02    0.204617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.409013E+02    0.218226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.409776E+02    0.237109E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.399814E+02    0.255732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.382622E+02    0.268517E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.362641E+02    0.272569E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.343440E+02    0.296808E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.316156E+02    0.282256E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138823E+03   -0.303782E+02    0.255472E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138800E+03   -0.308866E+02    0.223204E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.329939E+02    0.194336E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.363772E+02    0.174684E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.399823E+02    0.172226E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.428985E+02    0.187374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.442549E+02    0.216190E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.437875E+02    0.249293E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.412036E+02    0.279951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.377896E+02    0.296557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687643.618972388     
  ps_ts2 prof sum =   687225.621637003     
  trcom prof sum =    687225.621637003     
  ps_ts2 cur sum  =   11635.0705275325     
  trcom cur sum  =    11635.0705275325     
  
  antenna # iant =            2
  powecha_use(iant) =    678519.268879070     
  ps_ts2 prof sum =   678112.095251153     
  trcom prof sum =    678112.095251152     
  ps_ts2 cur sum  =   14072.9843124946     
  trcom cur sum  =    14072.9843124946     
  
  antenna # iant =            3
  powecha_use(iant) =    522570.045748200     
  ps_ts2 prof sum =   522236.687275135     
  trcom prof sum =    522236.687261544     
  ps_ts2 cur sum  =   7459.68107562127     
  trcom cur sum  =    7459.68107562126     
  
  antenna # iant =            4
  powecha_use(iant) =    563461.840853328     
  ps_ts2 prof sum =   563133.052668973     
  trcom prof sum =    563133.052668973     
  ps_ts2 cur sum  =   10579.3681397847     
  trcom cur sum  =    10579.3681397847     
  
  antenna # iant =            5
  powecha_use(iant) =    544405.718942614     
  ps_ts2 prof sum =   544080.468168417     
  trcom prof sum =    544080.468168417     
  ps_ts2 cur sum  =   12435.0994494438     
  trcom cur sum  =    12435.0994494438     
  
  Total ECH heating:      2994787.92498709     
  Total Current Drive:    56182.2035048769     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1717
 TA= 2.02000E+00 CPU TIME= 1.60087E-01 SECONDS.  DT= 1.02987E-03
  
 TEC1=    2.01999999999998     
 TEC2=    2.02499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.47435277777754     
  %check_save_state: izleft hours =    75.5172222222222     
 --> plasma_hash("gframe"): TA= 2.020000E+00 NSTEP=  1717 Hash code:    9679650
 ->PRGCHK: bdy curvature ratio at t= 2.0250E+00 seconds is:  5.2376E-02
% MHDEQ: TG1=     2.020000 ; TG2=     2.025000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7706E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2376E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.020000 TO TG2=    2.025000 @ NSTEP     1717
   GFRAME TG2 MOMENTS CHECKSUM:  2.4754279369315D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0250E+00  2.0300E+00 total power(Watts):  2.9898E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.02500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.360037E+02    0.382422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.340848E+02    0.383876E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.353908E+02    0.367928E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.375633E+02    0.371936E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.374444E+02    0.391337E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.353737E+02    0.398145E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.335070E+02    0.409368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.324502E+02    0.396272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.323230E+02    0.379662E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.331176E+02    0.364068E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.347036E+02    0.353047E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.366810E+02    0.349664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.385337E+02    0.355031E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.396338E+02    0.368413E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.398655E+02    0.385027E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.389366E+02    0.401466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.372070E+02    0.412681E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.353158E+02    0.415045E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.334578E+02    0.436750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.307830E+02    0.421138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.294461E+02    0.395898E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.298480E+02    0.367123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.319822E+02    0.341008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.350985E+02    0.326254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.386514E+02    0.325818E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.416866E+02    0.340613E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.431628E+02    0.367559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.427278E+02    0.398215E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.403999E+02    0.424331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.368697E+02    0.438492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.368637E+02    0.298776E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.350227E+02    0.300283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.364106E+02    0.282893E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.385139E+02    0.286912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.384211E+02    0.306774E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.362495E+02    0.314908E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.343810E+02    0.326997E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.333021E+02    0.313990E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.331536E+02    0.297141E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.340218E+02    0.280285E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.356962E+02    0.267732E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.376884E+02    0.263613E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.394678E+02    0.269223E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.406941E+02    0.281960E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.409474E+02    0.298780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.398390E+02    0.317060E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.381120E+02    0.329143E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.361180E+02    0.332700E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.342707E+02    0.355669E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.314808E+02    0.341177E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.302726E+02    0.314734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.307246E+02    0.284600E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.329302E+02    0.256109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.361469E+02    0.239141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.397365E+02    0.237503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.426188E+02    0.253104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.440396E+02    0.280823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.436466E+02    0.311941E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.411343E+02    0.340598E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.377075E+02    0.356224E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.359887E+02    0.434921E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.340697E+02    0.435851E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.353843E+02    0.420342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.375538E+02    0.424932E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.375207E+02    0.443608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.353513E+02    0.450152E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.335691E+02    0.460286E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.324311E+02    0.447626E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.323122E+02    0.431360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.331152E+02    0.416047E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.347070E+02    0.405405E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.365918E+02    0.402946E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.384375E+02    0.408764E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.398279E+02    0.421139E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.400514E+02    0.437782E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.391108E+02    0.453640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.372732E+02    0.464416E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.352856E+02    0.466657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.335090E+02    0.487577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.308378E+02    0.471279E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.294313E+02    0.446472E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.299283E+02    0.417784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.319111E+02    0.393370E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.350296E+02    0.379539E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.385750E+02    0.379987E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.417023E+02    0.394942E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.431602E+02    0.422234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.427074E+02    0.452362E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.404688E+02    0.477048E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.369288E+02    0.490156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.363194E+02    0.344089E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.344865E+02    0.345329E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.357900E+02    0.328841E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.378772E+02    0.333152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.378637E+02    0.352364E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.356967E+02    0.360035E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.338305E+02    0.371561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.327660E+02    0.358621E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.326294E+02    0.341857E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.335051E+02    0.325212E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.350918E+02    0.313811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.370745E+02    0.310100E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.389370E+02    0.315188E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.400491E+02    0.328625E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.401901E+02    0.346063E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.392679E+02    0.362778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.376369E+02    0.373775E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.356471E+02    0.376888E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.337920E+02    0.399209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.311042E+02    0.383777E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138581E+03   -0.297524E+02    0.358796E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.302225E+02    0.328895E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.323522E+02    0.302129E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.355598E+02    0.286270E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.390332E+02    0.285970E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.419870E+02    0.300773E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.435878E+02    0.326986E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.430633E+02    0.358660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.405426E+02    0.386109E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.372174E+02    0.400377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.370694E+02    0.236527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.350443E+02    0.240074E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.365976E+02    0.220047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.387145E+02    0.223760E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.385468E+02    0.245270E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.363768E+02    0.254187E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.345140E+02    0.267006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.334172E+02    0.253888E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.333379E+02    0.235581E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.341088E+02    0.218741E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.358638E+02    0.204595E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.379511E+02    0.199095E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.397485E+02    0.204504E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.408973E+02    0.218098E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.409746E+02    0.236974E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.399789E+02    0.255604E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.382607E+02    0.268397E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.362646E+02    0.272445E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.343408E+02    0.296736E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138457E+03   -0.316152E+02    0.282158E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138841E+03   -0.303731E+02    0.255403E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138810E+03   -0.308833E+02    0.223106E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.329899E+02    0.194238E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.363718E+02    0.174583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.399763E+02    0.172120E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.428921E+02    0.187254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.442498E+02    0.216052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.437850E+02    0.249150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.412018E+02    0.279832E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.377886E+02    0.296459E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.04 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686813.548015748     
  ps_ts2 prof sum =   686394.298088925     
  trcom prof sum =    686394.298088925     
  ps_ts2 cur sum  =   11638.2294664911     
  trcom cur sum  =    11638.2294664911     
  
  antenna # iant =            2
  powecha_use(iant) =    675724.138547632     
  ps_ts2 prof sum =   675327.588166744     
  trcom prof sum =    675327.588166744     
  ps_ts2 cur sum  =   14041.3436125024     
  trcom cur sum  =    14041.3436125024     
  
  antenna # iant =            3
  powecha_use(iant) =    524756.211961629     
  ps_ts2 prof sum =   524419.817725392     
  trcom prof sum =    524419.817711559     
  ps_ts2 cur sum  =   7494.80792638029     
  trcom cur sum  =    7494.80792638028     
  
  antenna # iant =            4
  powecha_use(iant) =    557209.936551318     
  ps_ts2 prof sum =   556881.266413132     
  trcom prof sum =    556881.266413132     
  ps_ts2 cur sum  =   10480.9382462854     
  trcom cur sum  =    10480.9382462854     
  
  antenna # iant =            5
  powecha_use(iant) =    545335.278919395     
  ps_ts2 prof sum =   545007.641287509     
  trcom prof sum =    545007.641287508     
  ps_ts2 cur sum  =   12476.8083280264     
  trcom cur sum  =    12476.8083280264     
  
  Total ECH heating:      2988030.61166787     
  Total Current Drive:    56132.1275796857     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1721
 TA= 2.02500E+00 CPU TIME= 1.59172E-01 SECONDS.  DT= 1.34204E-03
  
 TEC1=    2.02499999999998     
 TEC2=    2.02999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.48669555555534     
  %check_save_state: izleft hours =    75.5050000000000     
 --> plasma_hash("gframe"): TA= 2.025000E+00 NSTEP=  1721 Hash code:   99499916
 ->PRGCHK: bdy curvature ratio at t= 2.0300E+00 seconds is:  5.2401E-02
% MHDEQ: TG1=     2.025000 ; TG2=     2.030000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7699E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2401E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.025000 TO TG2=    2.030000 @ NSTEP     1721
   GFRAME TG2 MOMENTS CHECKSUM:  2.4756541887040D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.03017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -6.06264E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.48350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.82958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.59104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -3.10302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.91357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.55979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.77667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.36958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.27919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8= -6.27894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.72163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -4.51809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  1.43424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.63511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.65266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.34913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.34913E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0300E+00  2.0350E+00 total power(Watts):  2.9969E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.03000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.360052E+02    0.382530E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.340864E+02    0.383991E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.354840E+02    0.367482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.375645E+02    0.372043E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.374457E+02    0.391465E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.353759E+02    0.398268E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.335079E+02    0.409513E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.324523E+02    0.396393E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.323244E+02    0.379775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.331191E+02    0.364154E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.347052E+02    0.353110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.366824E+02    0.349722E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.385350E+02    0.355105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.398346E+02    0.367497E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.398672E+02    0.385145E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.389379E+02    0.401607E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.373040E+02    0.412413E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.353169E+02    0.415194E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.334588E+02    0.436908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.307016E+02    0.421709E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.294479E+02    0.396018E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138543E+03   -0.298494E+02    0.367217E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.319847E+02    0.341057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.351902E+02    0.325646E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.386525E+02    0.325847E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.416879E+02    0.340668E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.431648E+02    0.367658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.427290E+02    0.398360E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.404009E+02    0.424498E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.368725E+02    0.438645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.368647E+02    0.298752E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.350235E+02    0.300268E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.364114E+02    0.282847E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.385152E+02    0.286857E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.384224E+02    0.306762E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.362509E+02    0.314916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.343823E+02    0.327025E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.333029E+02    0.314001E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.330701E+02    0.297818E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.340224E+02    0.280234E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.356968E+02    0.267674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.376889E+02    0.263543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.395651E+02    0.268426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.406953E+02    0.281901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.408515E+02    0.299387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.398402E+02    0.317076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.382095E+02    0.328569E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.361196E+02    0.332735E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.342716E+02    0.355749E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.316468E+02    0.340003E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.302741E+02    0.314745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138696E+03   -0.307259E+02    0.284563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.329312E+02    0.256042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.361470E+02    0.239076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.397356E+02    0.237430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.426190E+02    0.253023E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.442511E+02    0.279411E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.436482E+02    0.311935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.411360E+02    0.340646E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.377091E+02    0.356295E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.359897E+02    0.435082E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.340708E+02    0.436006E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.353854E+02    0.420497E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.375548E+02    0.425093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.375214E+02    0.443782E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.353522E+02    0.450321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.335699E+02    0.460457E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.324320E+02    0.447786E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.323133E+02    0.431515E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.331162E+02    0.416194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.347084E+02    0.405546E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.366877E+02    0.402640E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.386350E+02    0.408074E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.398291E+02    0.421296E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.400522E+02    0.437957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.390117E+02    0.454126E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.374673E+02    0.464011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.352864E+02    0.466829E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.335092E+02    0.487773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.308390E+02    0.471453E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.294324E+02    0.446628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.298486E+02    0.418364E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.319973E+02    0.393003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.350308E+02    0.379649E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.385793E+02    0.380092E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.417036E+02    0.395082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.431612E+02    0.422404E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.427076E+02    0.452563E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.404689E+02    0.477256E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.369291E+02    0.490360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.363228E+02    0.344132E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.344884E+02    0.345379E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.357913E+02    0.328868E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.379747E+02    0.332581E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.378653E+02    0.352434E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.356982E+02    0.360116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.338327E+02    0.371649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.327670E+02    0.358707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.326314E+02    0.341904E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.335063E+02    0.325243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.350925E+02    0.313810E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.370752E+02    0.310095E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.389384E+02    0.315191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.400505E+02    0.328657E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.401919E+02    0.346124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.392692E+02    0.362872E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.376382E+02    0.373880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.356482E+02    0.376997E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.337948E+02    0.399329E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.310226E+02    0.384408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138586E+03   -0.297542E+02    0.358868E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.302241E+02    0.328927E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.322699E+02    0.302811E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.355604E+02    0.286222E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.390345E+02    0.285915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.419883E+02    0.300749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.435890E+02    0.327009E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.430648E+02    0.358744E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.407472E+02    0.385309E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.372193E+02    0.400512E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.370689E+02    0.236461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.352193E+02    0.238384E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.365970E+02    0.219980E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.387142E+02    0.223686E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.386379E+02    0.244441E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.363774E+02    0.254120E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.345149E+02    0.266948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.333333E+02    0.254614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.333382E+02    0.235522E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.341080E+02    0.218677E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.357743E+02    0.205408E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.379498E+02    0.199015E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.397462E+02    0.204413E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.408959E+02    0.218017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.409741E+02    0.236902E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.400766E+02    0.254778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.382608E+02    0.268325E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.362690E+02    0.272359E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.342566E+02    0.297397E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.316165E+02    0.282118E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138844E+03   -0.303754E+02    0.255322E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138820E+03   -0.308827E+02    0.223049E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.329885E+02    0.194176E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.362815E+02    0.175442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.399737E+02    0.172034E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.428898E+02    0.187163E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.442487E+02    0.215967E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.437853E+02    0.249062E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.412029E+02    0.279769E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.377897E+02    0.296438E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688288.911427037     
  ps_ts2 prof sum =   687863.022298957     
  trcom prof sum =    687863.022298956     
  ps_ts2 cur sum  =   11682.1415389138     
  trcom cur sum  =    11682.1415389137     
  
  antenna # iant =            2
  powecha_use(iant) =    675744.303032094     
  ps_ts2 prof sum =   675349.461660885     
  trcom prof sum =    675349.461660885     
  ps_ts2 cur sum  =   14073.3324482727     
  trcom cur sum  =    14073.3324482728     
  
  antenna # iant =            3
  powecha_use(iant) =    524736.486446476     
  ps_ts2 prof sum =   524392.487170275     
  trcom prof sum =    524392.487155689     
  ps_ts2 cur sum  =   7497.25706148578     
  trcom cur sum  =    7497.25706148577     
  
  antenna # iant =            4
  powecha_use(iant) =    562552.804050766     
  ps_ts2 prof sum =   562198.957380875     
  trcom prof sum =    562198.957380875     
  ps_ts2 cur sum  =   10602.7473618188     
  trcom cur sum  =    10602.7473618188     
  
  antenna # iant =            5
  powecha_use(iant) =    545595.509370324     
  ps_ts2 prof sum =   545233.619875125     
  trcom prof sum =    545233.619875125     
  ps_ts2 cur sum  =   12508.3527151650     
  trcom cur sum  =    12508.3527151650     
  
  Total ECH heating:      2995037.54837153     
  Total Current Drive:    56363.8311256561     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1724
 TA= 2.03000E+00 CPU TIME= 1.63067E-01 SECONDS.  DT= 2.47551E-03
  
 TEC1=    2.02999999999998     
 TEC2=    2.03499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.50154694444382     
  %check_save_state: izleft hours =    75.4900000000000     
 --> plasma_hash("gframe"): TA= 2.030000E+00 NSTEP=  1724 Hash code:   44856680
 ->PRGCHK: bdy curvature ratio at t= 2.0350E+00 seconds is:  5.2427E-02
% MHDEQ: TG1=     2.030000 ; TG2=     2.035000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7692E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2427E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.030000 TO TG2=    2.035000 @ NSTEP     1724
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758804404764D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0350E+00  2.0400E+00 total power(Watts):  2.9959E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.03500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.360066E+02    0.382611E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.341760E+02    0.383574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.354838E+02    0.367550E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.375652E+02    0.372115E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.375417E+02    0.391093E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.353756E+02    0.398374E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.335080E+02    0.409628E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.324531E+02    0.396485E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.323205E+02    0.379878E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.331190E+02    0.364214E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.347052E+02    0.353155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.366822E+02    0.349762E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.385345E+02    0.355160E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.397361E+02    0.368051E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.398670E+02    0.385239E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.391348E+02    0.400852E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.373040E+02    0.412532E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.353170E+02    0.415314E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.334589E+02    0.437038E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.308673E+02    0.420977E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.294489E+02    0.396111E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.300099E+02    0.366151E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.319006E+02    0.341697E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.351898E+02    0.325651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.386522E+02    0.325846E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.415852E+02    0.341249E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.432701E+02    0.367233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.427244E+02    0.398482E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.404007E+02    0.424631E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.368743E+02    0.438775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.369569E+02    0.298033E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.350230E+02    0.300228E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.364105E+02    0.282784E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.385140E+02    0.286795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.384217E+02    0.306731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.362504E+02    0.314901E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.343821E+02    0.327034E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.332163E+02    0.314655E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.330686E+02    0.297790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.339343E+02    0.280909E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.356949E+02    0.267594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.376871E+02    0.263459E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.395635E+02    0.268344E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.406939E+02    0.281828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.408526E+02    0.299330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.399387E+02    0.316429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.382061E+02    0.328597E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.362114E+02    0.332141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.342718E+02    0.355797E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.316481E+02    0.340022E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138644E+03   -0.302731E+02    0.314737E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138704E+03   -0.307251E+02    0.284513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.328456E+02    0.256758E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.362343E+02    0.238182E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.397330E+02    0.237335E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.426168E+02    0.252921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.442496E+02    0.279324E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.436467E+02    0.311923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.411354E+02    0.340671E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.377087E+02    0.356344E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.359897E+02    0.435213E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.340708E+02    0.436139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.354778E+02    0.420209E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.375548E+02    0.425218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.375208E+02    0.443927E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.353519E+02    0.450463E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.335697E+02    0.460605E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.324323E+02    0.447922E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.323134E+02    0.431643E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.331165E+02    0.416310E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.347084E+02    0.405658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.366876E+02    0.402751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.385367E+02    0.408614E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.397282E+02    0.421813E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.400515E+02    0.438111E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.392109E+02    0.453657E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.374668E+02    0.464165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.352861E+02    0.466986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.335084E+02    0.487946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.308390E+02    0.471598E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.295932E+02    0.446016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.298486E+02    0.418485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.319975E+02    0.393101E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.351222E+02    0.379226E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.385811E+02    0.380170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.417032E+02    0.395194E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134164E+03   -0.432673E+02    0.422182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.428134E+02    0.452423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.404681E+02    0.477435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.371210E+02    0.490067E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.363245E+02    0.344151E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.344882E+02    0.345413E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.358824E+02    0.328259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.379749E+02    0.332589E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.378649E+02    0.352477E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.356985E+02    0.360167E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.339207E+02    0.371193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.326814E+02    0.359324E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.325462E+02    0.342540E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.335065E+02    0.325241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.350923E+02    0.313800E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.370752E+02    0.310074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.389378E+02    0.315176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.400506E+02    0.328652E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.403914E+02    0.345043E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.393686E+02    0.362398E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.376391E+02    0.373948E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.356488E+02    0.377077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.337944E+02    0.399442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.310233E+02    0.384483E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.299141E+02    0.357760E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.302238E+02    0.328942E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.322687E+02    0.302783E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.355596E+02    0.286162E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.390332E+02    0.285851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.419873E+02    0.300700E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.435887E+02    0.326999E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.430656E+02    0.358785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.407471E+02    0.385396E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.372193E+02    0.400622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.46 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.371575E+02    0.235562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.352170E+02    0.238305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.365936E+02    0.219891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.387101E+02    0.223594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.386381E+02    0.244327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.364658E+02    0.253259E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.345128E+02    0.266872E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.333313E+02    0.254537E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.332509E+02    0.236282E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.342760E+02    0.216862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.359468E+02    0.203545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.379446E+02    0.198915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.397421E+02    0.204318E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.408920E+02    0.217914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.410699E+02    0.236019E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.400745E+02    0.254685E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.383539E+02    0.267504E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.363521E+02    0.271588E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.344326E+02    0.295949E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.316148E+02    0.282064E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.304546E+02    0.254435E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.309589E+02    0.222101E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.330671E+02    0.193168E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.364523E+02    0.173475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.399686E+02    0.171923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.428847E+02    0.187041E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.444517E+02    0.214244E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.436792E+02    0.249694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.413018E+02    0.278995E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.378834E+02    0.295712E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686906.187086111     
  ps_ts2 prof sum =   686477.344648548     
  trcom prof sum =    686477.344648548     
  ps_ts2 cur sum  =   11660.9848240225     
  trcom cur sum  =    11660.9848240225     
  
  antenna # iant =            2
  powecha_use(iant) =    677835.566998119     
  ps_ts2 prof sum =   677378.238144437     
  trcom prof sum =    677378.238144437     
  ps_ts2 cur sum  =   14129.0447038288     
  trcom cur sum  =    14129.0447038288     
  
  antenna # iant =            3
  powecha_use(iant) =    522923.579010322     
  ps_ts2 prof sum =   522588.726235763     
  trcom prof sum =    522588.726219918     
  ps_ts2 cur sum  =   7464.78212819470     
  trcom cur sum  =    7464.78212819470     
  
  antenna # iant =            4
  powecha_use(iant) =    563844.982777494     
  ps_ts2 prof sum =   563472.280660782     
  trcom prof sum =    563472.280660781     
  ps_ts2 cur sum  =   10633.2706003638     
  trcom cur sum  =    10633.2706003638     
  
  antenna # iant =            5
  powecha_use(iant) =    544401.409817887     
  ps_ts2 prof sum =   544101.887164604     
  trcom prof sum =    544101.887164604     
  ps_ts2 cur sum  =   12490.6119590821     
  trcom cur sum  =    12490.6119590820     
  
  Total ECH heating:      2994018.47683829     
  Total Current Drive:    56378.6942154919     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1726
 TA= 2.03500E+00 CPU TIME= 1.59869E-01 SECONDS.  DT= 3.15561E-03
  
 TEC1=    2.03499999999998     
 TEC2=    2.03999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.51571749999971     
  %check_save_state: izleft hours =    75.4758333333333     
 --> plasma_hash("gframe"): TA= 2.035000E+00 NSTEP=  1726 Hash code:  107196278
 ->PRGCHK: bdy curvature ratio at t= 2.0400E+00 seconds is:  5.2452E-02
% MHDEQ: TG1=     2.035000 ; TG2=     2.040000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2452E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.035000 TO TG2=    2.040000 @ NSTEP     1726
   GFRAME TG2 MOMENTS CHECKSUM:  2.4761066922489D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.09100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -6.26287E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.35243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.40008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.47475E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -4.34423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.23904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.57452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.52721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  5.99974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.67744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8= -3.97528E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.47492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -3.06985E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      12=  2.04993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.80689E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.53940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.17482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.17482E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0400E+00  2.0450E+00 total power(Watts):  2.9848E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.04000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.360121E+02    0.382981E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.341822E+02    0.383935E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.354908E+02    0.367891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.375723E+02    0.372467E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.375430E+02    0.391500E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.353810E+02    0.398771E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.336013E+02    0.409573E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.324584E+02    0.396853E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.323278E+02    0.380218E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.332128E+02    0.363975E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.348024E+02    0.352891E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.367840E+02    0.349501E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.385423E+02    0.355489E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.397433E+02    0.368416E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.400741E+02    0.384706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.390416E+02    0.401710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.373084E+02    0.412961E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.353215E+02    0.415727E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.334616E+02    0.437469E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.308712E+02    0.421371E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.296119E+02    0.395481E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.300163E+02    0.366460E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.320757E+02    0.340746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.351983E+02    0.325910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.386615E+02    0.326106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.415941E+02    0.341565E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.432780E+02    0.367619E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.427323E+02    0.398925E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.403027E+02    0.425473E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.369739E+02    0.438874E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.369662E+02    0.298227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.350327E+02    0.300417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.364201E+02    0.282948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.386197E+02    0.286281E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.384313E+02    0.306954E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.362593E+02    0.315137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.344794E+02    0.326654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.333967E+02    0.313548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.332486E+02    0.296559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.341169E+02    0.279593E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.357044E+02    0.267733E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.377901E+02    0.262844E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.395742E+02    0.268490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.407046E+02    0.281998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.408651E+02    0.299526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.399483E+02    0.316679E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.382167E+02    0.328853E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.362193E+02    0.332415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.343677E+02    0.355539E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.316557E+02    0.340289E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.302817E+02    0.314948E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138484E+03   -0.308136E+02    0.283917E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.328546E+02    0.256875E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.362443E+02    0.238275E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.397436E+02    0.237432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.427304E+02    0.252301E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.442611E+02    0.279501E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.435522E+02    0.312785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.413477E+02    0.339858E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.378122E+02    0.356122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.359926E+02    0.435662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.341635E+02    0.436201E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.354814E+02    0.420643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.375585E+02    0.425664E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.375234E+02    0.444395E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.353537E+02    0.450926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.335708E+02    0.461064E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.325208E+02    0.448008E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.323165E+02    0.432062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.331206E+02    0.416713E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.347135E+02    0.406048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.366930E+02    0.403151E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.385413E+02    0.409047E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.397322E+02    0.422272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.400545E+02    0.438592E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.392122E+02    0.454163E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.373706E+02    0.464956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.353793E+02    0.467175E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.335075E+02    0.488425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.308391E+02    0.472053E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.295955E+02    0.446433E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.300141E+02    0.417993E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.320028E+02    0.393458E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.351284E+02    0.379587E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.385899E+02    0.380537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.417090E+02    0.395629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134163E+03   -0.432711E+02    0.422684E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.428148E+02    0.452956E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.405698E+02    0.477733E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.370230E+02    0.490820E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.364224E+02    0.343880E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.344960E+02    0.345698E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.358909E+02    0.328522E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.379833E+02    0.332876E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.378730E+02    0.352794E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.357054E+02    0.360493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.339276E+02    0.371525E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.328599E+02    0.358498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.327240E+02    0.341604E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.335144E+02    0.325489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.351902E+02    0.313379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.371778E+02    0.309646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.389473E+02    0.315421E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.401595E+02    0.328329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.403000E+02    0.345918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.393756E+02    0.362752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.376458E+02    0.374314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.356547E+02    0.377436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.337995E+02    0.399821E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.311943E+02    0.383801E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.299204E+02    0.358050E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.302318E+02    0.329175E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.324451E+02    0.301583E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.355672E+02    0.286353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.391401E+02    0.285329E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.422024E+02    0.299629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.434934E+02    0.327872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.429688E+02    0.359654E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.406521E+02    0.386265E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.372249E+02    0.401023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.371678E+02    0.235654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.352267E+02    0.238399E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.366930E+02    0.219106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.388149E+02    0.222836E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.386512E+02    0.244416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.364759E+02    0.253374E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.346102E+02    0.266236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.335100E+02    0.253064E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.332607E+02    0.236369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.342853E+02    0.216922E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.359565E+02    0.203580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.379558E+02    0.198929E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.398482E+02    0.203490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.410013E+02    0.217154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.410807E+02    0.236115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.400852E+02    0.254808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.383642E+02    0.267644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.363631E+02    0.271730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.344446E+02    0.296116E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.316243E+02    0.282212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.304649E+02    0.254518E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.309682E+02    0.222165E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.330763E+02    0.193176E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.364621E+02    0.173445E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.400736E+02    0.170973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.429967E+02    0.186165E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.443602E+02    0.215106E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.436909E+02    0.249813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.413127E+02    0.279161E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.378931E+02    0.295906E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.50 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685284.285805000     
  ps_ts2 prof sum =   684881.556785665     
  trcom prof sum =    684881.556785664     
  ps_ts2 cur sum  =   11666.5621378048     
  trcom cur sum  =    11666.5621378048     
  
  antenna # iant =            2
  powecha_use(iant) =    675505.421392736     
  ps_ts2 prof sum =   675109.300360675     
  trcom prof sum =    675109.300360675     
  ps_ts2 cur sum  =   14133.9148716131     
  trcom cur sum  =    14133.9148716131     
  
  antenna # iant =            3
  powecha_use(iant) =    522393.996706357     
  ps_ts2 prof sum =   522051.816834743     
  trcom prof sum =    522051.816834744     
  ps_ts2 cur sum  =   7468.02338001460     
  trcom cur sum  =    7468.02338001460     
  
  antenna # iant =            4
  powecha_use(iant) =    557203.856261910     
  ps_ts2 prof sum =   556872.037065535     
  trcom prof sum =    556872.037065535     
  ps_ts2 cur sum  =   10544.2610650619     
  trcom cur sum  =    10544.2610650619     
  
  antenna # iant =            5
  powecha_use(iant) =    544420.311360019     
  ps_ts2 prof sum =   544127.571555846     
  trcom prof sum =    544127.571555845     
  ps_ts2 cur sum  =   12539.0297558074     
  trcom cur sum  =    12539.0297558074     
  
  Total ECH heating:      2983042.28260246     
  Total Current Drive:    56351.7912103018     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1728
 TA= 2.04000E+00 CPU TIME= 1.63206E-01 SECONDS.  DT= 2.30549E-03
  
 TEC1=    2.03999999999998     
 TEC2=    2.04499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.52847166666629     
  %check_save_state: izleft hours =    75.4630555555556     
 --> plasma_hash("gframe"): TA= 2.040000E+00 NSTEP=  1728 Hash code:   11656247
 ->PRGCHK: bdy curvature ratio at t= 2.0450E+00 seconds is:  5.2477E-02
% MHDEQ: TG1=     2.040000 ; TG2=     2.045000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2477E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.040000 TO TG2=    2.045000 @ NSTEP     1728
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763329440213D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0450E+00  2.0500E+00 total power(Watts):  2.9858E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.04500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.360176E+02    0.383333E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.341862E+02    0.384289E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.354974E+02    0.368201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.376733E+02    0.372306E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.375505E+02    0.391871E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.353856E+02    0.399150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.336050E+02    0.409959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.325483E+02    0.396743E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.323350E+02    0.380532E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.332185E+02    0.364288E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.348089E+02    0.353178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.367907E+02    0.349786E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.385501E+02    0.355784E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.397496E+02    0.368768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.400797E+02    0.385090E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.390453E+02    0.402124E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.373123E+02    0.413371E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.353249E+02    0.416129E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.335522E+02    0.437519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.308738E+02    0.421760E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.296163E+02    0.395822E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.299418E+02    0.367313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.320827E+02    0.341002E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.352057E+02    0.326150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.387626E+02    0.325778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.418074E+02    0.340741E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.432850E+02    0.367988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.428439E+02    0.398949E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.405088E+02    0.425197E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.369776E+02    0.439316E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.369751E+02    0.298406E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.351294E+02    0.299924E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.365201E+02    0.282383E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.386291E+02    0.286442E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.385353E+02    0.306513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.363590E+02    0.314712E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.344866E+02    0.326894E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.334046E+02    0.313755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.332565E+02    0.296735E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.341257E+02    0.279730E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.358033E+02    0.267096E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.377989E+02    0.262961E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.395833E+02    0.268620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.408134E+02    0.281467E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.408762E+02    0.299721E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.399568E+02    0.316919E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.382270E+02    0.329102E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.362274E+02    0.332673E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.343742E+02    0.355832E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.315789E+02    0.341156E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.303682E+02    0.314468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.308212E+02    0.284059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.330303E+02    0.255391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.362532E+02    0.238365E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.398493E+02    0.236726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.427403E+02    0.252410E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.441660E+02    0.280333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.437718E+02    0.311811E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.413555E+02    0.340153E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.378192E+02    0.356428E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.359949E+02    0.436095E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.341656E+02    0.436626E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.354845E+02    0.421053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.375614E+02    0.426095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.377184E+02    0.444187E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.354474E+02    0.451050E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.335712E+02    0.461523E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.325222E+02    0.448441E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.323189E+02    0.432468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.331227E+02    0.417115E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.347175E+02    0.406435E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.366973E+02    0.403547E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.385454E+02    0.409464E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.399363E+02    0.421971E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.401575E+02    0.438733E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.392128E+02    0.454663E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.373708E+02    0.465451E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.353789E+02    0.467660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.335951E+02    0.488656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.309225E+02    0.472198E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.295971E+02    0.446842E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.300177E+02    0.418366E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.320073E+02    0.393807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.351332E+02    0.379929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.386890E+02    0.380436E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.418176E+02    0.395618E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.432744E+02    0.423153E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.428155E+02    0.453492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.405684E+02    0.478278E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.370210E+02    0.491334E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.364293E+02    0.344159E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.345027E+02    0.345971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.358990E+02    0.328772E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.379876E+02    0.333153E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.379760E+02    0.352540E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.358039E+02    0.360254E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.339334E+02    0.371847E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.328661E+02    0.358791E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.327305E+02    0.341864E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.336083E+02    0.325087E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.351985E+02    0.313585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.371857E+02    0.309859E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.390527E+02    0.315024E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.401671E+02    0.328603E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.403075E+02    0.346217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.393823E+02    0.363078E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.376520E+02    0.374654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.356601E+02    0.377776E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.338928E+02    0.399730E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.311994E+02    0.384132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.298469E+02    0.358902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.303985E+02    0.328111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.324524E+02    0.301766E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.356670E+02    0.285780E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.391490E+02    0.285503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.421093E+02    0.300482E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.437126E+02    0.327002E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.431864E+02    0.358985E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.406577E+02    0.386652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.373248E+02    0.400977E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.87 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.371768E+02    0.235738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.352354E+02    0.238482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.367023E+02    0.219158E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.388242E+02    0.222902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.386578E+02    0.244526E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.364842E+02    0.253486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.346184E+02    0.266354E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.335184E+02    0.253160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.334367E+02    0.234781E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.342084E+02    0.217834E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.359649E+02    0.203596E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.380567E+02    0.198060E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.398577E+02    0.203500E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.410107E+02    0.217203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.410906E+02    0.236201E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.400945E+02    0.254914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.383735E+02    0.267773E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.363718E+02    0.271858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.344485E+02    0.296327E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.317959E+02    0.280861E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138641E+03   -0.304696E+02    0.254645E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.309753E+02    0.222221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.330838E+02    0.193175E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.364707E+02    0.173410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.400825E+02    0.170924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.430064E+02    0.186148E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.443704E+02    0.215151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.439086E+02    0.248436E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.413221E+02    0.279320E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.379022E+02    0.296083E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684394.252657371     
  ps_ts2 prof sum =   683989.627802615     
  trcom prof sum =    683989.627802614     
  ps_ts2 cur sum  =   11675.4212364077     
  trcom cur sum  =    11675.4212364077     
  
  antenna # iant =            2
  powecha_use(iant) =    675815.754378383     
  ps_ts2 prof sum =   675430.711655901     
  trcom prof sum =    675430.711655901     
  ps_ts2 cur sum  =   14184.3174452279     
  trcom cur sum  =    14184.3174452279     
  
  antenna # iant =            3
  powecha_use(iant) =    521102.441527530     
  ps_ts2 prof sum =   520770.354472243     
  trcom prof sum =    520770.354472243     
  ps_ts2 cur sum  =   7453.81636159758     
  trcom cur sum  =    7453.81636159758     
  
  antenna # iant =            4
  powecha_use(iant) =    559049.958156981     
  ps_ts2 prof sum =   558732.010811638     
  trcom prof sum =    558732.010811637     
  ps_ts2 cur sum  =   10608.5940123951     
  trcom cur sum  =    10608.5940123951     
  
  antenna # iant =            5
  powecha_use(iant) =    545404.796118037     
  ps_ts2 prof sum =   545101.735157780     
  trcom prof sum =    545101.735157780     
  ps_ts2 cur sum  =   12600.8386228332     
  trcom cur sum  =    12600.8386228332     
  
  Total ECH heating:      2984024.43990018     
  Total Current Drive:    56522.9876784615     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1730
 TA= 2.04500E+00 CPU TIME= 1.46734E-01 SECONDS.  DT= 3.36814E-03
  
 TEC1=    2.04499999999998     
 TEC2=    2.04999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.54370499999982     
  %check_save_state: izleft hours =    75.4477777777778     
 --> plasma_hash("gframe"): TA= 2.045000E+00 NSTEP=  1730 Hash code:   38801743
 ->PRGCHK: bdy curvature ratio at t= 2.0500E+00 seconds is:  5.2502E-02
% MHDEQ: TG1=     2.045000 ; TG2=     2.050000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7671E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2502E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.045000 TO TG2=    2.050000 @ NSTEP     1730
   GFRAME TG2 MOMENTS CHECKSUM:  2.4765591957938D+04
 %MFRCHK - LABEL "RMS11", #       1=  4.21078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.14190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -6.43042E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.07956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.04067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.37744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -5.38289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.20073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.51140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.58685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.31846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.35221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.17389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8= -2.04755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.26848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.85795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.23256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.95064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.44462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.41630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.41630E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0500E+00  2.0550E+00 total power(Watts):  2.9903E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.05000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.361162E+02    0.383214E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.341919E+02    0.384646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.355038E+02    0.368534E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.376799E+02    0.372659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.375579E+02    0.392250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.354826E+02    0.399081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.336098E+02    0.410349E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.325521E+02    0.397119E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.324276E+02    0.380347E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.332251E+02    0.364597E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.348159E+02    0.353475E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.367982E+02    0.350087E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.386548E+02    0.355562E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.399549E+02    0.368126E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.399860E+02    0.385941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.390513E+02    0.402533E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.374125E+02    0.413379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.354208E+02    0.416125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.335549E+02    0.437944E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.308777E+02    0.422140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.295418E+02    0.396657E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.299479E+02    0.367612E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.320889E+02    0.341266E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.352138E+02    0.326400E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.387729E+02    0.326033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.418158E+02    0.341054E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.432925E+02    0.368367E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.428515E+02    0.399388E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.405124E+02    0.425661E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.369818E+02    0.439763E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.369837E+02    0.298611E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.351383E+02    0.300123E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.365295E+02    0.282546E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.386387E+02    0.286614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.385445E+02    0.306734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.363674E+02    0.314948E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.344945E+02    0.327146E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.334129E+02    0.313979E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.331796E+02    0.297619E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.341345E+02    0.279875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.358126E+02    0.267221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.378093E+02    0.263082E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.396905E+02    0.268017E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.408240E+02    0.281625E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.409817E+02    0.299298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.399660E+02    0.317170E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.382375E+02    0.329352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.362352E+02    0.332935E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.343809E+02    0.356134E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.315868E+02    0.341409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138425E+03   -0.303758E+02    0.314691E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.308292E+02    0.284202E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.330392E+02    0.255495E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.362626E+02    0.238452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.398596E+02    0.236816E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.427509E+02    0.252522E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.443873E+02    0.279159E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.437817E+02    0.312068E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.412625E+02    0.341014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.378265E+02    0.356745E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.360913E+02    0.436173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.341686E+02    0.437048E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.354883E+02    0.421468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.376615E+02    0.426153E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.376239E+02    0.444982E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.354492E+02    0.451507E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.336583E+02    0.461675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.325242E+02    0.448873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.323222E+02    0.432868E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.332152E+02    0.417083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.348127E+02    0.406392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.367019E+02    0.403952E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.385503E+02    0.409876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.399357E+02    0.422428E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.401599E+02    0.439217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.391137E+02    0.455472E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.375644E+02    0.465386E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.353793E+02    0.468141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.335943E+02    0.489142E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.309222E+02    0.472662E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.295191E+02    0.447612E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.300213E+02    0.418744E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.320123E+02    0.394176E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.351391E+02    0.380283E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.386948E+02    0.380822E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.418231E+02    0.396053E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.432780E+02    0.423650E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.428170E+02    0.454018E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.405675E+02    0.478828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.372118E+02    0.491409E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.364371E+02    0.344440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.345994E+02    0.345666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.359070E+02    0.329023E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.380932E+02    0.332824E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.379834E+02    0.352851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.358108E+02    0.360567E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.339391E+02    0.372185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.328724E+02    0.359089E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.327379E+02    0.342132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.336161E+02    0.325331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.352069E+02    0.313813E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.371945E+02    0.310081E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.390617E+02    0.315269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.401756E+02    0.328882E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.403156E+02    0.346526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.393897E+02    0.363416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.377535E+02    0.374521E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.357583E+02    0.377625E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.338978E+02    0.400109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.312052E+02    0.384468E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.298533E+02    0.359183E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.303249E+02    0.329000E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.323774E+02    0.302655E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.356785E+02    0.285929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.391593E+02    0.285667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.421194E+02    0.300698E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.437222E+02    0.327290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.431940E+02    0.359347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.408669E+02    0.386144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.373296E+02    0.401382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.371864E+02    0.235822E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.353326E+02    0.237752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.367123E+02    0.219214E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.388342E+02    0.222965E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.387624E+02    0.243839E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.364937E+02    0.253593E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.346275E+02    0.266477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.334425E+02    0.254057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.334460E+02    0.234853E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.342171E+02    0.217884E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.360626E+02    0.202733E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.380658E+02    0.198067E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.398675E+02    0.203524E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.410210E+02    0.217255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.411010E+02    0.236285E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.402028E+02    0.254269E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.384780E+02    0.267163E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.363815E+02    0.271994E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.344571E+02    0.296510E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.317221E+02    0.281747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.304779E+02    0.254744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138634E+03   -0.309839E+02    0.222279E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.332569E+02    0.191330E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.365680E+02    0.172429E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.400921E+02    0.170881E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.430172E+02    0.186125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.445893E+02    0.213580E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.438157E+02    0.249287E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.413325E+02    0.279475E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.379114E+02    0.296276E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682676.603779123     
  ps_ts2 prof sum =   682268.750595500     
  trcom prof sum =    682268.750595499     
  ps_ts2 cur sum  =   11675.2494890770     
  trcom cur sum  =    11675.2494890770     
  
  antenna # iant =            2
  powecha_use(iant) =    674283.063853474     
  ps_ts2 prof sum =   673866.004756290     
  trcom prof sum =    673866.004756290     
  ps_ts2 cur sum  =   14198.2384021221     
  trcom cur sum  =    14198.2384021221     
  
  antenna # iant =            3
  powecha_use(iant) =    522681.804140218     
  ps_ts2 prof sum =   522342.270942761     
  trcom prof sum =    522342.270942762     
  ps_ts2 cur sum  =   7484.80345007105     
  trcom cur sum  =    7484.80345007105     
  
  antenna # iant =            4
  powecha_use(iant) =    565111.807367751     
  ps_ts2 prof sum =   564773.092894021     
  trcom prof sum =    564773.092894021     
  ps_ts2 cur sum  =   10754.9541135144     
  trcom cur sum  =    10754.9541135144     
  
  antenna # iant =            5
  powecha_use(iant) =    545520.266358965     
  ps_ts2 prof sum =   545204.881244928     
  trcom prof sum =    545204.881244928     
  ps_ts2 cur sum  =   12645.5357939112     
  trcom cur sum  =    12645.5357939112     
  
  Total ECH heating:      2988455.00043350     
  Total Current Drive:    56758.7812486957     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1732
 TA= 2.05000E+00 CPU TIME= 1.65440E-01 SECONDS.  DT= 2.03982E-03
  
 TEC1=    2.04999999999998     
 TEC2=    2.05499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.56030055555539     
  %check_save_state: izleft hours =    75.4313888888889     
 --> plasma_hash("gframe"): TA= 2.050000E+00 NSTEP=  1732 Hash code:  111242346
 ->PRGCHK: bdy curvature ratio at t= 2.0550E+00 seconds is:  5.2527E-02
% MHDEQ: TG1=     2.050000 ; TG2=     2.055000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2527E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.050000 TO TG2=    2.055000 @ NSTEP     1732
   GFRAME TG2 MOMENTS CHECKSUM:  2.4767854475662D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0550E+00  2.0600E+00 total power(Watts):  2.9897E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.05500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.361221E+02    0.383603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.341984E+02    0.385023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.356024E+02    0.368362E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.376874E+02    0.373027E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.376614E+02    0.392201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.354882E+02    0.399486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.336147E+02    0.410757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.325582E+02    0.397507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.324360E+02    0.380698E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.332324E+02    0.364926E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.348243E+02    0.353784E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.368070E+02    0.350399E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.386629E+02    0.355905E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.398634E+02    0.369007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.399930E+02    0.386360E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.390571E+02    0.402975E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.374175E+02    0.413825E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.354254E+02    0.416562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.335584E+02    0.438380E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.307989E+02    0.422966E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.295476E+02    0.397029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.299547E+02    0.367925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.320130E+02    0.342149E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.353129E+02    0.326045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.387851E+02    0.326298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.417229E+02    0.341936E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.433012E+02    0.368758E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.428599E+02    0.399846E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.405165E+02    0.426149E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.369810E+02    0.440249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.370869E+02    0.298145E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.351482E+02    0.300327E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.365398E+02    0.282714E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.386494E+02    0.286802E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.385549E+02    0.306977E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.363770E+02    0.315198E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.345035E+02    0.327412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.334219E+02    0.314216E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.331886E+02    0.297813E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.340571E+02    0.280772E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.358229E+02    0.267366E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.378183E+02    0.263236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.397022E+02    0.268173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.408356E+02    0.281805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.409925E+02    0.299531E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.400752E+02    0.316819E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.383401E+02    0.329051E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.363365E+02    0.332617E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.343892E+02    0.356446E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.317613E+02    0.340463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.303842E+02    0.314909E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138498E+03   -0.308383E+02    0.284362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.329654E+02    0.256410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.363632E+02    0.237747E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.398713E+02    0.236923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.427636E+02    0.252656E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.443999E+02    0.279347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.437932E+02    0.312342E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.412727E+02    0.341331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.378347E+02    0.357086E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.360945E+02    0.436636E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.341718E+02    0.437496E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.354926E+02    0.421909E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.376654E+02    0.426619E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.376266E+02    0.445470E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.354477E+02    0.451992E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.336609E+02    0.462149E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.325265E+02    0.449326E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.324116E+02    0.432915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.332197E+02    0.417500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.348182E+02    0.406808E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.368026E+02    0.403937E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.387514E+02    0.409513E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.398415E+02    0.423267E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.401631E+02    0.439720E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.391157E+02    0.455979E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.375649E+02    0.465905E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.353803E+02    0.468634E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.335933E+02    0.489650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.309228E+02    0.473127E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.295217E+02    0.448038E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.299449E+02    0.419567E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.321031E+02    0.394075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.352367E+02    0.380164E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.387021E+02    0.381213E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.418296E+02    0.396505E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.433889E+02    0.423810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.429250E+02    0.454283E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.405670E+02    0.479397E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.372105E+02    0.491947E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.364459E+02    0.344741E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.346077E+02    0.345965E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.359160E+02    0.329300E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.381044E+02    0.333109E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.379918E+02    0.353182E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.358183E+02    0.360903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.339463E+02    0.372531E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.328803E+02    0.359398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.327457E+02    0.342419E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.336249E+02    0.325591E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.352163E+02    0.314056E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.372044E+02    0.310329E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.390719E+02    0.315530E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.401857E+02    0.329173E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.405252E+02    0.345758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.395958E+02    0.362741E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.377609E+02    0.374888E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.357652E+02    0.377996E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.339029E+02    0.400518E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.311283E+02    0.385334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.298605E+02    0.359481E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.303334E+02    0.329249E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.323859E+02    0.302860E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.356907E+02    0.286090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.391701E+02    0.285853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.421307E+02    0.300933E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.437329E+02    0.327603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.432025E+02    0.359729E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.408735E+02    0.386582E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.373354E+02    0.401809E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.372892E+02    0.235106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.353432E+02    0.237857E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.367229E+02    0.219283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.388455E+02    0.223043E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.387738E+02    0.243955E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.365954E+02    0.252934E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.346375E+02    0.266622E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.334526E+02    0.254180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.333722E+02    0.235792E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.342275E+02    0.217950E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.360736E+02    0.202774E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.380763E+02    0.198101E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.399744E+02    0.202711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.410330E+02    0.217328E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.412120E+02    0.235605E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.402141E+02    0.254409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.384893E+02    0.267314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.363928E+02    0.272134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.345549E+02    0.296008E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.317314E+02    0.281904E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.304874E+02    0.254859E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.310722E+02    0.221469E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.331846E+02    0.192260E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.365785E+02    0.172415E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.401981E+02    0.169937E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.430291E+02    0.186126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.444985E+02    0.214457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.438288E+02    0.249417E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.414450E+02    0.278957E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.380162E+02    0.295810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684556.082061732     
  ps_ts2 prof sum =   684097.866474663     
  trcom prof sum =    684097.866474662     
  ps_ts2 cur sum  =   11743.3733980098     
  trcom cur sum  =    11743.3733980098     
  
  antenna # iant =            2
  powecha_use(iant) =    675265.053847722     
  ps_ts2 prof sum =   674836.700129661     
  trcom prof sum =    674836.700129661     
  ps_ts2 cur sum  =   14279.4716834483     
  trcom cur sum  =    14279.4716834483     
  
  antenna # iant =            3
  powecha_use(iant) =    524771.147950965     
  ps_ts2 prof sum =   524424.995096734     
  trcom prof sum =    524424.995096734     
  ps_ts2 cur sum  =   7525.33741785788     
  trcom cur sum  =    7525.33741785788     
  
  antenna # iant =            4
  powecha_use(iant) =    559512.416804615     
  ps_ts2 prof sum =   559164.208789477     
  trcom prof sum =    559164.208789476     
  ps_ts2 cur sum  =   10689.1580931951     
  trcom cur sum  =    10689.1580931951     
  
  antenna # iant =            5
  powecha_use(iant) =    545619.823098217     
  ps_ts2 prof sum =   545296.766584806     
  trcom prof sum =    545296.766584806     
  ps_ts2 cur sum  =   12701.6526365766     
  trcom cur sum  =    12701.6526365766     
  
  Total ECH heating:      2987820.53707534     
  Total Current Drive:    56938.9932290876     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1735
 TA= 2.05500E+00 CPU TIME= 1.59271E-01 SECONDS.  DT= 5.12993E-04
  
 TEC1=    2.05499999999998     
 TEC2=    2.05999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.57337111111065     
  %check_save_state: izleft hours =    75.4183333333333     
 --> plasma_hash("gframe"): TA= 2.055000E+00 NSTEP=  1735 Hash code:    3965507
 ->PRGCHK: bdy curvature ratio at t= 2.0600E+00 seconds is:  5.2839E-02
% MHDEQ: TG1=     2.055000 ; TG2=     2.060000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.2839E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.055000 TO TG2=    2.060000 @ NSTEP     1735
   GFRAME TG2 MOMENTS CHECKSUM:  2.4766191003139D+04
 %MFRCHK - LABEL "RMS11", #       1=  2.89003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -7.84760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -6.42436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.97286E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.07175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -7.01182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.20870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -2.44968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.62981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.27153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.76733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.29284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       9= -4.69945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #      10= -5.84234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  3.29208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.20586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.96202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.47150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.14548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.14548E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0600E+00  2.0650E+00 total power(Watts):  2.9867E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.06000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.361230E+02    0.383872E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.341992E+02    0.385289E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.356043E+02    0.368597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.376889E+02    0.373279E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.376611E+02    0.392501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.354872E+02    0.399804E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.336134E+02    0.411088E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.325576E+02    0.397803E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.324343E+02    0.380967E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.332345E+02    0.365145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.348273E+02    0.353999E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.368056E+02    0.350642E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.386653E+02    0.356137E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.398649E+02    0.369263E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.399931E+02    0.386659E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.392536E+02    0.402464E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.374158E+02    0.414171E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.354237E+02    0.416903E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.335547E+02    0.438721E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.307979E+02    0.423283E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.295476E+02    0.397307E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.301168E+02    0.367038E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.320164E+02    0.342353E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.353163E+02    0.326248E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.387885E+02    0.326507E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.417261E+02    0.342167E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.434081E+02    0.368561E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.428555E+02    0.400200E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.405134E+02    0.426535E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.369773E+02    0.440602E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.370918E+02    0.298262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.351497E+02    0.300477E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.365454E+02    0.282791E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.386547E+02    0.286891E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.385598E+02    0.307118E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.363811E+02    0.315370E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.345066E+02    0.327611E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.334261E+02    0.314386E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.331932E+02    0.297926E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.342363E+02    0.279376E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.358291E+02    0.267432E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.378263E+02    0.263284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.397082E+02    0.268243E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.408412E+02    0.281883E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.409977E+02    0.299657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.400805E+02    0.317002E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.383437E+02    0.329263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.363400E+02    0.332821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.343919E+02    0.356658E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.317631E+02    0.340674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138455E+03   -0.303879E+02    0.315070E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.308430E+02    0.284439E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.329709E+02    0.256480E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.363693E+02    0.237808E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.398812E+02    0.236956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.429746E+02    0.251240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.444064E+02    0.279421E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.436929E+02    0.313128E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.412753E+02    0.341570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.378370E+02    0.357315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.360910E+02    0.436991E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.341684E+02    0.437838E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.355830E+02    0.421855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.376626E+02    0.426982E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.376224E+02    0.445825E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.354472E+02    0.452319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.336577E+02    0.462486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.325229E+02    0.449645E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.324050E+02    0.433262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.332180E+02    0.417840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.348173E+02    0.407131E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.368009E+02    0.404276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.386522E+02    0.410266E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.398412E+02    0.423649E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.401589E+02    0.440097E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.393095E+02    0.455759E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.374621E+02    0.466555E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.353744E+02    0.468991E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.335856E+02    0.490047E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.309172E+02    0.473482E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.296794E+02    0.447632E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.299435E+02    0.419887E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.321030E+02    0.394360E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.352378E+02    0.380420E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.387028E+02    0.381489E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.418290E+02    0.396836E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133963E+03   -0.433857E+02    0.424215E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.429191E+02    0.454676E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.406608E+02    0.479596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.372015E+02    0.492381E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.364494E+02    0.344957E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.346104E+02    0.346181E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.360107E+02    0.328894E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.381076E+02    0.333322E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.379943E+02    0.353409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.358209E+02    0.361132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.340380E+02    0.372241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.328828E+02    0.359617E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.326636E+02    0.343218E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.336286E+02    0.325792E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.352205E+02    0.314233E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.372088E+02    0.310485E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.390759E+02    0.315710E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.403891E+02    0.328200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.404280E+02    0.346537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.394987E+02    0.363503E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.377623E+02    0.375144E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.357663E+02    0.378252E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.339026E+02    0.400820E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.311293E+02    0.385592E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.298623E+02    0.359694E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.303368E+02    0.329438E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.323903E+02    0.302989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.356919E+02    0.286203E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.392723E+02    0.285247E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.421358E+02    0.301071E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.437369E+02    0.327826E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.432047E+02    0.359982E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.408743E+02    0.386872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.373346E+02    0.402137E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.372951E+02    0.235169E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.353486E+02    0.237919E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.367292E+02    0.219298E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.389461E+02    0.222246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.387802E+02    0.244020E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.366014E+02    0.253003E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.345562E+02    0.267439E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.334581E+02    0.254249E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.333776E+02    0.235843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.344042E+02    0.216221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.360795E+02    0.202727E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.380843E+02    0.198044E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.399821E+02    0.202659E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.411434E+02    0.216473E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.412186E+02    0.235662E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.402205E+02    0.254476E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.384952E+02    0.267384E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.364884E+02    0.271466E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.345594E+02    0.296124E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.317362E+02    0.281977E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.305722E+02    0.254118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.310778E+02    0.221498E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.331922E+02    0.192198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.365858E+02    0.172322E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.402058E+02    0.169836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.431348E+02    0.185189E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.445065E+02    0.214455E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.438354E+02    0.249484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.414508E+02    0.279031E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.380212E+02    0.295924E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686091.710485913     
  ps_ts2 prof sum =   685643.884967550     
  trcom prof sum =    685643.884967549     
  ps_ts2 cur sum  =   11806.7116675718     
  trcom cur sum  =    11806.7116675718     
  
  antenna # iant =            2
  powecha_use(iant) =    674751.834998066     
  ps_ts2 prof sum =   674321.993550371     
  trcom prof sum =    674321.993550371     
  ps_ts2 cur sum  =   14327.5960722287     
  trcom cur sum  =    14327.5960722287     
  
  antenna # iant =            3
  powecha_use(iant) =    525491.198936633     
  ps_ts2 prof sum =   525147.030569434     
  trcom prof sum =    525147.030569435     
  ps_ts2 cur sum  =   7549.20607713608     
  trcom cur sum  =    7549.20607713608     
  
  antenna # iant =            4
  powecha_use(iant) =    555251.014347302     
  ps_ts2 prof sum =   554890.233944961     
  trcom prof sum =    554890.233944961     
  ps_ts2 cur sum  =   10648.1796830506     
  trcom cur sum  =    10648.1796830506     
  
  antenna # iant =            5
  powecha_use(iant) =    545092.876750588     
  ps_ts2 prof sum =   544780.003747833     
  trcom prof sum =    544780.003747833     
  ps_ts2 cur sum  =   12743.6472343823     
  trcom cur sum  =    12743.6472343823     
  
  Total ECH heating:      2984783.14678015     
  Total Current Drive:    57075.3407343695     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1741
 TA= 2.06000E+00 CPU TIME= 1.63221E-01 SECONDS.  DT= 9.87316E-04
  
 TEC1=    2.05999999999998     
 TEC2=    2.06499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.58557694444380     
  %check_save_state: izleft hours =    75.4061111111111     
 --> plasma_hash("gframe"): TA= 2.060000E+00 NSTEP=  1741 Hash code:  123027397
 ->PRGCHK: bdy curvature ratio at t= 2.0650E+00 seconds is:  5.3083E-02
% MHDEQ: TG1=     2.060000 ; TG2=     2.065000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3083E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.060000 TO TG2=    2.065000 @ NSTEP     1741
   GFRAME TG2 MOMENTS CHECKSUM:  2.4764527530615D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0650E+00  2.0700E+00 total power(Watts):  2.9985E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.06500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.361223E+02    0.384135E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.342873E+02    0.385057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.356045E+02    0.368829E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.376887E+02    0.373527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.376596E+02    0.392787E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.354850E+02    0.400112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.336989E+02    0.410978E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.325556E+02    0.398095E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.324339E+02    0.381212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.333221E+02    0.364824E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.349175E+02    0.353659E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.369047E+02    0.350280E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.386667E+02    0.356357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.398653E+02    0.369498E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.401922E+02    0.386028E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.391525E+02    0.403208E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.374126E+02    0.414513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.354205E+02    0.417241E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.335503E+02    0.439048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.309599E+02    0.422785E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.295467E+02    0.397580E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.301169E+02    0.367254E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.321857E+02    0.341349E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.353185E+02    0.326442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.387904E+02    0.326710E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.419327E+02    0.341290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.434082E+02    0.368815E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.428528E+02    0.400545E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.404074E+02    0.427261E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.370673E+02    0.440612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.370952E+02    0.298387E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.351558E+02    0.300583E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.365493E+02    0.282874E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.387544E+02    0.286286E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.386584E+02    0.306626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.363836E+02    0.315543E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.345974E+02    0.327185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.335147E+02    0.313882E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.333673E+02    0.296638E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.342399E+02    0.279451E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.359231E+02    0.266748E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.379237E+02    0.262601E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.397126E+02    0.268311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.408456E+02    0.281967E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.410012E+02    0.299786E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.400819E+02    0.317191E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.383455E+02    0.329471E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.363416E+02    0.333032E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.344812E+02    0.356324E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.317648E+02    0.340875E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138484E+03   -0.303908E+02    0.315226E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.309268E+02    0.283775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.329754E+02    0.256544E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.363739E+02    0.237858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.398831E+02    0.237032E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.428774E+02    0.252051E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.443058E+02    0.280173E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.439070E+02    0.312092E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.414802E+02    0.340682E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.379340E+02    0.356996E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.360862E+02    0.437330E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.342535E+02    0.437809E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.355794E+02    0.422201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.376584E+02    0.427332E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.376168E+02    0.446174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.354410E+02    0.452657E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.336514E+02    0.462815E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.326036E+02    0.449635E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.324050E+02    0.433578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.332156E+02    0.418162E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.348147E+02    0.407445E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.368028E+02    0.404573E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.386497E+02    0.410596E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.398370E+02    0.424011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.400524E+02    0.440791E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.393029E+02    0.456118E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.374547E+02    0.466906E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.354598E+02    0.469065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.335767E+02    0.490443E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.309109E+02    0.473818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.296741E+02    0.447947E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.301020E+02    0.419361E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.321018E+02    0.394635E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.352379E+02    0.380662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.387014E+02    0.381755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.418266E+02    0.397164E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.433810E+02    0.424606E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.429114E+02    0.455070E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.406510E+02    0.480009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.370953E+02    0.493011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.365435E+02    0.344597E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.346117E+02    0.346390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.360129E+02    0.329097E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.381092E+02    0.333536E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.379959E+02    0.353618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.358229E+02    0.361338E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.340361E+02    0.372482E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.329692E+02    0.359274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.328355E+02    0.342228E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.336306E+02    0.325984E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.353128E+02    0.313748E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.373050E+02    0.309997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.390786E+02    0.315889E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.402912E+02    0.329005E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.404295E+02    0.346760E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.394996E+02    0.363729E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.377620E+02    0.375391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.357665E+02    0.378496E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.338999E+02    0.401126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.312942E+02    0.384830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.300222E+02    0.358758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.303386E+02    0.329627E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.325612E+02    0.301727E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.356957E+02    0.286291E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.392763E+02    0.285333E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.423440E+02    0.299921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.438447E+02    0.327473E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.433102E+02    0.359736E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.407715E+02    0.387608E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.373303E+02    0.402442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.10 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.372999E+02    0.235226E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.353535E+02    0.237970E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.368234E+02    0.218460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.389517E+02    0.222263E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.387854E+02    0.244087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.366057E+02    0.253071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.347352E+02    0.265998E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.336323E+02    0.252724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.333792E+02    0.235929E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.344106E+02    0.216205E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.360849E+02    0.202682E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.381818E+02    0.197095E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.399874E+02    0.202611E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.411433E+02    0.216511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.412238E+02    0.235714E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.402252E+02    0.254541E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.385000E+02    0.267451E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.364929E+02    0.271536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.345628E+02    0.296236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.319038E+02    0.280566E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.305759E+02    0.254192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138486E+03   -0.310818E+02    0.221513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.331940E+02    0.192132E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.365934E+02    0.172195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.402120E+02    0.169732E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.431447E+02    0.185059E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.445124E+02    0.214446E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.440486E+02    0.248065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.414554E+02    0.279107E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.380250E+02    0.296044E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.10 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688447.257655655     
  ps_ts2 prof sum =   688032.750151272     
  trcom prof sum =    688032.750151272     
  ps_ts2 cur sum  =   11877.5256869154     
  trcom cur sum  =    11877.5256869154     
  
  antenna # iant =            2
  powecha_use(iant) =    676742.473019471     
  ps_ts2 prof sum =   676346.458890504     
  trcom prof sum =    676346.458890504     
  ps_ts2 cur sum  =   14421.6064482702     
  trcom cur sum  =    14421.6064482702     
  
  antenna # iant =            3
  powecha_use(iant) =    525957.484337426     
  ps_ts2 prof sum =   525596.737226240     
  trcom prof sum =    525596.737226240     
  ps_ts2 cur sum  =   7564.27279208257     
  trcom cur sum  =    7564.27279208257     
  
  antenna # iant =            4
  powecha_use(iant) =    561817.729679454     
  ps_ts2 prof sum =   561497.606774201     
  trcom prof sum =    561497.606774201     
  ps_ts2 cur sum  =   10809.3876117357     
  trcom cur sum  =    10809.3876117357     
  
  antenna # iant =            5
  powecha_use(iant) =    545497.879744929     
  ps_ts2 prof sum =   545207.532802965     
  trcom prof sum =    545207.532802965     
  ps_ts2 cur sum  =   12799.9427297583     
  trcom cur sum  =    12799.9427297583     
  
  Total ECH heating:      2996681.08584518     
  Total Current Drive:    57472.7352687622     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1745
 TA= 2.06500E+00 CPU TIME= 1.60044E-01 SECONDS.  DT= 1.54482E-03
  
 TEC1=    2.06499999999998     
 TEC2=    2.06999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.59726999999998     
  %check_save_state: izleft hours =    75.3941666666667     
 --> plasma_hash("gframe"): TA= 2.065000E+00 NSTEP=  1745 Hash code:   38302290
 ->PRGCHK: bdy curvature ratio at t= 2.0700E+00 seconds is:  5.3390E-02
% MHDEQ: TG1=     2.065000 ; TG2=     2.070000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3390E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.065000 TO TG2=    2.070000 @ NSTEP     1745
   GFRAME TG2 MOMENTS CHECKSUM:  2.4762864031883D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.17831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -6.14666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.60693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.79865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.70361E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.37413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -8.62337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.21905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.89456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.69617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.50852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.41090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.32889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8=  3.74298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.27961E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  2.08565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.22676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.75693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.67548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.64132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.64132E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0700E+00  2.0750E+00 total power(Watts):  2.5337E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.07000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.361229E+02    0.384421E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.342884E+02    0.385344E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.356066E+02    0.369079E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.376908E+02    0.373790E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.376595E+02    0.393104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.354851E+02    0.400424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.336979E+02    0.411325E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.325560E+02    0.398392E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.324348E+02    0.381478E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.333238E+02    0.365067E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.349204E+02    0.353895E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.369076E+02    0.350518E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.386697E+02    0.356603E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.398672E+02    0.369768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.401932E+02    0.386334E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.391519E+02    0.403553E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.374111E+02    0.414875E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.354189E+02    0.417597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.336358E+02    0.439039E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.309583E+02    0.423126E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.297053E+02    0.396909E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.300391E+02    0.368037E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.321891E+02    0.341574E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.353227E+02    0.326662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.387948E+02    0.326943E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.419367E+02    0.341546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.434095E+02    0.369112E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.428522E+02    0.400906E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.406099E+02    0.426945E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.370639E+02    0.440975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.371010E+02    0.298536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.352502E+02    0.300054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.366471E+02    0.282252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.387605E+02    0.286399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.386640E+02    0.306804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.364808E+02    0.315103E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.346016E+02    0.327402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.335193E+02    0.314074E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.333725E+02    0.296783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.342473E+02    0.279525E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.359295E+02    0.266804E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.379315E+02    0.262645E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.397202E+02    0.268367E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.409518E+02    0.281376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.410074E+02    0.299947E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.400870E+02    0.317403E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.383497E+02    0.329705E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.363455E+02    0.333267E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.344840E+02    0.356558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.317670E+02    0.341106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.305549E+02    0.314063E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.309324E+02    0.283865E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.331499E+02    0.254997E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.363818E+02    0.237882E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.399879E+02    0.236253E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.428857E+02    0.252082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.443097E+02    0.280288E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.439120E+02    0.312313E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.414844E+02    0.340935E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.379369E+02    0.357241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.360833E+02    0.437692E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.342507E+02    0.438161E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.355775E+02    0.422561E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.376560E+02    0.427707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.378057E+02    0.445902E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.355292E+02    0.452694E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.336462E+02    0.463160E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.326001E+02    0.449964E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.324027E+02    0.433915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.332140E+02    0.418511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.348143E+02    0.407782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.367987E+02    0.404916E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.386479E+02    0.410960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.400352E+02    0.423677E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.400485E+02    0.441174E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.392977E+02    0.456493E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.374488E+02    0.467277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.354534E+02    0.469430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.335690E+02    0.490848E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.309052E+02    0.474174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.296711E+02    0.448262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.301007E+02    0.419699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.321007E+02    0.394936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.352384E+02    0.380945E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.387022E+02    0.382044E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.417232E+02    0.397927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.433781E+02    0.425018E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.429055E+02    0.455474E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.406430E+02    0.480440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.370866E+02    0.493450E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.365465E+02    0.344841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.346155E+02    0.346619E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.360168E+02    0.329327E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.381132E+02    0.333773E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.379990E+02    0.353868E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.358241E+02    0.361587E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.340380E+02    0.372732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.329715E+02    0.359510E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.328389E+02    0.342455E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.336350E+02    0.326192E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.353176E+02    0.313937E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.373105E+02    0.310182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.390837E+02    0.316095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.402956E+02    0.329245E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.404336E+02    0.346999E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.395016E+02    0.364005E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.377635E+02    0.375665E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.357674E+02    0.378770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.338997E+02    0.401436E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.312949E+02    0.385107E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.300248E+02    0.358982E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.303423E+02    0.329839E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.325660E+02    0.301883E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.357916E+02    0.285678E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.392826E+02    0.285443E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.423503E+02    0.300088E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.438497E+02    0.327725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.433132E+02    0.360005E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.407726E+02    0.387915E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.373317E+02    0.402780E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.93 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.373076E+02    0.235231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.353610E+02    0.237993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.368319E+02    0.218461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.389596E+02    0.222260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.387931E+02    0.244112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.366131E+02    0.253102E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.347419E+02    0.266049E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.336392E+02    0.252759E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.333889E+02    0.235921E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.344162E+02    0.216222E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.360928E+02    0.202669E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.381899E+02    0.197072E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.399965E+02    0.202590E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.411525E+02    0.216494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.412325E+02    0.235726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.402335E+02    0.254570E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.385098E+02    0.267488E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.364996E+02    0.271600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.345682E+02    0.296373E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.319097E+02    0.280651E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.305826E+02    0.254226E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.310885E+02    0.221515E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.332036E+02    0.192118E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.365986E+02    0.172197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.402205E+02    0.169693E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.431537E+02    0.185025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.445219E+02    0.214428E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.440572E+02    0.248093E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.414616E+02    0.279199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.380307E+02    0.296184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    228094.025432451     
  ps_ts2 prof sum =   227960.481773750     
  trcom prof sum =    227960.481773750     
  ps_ts2 cur sum  =   3949.43342253518     
  trcom cur sum  =    3949.43342253518     
  
  antenna # iant =            2
  powecha_use(iant) =    676173.700861045     
  ps_ts2 prof sum =   675828.529084142     
  trcom prof sum =    675828.529084142     
  ps_ts2 cur sum  =   14476.8816655615     
  trcom cur sum  =    14476.8816655615     
  
  antenna # iant =            3
  powecha_use(iant) =    525798.161620087     
  ps_ts2 prof sum =   525441.189017490     
  trcom prof sum =    525441.189017491     
  ps_ts2 cur sum  =   7579.07745245730     
  trcom cur sum  =    7579.07745245730     
  
  antenna # iant =            4
  powecha_use(iant) =    558988.249111535     
  ps_ts2 prof sum =   558663.762225914     
  trcom prof sum =    558663.762225913     
  ps_ts2 cur sum  =   10800.2259795537     
  trcom cur sum  =    10800.2259795537     
  
  antenna # iant =            5
  powecha_use(iant) =    544680.461392008     
  ps_ts2 prof sum =   544377.930899162     
  trcom prof sum =    544377.930899161     
  ps_ts2 cur sum  =   12843.4233787677     
  trcom cur sum  =    12843.4233787677     
  
  Total ECH heating:      2532271.89300046     
  Total Current Drive:    49649.0418988753     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1748
 TA= 2.07000E+00 CPU TIME= 1.59026E-01 SECONDS.  DT= 1.90518E-03
  
 TEC1=    2.06999999999998     
 TEC2=    2.07499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.61218055555537     
  %check_save_state: izleft hours =    75.3794444444444     
 --> plasma_hash("gframe"): TA= 2.070000E+00 NSTEP=  1748 Hash code:      55258
 ->PRGCHK: bdy curvature ratio at t= 2.0750E+00 seconds is:  5.3763E-02
% MHDEQ: TG1=     2.070000 ; TG2=     2.075000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.3763E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.070000 TO TG2=    2.075000 @ NSTEP     1748
   GFRAME TG2 MOMENTS CHECKSUM:  2.4761200533150D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0750E+00  2.0800E+00 total power(Watts):  2.2992E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.07500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.371074E+02    0.298686E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.352566E+02    0.300205E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.366550E+02    0.282336E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.387683E+02    0.286497E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.386704E+02    0.306988E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.364863E+02    0.315310E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.346064E+02    0.327635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.335244E+02    0.314275E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.333793E+02    0.296914E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.342544E+02    0.279601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.359377E+02    0.266845E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.379397E+02    0.262683E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.397290E+02    0.268406E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.409605E+02    0.281457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.410146E+02    0.300102E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.400932E+02    0.317625E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.383551E+02    0.329940E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.363505E+02    0.333498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.344871E+02    0.356804E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.317725E+02    0.341324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.305605E+02    0.314251E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.309392E+02    0.283943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.331580E+02    0.255020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.363907E+02    0.237887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.399008E+02    0.237051E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.428958E+02    0.252090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.443223E+02    0.280353E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.439191E+02    0.312528E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.414895E+02    0.341191E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.379408E+02    0.357494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.99 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.360811E+02    0.438062E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.342486E+02    0.438524E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.355764E+02    0.422935E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.376545E+02    0.428095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.378027E+02    0.446283E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.355256E+02    0.453053E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.336423E+02    0.463513E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.325972E+02    0.450318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.324011E+02    0.434269E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.332138E+02    0.418862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.348140E+02    0.408129E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.367986E+02    0.405268E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.386467E+02    0.411342E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.400335E+02    0.424087E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.402474E+02    0.440941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.392933E+02    0.456884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.374434E+02    0.467658E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.354485E+02    0.469803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.336510E+02    0.491050E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.309837E+02    0.474256E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.296687E+02    0.448600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.301010E+02    0.420038E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.321034E+02    0.395235E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.352407E+02    0.381228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.387046E+02    0.382340E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.417241E+02    0.398280E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.433765E+02    0.425448E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.429013E+02    0.455890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.406357E+02    0.480884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.370786E+02    0.493904E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.365509E+02    0.345080E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.346192E+02    0.346854E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.360221E+02    0.329554E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.381184E+02    0.334013E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.380031E+02    0.354112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.358276E+02    0.361836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.340407E+02    0.372990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.329749E+02    0.359747E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.328432E+02    0.342683E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.336429E+02    0.326392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.353229E+02    0.314138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.373164E+02    0.310377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.390894E+02    0.316310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.402970E+02    0.329511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.404380E+02    0.347256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.395056E+02    0.364259E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.377665E+02    0.375947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.357698E+02    0.379042E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.339000E+02    0.401765E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.312969E+02    0.385381E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.299488E+02    0.359771E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.303473E+02    0.330055E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.325724E+02    0.302036E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.357993E+02    0.285780E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.392903E+02    0.285539E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.423577E+02    0.300252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.438557E+02    0.327981E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.433172E+02    0.360280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.407740E+02    0.388240E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.373321E+02    0.403123E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.373170E+02    0.235238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.353700E+02    0.237996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.368412E+02    0.218459E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.389696E+02    0.222259E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.388022E+02    0.244119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.366218E+02    0.253121E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.347494E+02    0.266086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.336474E+02    0.252777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.333970E+02    0.235927E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.344250E+02    0.216221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.361022E+02    0.202662E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.381995E+02    0.197076E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.400066E+02    0.202586E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.411624E+02    0.216488E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.412436E+02    0.235720E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.402426E+02    0.254591E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.385153E+02    0.267545E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.365075E+02    0.271657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.345750E+02    0.296510E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.319164E+02    0.280727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138557E+03   -0.305896E+02    0.254250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138554E+03   -0.310967E+02    0.221520E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.332126E+02    0.192132E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.366076E+02    0.172209E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.402304E+02    0.169697E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.431648E+02    0.185031E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.445324E+02    0.214419E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.440678E+02    0.248097E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.414709E+02    0.279272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.380373E+02    0.296328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.01 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    676827.650361372     
  ps_ts2 prof sum =   676478.293291904     
  trcom prof sum =    676478.293291904     
  ps_ts2 cur sum  =   14567.3284828082     
  trcom cur sum  =    14567.3284828082     
  
  antenna # iant =            3
  powecha_use(iant) =    524595.612032717     
  ps_ts2 prof sum =   524250.754919004     
  trcom prof sum =    524250.754919004     
  ps_ts2 cur sum  =   7583.01684691797     
  trcom cur sum  =    7583.01684691797     
  
  antenna # iant =            4
  powecha_use(iant) =    553098.061197750     
  ps_ts2 prof sum =   552769.746751839     
  trcom prof sum =    552769.746751839     
  ps_ts2 cur sum  =   10739.0239529615     
  trcom cur sum  =    10739.0239529615     
  
  antenna # iant =            5
  powecha_use(iant) =    544630.668358983     
  ps_ts2 prof sum =   544329.299537527     
  trcom prof sum =    544329.299537526     
  ps_ts2 cur sum  =   12909.8087679363     
  trcom cur sum  =    12909.8087679363     
  
  Total ECH heating:      2297828.09450027     
  Total Current Drive:    45799.1780506239     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1751
 TA= 2.07500E+00 CPU TIME= 1.62546E-01 SECONDS.  DT= 8.91675E-04
  
 TEC1=    2.07499999999998     
 TEC2=    2.07999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.62524111111065     
  %check_save_state: izleft hours =    75.3663888888889     
 --> plasma_hash("gframe"): TA= 2.075000E+00 NSTEP=  1751 Hash code:    3804664
 ->PRGCHK: bdy curvature ratio at t= 2.0800E+00 seconds is:  5.4004E-02
% MHDEQ: TG1=     2.075000 ; TG2=     2.080000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4004E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.075000 TO TG2=    2.080000 @ NSTEP     1751
   GFRAME TG2 MOMENTS CHECKSUM:  2.4759537034418D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.50902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.86896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.24099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.82758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.11979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.42334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.22940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5= -1.33943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.76254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.74552E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.00242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.36493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -1.20416E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.39610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -3.77998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.24766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.55184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.87946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.40145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.40145E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0800E+00  2.0850E+00 total power(Watts):  2.8982E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.08000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.361277E+02    0.385049E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.342917E+02    0.385961E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.356134E+02    0.369636E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.376969E+02    0.374383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.376618E+02    0.393800E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.354863E+02    0.401139E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.336972E+02    0.412071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.326430E+02    0.398610E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.324396E+02    0.382062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.333307E+02    0.365604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.349288E+02    0.354425E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.369167E+02    0.351064E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.386782E+02    0.357168E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.398743E+02    0.370364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.401962E+02    0.387035E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.391526E+02    0.404324E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.374103E+02    0.415665E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.354180E+02    0.418381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.336315E+02    0.439814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.309572E+02    0.423871E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.297084E+02    0.397553E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.300454E+02    0.368553E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.321983E+02    0.342090E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.353341E+02    0.327178E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.388067E+02    0.327485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.419478E+02    0.342137E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.434172E+02    0.369746E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.428535E+02    0.401709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.406038E+02    0.427834E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.370590E+02    0.441789E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.371156E+02    0.298900E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.352644E+02    0.300426E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.366641E+02    0.282502E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.387774E+02    0.286684E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.386777E+02    0.307244E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.364935E+02    0.315579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.346127E+02    0.327921E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.335313E+02    0.314528E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.333865E+02    0.297115E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.342617E+02    0.279761E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.359467E+02    0.266972E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.379494E+02    0.262812E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.397388E+02    0.268549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.409690E+02    0.281631E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.410229E+02    0.300337E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.401002E+02    0.317914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.383612E+02    0.330255E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.363562E+02    0.333808E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.344920E+02    0.357092E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.316947E+02    0.342210E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.304867E+02    0.315174E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.309462E+02    0.284110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.331693E+02    0.255116E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.364008E+02    0.237984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.400089E+02    0.236355E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.429071E+02    0.252212E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.443326E+02    0.280530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.439270E+02    0.312827E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.414953E+02    0.341523E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.379452E+02    0.357805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.360788E+02    0.438496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.342463E+02    0.438943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.355754E+02    0.423361E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.378455E+02    0.427820E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.377992E+02    0.446734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.355215E+02    0.453485E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.336377E+02    0.463935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.325940E+02    0.450729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.323991E+02    0.434680E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.332129E+02    0.419274E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.348134E+02    0.408535E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.367985E+02    0.405674E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.386477E+02    0.411755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.400318E+02    0.424552E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.402443E+02    0.441408E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.392880E+02    0.457355E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.374377E+02    0.468118E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.354429E+02    0.470249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.336432E+02    0.491557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.309781E+02    0.474692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.296664E+02    0.448983E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.300990E+02    0.420445E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.321050E+02    0.395577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.352435E+02    0.381542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.387075E+02    0.382683E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.419316E+02    0.397871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.433746E+02    0.425940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.428954E+02    0.456395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.406276E+02    0.481407E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.372550E+02    0.494073E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.365560E+02    0.345385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.346240E+02    0.347147E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.360279E+02    0.329854E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.381242E+02    0.334326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.380075E+02    0.354418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.359236E+02    0.361602E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.340438E+02    0.373301E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.329791E+02    0.360032E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.328481E+02    0.342975E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.336459E+02    0.326698E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.353332E+02    0.314378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.373240E+02    0.310633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.390967E+02    0.316585E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.403076E+02    0.329807E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.404435E+02    0.347574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.395099E+02    0.364575E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.377697E+02    0.376270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.357727E+02    0.379364E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.339007E+02    0.402147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.312990E+02    0.385703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.299529E+02    0.360042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.303527E+02    0.330328E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.325793E+02    0.302254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.358073E+02    0.285956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.392996E+02    0.285722E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.423662E+02    0.300501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.438625E+02    0.328320E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.433221E+02    0.360614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.407758E+02    0.388612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.373328E+02    0.403522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.373276E+02    0.235335E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.353799E+02    0.238094E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.368522E+02    0.218526E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.389810E+02    0.222336E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.388129E+02    0.244220E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.366311E+02    0.253240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.347575E+02    0.266221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.336568E+02    0.252891E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.335757E+02    0.234345E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.343501E+02    0.217153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.361131E+02    0.202707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.382113E+02    0.197109E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.400188E+02    0.202625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.411747E+02    0.216556E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.412538E+02    0.235830E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.402570E+02    0.254685E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.385251E+02    0.267685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.365170E+02    0.271797E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.345826E+02    0.296719E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.319252E+02    0.280877E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.305983E+02    0.254355E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138586E+03   -0.311067E+02    0.221589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138309E+03   -0.332228E+02    0.192159E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.365306E+02    0.173167E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.402430E+02    0.169704E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.431781E+02    0.185046E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.447541E+02    0.212858E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.440796E+02    0.248216E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.414806E+02    0.279441E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.380459E+02    0.296535E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    593905.393394777     
  ps_ts2 prof sum =   593550.253144958     
  trcom prof sum =    593550.253144957     
  ps_ts2 cur sum  =   10373.0739702609     
  trcom cur sum  =    10373.0739702609     
  
  antenna # iant =            2
  powecha_use(iant) =    676575.388881773     
  ps_ts2 prof sum =   676203.081055078     
  trcom prof sum =    676203.081055078     
  ps_ts2 cur sum  =   14637.7721045768     
  trcom cur sum  =    14637.7721045768     
  
  antenna # iant =            3
  powecha_use(iant) =    525289.662910308     
  ps_ts2 prof sum =   524959.692771769     
  trcom prof sum =    524959.692771769     
  ps_ts2 cur sum  =   7616.97800036434     
  trcom cur sum  =    7616.97800036434     
  
  antenna # iant =            4
  powecha_use(iant) =    557573.235025299     
  ps_ts2 prof sum =   557238.633632137     
  trcom prof sum =    557238.633632137     
  ps_ts2 cur sum  =   10878.7991177147     
  trcom cur sum  =    10878.7991177147     
  
  antenna # iant =            5
  powecha_use(iant) =    544879.383893756     
  ps_ts2 prof sum =   544573.613958422     
  trcom prof sum =    544573.613958422     
  ps_ts2 cur sum  =   12985.7026348974     
  trcom cur sum  =    12985.7026348974     
  
  Total ECH heating:      2896525.27456236     
  Total Current Drive:    56492.3258278142     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1755
 TA= 2.08000E+00 CPU TIME= 1.59081E-01 SECONDS.  DT= 2.00061E-03
  
 TEC1=    2.07999999999998     
 TEC2=    2.08499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.64176083333314     
  %check_save_state: izleft hours =    75.3497222222222     
 --> plasma_hash("gframe"): TA= 2.080000E+00 NSTEP=  1755 Hash code:   88150252
 ->PRGCHK: bdy curvature ratio at t= 2.0850E+00 seconds is:  5.4098E-02
% MHDEQ: TG1=     2.080000 ; TG2=     2.085000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4098E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.080000 TO TG2=    2.085000 @ NSTEP     1755
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757873535685D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.0850E+00  2.0900E+00 total power(Watts):  2.9433E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.08500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.361294E+02    0.385371E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.342947E+02    0.386281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.356164E+02    0.369923E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.377955E+02    0.374189E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.376629E+02    0.394155E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.354863E+02    0.401508E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.336964E+02    0.412470E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.326447E+02    0.398966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.324417E+02    0.382360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.333338E+02    0.365883E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.349322E+02    0.354702E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.369208E+02    0.351345E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.386824E+02    0.357453E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.398776E+02    0.370673E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.400980E+02    0.387824E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.391532E+02    0.404718E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.374061E+02    0.416099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.354169E+02    0.418797E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.336294E+02    0.440223E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.309548E+02    0.424278E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.297093E+02    0.397891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138259E+03   -0.300483E+02    0.368814E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.322025E+02    0.342359E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.353390E+02    0.327443E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.389091E+02    0.327162E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.419530E+02    0.342439E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.434205E+02    0.370069E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.429586E+02    0.401738E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.406015E+02    0.428298E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.370556E+02    0.442225E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.371223E+02    0.299075E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.352707E+02    0.300600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.366711E+02    0.282643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.387849E+02    0.286825E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.386845E+02    0.307459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.364988E+02    0.315823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.346163E+02    0.328195E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.335367E+02    0.314758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.333927E+02    0.297281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.342688E+02    0.279894E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.359542E+02    0.267093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.379576E+02    0.262925E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.398458E+02    0.267934E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.409785E+02    0.281756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.410300E+02    0.300535E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.401063E+02    0.318164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.383665E+02    0.330533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.363615E+02    0.334080E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.344956E+02    0.357364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.316985E+02    0.342478E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.304916E+02    0.315390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.309533E+02    0.284231E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.331750E+02    0.255238E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.364097E+02    0.238069E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.400181E+02    0.236444E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.429168E+02    0.252324E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.445526E+02    0.279331E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.439341E+02    0.313074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.415004E+02    0.341824E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.379523E+02    0.358070E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.361699E+02    0.438575E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.342446E+02    0.439346E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.355736E+02    0.423787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.377475E+02    0.428613E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.376991E+02    0.447481E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.355170E+02    0.453916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.337212E+02    0.464071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.325911E+02    0.451126E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.323971E+02    0.435085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.332110E+02    0.419678E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.348135E+02    0.408920E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.367984E+02    0.406068E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.386470E+02    0.412176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.400305E+02    0.425000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.402404E+02    0.441876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.391833E+02    0.458095E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.376236E+02    0.468061E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.354366E+02    0.470690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.336347E+02    0.492061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.309723E+02    0.475119E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.296633E+02    0.449368E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.300982E+02    0.420828E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.321058E+02    0.395919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.352460E+02    0.381853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.388072E+02    0.382546E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.419320E+02    0.398277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.433722E+02    0.426426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.429952E+02    0.456633E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.406187E+02    0.481928E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.372510E+02    0.494601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.365604E+02    0.345665E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.346283E+02    0.347426E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.360333E+02    0.330124E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.381292E+02    0.334612E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.381079E+02    0.354163E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.359270E+02    0.361880E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.340468E+02    0.373578E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.329826E+02    0.360300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.328542E+02    0.343235E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.337376E+02    0.326334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.353360E+02    0.314632E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.373301E+02    0.310853E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.391996E+02    0.316213E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.403131E+02    0.330093E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.404481E+02    0.347873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.395136E+02    0.364862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.377724E+02    0.376567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.357752E+02    0.379675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.339902E+02    0.402071E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.313011E+02    0.386008E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.299561E+02    0.360298E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.305171E+02    0.329309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.325851E+02    0.302436E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.358143E+02    0.286090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.393073E+02    0.285864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.422712E+02    0.301338E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.438685E+02    0.328626E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.433263E+02    0.360931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.407779E+02    0.388977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.374281E+02    0.403487E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.373368E+02    0.235418E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.353004E+02    0.238999E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.368618E+02    0.218560E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.389907E+02    0.222383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.389169E+02    0.243537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.366394E+02    0.253344E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.347656E+02    0.266332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.336648E+02    0.252998E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.335841E+02    0.234426E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.343587E+02    0.217179E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.360338E+02    0.203581E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.382225E+02    0.197079E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.400291E+02    0.202614E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.411856E+02    0.216588E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.412632E+02    0.235914E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.403598E+02    0.254069E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.385332E+02    0.267803E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.365249E+02    0.271917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.345888E+02    0.296881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.318483E+02    0.281750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138621E+03   -0.306064E+02    0.254459E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138621E+03   -0.311149E+02    0.221632E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.333978E+02    0.190273E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.367178E+02    0.171236E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.402539E+02    0.169655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.431896E+02    0.185000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.447654E+02    0.212877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.439856E+02    0.249071E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.414892E+02    0.279575E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.380529E+02    0.296708E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.72 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    638689.759730993     
  ps_ts2 prof sum =   638300.622684849     
  trcom prof sum =    638300.622684848     
  ps_ts2 cur sum  =   11200.3067497656     
  trcom cur sum  =    11200.3067497656     
  
  antenna # iant =            2
  powecha_use(iant) =    676211.415671994     
  ps_ts2 prof sum =   675839.823323425     
  trcom prof sum =    675839.823323425     
  ps_ts2 cur sum  =   14700.8768595584     
  trcom cur sum  =    14700.8768595584     
  
  antenna # iant =            3
  powecha_use(iant) =    525629.500706268     
  ps_ts2 prof sum =   525294.972129226     
  trcom prof sum =    525294.972129226     
  ps_ts2 cur sum  =   7642.89295853289     
  trcom cur sum  =    7642.89295853289     
  
  antenna # iant =            4
  powecha_use(iant) =    557324.445182760     
  ps_ts2 prof sum =   557008.529394135     
  trcom prof sum =    557008.529394134     
  ps_ts2 cur sum  =   10923.4976408472     
  trcom cur sum  =    10923.4976408472     
  
  antenna # iant =            5
  powecha_use(iant) =    545457.409192751     
  ps_ts2 prof sum =   545136.638132417     
  trcom prof sum =    545136.638132417     
  ps_ts2 cur sum  =   13062.7245891785     
  trcom cur sum  =    13062.7245891785     
  
  Total ECH heating:      2941580.58566405     
  Total Current Drive:    57530.2987978826     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1758
 TA= 2.08500E+00 CPU TIME= 1.59745E-01 SECONDS.  DT= 6.23280E-04
  
 TEC1=    2.08499999999998     
 TEC2=    2.08999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.65595111111088     
  %check_save_state: izleft hours =    75.3355555555556     
 --> plasma_hash("gframe"): TA= 2.085000E+00 NSTEP=  1758 Hash code:   95149122
 ->PRGCHK: bdy curvature ratio at t= 2.0900E+00 seconds is:  5.4249E-02
% MHDEQ: TG1=     2.085000 ; TG2=     2.090000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4249E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.085000 TO TG2=    2.090000 @ NSTEP     1758
   GFRAME TG2 MOMENTS CHECKSUM:  2.4756210036953D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.83973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.59125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.87505E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.89117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.44093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.47255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.23974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  4.96633E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.82891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.98251E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.59395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.40097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -1.72385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.51260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19=  1.40665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.26856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7= -1.34675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.08344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.76988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.76988E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0900E+00  2.0950E+00 total power(Watts):  2.9363E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.09000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.362273E+02    0.385399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.342993E+02    0.386768E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.356230E+02    0.370389E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.378020E+02    0.374673E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.376671E+02    0.394693E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.355816E+02    0.401627E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.336980E+02    0.413037E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.326481E+02    0.399480E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.325317E+02    0.382336E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.333404E+02    0.366331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.349406E+02    0.355147E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.369293E+02    0.351808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.387836E+02    0.357424E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.398851E+02    0.371164E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.401031E+02    0.388373E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.391587E+02    0.405307E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.375054E+02    0.416322E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.354171E+02    0.419396E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.336282E+02    0.440817E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.309551E+02    0.424850E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.297125E+02    0.398384E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.300544E+02    0.369243E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.322110E+02    0.342795E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.353492E+02    0.327896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.389201E+02    0.327643E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.419631E+02    0.342948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.434309E+02    0.370603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.429619E+02    0.402364E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.406008E+02    0.428982E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.370537E+02    0.442856E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.371350E+02    0.299467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.352828E+02    0.300991E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.366845E+02    0.282977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.387995E+02    0.287177E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.386972E+02    0.307882E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.365103E+02    0.316259E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.346273E+02    0.328637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.335472E+02    0.315180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.334042E+02    0.297649E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.342821E+02    0.280207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.359688E+02    0.267406E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.379729E+02    0.263247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.398602E+02    0.268275E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.409933E+02    0.282122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.411446E+02    0.300305E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.401185E+02    0.318638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.383772E+02    0.331005E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.363709E+02    0.334547E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.345032E+02    0.357808E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.317069E+02    0.342905E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.305014E+02    0.315796E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.309655E+02    0.284538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.331894E+02    0.255535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.364262E+02    0.238348E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.400352E+02    0.236735E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.429345E+02    0.252657E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.445694E+02    0.279704E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.439472E+02    0.313572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.414089E+02    0.342872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.379572E+02    0.358554E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.361684E+02    0.439203E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.342424E+02    0.439962E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.355735E+02    0.424403E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.377470E+02    0.429259E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.376964E+02    0.448116E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.355141E+02    0.454515E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.337167E+02    0.464662E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.325888E+02    0.451698E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.323959E+02    0.435671E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.332999E+02    0.419860E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.348156E+02    0.409486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.368012E+02    0.406637E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.386483E+02    0.412796E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.400303E+02    0.425672E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.402418E+02    0.442550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.393766E+02    0.458214E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.376181E+02    0.468704E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.354306E+02    0.471316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.336258E+02    0.492742E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.309658E+02    0.475722E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.295826E+02    0.450244E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.301029E+02    0.421370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.321096E+02    0.396426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.352513E+02    0.382340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.388130E+02    0.383062E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.419354E+02    0.398879E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.433719E+02    0.427138E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.429903E+02    0.457342E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.406097E+02    0.482659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.372404E+02    0.495338E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.365694E+02    0.346129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.347258E+02    0.347304E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.360433E+02    0.330584E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381396E+02    0.335083E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.381164E+02    0.354634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.359344E+02    0.362344E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.340526E+02    0.374051E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.329897E+02    0.360740E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.328608E+02    0.343685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.337472E+02    0.326776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.353466E+02    0.315064E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.373419E+02    0.311287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.392120E+02    0.316673E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.403242E+02    0.330585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.404577E+02    0.348357E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.395212E+02    0.365359E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.378744E+02    0.376584E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.357856E+02    0.380135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.339930E+02    0.402608E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.313055E+02    0.386479E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.299631E+02    0.360713E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.304460E+02    0.330370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.325962E+02    0.302818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.358282E+02    0.286435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.393209E+02    0.286221E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.422851E+02    0.301776E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.438804E+02    0.329144E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.433350E+02    0.361454E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.409848E+02    0.388664E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.374312E+02    0.404062E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.373521E+02    0.235697E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.354926E+02    0.237639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.368796E+02    0.218763E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.390095E+02    0.222606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.389333E+02    0.243842E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.366562E+02    0.253650E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.347810E+02    0.266636E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.335943E+02    0.254086E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.335993E+02    0.234679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.343749E+02    0.217362E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.362296E+02    0.201952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.382413E+02    0.197218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.401451E+02    0.201891E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.412052E+02    0.216792E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.413807E+02    0.235418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.403767E+02    0.254397E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.386438E+02    0.267390E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.365393E+02    0.272233E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.346008E+02    0.297254E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.318625E+02    0.282056E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138648E+03   -0.306192E+02    0.254745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.311295E+02    0.221822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.333322E+02    0.191315E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.367374E+02    0.171329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.403701E+02    0.168818E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.433126E+02    0.184234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.446819E+02    0.213906E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.440038E+02    0.249408E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.415046E+02    0.279928E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.380633E+02    0.297108E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    639647.609239794     
  ps_ts2 prof sum =   639265.075698036     
  trcom prof sum =    639265.075685059     
  ps_ts2 cur sum  =   11278.7586305704     
  trcom cur sum  =    11278.7586305704     
  
  antenna # iant =            2
  powecha_use(iant) =    673983.160350197     
  ps_ts2 prof sum =   673590.251248597     
  trcom prof sum =    673590.251248597     
  ps_ts2 cur sum  =   14741.5962368018     
  trcom cur sum  =    14741.5962368018     
  
  antenna # iant =            3
  powecha_use(iant) =    524842.114869408     
  ps_ts2 prof sum =   524495.632532398     
  trcom prof sum =    524495.632532399     
  ps_ts2 cur sum  =   7665.80719853520     
  trcom cur sum  =    7665.80719853520     
  
  antenna # iant =            4
  powecha_use(iant) =    551619.131207093     
  ps_ts2 prof sum =   551301.074437265     
  trcom prof sum =    551301.074437265     
  ps_ts2 cur sum  =   10876.1667397114     
  trcom cur sum  =    10876.1667397114     
  
  antenna # iant =            5
  powecha_use(iant) =    546224.689756706     
  ps_ts2 prof sum =   545908.259918040     
  trcom prof sum =    545908.259918040     
  ps_ts2 cur sum  =   13160.6434230196     
  trcom cur sum  =    13160.6434230196     
  
  Total ECH heating:      2934560.29382136     
  Total Current Drive:    57722.9722286384     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1763
 TA= 2.09000E+00 CPU TIME= 1.60817E-01 SECONDS.  DT= 1.75800E-03
  
 TEC1=    2.08999999999998     
 TEC2=    2.09499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.67133916666626     
  %check_save_state: izleft hours =    75.3202777777778     
 --> plasma_hash("gframe"): TA= 2.090000E+00 NSTEP=  1763 Hash code:  112819279
 ->PRGCHK: bdy curvature ratio at t= 2.0950E+00 seconds is:  5.4458E-02
% MHDEQ: TG1=     2.090000 ; TG2=     2.095000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4458E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.090000 TO TG2=    2.095000 @ NSTEP     1763
   GFRAME TG2 MOMENTS CHECKSUM:  2.4754546538220D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.0950E+00  2.1000E+00 total power(Watts):  2.9507E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.09500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.362324E+02    0.385901E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.343039E+02    0.387258E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.357207E+02    0.370358E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.378082E+02    0.375174E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.376709E+02    0.395244E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.355848E+02    0.402174E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.337005E+02    0.413603E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.326514E+02    0.399999E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.325369E+02    0.382812E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.333472E+02    0.366776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.349483E+02    0.355596E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.369377E+02    0.352282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.387961E+02    0.357881E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.400912E+02    0.370706E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.401084E+02    0.388909E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.391584E+02    0.405907E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.375069E+02    0.416934E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.355097E+02    0.419609E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.336268E+02    0.441410E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.309559E+02    0.425412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.296363E+02    0.399340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.300606E+02    0.369665E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.322192E+02    0.343232E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.353633E+02    0.328335E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.389303E+02    0.328133E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.418707E+02    0.343999E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.434358E+02    0.371148E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.429649E+02    0.403000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.406004E+02    0.429656E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.370517E+02    0.443484E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.372409E+02    0.299191E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.352947E+02    0.301377E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.366980E+02    0.283311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.388135E+02    0.287535E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.387095E+02    0.308314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.365255E+02    0.316680E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.346370E+02    0.329096E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.335576E+02    0.315605E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.333305E+02    0.298702E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.342090E+02    0.281258E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.359842E+02    0.267720E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.379883E+02    0.263567E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.398759E+02    0.268608E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.410085E+02    0.282479E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.411582E+02    0.300726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.401302E+02    0.319116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.383870E+02    0.331493E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.363806E+02    0.335019E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.345104E+02    0.358265E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.317151E+02    0.343339E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.305113E+02    0.316197E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.309779E+02    0.284852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.331194E+02    0.256619E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.365324E+02    0.237813E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.400529E+02    0.237017E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.431579E+02    0.251512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.445860E+02    0.280084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.439602E+02    0.314074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.414188E+02    0.343380E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.379652E+02    0.359033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.361669E+02    0.439823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.342419E+02    0.440550E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.355749E+02    0.425001E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.377467E+02    0.429894E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.376936E+02    0.448752E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.355115E+02    0.455115E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.337124E+02    0.465252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.325862E+02    0.452274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.324821E+02    0.435892E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.333004E+02    0.420442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.349085E+02    0.409636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.368978E+02    0.406805E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.388473E+02    0.412643E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.400303E+02    0.426336E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.402358E+02    0.443230E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.393720E+02    0.458874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.376122E+02    0.469346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.354247E+02    0.471936E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.336167E+02    0.493425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.309610E+02    0.476308E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.295802E+02    0.450790E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.300196E+02    0.422339E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.320288E+02    0.397385E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.352567E+02    0.382823E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.388188E+02    0.383574E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.419391E+02    0.399483E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.434775E+02    0.427526E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.429854E+02    0.458056E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.407034E+02    0.483200E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.372299E+02    0.496077E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.365781E+02    0.346596E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.347341E+02    0.347754E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.360529E+02    0.331051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.382448E+02    0.334995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.381246E+02    0.355114E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.359418E+02    0.362803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.340588E+02    0.374507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.329966E+02    0.361180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.328691E+02    0.344131E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.337567E+02    0.327228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.353575E+02    0.315499E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.373536E+02    0.311723E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.392236E+02    0.317140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.403346E+02    0.331089E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.404670E+02    0.348856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.395289E+02    0.365846E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.378806E+02    0.377077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.358784E+02    0.380155E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.339960E+02    0.403145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.313101E+02    0.386958E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.299699E+02    0.361130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138345E+03   -0.304549E+02    0.330801E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.325235E+02    0.303878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.358414E+02    0.286774E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.393360E+02    0.286574E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.422991E+02    0.302211E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.438921E+02    0.329675E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.433438E+02    0.361972E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.409900E+02    0.389219E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.374341E+02    0.404634E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.374624E+02    0.235151E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.355088E+02    0.237907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.369003E+02    0.218937E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.391224E+02    0.222003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.389500E+02    0.244141E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.366717E+02    0.253954E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.347950E+02    0.266947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.336088E+02    0.254375E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.335304E+02    0.235772E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.345634E+02    0.215809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.362471E+02    0.202103E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.382604E+02    0.197363E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.401652E+02    0.202047E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.413234E+02    0.216170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.413990E+02    0.235704E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.403933E+02    0.254718E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.386587E+02    0.267725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.365532E+02    0.272553E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.345248E+02    0.298307E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.318747E+02    0.282367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.306325E+02    0.255026E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138463E+03   -0.312241E+02    0.221137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.333484E+02    0.191440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.367560E+02    0.171420E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.403912E+02    0.168918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.433349E+02    0.184362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.447030E+02    0.214118E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.440224E+02    0.249743E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.416211E+02    0.279594E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.381740E+02    0.296808E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650210.195201048     
  ps_ts2 prof sum =   649810.396152104     
  trcom prof sum =    649810.396136706     
  ps_ts2 cur sum  =   11528.2541263164     
  trcom cur sum  =    11528.2541263164     
  
  antenna # iant =            2
  powecha_use(iant) =    672444.371500279     
  ps_ts2 prof sum =   672019.642672462     
  trcom prof sum =    672019.642672462     
  ps_ts2 cur sum  =   14794.2566426960     
  trcom cur sum  =    14794.2566426960     
  
  antenna # iant =            3
  powecha_use(iant) =    524249.336822684     
  ps_ts2 prof sum =   523898.030386761     
  trcom prof sum =    523898.030386762     
  ps_ts2 cur sum  =   7693.81914060699     
  trcom cur sum  =    7693.81914060698     
  
  antenna # iant =            4
  powecha_use(iant) =    556299.341183976     
  ps_ts2 prof sum =   555963.848768299     
  trcom prof sum =    555963.848768299     
  ps_ts2 cur sum  =   11031.9269782596     
  trcom cur sum  =    11031.9269782596     
  
  antenna # iant =            5
  powecha_use(iant) =    547515.441533370     
  ps_ts2 prof sum =   547202.581277346     
  trcom prof sum =    547202.581277346     
  ps_ts2 cur sum  =   13270.4081974219     
  trcom cur sum  =    13270.4081974219     
  
  Total ECH heating:      2948894.49924157     
  Total Current Drive:    58318.6650853008     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1766
 TA= 2.09500E+00 CPU TIME= 1.45357E-01 SECONDS.  DT= 1.30561E-03
  
 TEC1=    2.09499999999998     
 TEC2=    2.09999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.68395111111113     
  %check_save_state: izleft hours =    75.3075000000000     
 --> plasma_hash("gframe"): TA= 2.095000E+00 NSTEP=  1766 Hash code:   34589248
 ->PRGCHK: bdy curvature ratio at t= 2.1000E+00 seconds is:  5.4725E-02
% MHDEQ: TG1=     2.095000 ; TG2=     2.100000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4725E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.095000 TO TG2=    2.100000 @ NSTEP     1766
   GFRAME TG2 MOMENTS CHECKSUM:  2.4752883039488D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.17193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.31417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.51217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.95685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.76359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.52165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.25007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  1.45901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.89512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.21898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.18416E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.40157E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -2.24237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       9=  1.62883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18= -1.53091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.28941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  6.24557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.28696E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.43933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.43933E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1000E+00  2.1050E+00 total power(Watts):  2.9837E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.10000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.362378E+02    0.386405E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.343087E+02    0.387752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.357274E+02    0.370813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.378145E+02    0.375661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.377707E+02    0.395349E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.355873E+02    0.402730E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.337021E+02    0.414173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.326542E+02    0.400530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.325417E+02    0.383282E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.333537E+02    0.367213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.349560E+02    0.356050E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.369461E+02    0.352741E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.388041E+02    0.358362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.399987E+02    0.371679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.401131E+02    0.389461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.393579E+02    0.405715E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.375078E+02    0.417552E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.355106E+02    0.420210E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.336249E+02    0.442002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.308745E+02    0.426356E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.296398E+02    0.399838E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.300664E+02    0.370087E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.321434E+02    0.344265E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.354589E+02    0.328208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.389408E+02    0.328619E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.418806E+02    0.344514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.435488E+02    0.371213E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.429680E+02    0.403630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.405997E+02    0.430333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.370495E+02    0.444117E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.372532E+02    0.299565E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.353066E+02    0.301757E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.367116E+02    0.283643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.388274E+02    0.287886E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.387214E+02    0.308736E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.365319E+02    0.317145E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.346465E+02    0.329552E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.335682E+02    0.316025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.333421E+02    0.299052E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.342220E+02    0.281566E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.359985E+02    0.268031E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.380044E+02    0.263881E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.398913E+02    0.268935E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.410234E+02    0.282830E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.411714E+02    0.301133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.402405E+02    0.318986E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.384932E+02    0.331393E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.363901E+02    0.335487E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.345183E+02    0.358703E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.318895E+02    0.342596E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138451E+03   -0.305209E+02    0.316596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.309898E+02    0.285154E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.331330E+02    0.256908E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.365455E+02    0.238109E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.400703E+02    0.237301E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.430729E+02    0.252579E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.446019E+02    0.280462E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.439731E+02    0.314562E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.414287E+02    0.343890E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.379731E+02    0.359500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.361652E+02    0.440447E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.342400E+02    0.441152E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.355750E+02    0.425602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.377465E+02    0.430526E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.376906E+02    0.449394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.355066E+02    0.455738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.337076E+02    0.465851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.325829E+02    0.452857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.324808E+02    0.436484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.333011E+02    0.421021E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.349104E+02    0.410210E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.369003E+02    0.407386E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.387501E+02    0.413640E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.399303E+02    0.427329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.402331E+02    0.443908E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.393675E+02    0.459535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.375103E+02    0.470239E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.355114E+02    0.472310E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.336080E+02    0.494111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.309552E+02    0.476901E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.297372E+02    0.450692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.300209E+02    0.422883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.322009E+02    0.396983E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.353525E+02    0.382842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.388242E+02    0.384089E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.419426E+02    0.400090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.434807E+02    0.428233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133836E+03   -0.429801E+02    0.458770E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.406928E+02    0.483931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.371239E+02    0.496992E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.365869E+02    0.347063E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.347422E+02    0.348216E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.360627E+02    0.331516E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.382545E+02    0.335478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.381330E+02    0.355587E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.359488E+02    0.363264E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.340646E+02    0.374966E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.330033E+02    0.361619E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.328772E+02    0.344577E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.337662E+02    0.327677E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.353681E+02    0.315927E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.373651E+02    0.312150E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.392347E+02    0.317606E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.403452E+02    0.331586E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.406764E+02    0.348295E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.396351E+02    0.365839E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.378866E+02    0.377568E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.358840E+02    0.380646E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.339996E+02    0.403686E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.312322E+02    0.387898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.299763E+02    0.361555E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.304634E+02    0.331230E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.325345E+02    0.304242E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.358544E+02    0.287108E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.394472E+02    0.286240E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.423123E+02    0.302628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.439035E+02    0.330213E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.433521E+02    0.362497E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.409952E+02    0.389774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.374370E+02    0.405208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.374784E+02    0.235420E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.355238E+02    0.238175E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.370046E+02    0.218323E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.391402E+02    0.222231E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.389666E+02    0.244437E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.367781E+02    0.253481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.348091E+02    0.267253E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.336226E+02    0.254664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.335461E+02    0.236022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.345811E+02    0.215999E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.362659E+02    0.202253E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.382792E+02    0.197508E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.401846E+02    0.202216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.413425E+02    0.216380E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.414170E+02    0.235984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.404097E+02    0.255037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.386738E+02    0.268046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.366599E+02    0.272137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.347131E+02    0.297288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.318867E+02    0.282668E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.307257E+02    0.254490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.312391E+02    0.221330E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.333659E+02    0.191572E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.367754E+02    0.171534E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.404115E+02    0.169025E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.433564E+02    0.184497E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.447272E+02    0.214314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.440406E+02    0.250069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.416366E+02    0.279944E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.381869E+02    0.297183E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672165.713909310     
  ps_ts2 prof sum =   671727.733706298     
  trcom prof sum =    671727.733687679     
  ps_ts2 cur sum  =   11981.4252912997     
  trcom cur sum  =    11981.4252912997     
  
  antenna # iant =            2
  powecha_use(iant) =    676544.836204104     
  ps_ts2 prof sum =   676113.086382538     
  trcom prof sum =    676113.086382538     
  ps_ts2 cur sum  =   14972.8420432797     
  trcom cur sum  =    14972.8420432797     
  
  antenna # iant =            3
  powecha_use(iant) =    526429.940805955     
  ps_ts2 prof sum =   526073.016282083     
  trcom prof sum =    526073.016282083     
  ps_ts2 cur sum  =   7759.30900418629     
  trcom cur sum  =    7759.30900418629     
  
  antenna # iant =            4
  powecha_use(iant) =    561208.023650488     
  ps_ts2 prof sum =   560861.690833967     
  trcom prof sum =    560861.690833967     
  ps_ts2 cur sum  =   11192.8449896259     
  trcom cur sum  =    11192.8449896259     
  
  antenna # iant =            5
  powecha_use(iant) =    547367.281286669     
  ps_ts2 prof sum =   547061.445463083     
  trcom prof sum =    547061.445463083     
  ps_ts2 cur sum  =   13346.0557091010     
  trcom cur sum  =    13346.0557091010     
  
  Total ECH heating:      2981836.97264935     
  Total Current Drive:    59252.4770374926     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1770
 TA= 2.10000E+00 CPU TIME= 1.59943E-01 SECONDS.  DT= 2.79389E-05
  
 TEC1=    2.09999999999998     
 TEC2=    2.10499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.69876611111090     
  %check_save_state: izleft hours =    75.2927777777778     
 --> plasma_hash("gframe"): TA= 2.100000E+00 NSTEP=  1770 Hash code:    5835180
 ->PRGCHK: bdy curvature ratio at t= 2.1050E+00 seconds is:  5.4789E-02
% MHDEQ: TG1=     2.100000 ; TG2=     2.105000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4789E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.100000 TO TG2=    2.105000 @ NSTEP     1770
   GFRAME TG2 MOMENTS CHECKSUM:  2.4751219540755D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1050E+00  2.1100E+00 total power(Watts):  2.9820E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.10500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.362420E+02    0.386920E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.343131E+02    0.388251E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.357337E+02    0.371283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.378208E+02    0.376156E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.377748E+02    0.395897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.355906E+02    0.403282E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.337036E+02    0.414739E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.326574E+02    0.401051E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.325464E+02    0.383752E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.333603E+02    0.367658E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.349637E+02    0.356506E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.369542E+02    0.353220E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.388122E+02    0.358850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.400057E+02    0.372179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.401183E+02    0.389995E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.393603E+02    0.406319E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.375098E+02    0.418160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.355114E+02    0.420811E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.336229E+02    0.442617E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.310389E+02    0.426168E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.296428E+02    0.400332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.302324E+02    0.369446E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.321516E+02    0.344717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.354683E+02    0.328687E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.389516E+02    0.329110E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.418903E+02    0.345038E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.435561E+02    0.371756E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.429708E+02    0.404265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.404980E+02    0.431329E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.370469E+02    0.444766E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.372657E+02    0.299954E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.353187E+02    0.302138E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.367263E+02    0.283985E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.389372E+02    0.287557E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.387333E+02    0.309174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.365427E+02    0.317599E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.346558E+02    0.330024E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.335782E+02    0.316452E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.335260E+02    0.298025E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.344090E+02    0.280440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.360130E+02    0.268348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.381138E+02    0.263470E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.399070E+02    0.269277E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.410388E+02    0.283192E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.411848E+02    0.301560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.402519E+02    0.319468E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.385037E+02    0.331889E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.364916E+02    0.335388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.345253E+02    0.359163E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.318976E+02    0.343051E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.305292E+02    0.317020E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.310825E+02    0.284729E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.331460E+02    0.257205E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.365644E+02    0.238373E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.400889E+02    0.237595E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.430905E+02    0.252923E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.445130E+02    0.281505E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.438806E+02    0.315650E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.414403E+02    0.344401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.379809E+02    0.359981E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.361632E+02    0.441083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.343272E+02    0.441451E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.356662E+02    0.425864E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.377455E+02    0.431175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.376864E+02    0.450062E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.355027E+02    0.456376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.337017E+02    0.466494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.325792E+02    0.453467E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.324795E+02    0.437082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.333014E+02    0.421609E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.349124E+02    0.410782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.369028E+02    0.407961E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.387518E+02    0.414255E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.399298E+02    0.427988E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.402298E+02    0.444612E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.393608E+02    0.460240E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.375035E+02    0.470927E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.355052E+02    0.472986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.335981E+02    0.494849E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.309487E+02    0.477548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.297346E+02    0.451273E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.300217E+02    0.423434E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.322043E+02    0.397495E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.353571E+02    0.383330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.388294E+02    0.384616E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.419460E+02    0.400702E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.434758E+02    0.428953E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133865E+03   -0.429746E+02    0.459518E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.406833E+02    0.484719E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.371131E+02    0.497786E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.365954E+02    0.347544E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.347503E+02    0.348677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.361669E+02    0.331388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.382646E+02    0.335974E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.381410E+02    0.356071E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.359559E+02    0.363728E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.341585E+02    0.374933E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.329214E+02    0.362618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.328003E+02    0.345611E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.337756E+02    0.328142E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.353789E+02    0.316367E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.373760E+02    0.312590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.392460E+02    0.318074E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.403559E+02    0.332091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.405856E+02    0.349335E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.396425E+02    0.366333E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.378892E+02    0.378082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.358889E+02    0.381133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.340015E+02    0.404236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.312363E+02    0.388368E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138413E+03   -0.299825E+02    0.361978E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.304720E+02    0.331669E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.325455E+02    0.304615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.358680E+02    0.287451E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.394615E+02    0.286598E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.423261E+02    0.303069E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.439149E+02    0.330754E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.433602E+02    0.363030E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.409997E+02    0.390340E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.374397E+02    0.405781E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.374950E+02    0.235701E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.355413E+02    0.238453E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.370209E+02    0.218544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.391579E+02    0.222477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.389842E+02    0.244744E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.367933E+02    0.253796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.347345E+02    0.268332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.338066E+02    0.253380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.335607E+02    0.236280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.345967E+02    0.216199E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.362832E+02    0.202435E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.383911E+02    0.196791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.402027E+02    0.202406E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.413616E+02    0.216611E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.414351E+02    0.236289E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.404275E+02    0.255363E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.386906E+02    0.268374E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.366741E+02    0.272463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.347248E+02    0.297662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.318990E+02    0.282985E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.307388E+02    0.254780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138526E+03   -0.312545E+02    0.221537E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.333827E+02    0.191715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.367059E+02    0.172611E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.404361E+02    0.169134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.433768E+02    0.184664E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.447459E+02    0.214564E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.442679E+02    0.248936E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.416522E+02    0.280306E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.381995E+02    0.297580E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675783.833328004     
  ps_ts2 prof sum =   675347.021576158     
  trcom prof sum =    675347.021554428     
  ps_ts2 cur sum  =   12110.1083808040     
  trcom cur sum  =    12110.1083808040     
  
  antenna # iant =            2
  powecha_use(iant) =    677805.900036653     
  ps_ts2 prof sum =   677392.896529565     
  trcom prof sum =    677392.896529565     
  ps_ts2 cur sum  =   15089.4242003557     
  trcom cur sum  =    15089.4242003557     
  
  antenna # iant =            3
  powecha_use(iant) =    526226.677242234     
  ps_ts2 prof sum =   525860.202980736     
  trcom prof sum =    525860.202980736     
  ps_ts2 cur sum  =   7789.59988745645     
  trcom cur sum  =    7789.59988745646     
  
  antenna # iant =            4
  powecha_use(iant) =    555103.764775918     
  ps_ts2 prof sum =   554724.208382412     
  trcom prof sum =    554724.208382411     
  ps_ts2 cur sum  =   11133.5196313558     
  trcom cur sum  =    11133.5196313558     
  
  antenna # iant =            5
  powecha_use(iant) =    547051.139362372     
  ps_ts2 prof sum =   546729.383451449     
  trcom prof sum =    546729.383451449     
  ps_ts2 cur sum  =   13418.8491444020     
  trcom cur sum  =    13418.8491444020     
  
  Total ECH heating:      2980053.71289859     
  Total Current Drive:    59541.5012443741     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1788
 TA= 2.10500E+00 CPU TIME= 1.60156E-01 SECONDS.  DT= 1.86002E-04
  
 TEC1=    2.10499999999998     
 TEC2=    2.10999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    4.71249416666637     
  %check_save_state: izleft hours =    75.2791666666667     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  2.1050000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 2.105000E+00 NSTEP=  1788 Hash code:  114681057
 ->PRGCHK: bdy curvature ratio at t= 2.1100E+00 seconds is:  5.4797E-02
% MHDEQ: TG1=     2.105000 ; TG2=     2.110000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7674E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4797E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.105000 TO TG2=    2.110000 @ NSTEP     1788
   GFRAME TG2 MOMENTS CHECKSUM:  2.4750744631486D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.80498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.05105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.26204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.20339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.47288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.57648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.60967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.92246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.45576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.33204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.18122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -4.61539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -1.26840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -2.23907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.57419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  5.07424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.40322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.77141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.77141E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1100E+00  2.1150E+00 total power(Watts):  2.9951E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.11000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.362619E+02    0.387419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.343321E+02    0.388724E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.357547E+02    0.371739E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.378455E+02    0.376617E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.376994E+02    0.396842E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.356088E+02    0.403807E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.337199E+02    0.415275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.326744E+02    0.401544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.325648E+02    0.384211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.333805E+02    0.368082E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.349854E+02    0.356915E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.369775E+02    0.353637E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.388360E+02    0.359295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.401281E+02    0.372216E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.401400E+02    0.390542E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.391832E+02    0.407661E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.375269E+02    0.418743E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.355280E+02    0.421378E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.336360E+02    0.443219E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.309709E+02    0.427076E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.296586E+02    0.400791E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.300913E+02    0.370908E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.322570E+02    0.344484E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.354926E+02    0.329032E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.389776E+02    0.329480E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.419168E+02    0.345470E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.434756E+02    0.372748E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.429918E+02    0.404879E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.406156E+02    0.431667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.370608E+02    0.445420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.372924E+02    0.300266E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.353438E+02    0.302437E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.367537E+02    0.284253E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.388696E+02    0.288532E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.387608E+02    0.309505E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.365685E+02    0.317926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.346795E+02    0.330359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.336021E+02    0.316762E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.333793E+02    0.299685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.342607E+02    0.282135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.360408E+02    0.268563E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.380491E+02    0.264418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.399383E+02    0.269515E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.410690E+02    0.283486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.412141E+02    0.301897E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.401804E+02    0.320432E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.385293E+02    0.332263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.364237E+02    0.336335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.345468E+02    0.359573E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.317526E+02    0.344569E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.305497E+02    0.317315E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.310258E+02    0.285696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.331744E+02    0.257366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.365953E+02    0.238489E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.401208E+02    0.237727E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.432265E+02    0.252394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.446517E+02    0.281153E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.440162E+02    0.315448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.414646E+02    0.344837E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.380042E+02    0.360420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.361772E+02    0.441718E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.342516E+02    0.442377E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.355905E+02    0.426789E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.377619E+02    0.431779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.377005E+02    0.450730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.355151E+02    0.457040E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.337114E+02    0.467173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.325913E+02    0.454090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.324921E+02    0.437664E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.333172E+02    0.422153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.349296E+02    0.411319E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.369211E+02    0.408516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.388672E+02    0.414478E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.400466E+02    0.428305E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.402444E+02    0.445308E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.393720E+02    0.460983E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.375123E+02    0.471668E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.354228E+02    0.473933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.336035E+02    0.495586E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.309569E+02    0.478215E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.297446E+02    0.451870E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.300357E+02    0.423943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.320529E+02    0.398865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.352866E+02    0.384282E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.388510E+02    0.385121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.419673E+02    0.401294E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.434939E+02    0.429647E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.429876E+02    0.460317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.406916E+02    0.485559E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.371190E+02    0.498573E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.366190E+02    0.347941E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.347729E+02    0.349066E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.360977E+02    0.332342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.382900E+02    0.336355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.381647E+02    0.356505E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.359782E+02    0.364158E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.340905E+02    0.375869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.330311E+02    0.362470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.329072E+02    0.345393E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.337989E+02    0.328468E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.354038E+02    0.316687E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.374025E+02    0.312915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.392732E+02    0.318426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.403826E+02    0.332481E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.405109E+02    0.350294E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.395675E+02    0.367295E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.379090E+02    0.378576E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.359104E+02    0.381603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.340190E+02    0.404749E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.313362E+02    0.388354E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138404E+03   -0.300008E+02    0.362357E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.304941E+02    0.331976E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.325702E+02    0.304895E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.358946E+02    0.287723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.393934E+02    0.287572E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.423560E+02    0.303417E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.439436E+02    0.331174E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.433860E+02    0.363537E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.410213E+02    0.390900E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.374586E+02    0.406332E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.375252E+02    0.235816E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.355688E+02    0.238577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.370529E+02    0.218610E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.391908E+02    0.222556E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.390150E+02    0.244893E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.368222E+02    0.253971E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.348473E+02    0.267800E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.336645E+02    0.255115E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.335882E+02    0.236384E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.346253E+02    0.216251E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.363139E+02    0.202444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.383300E+02    0.197682E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.402371E+02    0.202428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.413952E+02    0.216690E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.414689E+02    0.236419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.404589E+02    0.255558E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.387197E+02    0.268603E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.367022E+02    0.272698E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.347514E+02    0.297940E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138345E+03   -0.319239E+02    0.283217E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138507E+03   -0.307638E+02    0.254920E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138526E+03   -0.312809E+02    0.221585E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.334114E+02    0.191678E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.368268E+02    0.171561E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.404670E+02    0.169061E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.434145E+02    0.184626E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.447818E+02    0.214648E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.440928E+02    0.250611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.416830E+02    0.280600E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.382276E+02    0.297876E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691466.689809164     
  ps_ts2 prof sum =   691045.260754804     
  trcom prof sum =    691045.260754803     
  ps_ts2 cur sum  =   12466.4881559003     
  trcom cur sum  =    12466.4881559003     
  
  antenna # iant =            2
  powecha_use(iant) =    675844.535521177     
  ps_ts2 prof sum =   675416.663674261     
  trcom prof sum =    675416.663674261     
  ps_ts2 cur sum  =   15128.3458237412     
  trcom cur sum  =    15128.3458237412     
  
  antenna # iant =            3
  powecha_use(iant) =    527438.859392454     
  ps_ts2 prof sum =   527082.507702549     
  trcom prof sum =    527082.507702549     
  ps_ts2 cur sum  =   7854.66862449634     
  trcom cur sum  =    7854.66862449634     
  
  antenna # iant =            4
  powecha_use(iant) =    552255.967720184     
  ps_ts2 prof sum =   551922.066142517     
  trcom prof sum =    551922.066142516     
  ps_ts2 cur sum  =   11141.9367887165     
  trcom cur sum  =    11141.9367887165     
  
  antenna # iant =            5
  powecha_use(iant) =    548079.169420665     
  ps_ts2 prof sum =   547781.055957988     
  trcom prof sum =    547781.055957988     
  ps_ts2 cur sum  =   13511.0474705825     
  trcom cur sum  =    13511.0474705825     
  
  Total ECH heating:      2993247.55423212     
  Total Current Drive:    60102.4868634368     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1798
 TA= 2.11000E+00 CPU TIME= 1.50452E-01 SECONDS.  DT= 2.50884E-04
  
 TEC1=    2.10999999999998     
 TEC2=    2.11499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.72536916666627     
  %check_save_state: izleft hours =    75.2661111111111     
 --> plasma_hash("gframe"): TA= 2.110000E+00 NSTEP=  1798 Hash code:  110697335
 ->PRGCHK: bdy curvature ratio at t= 2.1150E+00 seconds is:  5.4812E-02
% MHDEQ: TG1=     2.110000 ; TG2=     2.115000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4812E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.110000 TO TG2=    2.115000 @ NSTEP     1798
   GFRAME TG2 MOMENTS CHECKSUM:  2.4750269722216D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1150E+00  2.1200E+00 total power(Watts):  3.0087E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.11500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.361883E+02    0.388336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.343498E+02    0.389195E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.356834E+02    0.372668E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.378642E+02    0.377089E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.377180E+02    0.397354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.355345E+02    0.404726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.337345E+02    0.415802E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.326902E+02    0.402025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.324124E+02    0.385602E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.333997E+02    0.368494E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.350061E+02    0.357316E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.369994E+02    0.354044E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.388583E+02    0.359731E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.399511E+02    0.373624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.401600E+02    0.391066E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.392012E+02    0.408218E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.374478E+02    0.419667E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.354519E+02    0.422289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.336470E+02    0.443818E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.309868E+02    0.427587E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.297528E+02    0.400784E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.301090E+02    0.371288E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.322778E+02    0.344826E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.354249E+02    0.329969E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.390020E+02    0.329848E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.420442E+02    0.345374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.434987E+02    0.373262E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.430113E+02    0.405480E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.406310E+02    0.432314E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.370737E+02    0.446051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.372253E+02    0.301219E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.353687E+02    0.302724E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.367796E+02    0.284506E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.388971E+02    0.288816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.387865E+02    0.309827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.365921E+02    0.318255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.347015E+02    0.330696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.336241E+02    0.317071E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.334024E+02    0.299955E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.343729E+02    0.281645E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.360669E+02    0.268771E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.380767E+02    0.264620E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.399668E+02    0.269747E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.410979E+02    0.283764E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.412416E+02    0.302221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.402061E+02    0.320786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.384571E+02    0.333210E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.364465E+02    0.336696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.345670E+02    0.359973E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.317734E+02    0.344904E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.305738E+02    0.317578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.310481E+02    0.285920E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.331992E+02    0.257521E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.366247E+02    0.238583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.401507E+02    0.237847E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.432587E+02    0.252582E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.446820E+02    0.281459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.440442E+02    0.315833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.414877E+02    0.345267E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.380260E+02    0.360849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.361902E+02    0.442335E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.342629E+02    0.442979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.356051E+02    0.427361E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.377759E+02    0.432399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.377128E+02    0.451388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.355260E+02    0.457687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.337208E+02    0.467826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.326019E+02    0.454695E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.324191E+02    0.438567E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.333315E+02    0.422689E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.348554E+02    0.412239E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.368442E+02    0.409442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.386891E+02    0.415779E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.400623E+02    0.428933E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.402581E+02    0.445991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.393818E+02    0.461701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.376144E+02    0.472183E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.354317E+02    0.474616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.336088E+02    0.496298E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.309640E+02    0.478862E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.295957E+02    0.453059E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.301288E+02    0.424066E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.321529E+02    0.398895E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.353052E+02    0.384737E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.388712E+02    0.385617E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.419867E+02    0.401873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.434050E+02    0.430624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133848E+03   -0.429994E+02    0.461091E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.405978E+02    0.486536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.372195E+02    0.499191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.366410E+02    0.348329E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.347938E+02    0.349448E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.361186E+02    0.332706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.382177E+02    0.337302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.381869E+02    0.356927E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.359985E+02    0.364581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.341092E+02    0.376305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.330503E+02    0.362863E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.329277E+02    0.345748E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.338214E+02    0.328797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.354269E+02    0.317003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.374268E+02    0.313239E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.392985E+02    0.318772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.404076E+02    0.332866E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.405348E+02    0.350718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.395894E+02    0.367745E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.379344E+02    0.379023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.359288E+02    0.382068E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.340351E+02    0.405248E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.313530E+02    0.388785E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.300191E+02    0.362719E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.305137E+02    0.332288E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.326765E+02    0.304495E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.359198E+02    0.287980E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.394211E+02    0.287849E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.423840E+02    0.303755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.439704E+02    0.331596E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.434096E+02    0.364032E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.410416E+02    0.391440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.374759E+02    0.406869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.375545E+02    0.235923E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.355963E+02    0.238682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.370817E+02    0.218665E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.392200E+02    0.222632E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.390444E+02    0.245036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.367587E+02    0.254901E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.348762E+02    0.267971E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.336898E+02    0.255262E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.336142E+02    0.236471E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.346525E+02    0.216294E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.363424E+02    0.202441E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.383600E+02    0.197662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.402689E+02    0.202433E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.414270E+02    0.216750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.414998E+02    0.236545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.404883E+02    0.255744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.387476E+02    0.268825E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.366366E+02    0.273659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.346871E+02    0.298899E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.319470E+02    0.283440E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138726E+03   -0.307077E+02    0.255869E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138526E+03   -0.313061E+02    0.221628E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.334385E+02    0.191626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.368565E+02    0.171448E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.404968E+02    0.168971E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.434486E+02    0.184566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.448158E+02    0.214715E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.441258E+02    0.250793E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.417122E+02    0.280872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.381589E+02    0.298841E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699787.657827716     
  ps_ts2 prof sum =   699343.795725077     
  trcom prof sum =    699343.795687192     
  ps_ts2 cur sum  =   12677.8432013518     
  trcom cur sum  =    12677.8432013518     
  
  antenna # iant =            2
  powecha_use(iant) =    673940.755633124     
  ps_ts2 prof sum =   673540.335838190     
  trcom prof sum =    673540.335838191     
  ps_ts2 cur sum  =   15153.4382501074     
  trcom cur sum  =    15153.4382501074     
  
  antenna # iant =            3
  powecha_use(iant) =    528552.059489831     
  ps_ts2 prof sum =   528204.620095600     
  trcom prof sum =    528204.620095600     
  ps_ts2 cur sum  =   7907.56543375781     
  trcom cur sum  =    7907.56543375780     
  
  antenna # iant =            4
  powecha_use(iant) =    557965.910084895     
  ps_ts2 prof sum =   557654.091811651     
  trcom prof sum =    557654.091811651     
  ps_ts2 cur sum  =   11310.6712267232     
  trcom cur sum  =    11310.6712267232     
  
  antenna # iant =            5
  powecha_use(iant) =    548410.595819859     
  ps_ts2 prof sum =   548103.263809773     
  trcom prof sum =    548103.263809773     
  ps_ts2 cur sum  =   13576.7411187040     
  trcom cur sum  =    13576.7411187040     
  
  Total ECH heating:      3006846.10724241     
  Total Current Drive:    60626.2592306443     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1807
 TA= 2.11500E+00 CPU TIME= 1.62212E-01 SECONDS.  DT= 2.74976E-05
  
 TEC1=    2.11499999999998     
 TEC2=    2.11999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.73898722222202     
  %check_save_state: izleft hours =    75.2525000000000     
 --> plasma_hash("gframe"): TA= 2.115000E+00 NSTEP=  1807 Hash code:  122103816
 ->PRGCHK: bdy curvature ratio at t= 2.1200E+00 seconds is:  5.4833E-02
% MHDEQ: TG1=     2.115000 ; TG2=     2.120000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7691E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4833E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.115000 TO TG2=    2.120000 @ NSTEP     1807
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749794815214D+04
 %MFRCHK - LABEL "YMS11", #       1=  1.92611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -4.74094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.79404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.61485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.57729E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.63908E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.06068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.24958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.91000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.70052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -3.02193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -4.87912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  1.54774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -4.02773E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  1.48182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      11= -1.61083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  3.81037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.43194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.04491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.04491E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1200E+00  2.1250E+00 total power(Watts):  3.0056E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.12000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.362087E+02    0.388848E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.343695E+02    0.389681E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.357053E+02    0.373133E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.377897E+02    0.378061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.377380E+02    0.397907E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.355530E+02    0.405268E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.337516E+02    0.416349E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.327079E+02    0.402537E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.325163E+02    0.385594E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.334202E+02    0.368947E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.350288E+02    0.357746E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.370233E+02    0.354483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.387857E+02    0.360702E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.399749E+02    0.374136E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.402818E+02    0.391213E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.392213E+02    0.408810E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.374655E+02    0.420270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.354682E+02    0.422882E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.336614E+02    0.444437E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.309998E+02    0.428148E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.297696E+02    0.401270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.301275E+02    0.371710E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.322993E+02    0.345218E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.354507E+02    0.330341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.389324E+02    0.330825E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.420717E+02    0.345846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.435241E+02    0.373819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.429283E+02    0.406483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.406479E+02    0.433004E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.370880E+02    0.446719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.372531E+02    0.301551E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.353950E+02    0.303052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.368079E+02    0.284800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.389261E+02    0.289136E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.388146E+02    0.310189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.366183E+02    0.318619E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.347266E+02    0.331071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.336493E+02    0.317405E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.335133E+02    0.299576E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.344000E+02    0.281918E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.360960E+02    0.269020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.381071E+02    0.264863E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.399981E+02    0.270020E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.411290E+02    0.284085E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.411714E+02    0.303216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.402350E+02    0.321176E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.384838E+02    0.333613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.364713E+02    0.337090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.345893E+02    0.360406E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.317946E+02    0.345286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.306767E+02    0.317236E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.310724E+02    0.286183E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.333109E+02    0.256927E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.365631E+02    0.239560E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.401845E+02    0.238017E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.430877E+02    0.254286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.447158E+02    0.281810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.440751E+02    0.316257E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.416144E+02    0.345216E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.380501E+02    0.361312E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.361111E+02    0.443288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.342776E+02    0.443599E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.356221E+02    0.427955E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.376965E+02    0.433362E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.378223E+02    0.451811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.355389E+02    0.458364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.336441E+02    0.468749E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.326125E+02    0.455343E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.324332E+02    0.439157E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.332601E+02    0.423629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.348729E+02    0.412791E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.368633E+02    0.410003E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.387081E+02    0.416380E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.400795E+02    0.429602E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.402731E+02    0.446716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.392991E+02    0.462692E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.376234E+02    0.472944E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.354414E+02    0.475340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.336151E+02    0.497044E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.309723E+02    0.479540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.296872E+02    0.453350E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.301424E+02    0.424608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.321706E+02    0.399388E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.353256E+02    0.385235E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.387956E+02    0.386589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.418027E+02    0.403240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.434232E+02    0.431347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134066E+03   -0.429078E+02    0.462122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.406063E+02    0.487382E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.372248E+02    0.500017E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.366652E+02    0.348750E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.347281E+02    0.350402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.361417E+02    0.333106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.382438E+02    0.337709E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.381156E+02    0.357900E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.360210E+02    0.365039E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.341298E+02    0.376770E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.330717E+02    0.363293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.329506E+02    0.346135E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.337586E+02    0.329770E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.354531E+02    0.317352E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.374542E+02    0.313601E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.392295E+02    0.319756E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.404356E+02    0.333281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.405609E+02    0.351181E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.396137E+02    0.368247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.378612E+02    0.379989E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.358581E+02    0.383025E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.339649E+02    0.406184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.313712E+02    0.389258E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.300386E+02    0.363120E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.304552E+02    0.333249E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.327011E+02    0.304803E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.359474E+02    0.288277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.394514E+02    0.288172E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.425177E+02    0.303511E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.440000E+02    0.332054E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.434362E+02    0.364562E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.408619E+02    0.392835E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.374004E+02    0.407821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.374937E+02    0.236884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.354491E+02    0.240455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.370224E+02    0.219610E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.391584E+02    0.223579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.390766E+02    0.245227E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.367885E+02    0.255112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.349039E+02    0.268207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.337176E+02    0.255448E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.337278E+02    0.235770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.345105E+02    0.218104E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.363748E+02    0.202482E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.383939E+02    0.197692E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.403041E+02    0.202488E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.413633E+02    0.217685E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.414340E+02    0.237506E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.405210E+02    0.255971E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.386829E+02    0.269814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.366661E+02    0.273914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.347131E+02    0.299212E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.319725E+02    0.283697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.307338E+02    0.256041E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138745E+03   -0.312541E+02    0.222591E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.334685E+02    0.191615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.368895E+02    0.171379E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.405365E+02    0.168872E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.434872E+02    0.184563E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.448534E+02    0.214833E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.441615E+02    0.251028E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.416426E+02    0.281873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.381876E+02    0.299167E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698976.624424796     
  ps_ts2 prof sum =   698575.208150238     
  trcom prof sum =    698575.208150238     
  ps_ts2 cur sum  =   12744.4007795460     
  trcom cur sum  =    12744.4007795460     
  
  antenna # iant =            2
  powecha_use(iant) =    676084.639244898     
  ps_ts2 prof sum =   675744.020995345     
  trcom prof sum =    675744.020995345     
  ps_ts2 cur sum  =   15293.5585371414     
  trcom cur sum  =    15293.5585371414     
  
  antenna # iant =            3
  powecha_use(iant) =    528021.962011296     
  ps_ts2 prof sum =   527682.825176719     
  trcom prof sum =    527682.825176720     
  ps_ts2 cur sum  =   7947.22709699960     
  trcom cur sum  =    7947.22709699960     
  
  antenna # iant =            4
  powecha_use(iant) =    554699.882020747     
  ps_ts2 prof sum =   554380.642086766     
  trcom prof sum =    554380.642086765     
  ps_ts2 cur sum  =   11314.9741977260     
  trcom cur sum  =    11314.9741977259     
  
  antenna # iant =            5
  powecha_use(iant) =    547785.787350874     
  ps_ts2 prof sum =   547461.507615123     
  trcom prof sum =    547461.507615123     
  ps_ts2 cur sum  =   13636.7687109250     
  trcom cur sum  =    13636.7687109250     
  
  Total ECH heating:      3003844.20402419     
  Total Current Drive:    60936.9293223380     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1825
 TA= 2.12000E+00 CPU TIME= 1.60577E-01 SECONDS.  DT= 2.81804E-04
  
 TEC1=    2.11999999999998     
 TEC2=    2.12499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.74978111111068     
  %check_save_state: izleft hours =    75.2416666666667     
 --> plasma_hash("gframe"): TA= 2.120000E+00 NSTEP=  1825 Hash code:   77838367
 ->PRGCHK: bdy curvature ratio at t= 2.1250E+00 seconds is:  5.4861E-02
% MHDEQ: TG1=     2.120000 ; TG2=     2.125000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7699E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4861E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.120000 TO TG2=    2.125000 @ NSTEP     1825
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749319908211D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  2.1250E+00  2.1300E+00 total power(Watts):  2.9945E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.12500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.362304E+02    0.389374E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.343014E+02    0.390644E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.357280E+02    0.373621E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.378114E+02    0.378589E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.377594E+02    0.398468E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.355725E+02    0.405831E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.336814E+02    0.417298E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.326411E+02    0.403478E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.325364E+02    0.386080E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.333558E+02    0.369902E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.349633E+02    0.358710E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.369549E+02    0.355457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.388113E+02    0.361185E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.399998E+02    0.374666E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.401054E+02    0.392612E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.393402E+02    0.409053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.374842E+02    0.420887E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.354856E+02    0.423487E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.335878E+02    0.445374E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.310141E+02    0.428720E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.296283E+02    0.402640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.300684E+02    0.372654E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.321542E+02    0.346760E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.354767E+02    0.330730E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.389607E+02    0.331245E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.418954E+02    0.347366E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.435507E+02    0.374398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.429510E+02    0.407140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.405649E+02    0.434014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.370077E+02    0.447696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.372822E+02    0.301901E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.353332E+02    0.304049E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.367453E+02    0.285804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.389575E+02    0.289464E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.387485E+02    0.311185E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.365545E+02    0.319606E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.346637E+02    0.332050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.335889E+02    0.318391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.335402E+02    0.299891E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.344286E+02    0.282195E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.360356E+02    0.270023E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.381385E+02    0.265130E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.399335E+02    0.271018E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.410620E+02    0.285089E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.412036E+02    0.303591E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.402643E+02    0.321587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.385124E+02    0.334023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.364983E+02    0.337499E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.345239E+02    0.361374E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.319003E+02    0.345099E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138675E+03   -0.305405E+02    0.318867E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.310987E+02    0.286448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.331707E+02    0.258699E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.365933E+02    0.239745E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.401223E+02    0.238983E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.431242E+02    0.254538E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.446457E+02    0.282821E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.439006E+02    0.317834E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.414434E+02    0.346720E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.379799E+02    0.362288E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.361270E+02    0.443945E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.342918E+02    0.444241E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.356391E+02    0.428575E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.377137E+02    0.434012E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.376445E+02    0.453065E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.354593E+02    0.459328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.336552E+02    0.469447E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.325398E+02    0.456274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.324477E+02    0.439769E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.332765E+02    0.424211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.348912E+02    0.413362E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.368828E+02    0.410590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.387276E+02    0.417011E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.398984E+02    0.430917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.401889E+02    0.447720E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.393120E+02    0.463467E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.374499E+02    0.474109E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.354518E+02    0.476081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.335341E+02    0.497966E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.308986E+02    0.480452E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.296982E+02    0.453973E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.299973E+02    0.425911E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.321893E+02    0.399896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.353470E+02    0.385748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.388189E+02    0.387139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.419280E+02    0.403502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.434420E+02    0.432096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.429221E+02    0.462948E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.406155E+02    0.488249E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.370420E+02    0.501122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.365982E+02    0.349729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.347528E+02    0.350829E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.361663E+02    0.333514E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.382720E+02    0.338129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.381417E+02    0.358362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.359533E+02    0.366013E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.341516E+02    0.377247E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.329227E+02    0.364771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.328028E+02    0.347677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.337832E+02    0.330145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.353902E+02    0.318342E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.373897E+02    0.314591E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.392587E+02    0.320152E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.403645E+02    0.334279E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.406935E+02    0.351122E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.396391E+02    0.368761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.378847E+02    0.380513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.358800E+02    0.383539E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.339839E+02    0.406734E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.312255E+02    0.390669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.299809E+02    0.364066E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.304780E+02    0.333606E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.325588E+02    0.306467E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.358857E+02    0.289280E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.394828E+02    0.288500E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.423448E+02    0.305137E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.439255E+02    0.333061E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.433589E+02    0.365574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.409861E+02    0.393015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.374207E+02    0.408409E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.375267E+02    0.237047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.355694E+02    0.239808E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.370559E+02    0.219722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.391935E+02    0.223707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.390153E+02    0.246199E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.368203E+02    0.255330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.347578E+02    0.269951E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.338325E+02    0.254864E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.335882E+02    0.237577E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.345426E+02    0.218200E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.362293E+02    0.204310E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.384293E+02    0.197734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.402442E+02    0.203419E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.414005E+02    0.217805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.414707E+02    0.237684E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.404563E+02    0.256967E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.387147E+02    0.270093E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.366965E+02    0.274190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.347411E+02    0.299533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.319166E+02    0.284692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.307607E+02    0.256221E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.312826E+02    0.222681E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.334164E+02    0.192546E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.369247E+02    0.171328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.404779E+02    0.169753E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.434254E+02    0.185460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.450018E+02    0.214132E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.443033E+02    0.250543E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.416767E+02    0.282201E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.382175E+02    0.299515E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694594.736014314     
  ps_ts2 prof sum =   694147.299326255     
  trcom prof sum =    694147.299326254     
  ps_ts2 cur sum  =   12753.8991350339     
  trcom cur sum  =    12753.8991350339     
  
  antenna # iant =            2
  powecha_use(iant) =    674247.566943423     
  ps_ts2 prof sum =   673853.485134921     
  trcom prof sum =    673853.485134921     
  ps_ts2 cur sum  =   15353.6900575137     
  trcom cur sum  =    15353.6900575137     
  
  antenna # iant =            3
  powecha_use(iant) =    529878.631174449     
  ps_ts2 prof sum =   529514.265383856     
  trcom prof sum =    529514.265383856     
  ps_ts2 cur sum  =   8028.30664038987     
  trcom cur sum  =    8028.30664038987     
  
  antenna # iant =            4
  powecha_use(iant) =    549692.126971445     
  ps_ts2 prof sum =   549332.467803868     
  trcom prof sum =    549332.467803867     
  ps_ts2 cur sum  =   11290.5826109049     
  trcom cur sum  =    11290.5826109049     
  
  antenna # iant =            5
  powecha_use(iant) =    546098.038472440     
  ps_ts2 prof sum =   545775.493024893     
  trcom prof sum =    545775.493024893     
  ps_ts2 cur sum  =   13680.1543989097     
  trcom cur sum  =    13680.1543989097     
  
  Total ECH heating:      2992623.01067379     
  Total Current Drive:    61106.6328427520     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1833
 TA= 2.12500E+00 CPU TIME= 1.60951E-01 SECONDS.  DT= 9.40287E-04
  
 TEC1=    2.12499999999998     
 TEC2=    2.12999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.76226194444416     
  %check_save_state: izleft hours =    75.2288888888889     
 --> plasma_hash("gframe"): TA= 2.125000E+00 NSTEP=  1833 Hash code:  102960162
 ->PRGCHK: bdy curvature ratio at t= 2.1300E+00 seconds is:  5.4896E-02
% MHDEQ: TG1=     2.125000 ; TG2=     2.130000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7707E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4896E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.125000 TO TG2=    2.130000 @ NSTEP     1833
   GFRAME TG2 MOMENTS CHECKSUM:  2.4748845001208D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.67529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.53058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  1.74442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.01154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.68432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.22490E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.70325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.92600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -4.81464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.89723E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.95142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.70405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -3.79841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.32115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.17840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  2.50757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  1.48041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.51480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.46137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.59688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.59688E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1300E+00  2.1350E+00 total power(Watts):  3.0023E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.13000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.361638E+02    0.390329E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.343215E+02    0.391164E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.356593E+02    0.374598E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.378326E+02    0.379126E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.376849E+02    0.399456E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.355913E+02    0.406408E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.336988E+02    0.417867E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.326589E+02    0.404016E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.325560E+02    0.386579E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.333775E+02    0.370369E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.349868E+02    0.359166E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.369797E+02    0.355926E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.388367E+02    0.361678E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.399251E+02    0.375666E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.401277E+02    0.393213E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.391641E+02    0.410410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.375019E+02    0.421529E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.355026E+02    0.424102E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.336016E+02    0.446020E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.309456E+02    0.429661E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138402E+03   -0.296450E+02    0.403141E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.300875E+02    0.373094E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.322612E+02    0.346591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.354118E+02    0.331722E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.389888E+02    0.331666E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.420261E+02    0.347351E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.434716E+02    0.375423E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.429729E+02    0.407813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.405823E+02    0.434728E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.370230E+02    0.448386E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.373112E+02    0.302247E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.353606E+02    0.304391E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.367746E+02    0.286115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.388923E+02    0.290467E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.387776E+02    0.311568E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.365813E+02    0.319988E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.346884E+02    0.332447E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.336145E+02    0.318746E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.333948E+02    0.301570E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.342819E+02    0.283914E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.360658E+02    0.270277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.380764E+02    0.266118E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.399653E+02    0.271310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.410940E+02    0.285437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.412349E+02    0.303971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.401951E+02    0.322585E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.384432E+02    0.335023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.364313E+02    0.338493E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.345470E+02    0.361829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.317572E+02    0.346646E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138667E+03   -0.305636E+02    0.319205E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138768E+03   -0.310429E+02    0.287448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.331992E+02    0.258906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.366230E+02    0.239938E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.401568E+02    0.239170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.430562E+02    0.255534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.446805E+02    0.283192E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.440356E+02    0.317719E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.414717E+02    0.347208E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.380045E+02    0.362780E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.361412E+02    0.444625E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.342172E+02    0.445190E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.355628E+02    0.429547E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.377302E+02    0.434682E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.376584E+02    0.453785E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.354717E+02    0.460035E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.336642E+02    0.470168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.325523E+02    0.456931E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.324616E+02    0.440389E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.332930E+02    0.424794E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.349094E+02    0.413943E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.368077E+02    0.411570E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.386498E+02    0.417990E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.400157E+02    0.431298E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.402032E+02    0.448481E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.393243E+02    0.464252E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.375557E+02    0.474685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.353705E+02    0.477032E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.335406E+02    0.498732E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.309072E+02    0.481150E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.297097E+02    0.454596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.300923E+02    0.426099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.321228E+02    0.400858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.352777E+02    0.386722E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.388415E+02    0.387700E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.419500E+02    0.404147E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.433557E+02    0.433126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134051E+03   -0.429356E+02    0.463790E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.406244E+02    0.489118E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.370484E+02    0.501952E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.366234E+02    0.350177E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.347758E+02    0.351276E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.361056E+02    0.334477E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.382028E+02    0.339125E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.381670E+02    0.358844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.359762E+02    0.366498E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.340848E+02    0.378220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.330297E+02    0.364704E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.329105E+02    0.347525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.338079E+02    0.330527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.354166E+02    0.318714E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.374176E+02    0.314968E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.392879E+02    0.320553E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.403937E+02    0.334723E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.405185E+02    0.352648E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.395655E+02    0.369752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.379070E+02    0.381057E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.359014E+02    0.384065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.340014E+02    0.407300E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.313266E+02    0.390698E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138601E+03   -0.300012E+02    0.364485E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138587E+03   -0.305012E+02    0.333968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.325838E+02    0.306790E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.359143E+02    0.289599E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.394168E+02    0.289511E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.423772E+02    0.305534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.439561E+02    0.333548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.433858E+02    0.366138E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.408067E+02    0.394432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.374399E+02    0.409011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.375594E+02    0.237220E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.356006E+02    0.239970E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.370890E+02    0.219840E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.392279E+02    0.223848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.390485E+02    0.246402E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.368514E+02    0.255549E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.348745E+02    0.269459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.336904E+02    0.256639E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.336178E+02    0.237722E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.346595E+02    0.217435E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.363513E+02    0.203488E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.384643E+02    0.197785E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.402799E+02    0.203502E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.414368E+02    0.217938E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.415062E+02    0.237880E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.404904E+02    0.257214E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.387463E+02    0.270377E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.366348E+02    0.275196E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.345913E+02    0.301207E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.319423E+02    0.284968E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.307876E+02    0.256415E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138742E+03   -0.313107E+02    0.222783E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.334475E+02    0.192563E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.367800E+02    0.173194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.405159E+02    0.169719E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.434646E+02    0.185491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.448283E+02    0.215910E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.441304E+02    0.252266E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.417095E+02    0.282541E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.382469E+02    0.299872E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698573.311537917     
  ps_ts2 prof sum =   698149.682648188     
  trcom prof sum =    698149.682648187     
  ps_ts2 cur sum  =   12910.3574032606     
  trcom cur sum  =    12910.3574032606     
  
  antenna # iant =            2
  powecha_use(iant) =    672882.054105816     
  ps_ts2 prof sum =   672460.582476447     
  trcom prof sum =    672460.582476447     
  ps_ts2 cur sum  =   15410.8110142569     
  trcom cur sum  =    15410.8110142569     
  
  antenna # iant =            3
  powecha_use(iant) =    529712.588444666     
  ps_ts2 prof sum =   529373.077306994     
  trcom prof sum =    529373.077306994     
  ps_ts2 cur sum  =   8078.46999783183     
  trcom cur sum  =    8078.46999783183     
  
  antenna # iant =            4
  powecha_use(iant) =    553952.380988729     
  ps_ts2 prof sum =   553623.438595879     
  trcom prof sum =    553623.438595878     
  ps_ts2 cur sum  =   11448.1767244556     
  trcom cur sum  =    11448.1767244556     
  
  antenna # iant =            5
  powecha_use(iant) =    547176.354232819     
  ps_ts2 prof sum =   546861.593073046     
  trcom prof sum =    546861.593073046     
  ps_ts2 cur sum  =   13778.3736809818     
  trcom cur sum  =    13778.3736809818     
  
  Total ECH heating:      3000468.37410055     
  Total Current Drive:    61626.1888207867     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1837
 TA= 2.13000E+00 CPU TIME= 1.59453E-01 SECONDS.  DT= 1.76894E-03
  
 TEC1=    2.12999999999998     
 TEC2=    2.13499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.77999777777768     
  %check_save_state: izleft hours =    75.2113888888889     
 --> plasma_hash("gframe"): TA= 2.130000E+00 NSTEP=  1837 Hash code:   85668449
 ->PRGCHK: bdy curvature ratio at t= 2.1350E+00 seconds is:  5.4938E-02
% MHDEQ: TG1=     2.130000 ; TG2=     2.135000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4938E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.130000 TO TG2=    2.135000 @ NSTEP     1837
   GFRAME TG2 MOMENTS CHECKSUM:  2.4748370094206D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1350E+00  2.1400E+00 total power(Watts):  3.0024E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.13500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.361823E+02    0.390880E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.343404E+02    0.391696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.356804E+02    0.375096E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.377628E+02    0.380093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.377048E+02    0.400025E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.355184E+02    0.407364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.337148E+02    0.418447E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.326757E+02    0.404556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.324898E+02    0.387537E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.333973E+02    0.370839E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.350083E+02    0.359630E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.370037E+02    0.356391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.387636E+02    0.362670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.399485E+02    0.376199E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.402489E+02    0.393401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.391827E+02    0.411035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.374245E+02    0.422490E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.354283E+02    0.425047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.336142E+02    0.446665E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.309581E+02    0.430242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.297404E+02    0.403219E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.301059E+02    0.373539E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.322828E+02    0.347000E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.354364E+02    0.332116E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.389182E+02    0.332668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.420531E+02    0.347848E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.434963E+02    0.376011E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.428890E+02    0.408836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.405986E+02    0.435435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.370359E+02    0.449079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.372450E+02    0.303244E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.353865E+02    0.304731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.368029E+02    0.286419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.389216E+02    0.290794E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.388055E+02    0.311945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.366074E+02    0.320371E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.347124E+02    0.332837E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.336382E+02    0.319102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.335067E+02    0.301202E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.343957E+02    0.283474E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.360943E+02    0.270537E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.381070E+02    0.266378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.399967E+02    0.271598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.411257E+02    0.285763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.411641E+02    0.304977E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.402231E+02    0.322997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.384687E+02    0.335461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.364559E+02    0.338914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.345688E+02    0.362291E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.317787E+02    0.347045E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138659E+03   -0.305858E+02    0.319532E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138762E+03   -0.310686E+02    0.287707E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.332264E+02    0.259109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.365664E+02    0.240870E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.401901E+02    0.239352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.430906E+02    0.255783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.447137E+02    0.283550E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.440640E+02    0.318162E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.416003E+02    0.347180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.380280E+02    0.363271E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.360627E+02    0.445574E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.342302E+02    0.445840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.355780E+02    0.430179E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.378407E+02    0.435049E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.376714E+02    0.454500E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.354833E+02    0.460737E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.336738E+02    0.470874E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.325629E+02    0.457589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.323896E+02    0.441322E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.332213E+02    0.425742E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.348367E+02    0.414895E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.368254E+02    0.412167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.386675E+02    0.418626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.400324E+02    0.431991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.402173E+02    0.449225E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.391397E+02    0.465450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.375651E+02    0.475465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.353795E+02    0.477775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.335467E+02    0.499493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.309144E+02    0.481848E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.295621E+02    0.455785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.301058E+02    0.426659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.321401E+02    0.401375E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.352976E+02    0.387240E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.387653E+02    0.388693E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.417654E+02    0.405520E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.433731E+02    0.433866E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.428434E+02    0.464824E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.405313E+02    0.490127E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.371480E+02    0.502660E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.366464E+02    0.350633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.347092E+02    0.352256E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.361299E+02    0.334887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.382278E+02    0.339570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.380946E+02    0.359843E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.359987E+02    0.366969E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.341048E+02    0.378714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.330504E+02    0.365156E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.329330E+02    0.347937E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.336581E+02    0.332110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.354424E+02    0.319077E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.374443E+02    0.315344E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.392180E+02    0.321553E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.404210E+02    0.335160E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.405423E+02    0.353147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.395891E+02    0.370276E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.378335E+02    0.382040E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.358304E+02    0.385035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.339342E+02    0.408239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.313443E+02    0.391195E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.300204E+02    0.364908E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.306025E+02    0.333720E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.326925E+02    0.306439E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.359423E+02    0.289898E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.394461E+02    0.289835E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.424078E+02    0.305927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.439851E+02    0.334034E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.434113E+02    0.366708E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.408285E+02    0.395025E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.373632E+02    0.409984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.374983E+02    0.238178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.356298E+02    0.240131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.370295E+02    0.220799E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.392608E+02    0.223977E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.390805E+02    0.246597E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.367899E+02    0.256529E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.349024E+02    0.269704E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.337186E+02    0.256832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.336468E+02    0.237862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.345166E+02    0.219261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.363830E+02    0.203545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.384043E+02    0.198723E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.403144E+02    0.203574E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.414718E+02    0.218061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.415409E+02    0.238058E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.405233E+02    0.257449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.386819E+02    0.271365E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.366639E+02    0.275463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.347058E+02    0.300851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138540E+03   -0.319682E+02    0.285228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138932E+03   -0.307344E+02    0.257396E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138741E+03   -0.313383E+02    0.222874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.334776E+02    0.192574E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.369027E+02    0.172187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.405519E+02    0.169679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.435023E+02    0.185512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.448640E+02    0.216059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.441655E+02    0.252510E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.416404E+02    0.283542E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.381796E+02    0.300871E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691809.753485911     
  ps_ts2 prof sum =   691401.495112245     
  trcom prof sum =    691401.495112244     
  ps_ts2 cur sum  =   12859.0343683077     
  trcom cur sum  =    12859.0343683076     
  
  antenna # iant =            2
  powecha_use(iant) =    676928.102387605     
  ps_ts2 prof sum =   676557.618535263     
  trcom prof sum =    676557.618535262     
  ps_ts2 cur sum  =   15584.6272815199     
  trcom cur sum  =    15584.6272815199     
  
  antenna # iant =            3
  powecha_use(iant) =    529418.280435067     
  ps_ts2 prof sum =   529059.036777278     
  trcom prof sum =    529059.036777278     
  ps_ts2 cur sum  =   8120.10337330609     
  trcom cur sum  =    8120.10337330609     
  
  antenna # iant =            4
  powecha_use(iant) =    556885.079466427     
  ps_ts2 prof sum =   556556.695293696     
  trcom prof sum =    556556.695293696     
  ps_ts2 cur sum  =   11572.9532898172     
  trcom cur sum  =    11572.9532898172     
  
  antenna # iant =            5
  powecha_use(iant) =    547345.325368664     
  ps_ts2 prof sum =   547029.106210262     
  trcom prof sum =    547029.106210262     
  ps_ts2 cur sum  =   13850.9434101721     
  trcom cur sum  =    13850.9434101721     
  
  Total ECH heating:      3000603.95192874     
  Total Current Drive:    61987.6617231230     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1840
 TA= 2.13500E+00 CPU TIME= 1.59823E-01 SECONDS.  DT= 1.27485E-03
  
 TEC1=    2.13499999999998     
 TEC2=    2.13999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.79356888888856     
  %check_save_state: izleft hours =    75.1980555555556     
 --> plasma_hash("gframe"): TA= 2.135000E+00 NSTEP=  1840 Hash code:   81459443
 ->PRGCHK: bdy curvature ratio at t= 2.1400E+00 seconds is:  5.4987E-02
% MHDEQ: TG1=     2.135000 ; TG2=     2.140000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7724E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4987E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.135000 TO TG2=    2.140000 @ NSTEP     1840
   GFRAME TG2 MOMENTS CHECKSUM:  2.4747895187203D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.61199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.27653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.27136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.42978E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.78753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.76512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -9.23161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.79614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -2.86813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.88492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.19336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.39751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -2.75629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  3.06694E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  1.64719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  3.49669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  2.97143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  1.26549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.48976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.28412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.28412E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1400E+00  2.1450E+00 total power(Watts):  2.9949E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.14000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.361997E+02    0.391537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.343597E+02    0.392316E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.357024E+02    0.375698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.377859E+02    0.380717E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.377250E+02    0.400702E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.355369E+02    0.408023E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.337311E+02    0.419105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.326079E+02    0.405585E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.325091E+02    0.388128E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.334184E+02    0.371407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.350314E+02    0.360193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.369349E+02    0.357479E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.387887E+02    0.363278E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.399719E+02    0.376873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.400718E+02    0.394896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.392020E+02    0.411755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.374420E+02    0.423200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.354442E+02    0.425744E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.336267E+02    0.447381E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.309701E+02    0.430888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138612E+03   -0.295981E+02    0.404660E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.301257E+02    0.374074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.321372E+02    0.348626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.354627E+02    0.332610E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.389470E+02    0.333188E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.418760E+02    0.349479E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.435216E+02    0.376729E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.429099E+02    0.409611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.404140E+02    0.436799E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.370494E+02    0.449839E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.372746E+02    0.303679E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.354148E+02    0.305155E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.368334E+02    0.286813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.389534E+02    0.291219E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.388361E+02    0.312416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.365433E+02    0.321457E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.347381E+02    0.333334E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.334917E+02    0.320810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.335332E+02    0.301603E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.344249E+02    0.283847E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.361252E+02    0.270877E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.381397E+02    0.266719E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.399326E+02    0.272691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.411596E+02    0.286185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.411970E+02    0.305453E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.402538E+02    0.323514E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.384972E+02    0.335981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.364827E+02    0.339436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.345909E+02    0.362853E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.318835E+02    0.346970E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138874E+03   -0.305297E+02    0.320595E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138750E+03   -0.310948E+02    0.288054E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.333411E+02    0.258610E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.365993E+02    0.241136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.402262E+02    0.239632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.431283E+02    0.256130E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.445381E+02    0.285312E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.438829E+02    0.319873E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.414245E+02    0.348818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.380524E+02    0.363876E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.360762E+02    0.446316E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.342430E+02    0.446562E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.355934E+02    0.430882E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.376656E+02    0.436390E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.377791E+02    0.455050E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.354943E+02    0.461502E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.335960E+02    0.471847E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.325736E+02    0.458313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.324028E+02    0.442001E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.332368E+02    0.426400E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.348537E+02    0.415565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.368438E+02    0.412852E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.386858E+02    0.419348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.398501E+02    0.433358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.400320E+02    0.450543E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.392489E+02    0.466087E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.373839E+02    0.476678E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.353875E+02    0.478586E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.335520E+02    0.500280E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.309218E+02    0.482589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.296516E+02    0.456181E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.301204E+02    0.427283E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.321574E+02    0.401992E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.353178E+02    0.387868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.387872E+02    0.389364E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.418890E+02    0.405912E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.433955E+02    0.434703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.428557E+02    0.465727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.405389E+02    0.491042E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.371534E+02    0.503518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.366714E+02    0.351190E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.347339E+02    0.352787E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.361567E+02    0.335395E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.382558E+02    0.340104E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.381197E+02    0.360425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.359299E+02    0.368054E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.341254E+02    0.379307E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.330718E+02    0.365708E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.327861E+02    0.349560E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.337695E+02    0.331987E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.354698E+02    0.319543E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.374760E+02    0.315798E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.392483E+02    0.322056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.404495E+02    0.335717E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.405654E+02    0.353777E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.396135E+02    0.370914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.378555E+02    0.382678E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.358512E+02    0.385657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.339496E+02    0.408881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.313624E+02    0.391784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.301200E+02    0.364897E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.304651E+02    0.335388E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.327188E+02    0.306849E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.359718E+02    0.290292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.394784E+02    0.290261E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.425440E+02    0.305805E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.438050E+02    0.335692E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.433331E+02    0.367843E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.409513E+02    0.395353E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.373823E+02    0.410672E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.375322E+02    0.238446E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.354851E+02    0.242002E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.370634E+02    0.221023E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.392018E+02    0.225042E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.391155E+02    0.246895E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.368224E+02    0.256833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.349323E+02    0.270039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.338342E+02    0.256330E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.337622E+02    0.237272E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.345501E+02    0.219454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.364184E+02    0.203718E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.384429E+02    0.198871E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.403529E+02    0.203770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.414110E+02    0.219129E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.414779E+02    0.239128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.405584E+02    0.257783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.387141E+02    0.271730E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.366945E+02    0.275824E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.347335E+02    0.301270E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.320778E+02    0.284851E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138922E+03   -0.307622E+02    0.257657E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138954E+03   -0.312886E+02    0.223931E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.335111E+02    0.192693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.369399E+02    0.172287E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.405920E+02    0.169783E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.435444E+02    0.185674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.449069E+02    0.216305E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.442044E+02    0.252861E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.416748E+02    0.283961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.382113E+02    0.301304E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688779.920093197     
  ps_ts2 prof sum =   688331.540976290     
  trcom prof sum =    688331.540976290     
  ps_ts2 cur sum  =   12869.4417941170     
  trcom cur sum  =    12869.4417941170     
  
  antenna # iant =            2
  powecha_use(iant) =    677299.501420873     
  ps_ts2 prof sum =   676910.032181485     
  trcom prof sum =    676910.032181485     
  ps_ts2 cur sum  =   15666.0312922293     
  trcom cur sum  =    15666.0312922293     
  
  antenna # iant =            3
  powecha_use(iant) =    529321.994455539     
  ps_ts2 prof sum =   528977.625062440     
  trcom prof sum =    528977.625062441     
  ps_ts2 cur sum  =   8161.83447334676     
  trcom cur sum  =    8161.83447334676     
  
  antenna # iant =            4
  powecha_use(iant) =    553025.388623424     
  ps_ts2 prof sum =   552713.172750406     
  trcom prof sum =    552713.172750406     
  ps_ts2 cur sum  =   11549.0310297793     
  trcom cur sum  =    11549.0310297793     
  
  antenna # iant =            5
  powecha_use(iant) =    546516.468998082     
  ps_ts2 prof sum =   546217.807449459     
  trcom prof sum =    546217.807449459     
  ps_ts2 cur sum  =   13889.1827596603     
  trcom cur sum  =    13889.1827596603     
  
  Total ECH heating:      2993150.17842008     
  Total Current Drive:    62135.5213491326     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1844
 TA= 2.14000E+00 CPU TIME= 1.59216E-01 SECONDS.  DT= 1.74554E-04
  
 TEC1=    2.13999999999998     
 TEC2=    2.14499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.80748833333337     
  %check_save_state: izleft hours =    75.1841666666667     
 --> plasma_hash("gframe"): TA= 2.140000E+00 NSTEP=  1844 Hash code:   63369946
 ->PRGCHK: bdy curvature ratio at t= 2.1450E+00 seconds is:  5.5043E-02
% MHDEQ: TG1=     2.140000 ; TG2=     2.145000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7733E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5043E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.140000 TO TG2=    2.145000 @ NSTEP     1844
   GFRAME TG2 MOMENTS CHECKSUM:  2.4747420280201D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1450E+00  2.1500E+00 total power(Watts):  3.0048E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.14500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.362185E+02    0.392187E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.342891E+02    0.393382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.357226E+02    0.376316E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.378061E+02    0.381379E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.377429E+02    0.401401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.355533E+02    0.408693E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.336584E+02    0.420132E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.326236E+02    0.406229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.325260E+02    0.388734E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.333517E+02    0.372486E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.349635E+02    0.361277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.369574E+02    0.358065E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.388118E+02    0.363904E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.399943E+02    0.377535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.400918E+02    0.395605E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.391218E+02    0.412832E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.374569E+02    0.423931E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.354582E+02    0.426450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.335505E+02    0.448386E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.309826E+02    0.431549E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138605E+03   -0.296129E+02    0.405253E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.302232E+02    0.374123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.321596E+02    0.349137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.354871E+02    0.333122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.389734E+02    0.333737E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.419023E+02    0.350110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.434402E+02    0.377879E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.429287E+02    0.410399E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.405285E+02    0.437322E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.369666E+02    0.450884E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.373035E+02    0.304129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.353521E+02    0.306243E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.367711E+02    0.287901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.389837E+02    0.291652E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.387678E+02    0.313521E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.365696E+02    0.321939E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.346731E+02    0.334425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.335159E+02    0.321265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.335587E+02    0.302021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.344535E+02    0.284213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.361552E+02    0.271231E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.381708E+02    0.267080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.399654E+02    0.273067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.410913E+02    0.287292E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.412273E+02    0.305946E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.402818E+02    0.324049E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.385230E+02    0.336538E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.365069E+02    0.339976E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.345234E+02    0.363941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.319057E+02    0.347482E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138868E+03   -0.305527E+02    0.321025E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138745E+03   -0.311199E+02    0.288412E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138574E+03   -0.332005E+02    0.260464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.366318E+02    0.241410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.402609E+02    0.239928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.431644E+02    0.256494E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.445730E+02    0.285775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.439125E+02    0.320440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.414506E+02    0.349433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.379796E+02    0.364982E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.360883E+02    0.447068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.342542E+02    0.447294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.356072E+02    0.431595E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.376795E+02    0.437142E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.375998E+02    0.456322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.354128E+02    0.462517E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.336040E+02    0.472611E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.325829E+02    0.459048E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.324142E+02    0.442695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.332507E+02    0.427082E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.348692E+02    0.416236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.368605E+02    0.413548E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.387021E+02    0.420082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.398648E+02    0.434136E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.401446E+02    0.451115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.392586E+02    0.466934E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.373922E+02    0.477505E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.353954E+02    0.479378E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.335556E+02    0.501079E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.309278E+02    0.483338E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.296605E+02    0.456875E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.299734E+02    0.428632E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.321733E+02    0.402622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.353365E+02    0.388502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.388079E+02    0.390033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.419079E+02    0.406677E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.434107E+02    0.435557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.428658E+02    0.466646E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.405441E+02    0.491964E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.371561E+02    0.504392E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.366030E+02    0.352280E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.347561E+02    0.353341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.361813E+02    0.335924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.382809E+02    0.340667E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.381427E+02    0.361039E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.359510E+02    0.368658E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.341445E+02    0.379917E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.329207E+02    0.367298E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.328076E+02    0.350083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.337931E+02    0.332484E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.354951E+02    0.320020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.374092E+02    0.316899E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.392758E+02    0.322573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.403771E+02    0.336843E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.406899E+02    0.353910E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.396362E+02    0.371569E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.378761E+02    0.383339E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.358703E+02    0.386305E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.339656E+02    0.409533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.312142E+02    0.393278E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138801E+03   -0.299799E+02    0.366485E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138787E+03   -0.304866E+02    0.335856E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138516E+03   -0.325754E+02    0.308592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.359099E+02    0.291388E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.395095E+02    0.290695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.423696E+02    0.307534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.439393E+02    0.335781E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.433578E+02    0.368545E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.409713E+02    0.396084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.373994E+02    0.411370E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.375654E+02    0.238711E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.355166E+02    0.242266E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.370977E+02    0.221245E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.392367E+02    0.225287E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.390531E+02    0.247967E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.368536E+02    0.257149E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.349615E+02    0.270373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.338634E+02    0.256628E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.337931E+02    0.237515E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.345818E+02    0.219657E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.364520E+02    0.203901E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.384778E+02    0.199063E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.403898E+02    0.203971E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.414479E+02    0.219376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.415139E+02    0.239421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.404936E+02    0.258877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.387460E+02    0.272108E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.367248E+02    0.276190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.347607E+02    0.301687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138748E+03   -0.319388E+02    0.286654E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138919E+03   -0.307891E+02    0.257941E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138953E+03   -0.313176E+02    0.224127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138507E+03   -0.335428E+02    0.192825E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.369751E+02    0.172397E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.406310E+02    0.169897E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.435850E+02    0.185849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.450518E+02    0.215769E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.443459E+02    0.252500E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.417076E+02    0.284395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.382400E+02    0.301758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.94 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696281.047933872     
  ps_ts2 prof sum =   695839.005643227     
  trcom prof sum =    695839.005643227     
  ps_ts2 cur sum  =   13080.3477266440     
  trcom cur sum  =    13080.3477266440     
  
  antenna # iant =            2
  powecha_use(iant) =    678273.327623668     
  ps_ts2 prof sum =   677860.778600559     
  trcom prof sum =    677860.778600559     
  ps_ts2 cur sum  =   15764.5286540519     
  trcom cur sum  =    15764.5286540519     
  
  antenna # iant =            3
  powecha_use(iant) =    528659.686042880     
  ps_ts2 prof sum =   528317.807934505     
  trcom prof sum =    528317.807934506     
  ps_ts2 cur sum  =   8198.84811229481     
  trcom cur sum  =    8198.84811229481     
  
  antenna # iant =            4
  powecha_use(iant) =    554053.197782721     
  ps_ts2 prof sum =   553694.659112670     
  trcom prof sum =    553694.659112670     
  ps_ts2 cur sum  =   11629.5599577447     
  trcom cur sum  =    11629.5599577447     
  
  antenna # iant =            5
  powecha_use(iant) =    547553.949164119     
  ps_ts2 prof sum =   547262.982827640     
  trcom prof sum =    547262.982827640     
  ps_ts2 cur sum  =   13978.8640845184     
  trcom cur sum  =    13978.8640845184     
  
  Total ECH heating:      3002975.23411860     
  Total Current Drive:    62652.1485352538     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1854
 TA= 2.14500E+00 CPU TIME= 1.58945E-01 SECONDS.  DT= 6.20111E-04
  
 TEC1=    2.14499999999998     
 TEC2=    2.14999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.82270166666626     
  %check_save_state: izleft hours =    75.1688888888889     
 --> plasma_hash("gframe"): TA= 2.145000E+00 NSTEP=  1854 Hash code:   20528368
 ->PRGCHK: bdy curvature ratio at t= 2.1500E+00 seconds is:  5.5107E-02
% MHDEQ: TG1=     2.145000 ; TG2=     2.150000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1640E-03 SECONDS
   DATA R*BT AT EDGE:  2.7741E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5107E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.145000 TO TG2=    2.150000 @ NSTEP     1854
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746945384564D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.54689E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.01529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.46317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.83154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  7.89367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.38003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.82875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -7.76792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.66260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  4.51883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.87225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.44215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.08229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -1.68464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  3.83386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.12926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  4.51313E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  4.50467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #      11=  2.45244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.51895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.56017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.56017E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1500E+00  2.1550E+00 total power(Watts):  3.0135E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.15000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.362367E+02    0.392834E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.343080E+02    0.394003E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.357436E+02    0.376921E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.378276E+02    0.382017E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.376672E+02    0.402462E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.355706E+02    0.409367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.336735E+02    0.420796E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.326406E+02    0.406848E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.325450E+02    0.389330E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.333723E+02    0.373060E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.349860E+02    0.361838E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.369812E+02    0.358642E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.388359E+02    0.364515E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.399184E+02    0.378631E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.401128E+02    0.396306E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.391403E+02    0.413549E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.374735E+02    0.424645E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.354738E+02    0.427145E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.335624E+02    0.449108E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.308360E+02    0.432861E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.296284E+02    0.405843E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.300828E+02    0.375659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.322646E+02    0.349088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.355124E+02    0.333624E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.390007E+02    0.334279E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.420318E+02    0.350232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.434648E+02    0.378593E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.429487E+02    0.411175E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.405438E+02    0.438128E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.369794E+02    0.451643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.373320E+02    0.304566E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.353797E+02    0.306670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.367997E+02    0.288297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.389184E+02    0.292742E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.387970E+02    0.313993E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.365966E+02    0.322418E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.346981E+02    0.334910E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.336284E+02    0.321086E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.334137E+02    0.303764E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.343063E+02    0.286000E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.360950E+02    0.272309E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.382033E+02    0.267428E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.399984E+02    0.273456E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.411243E+02    0.287721E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.412587E+02    0.306427E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.402118E+02    0.325151E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.385497E+02    0.337078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.364400E+02    0.341059E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.345453E+02    0.364505E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.317616E+02    0.349106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138858E+03   -0.305761E+02    0.321444E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138737E+03   -0.311459E+02    0.288763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.332297E+02    0.260759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.366645E+02    0.241672E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.401988E+02    0.240991E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.432009E+02    0.256856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.447141E+02    0.285601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.440540E+02    0.320417E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.414778E+02    0.350041E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.380034E+02    0.365583E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.361010E+02    0.447823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.341780E+02    0.448297E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.355310E+02    0.432617E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.376940E+02    0.437898E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.376116E+02    0.457119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.354235E+02    0.463286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.336126E+02    0.473383E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.325083E+02    0.460029E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.324264E+02    0.443394E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.332633E+02    0.427766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.348851E+02    0.416914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.368780E+02    0.414238E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.386226E+02    0.421135E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.399791E+02    0.434647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.401576E+02    0.451947E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.392687E+02    0.467793E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.374009E+02    0.478343E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.354033E+02    0.480187E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.334729E+02    0.502010E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.308526E+02    0.484273E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.296702E+02    0.457568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.299858E+02    0.429269E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.320220E+02    0.404057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.352660E+02    0.389559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.388290E+02    0.390705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.419281E+02    0.407429E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.433209E+02    0.436666E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.428770E+02    0.467566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.405506E+02    0.492895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.369722E+02    0.505467E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.366268E+02    0.352845E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.347786E+02    0.353891E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.361152E+02    0.337002E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.383071E+02    0.341215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.381669E+02    0.361638E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.359732E+02    0.369244E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.340770E+02    0.380971E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.330269E+02    0.367348E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.329146E+02    0.350047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.338179E+02    0.332958E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.354317E+02    0.321097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.374353E+02    0.317376E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.393045E+02    0.323086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.404049E+02    0.337396E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.405147E+02    0.355514E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.395616E+02    0.372667E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.378976E+02    0.383981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.358907E+02    0.386927E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.339809E+02    0.410192E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.312319E+02    0.393860E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138791E+03   -0.299995E+02    0.366998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138777E+03   -0.305088E+02    0.336306E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138508E+03   -0.326010E+02    0.308997E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.359389E+02    0.291787E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.394474E+02    0.291763E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.424016E+02    0.308033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.439689E+02    0.336392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.433833E+02    0.369240E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.409923E+02    0.396808E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.374174E+02    0.412062E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.375990E+02    0.238977E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.356373E+02    0.241720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.371318E+02    0.221463E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.392726E+02    0.225534E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.390874E+02    0.248265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.368854E+02    0.257461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.348149E+02    0.272194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.338931E+02    0.256922E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.336538E+02    0.239400E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.346139E+02    0.219861E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.363074E+02    0.205853E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.385122E+02    0.199264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.403305E+02    0.205043E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.414854E+02    0.219623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.415504E+02    0.239718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.405282E+02    0.259219E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.387788E+02    0.272469E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.367547E+02    0.276559E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.347879E+02    0.302098E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138741E+03   -0.319654E+02    0.287002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138913E+03   -0.308166E+02    0.258206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138949E+03   -0.313471E+02    0.224319E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.336588E+02    0.192039E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.370113E+02    0.172497E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.406702E+02    0.170015E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.436259E+02    0.186031E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.450922E+02    0.216041E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.443835E+02    0.252867E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.417408E+02    0.284831E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.382696E+02    0.302197E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    701555.098067214     
  ps_ts2 prof sum =   701122.347918023     
  trcom prof sum =    701122.347918022     
  ps_ts2 cur sum  =   13249.9310773680     
  trcom cur sum  =    13249.9310773679     
  
  antenna # iant =            2
  powecha_use(iant) =    678931.951127277     
  ps_ts2 prof sum =   678503.809364564     
  trcom prof sum =    678503.809364564     
  ps_ts2 cur sum  =   15851.9686433135     
  trcom cur sum  =    15851.9686433135     
  
  antenna # iant =            3
  powecha_use(iant) =    529290.708836629     
  ps_ts2 prof sum =   528929.593164551     
  trcom prof sum =    528929.593164551     
  ps_ts2 cur sum  =   8255.79617371782     
  trcom cur sum  =    8255.79617371782     
  
  antenna # iant =            4
  powecha_use(iant) =    557858.168602100     
  ps_ts2 prof sum =   557518.782085508     
  trcom prof sum =    557518.782085507     
  ps_ts2 cur sum  =   11768.4017335428     
  trcom cur sum  =    11768.4017335427     
  
  antenna # iant =            5
  powecha_use(iant) =    545895.279422056     
  ps_ts2 prof sum =   545602.342254282     
  trcom prof sum =    545602.342254282     
  ps_ts2 cur sum  =   13993.0133119100     
  trcom cur sum  =    13993.0133119100     
  
  Total ECH heating:      3011676.87478693     
  Total Current Drive:    63119.1109398519     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1859
 TA= 2.15000E+00 CPU TIME= 1.59257E-01 SECONDS.  DT= 1.78084E-03
  
 TEC1=    2.14999999999998     
 TEC2=    2.15499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.83648472222194     
  %check_save_state: izleft hours =    75.1550000000000     
 --> plasma_hash("gframe"): TA= 2.150000E+00 NSTEP=  1859 Hash code:   95585651
 ->PRGCHK: bdy curvature ratio at t= 2.1550E+00 seconds is:  5.5178E-02
% MHDEQ: TG1=     2.150000 ; TG2=     2.155000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7749E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5178E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.150000 TO TG2=    2.155000 @ NSTEP     1859
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746470488928D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  2.1550E+00  2.1600E+00 total power(Watts):  3.0050E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.15500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.361638E+02    0.393920E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.343271E+02    0.394655E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.356745E+02    0.378012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.378499E+02    0.382693E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.376869E+02    0.403166E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.354979E+02    0.410425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.336893E+02    0.421482E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.326575E+02    0.407500E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.323946E+02    0.390830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.333930E+02    0.373656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.350090E+02    0.362426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.370056E+02    0.359243E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.387640E+02    0.365626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.399422E+02    0.379320E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.402336E+02    0.396658E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.391595E+02    0.414292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.373957E+02    0.425708E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.353987E+02    0.428188E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.335746E+02    0.449849E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.309309E+02    0.433206E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.296445E+02    0.406450E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.301020E+02    0.376221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.322875E+02    0.349615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.354489E+02    0.334712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.390291E+02    0.334826E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.420598E+02    0.350881E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.434900E+02    0.379341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.428652E+02    0.412309E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.405593E+02    0.438961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.369923E+02    0.452439E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.372686E+02    0.305670E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.354077E+02    0.307115E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.368313E+02    0.288713E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.389507E+02    0.293188E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.388276E+02    0.314491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.366244E+02    0.322919E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.347237E+02    0.335426E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.336542E+02    0.321553E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138380E+03   -0.334413E+02    0.304179E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.343355E+02    0.286386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.361266E+02    0.272679E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.381422E+02    0.268533E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.400328E+02    0.273851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.411584E+02    0.288169E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.412915E+02    0.306926E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.402419E+02    0.325689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.384817E+02    0.338181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.364664E+02    0.341600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.345678E+02    0.365095E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.317842E+02    0.349620E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138849E+03   -0.306004E+02    0.321880E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138955E+03   -0.310921E+02    0.289836E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.332601E+02    0.261066E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.366980E+02    0.241954E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.402358E+02    0.241298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.433420E+02    0.256519E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.447508E+02    0.286079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.440864E+02    0.321004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.416071E+02    0.350180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.380275E+02    0.366216E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.361139E+02    0.448597E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.341906E+02    0.449043E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.355465E+02    0.433351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.377090E+02    0.438675E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.376238E+02    0.457942E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.354345E+02    0.464081E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.336214E+02    0.474169E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.325189E+02    0.460774E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.323543E+02    0.444401E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.331923E+02    0.428786E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.348124E+02    0.417960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.368025E+02    0.415303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.386404E+02    0.421887E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.399950E+02    0.435461E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.401703E+02    0.452813E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.390840E+02    0.469038E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.375042E+02    0.479038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.353208E+02    0.481184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.334776E+02    0.502828E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.308594E+02    0.485034E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.295229E+02    0.458794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.300791E+02    0.429583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.321232E+02    0.404285E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.352862E+02    0.390208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.388506E+02    0.391415E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.417443E+02    0.408891E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.433362E+02    0.437545E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.427844E+02    0.468682E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.404573E+02    0.493953E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.370705E+02    0.506257E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.366518E+02    0.353421E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.348030E+02    0.354455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.361418E+02    0.337530E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.382390E+02    0.342320E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.381913E+02    0.362258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.359961E+02    0.369859E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.340973E+02    0.381592E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.330486E+02    0.367926E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.329386E+02    0.350581E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.338430E+02    0.333464E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.354591E+02    0.321585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.374633E+02    0.317878E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.393342E+02    0.323608E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.404344E+02    0.337975E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.405458E+02    0.356132E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.395860E+02    0.373326E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.378244E+02    0.385073E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.358200E+02    0.388011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.339973E+02    0.410864E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.313321E+02    0.394032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.300197E+02    0.367538E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138767E+03   -0.305319E+02    0.336781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.326277E+02    0.309422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.359689E+02    0.292205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.394783E+02    0.292223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.424349E+02    0.308549E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.439997E+02    0.337026E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.434095E+02    0.369963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.408129E+02    0.398304E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.374358E+02    0.412782E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.376334E+02    0.239258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.356699E+02    0.241991E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.371695E+02    0.221680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.393092E+02    0.225795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.391225E+02    0.248584E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.369184E+02    0.257796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.349337E+02    0.271803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.337521E+02    0.258774E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.336856E+02    0.239646E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.347340E+02    0.219211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.364328E+02    0.205158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.385478E+02    0.199473E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.403696E+02    0.205256E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.415248E+02    0.219880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.415885E+02    0.240025E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.405637E+02    0.259581E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.388123E+02    0.272857E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.366956E+02    0.277657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.346397E+02    0.303849E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138733E+03   -0.319933E+02    0.287365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138906E+03   -0.308451E+02    0.258491E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138946E+03   -0.313777E+02    0.224519E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138723E+03   -0.335254E+02    0.194034E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.370491E+02    0.172607E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.406147E+02    0.171068E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.435668E+02    0.187090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.449244E+02    0.217915E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.442130E+02    0.254690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.416744E+02    0.285934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.382053E+02    0.303299E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697689.050091783     
  ps_ts2 prof sum =   697259.635184941     
  trcom prof sum =    697259.635184940     
  ps_ts2 cur sum  =   13250.5952374693     
  trcom cur sum  =    13250.5952374693     
  
  antenna # iant =            2
  powecha_use(iant) =    676617.525997764     
  ps_ts2 prof sum =   676223.438579231     
  trcom prof sum =    676223.438579231     
  ps_ts2 cur sum  =   15879.8803145120     
  trcom cur sum  =    15879.8803145120     
  
  antenna # iant =            3
  powecha_use(iant) =    528308.257170507     
  ps_ts2 prof sum =   527949.860857150     
  trcom prof sum =    527949.860857150     
  ps_ts2 cur sum  =   8288.75865486959     
  trcom cur sum  =    8288.75865486959     
  
  antenna # iant =            4
  powecha_use(iant) =    556281.144972807     
  ps_ts2 prof sum =   555962.515986878     
  trcom prof sum =    555962.515986877     
  ps_ts2 cur sum  =   11799.1519210111     
  trcom cur sum  =    11799.1519210111     
  
  antenna # iant =            5
  powecha_use(iant) =    546088.595341630     
  ps_ts2 prof sum =   545769.558359172     
  trcom prof sum =    545769.558359172     
  ps_ts2 cur sum  =   14066.1157479668     
  trcom cur sum  =    14066.1157479668     
  
  Total ECH heating:      3003165.00896737     
  Total Current Drive:    63284.5018758288     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1862
 TA= 2.15500E+00 CPU TIME= 1.59536E-01 SECONDS.  DT= 1.24138E-03
  
 TEC1=    2.15499999999998     
 TEC2=    2.15999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.84950416666629     
  %check_save_state: izleft hours =    75.1419444444444     
 --> plasma_hash("gframe"): TA= 2.155000E+00 NSTEP=  1862 Hash code:   78928129
 ->PRGCHK: bdy curvature ratio at t= 2.1600E+00 seconds is:  5.5218E-02
% MHDEQ: TG1=     2.155000 ; TG2=     2.160000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7745E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5218E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.155000 TO TG2=    2.160000 @ NSTEP     1862
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749968369989D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.49878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.86706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.10457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.22920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.16892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.86773E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -6.37920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.60882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10=  1.80647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.77904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.66431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.88775E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  5.51828E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.27969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.39897E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.93676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  4.63989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  4.40929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.55520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.41408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.41408E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1600E+00  2.1650E+00 total power(Watts):  3.0009E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.16000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.362644E+02    0.394087E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.343332E+02    0.395215E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.357734E+02    0.378112E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.378576E+02    0.383272E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.376922E+02    0.403781E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.355926E+02    0.410669E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.336918E+02    0.422092E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.326618E+02    0.408074E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.325694E+02    0.390507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.334010E+02    0.374183E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.350186E+02    0.362959E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.370159E+02    0.359795E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.388707E+02    0.365729E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.399506E+02    0.379917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.401407E+02    0.397666E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.391632E+02    0.414950E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.374926E+02    0.426048E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.354912E+02    0.428505E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.335735E+02    0.450466E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.308508E+02    0.434115E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138610E+03   -0.296490E+02    0.406987E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.301090E+02    0.376720E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.322974E+02    0.350134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.355505E+02    0.334668E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.390416E+02    0.335395E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.420723E+02    0.351482E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.434989E+02    0.379986E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.429731E+02    0.412692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.405591E+02    0.439678E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.369906E+02    0.453100E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.373773E+02    0.305490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.354228E+02    0.307567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.368484E+02    0.289113E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.389683E+02    0.293616E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.388421E+02    0.315005E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.366378E+02    0.323433E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.347358E+02    0.335949E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.336671E+02    0.322038E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.334560E+02    0.304591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.343529E+02    0.286762E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.361445E+02    0.273041E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.382558E+02    0.268183E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.400524E+02    0.274248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.411771E+02    0.288608E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.413079E+02    0.307424E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.402559E+02    0.326233E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.385896E+02    0.338203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.364774E+02    0.342151E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.345771E+02    0.365624E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.317939E+02    0.350127E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138872E+03   -0.306127E+02    0.322340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.311877E+02    0.289509E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.332776E+02    0.261396E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.367184E+02    0.242277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.403555E+02    0.240857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.432613E+02    0.257629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.447706E+02    0.286560E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.441066E+02    0.321559E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.415182E+02    0.351271E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.380373E+02    0.366779E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.361126E+02    0.449256E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.341891E+02    0.449677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.355466E+02    0.433993E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.377093E+02    0.439342E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.376214E+02    0.458605E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.354313E+02    0.464712E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.336170E+02    0.474784E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.325165E+02    0.461373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.324383E+02    0.444728E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.332812E+02    0.429065E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.349048E+02    0.418231E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.368060E+02    0.415933E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.386431E+02    0.422549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.399963E+02    0.436153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.401681E+02    0.453528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.392738E+02    0.469369E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.374046E+02    0.479863E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.354057E+02    0.481662E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.334687E+02    0.503541E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.308543E+02    0.485649E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.296785E+02    0.458850E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.300011E+02    0.430501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.320440E+02    0.405246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.352930E+02    0.390772E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.388573E+02    0.392015E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.419532E+02    0.408899E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.433339E+02    0.438298E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.428835E+02    0.469264E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.405477E+02    0.494611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.369667E+02    0.507114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.366621E+02    0.353975E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.348118E+02    0.354990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.361492E+02    0.338095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.383460E+02    0.342354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.382016E+02    0.362823E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.360048E+02    0.370413E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.341047E+02    0.382127E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.330569E+02    0.368443E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.329476E+02    0.351100E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.338546E+02    0.333972E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.354722E+02    0.322084E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.374785E+02    0.318367E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.393481E+02    0.324140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.404474E+02    0.338547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.405573E+02    0.356718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.395948E+02    0.373922E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.379274E+02    0.385229E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.359183E+02    0.388149E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.340020E+02    0.411462E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.312557E+02    0.394999E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138805E+03   -0.300278E+02    0.368034E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138790E+03   -0.305429E+02    0.337270E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.326418E+02    0.309858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.359849E+02    0.292612E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.395913E+02    0.292002E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.424516E+02    0.309064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.440142E+02    0.337638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.434200E+02    0.370583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.408192E+02    0.398939E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.374396E+02    0.413417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.376545E+02    0.239579E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.356900E+02    0.242305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.371892E+02    0.221983E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.393320E+02    0.226096E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.391438E+02    0.248936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.369377E+02    0.258150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.348631E+02    0.272899E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.339419E+02    0.257564E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.337050E+02    0.239946E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.346686E+02    0.220339E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.363657E+02    0.206303E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.385752E+02    0.199713E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.403943E+02    0.205537E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.415491E+02    0.220176E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.416115E+02    0.240371E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.405852E+02    0.259955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.388309E+02    0.273255E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.368045E+02    0.277326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.348309E+02    0.302970E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138758E+03   -0.320084E+02    0.287737E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138931E+03   -0.308619E+02    0.258812E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138972E+03   -0.313967E+02    0.224781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138534E+03   -0.336306E+02    0.193352E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.370733E+02    0.172858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.407375E+02    0.170399E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.436961E+02    0.186501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.451598E+02    0.216640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.444461E+02    0.253640E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.417947E+02    0.285717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.383165E+02    0.303128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695507.398285263     
  ps_ts2 prof sum =   695080.871516712     
  trcom prof sum =    695080.871516711     
  ps_ts2 cur sum  =   13272.4745723605     
  trcom cur sum  =    13272.4745723605     
  
  antenna # iant =            2
  powecha_use(iant) =    674706.270752079     
  ps_ts2 prof sum =   674285.694954726     
  trcom prof sum =    674285.694954726     
  ps_ts2 cur sum  =   15906.5673566560     
  trcom cur sum  =    15906.5673566559     
  
  antenna # iant =            3
  powecha_use(iant) =    529308.006130524     
  ps_ts2 prof sum =   528941.408159634     
  trcom prof sum =    528941.408159634     
  ps_ts2 cur sum  =   8344.29203397828     
  trcom cur sum  =    8344.29203397828     
  
  antenna # iant =            4
  powecha_use(iant) =    553948.524039074     
  ps_ts2 prof sum =   553608.275277201     
  trcom prof sum =    553608.275277201     
  ps_ts2 cur sum  =   11803.6009013243     
  trcom cur sum  =    11803.6009013243     
  
  antenna # iant =            5
  powecha_use(iant) =    547433.792493648     
  ps_ts2 prof sum =   547125.714206779     
  trcom prof sum =    547125.714206779     
  ps_ts2 cur sum  =   14163.8727218674     
  trcom cur sum  =    14163.8727218674     
  
  Total ECH heating:      2999041.96411505     
  Total Current Drive:    63490.8075861864     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1866
 TA= 2.16000E+00 CPU TIME= 1.59567E-01 SECONDS.  DT= 3.34038E-04
  
 TEC1=    2.15999999999998     
 TEC2=    2.16499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.86636666666618     
  %check_save_state: izleft hours =    75.1252777777778     
 --> plasma_hash("gframe"): TA= 2.160000E+00 NSTEP=  1866 Hash code:  111257658
 ->PRGCHK: bdy curvature ratio at t= 2.1650E+00 seconds is:  5.5257E-02
% MHDEQ: TG1=     2.160000 ; TG2=     2.165000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7740E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5257E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.160000 TO TG2=    2.165000 @ NSTEP     1866
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753466251050D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.1650E+00  2.1700E+00 total power(Watts):  2.9977E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.16500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.362690E+02    0.394649E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.344256E+02    0.395351E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.357800E+02    0.378638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.378636E+02    0.383824E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.377908E+02    0.404002E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.355957E+02    0.411248E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.337801E+02    0.422345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.326644E+02    0.408637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.325740E+02    0.391033E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.334077E+02    0.374687E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.351160E+02    0.362972E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.370246E+02    0.360316E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.388791E+02    0.366272E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.400565E+02    0.380060E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.401454E+02    0.398273E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.393602E+02    0.414929E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.374933E+02    0.426676E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.354918E+02    0.429114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.335713E+02    0.451077E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.310125E+02    0.434058E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138635E+03   -0.296518E+02    0.407513E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.302744E+02    0.376229E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.322233E+02    0.351155E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.355616E+02    0.335165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.390533E+02    0.335916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.419807E+02    0.352532E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.436110E+02    0.380191E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.429758E+02    0.413369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.405580E+02    0.440355E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.369879E+02    0.453750E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.373912E+02    0.305905E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.355258E+02    0.307342E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.369563E+02    0.288805E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.390796E+02    0.293354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.389522E+02    0.314841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.366501E+02    0.323906E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.348345E+02    0.335867E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.335925E+02    0.323099E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.336404E+02    0.303666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.345414E+02    0.285706E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.362510E+02    0.272661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.382733E+02    0.268519E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.401676E+02    0.273906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.412941E+02    0.288335E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.413229E+02    0.307869E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.403670E+02    0.326183E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.386009E+02    0.338727E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.365800E+02    0.342108E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.345848E+02    0.366128E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.319686E+02    0.349505E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138895E+03   -0.306225E+02    0.322763E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138779E+03   -0.312016E+02    0.289840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.334629E+02    0.260154E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.367415E+02    0.242530E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.403755E+02    0.241167E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.432817E+02    0.257977E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.446832E+02    0.287599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.440118E+02    0.322651E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.415287E+02    0.351828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.380454E+02    0.367315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.361123E+02    0.449883E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.342754E+02    0.450029E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.356374E+02    0.434311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.377074E+02    0.439989E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.376180E+02    0.459263E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.354270E+02    0.465355E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.336116E+02    0.475425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.325976E+02    0.461752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.324371E+02    0.445319E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.332815E+02    0.429655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.349064E+02    0.418825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.369013E+02    0.416202E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.387410E+02    0.422872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.398967E+02    0.437091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.401649E+02    0.454226E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.392699E+02    0.470058E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.373967E+02    0.480565E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.353992E+02    0.482326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.335460E+02    0.504124E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.309290E+02    0.486108E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.296754E+02    0.459435E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.301617E+02    0.430386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.322151E+02    0.404997E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.353881E+02    0.390899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.388629E+02    0.392587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.419521E+02    0.409563E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.434372E+02    0.438777E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.428776E+02    0.470017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.405382E+02    0.495370E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.371426E+02    0.507696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.367641E+02    0.353980E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.348173E+02    0.355510E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.362556E+02    0.338012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.383567E+02    0.342874E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.382103E+02    0.363354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.360121E+02    0.370936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.341982E+02    0.382200E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.329805E+02    0.369412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.328721E+02    0.352120E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.338651E+02    0.334455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.355739E+02    0.321943E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.375846E+02    0.318240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.393611E+02    0.324635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.405583E+02    0.338555E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.406669E+02    0.356788E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.397008E+02    0.374030E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.379368E+02    0.385781E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.359237E+02    0.388696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.340050E+02    0.412029E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.312600E+02    0.395517E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138828E+03   -0.300343E+02    0.368511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138813E+03   -0.305527E+02    0.337728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.328219E+02    0.308952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.360894E+02    0.292299E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.396069E+02    0.292400E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.426720E+02    0.308335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.439212E+02    0.338722E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.434287E+02    0.371181E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.410246E+02    0.398828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.374421E+02    0.414028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.376736E+02    0.239874E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.357970E+02    0.241795E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.372097E+02    0.222234E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.394481E+02    0.225550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.392585E+02    0.248481E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.369549E+02    0.258466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.350537E+02    0.271772E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.338727E+02    0.258628E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.338935E+02    0.238581E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.346869E+02    0.220578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.365660E+02    0.204780E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.385967E+02    0.199964E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.405129E+02    0.204942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.416704E+02    0.219635E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.417318E+02    0.239921E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.407027E+02    0.259566E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.388483E+02    0.273591E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.368207E+02    0.277676E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.348444E+02    0.303364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.321882E+02    0.286657E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138957E+03   -0.308784E+02    0.259094E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138778E+03   -0.314939E+02    0.224155E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138560E+03   -0.336499E+02    0.193590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.370945E+02    0.173087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.407610E+02    0.170639E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.437203E+02    0.186766E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.450792E+02    0.217723E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.443619E+02    0.254711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.418121E+02    0.286094E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.383308E+02    0.303536E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690444.062156283     
  ps_ts2 prof sum =   690023.287307178     
  trcom prof sum =    690023.287307177     
  ps_ts2 cur sum  =   13219.3607753630     
  trcom cur sum  =    13219.3607753630     
  
  antenna # iant =            2
  powecha_use(iant) =    675068.201041192     
  ps_ts2 prof sum =   674678.017561154     
  trcom prof sum =    674678.017561153     
  ps_ts2 cur sum  =   15968.2169783738     
  trcom cur sum  =    15968.2169783738     
  
  antenna # iant =            3
  powecha_use(iant) =    528281.138018489     
  ps_ts2 prof sum =   527942.181714512     
  trcom prof sum =    527942.181714512     
  ps_ts2 cur sum  =   8354.78578240649     
  trcom cur sum  =    8354.78578240648     
  
  antenna # iant =            4
  powecha_use(iant) =    556893.552627808     
  ps_ts2 prof sum =   556548.979038596     
  trcom prof sum =    556548.979038595     
  ps_ts2 cur sum  =   11905.6758516295     
  trcom cur sum  =    11905.6758516295     
  
  antenna # iant =            5
  powecha_use(iant) =    547041.008186830     
  ps_ts2 prof sum =   546748.482657542     
  trcom prof sum =    546748.482657542     
  ps_ts2 cur sum  =   14202.9535143618     
  trcom cur sum  =    14202.9535143618     
  
  Total ECH heating:      2995940.94827898     
  Total Current Drive:    63650.9929021345     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1873
 TA= 2.16500E+00 CPU TIME= 1.61254E-01 SECONDS.  DT= 1.54892E-03
  
 TEC1=    2.16499999999998     
 TEC2=    2.16999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.88172666666628     
  %check_save_state: izleft hours =    75.1097222222222     
 --> plasma_hash("gframe"): TA= 2.165000E+00 NSTEP=  1873 Hash code:  100699590
 ->PRGCHK: bdy curvature ratio at t= 2.1700E+00 seconds is:  5.5297E-02
% MHDEQ: TG1=     2.165000 ; TG2=     2.170000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7736E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5297E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.165000 TO TG2=    2.170000 @ NSTEP     1873
   GFRAME TG2 MOMENTS CHECKSUM:  2.4756964132112D+04
 %MFRCHK - LABEL "YMS11", #       1= -2.69861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -4.46403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.82497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.22105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.56245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.65251E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.44086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.88423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -4.93230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.63502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      11=  5.48203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.59037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.88011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.80293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -3.98125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.42644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.46838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.19496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  3.29305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.26369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.75259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.75259E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1700E+00  2.1750E+00 total power(Watts):  2.9943E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.17000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.362757E+02    0.395237E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.344319E+02    0.395928E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.357884E+02    0.379202E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.378721E+02    0.384411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.377964E+02    0.404630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.355998E+02    0.411868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.337860E+02    0.422960E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.327531E+02    0.408848E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.325808E+02    0.391578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.335024E+02    0.374750E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.351260E+02    0.363519E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.371285E+02    0.360391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.388897E+02    0.366864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.400660E+02    0.380654E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.403500E+02    0.398181E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.392669E+02    0.415920E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.374955E+02    0.427341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.354941E+02    0.429752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.336569E+02    0.451475E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.310128E+02    0.434666E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.298135E+02    0.407279E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138578E+03   -0.302028E+02    0.377220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.324011E+02    0.350590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.355744E+02    0.335712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.390672E+02    0.336486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.419965E+02    0.353131E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.436206E+02    0.380841E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.429804E+02    0.414081E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.406578E+02    0.440836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.370799E+02    0.454210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.374077E+02    0.306375E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.355412E+02    0.307801E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.369740E+02    0.289220E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.390979E+02    0.293791E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.389704E+02    0.315350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.367564E+02    0.323841E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.348472E+02    0.336412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.337778E+02    0.322374E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.336555E+02    0.304094E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.345592E+02    0.286106E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.362699E+02    0.273040E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.382936E+02    0.268915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.401886E+02    0.274321E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.413100E+02    0.288823E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.414412E+02    0.307777E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.403822E+02    0.326753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.386144E+02    0.339298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.365904E+02    0.342687E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.346825E+02    0.366188E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.318969E+02    0.350562E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.307162E+02    0.322607E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.312174E+02    0.290222E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.333969E+02    0.261281E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.368488E+02    0.242128E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.403985E+02    0.241534E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.435120E+02    0.256955E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.449161E+02    0.286819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.442390E+02    0.322152E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.417439E+02    0.351471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.381510E+02    0.367422E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.361098E+02    0.450561E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.342745E+02    0.450685E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.356399E+02    0.434946E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.377086E+02    0.440665E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.378047E+02    0.459553E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.355145E+02    0.465830E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.336073E+02    0.476085E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.325952E+02    0.462402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.324364E+02    0.445949E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.332834E+02    0.430274E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.349098E+02    0.419447E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.369039E+02    0.416855E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.387431E+02    0.423555E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.400947E+02    0.437278E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.402618E+02    0.454756E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.392653E+02    0.470806E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.375792E+02    0.480995E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.353934E+02    0.483026E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.335371E+02    0.504845E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.309235E+02    0.486758E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.296736E+02    0.460049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.301634E+02    0.430980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.322198E+02    0.405572E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.353952E+02    0.391475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.388702E+02    0.393201E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.418588E+02    0.410578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.434378E+02    0.439536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.428730E+02    0.470810E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.405292E+02    0.496166E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.371323E+02    0.508472E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.367753E+02    0.354545E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.348320E+02    0.356031E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.362680E+02    0.338567E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.383699E+02    0.343450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.382209E+02    0.363936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.361114E+02    0.371030E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.342055E+02    0.382765E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.331585E+02    0.368977E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.330525E+02    0.351580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.337915E+02    0.335555E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.355881E+02    0.322450E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.375998E+02    0.318749E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.393750E+02    0.325190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.405723E+02    0.339154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.406796E+02    0.357376E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.397138E+02    0.374611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.379412E+02    0.386384E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.359312E+02    0.389268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.340092E+02    0.412630E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.314293E+02    0.395221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138621E+03   -0.301223E+02    0.368492E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138836E+03   -0.305631E+02    0.338220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.328366E+02    0.309400E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.361068E+02    0.292721E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.396255E+02    0.292837E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.425875E+02    0.309455E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.441466E+02    0.338338E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.435437E+02    0.371402E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.409308E+02    0.399836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.374463E+02    0.414669E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.377882E+02    0.239425E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.358179E+02    0.242132E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.373244E+02    0.221710E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.394715E+02    0.225882E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.392805E+02    0.248859E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.370676E+02    0.258082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.350733E+02    0.272137E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.338917E+02    0.258986E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.338277E+02    0.239720E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.348820E+02    0.219162E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.365900E+02    0.205074E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.387148E+02    0.199391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.405387E+02    0.205254E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.416958E+02    0.219971E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.417559E+02    0.240291E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.407246E+02    0.259961E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.389635E+02    0.273302E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.368401E+02    0.278070E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.348602E+02    0.303809E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.321215E+02    0.287741E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138982E+03   -0.308962E+02    0.259423E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.315139E+02    0.224438E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138587E+03   -0.336725E+02    0.193861E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.372100E+02    0.172419E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.407915E+02    0.170906E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.437490E+02    0.187087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.451074E+02    0.218067E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.443859E+02    0.255126E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.418323E+02    0.286551E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.383484E+02    0.304007E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689546.761030275     
  ps_ts2 prof sum =   689147.964132378     
  trcom prof sum =    689147.964092403     
  ps_ts2 cur sum  =   13264.9692126201     
  trcom cur sum  =    13264.9692126201     
  
  antenna # iant =            2
  powecha_use(iant) =    673486.215884416     
  ps_ts2 prof sum =   673138.834246121     
  trcom prof sum =    673138.834246120     
  ps_ts2 cur sum  =   16006.7200865763     
  trcom cur sum  =    16006.7200865762     
  
  antenna # iant =            3
  powecha_use(iant) =    528665.383610717     
  ps_ts2 prof sum =   528325.685049521     
  trcom prof sum =    528325.685049521     
  ps_ts2 cur sum  =   8400.12883615507     
  trcom cur sum  =    8400.12883615507     
  
  antenna # iant =            4
  powecha_use(iant) =    556049.947483846     
  ps_ts2 prof sum =   555719.024724628     
  trcom prof sum =    555719.024724628     
  ps_ts2 cur sum  =   11944.6221034506     
  trcom cur sum  =    11944.6221034506     
  
  antenna # iant =            5
  powecha_use(iant) =    546504.080158846     
  ps_ts2 prof sum =   546195.432133530     
  trcom prof sum =    546195.432133530     
  ps_ts2 cur sum  =   14254.5661984394     
  trcom cur sum  =    14254.5661984394     
  
  Total ECH heating:      2992526.94024620     
  Total Current Drive:    63871.0064372415     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1876
 TA= 2.17000E+00 CPU TIME= 1.60075E-01 SECONDS.  DT= 1.89365E-03
  
 TEC1=    2.16999999999998     
 TEC2=    2.17499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.89634972222188     
  %check_save_state: izleft hours =    75.0952777777778     
 --> plasma_hash("gframe"): TA= 2.170000E+00 NSTEP=  1876 Hash code:   66801084
 ->PRGCHK: bdy curvature ratio at t= 2.1750E+00 seconds is:  5.5337E-02
% MHDEQ: TG1=     2.170000 ; TG2=     2.175000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7731E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5337E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.170000 TO TG2=    2.175000 @ NSTEP     1876
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760462013173D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1750E+00  2.1800E+00 total power(Watts):  2.9897E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.17500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.362841E+02    0.395851E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.344397E+02    0.396529E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.357983E+02    0.379790E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.379772E+02    0.384601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.378043E+02    0.405268E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.356058E+02    0.412514E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.337870E+02    0.423605E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.327590E+02    0.409463E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.325891E+02    0.392146E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.335108E+02    0.375320E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.351377E+02    0.364090E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.371411E+02    0.360984E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.389021E+02    0.367461E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.400773E+02    0.381282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.403585E+02    0.398853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.392720E+02    0.416615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.374988E+02    0.428041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.354971E+02    0.430427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.336573E+02    0.452154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.310170E+02    0.435283E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.298193E+02    0.407862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.302118E+02    0.377745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.324134E+02    0.351136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.355890E+02    0.336267E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.391798E+02    0.336540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.422121E+02    0.352839E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.436321E+02    0.381525E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.429861E+02    0.414839E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.406597E+02    0.441591E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.370798E+02    0.454934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.374260E+02    0.306852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.355582E+02    0.308282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.369937E+02    0.289661E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.391183E+02    0.294252E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.389862E+02    0.315891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.367725E+02    0.324381E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.348618E+02    0.336967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.337929E+02    0.322891E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.335874E+02    0.305192E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.344910E+02    0.287208E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.362913E+02    0.273445E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.383161E+02    0.269323E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.402113E+02    0.274761E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.413357E+02    0.289268E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.414614E+02    0.308298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.404003E+02    0.327326E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.386299E+02    0.339890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.366069E+02    0.343248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.346938E+02    0.366755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138420E+03   -0.319092E+02    0.351099E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.307309E+02    0.323096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138828E+03   -0.312346E+02    0.290605E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.334169E+02    0.261644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.368722E+02    0.242492E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.404242E+02    0.241917E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.434339E+02    0.258103E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.449399E+02    0.287321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.442581E+02    0.322774E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.417586E+02    0.352117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.381629E+02    0.368028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.362018E+02    0.451029E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.342749E+02    0.451369E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.356426E+02    0.435624E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.379000E+02    0.440863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.377095E+02    0.460486E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.355127E+02    0.466545E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.336911E+02    0.476610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.325942E+02    0.463081E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.324369E+02    0.446616E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.332876E+02    0.430919E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.349129E+02    0.420102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.369105E+02    0.417508E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.387474E+02    0.424261E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.400972E+02    0.438024E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.402615E+02    0.455520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.391654E+02    0.471737E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.375748E+02    0.481752E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.353883E+02    0.483760E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.335295E+02    0.505554E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.309214E+02    0.487429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.295949E+02    0.460926E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.301663E+02    0.431597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.322262E+02    0.406169E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.354039E+02    0.392071E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.388792E+02    0.393845E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.418658E+02    0.411290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.434401E+02    0.440333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.428699E+02    0.471644E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.405219E+02    0.496984E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.371235E+02    0.509247E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.367884E+02    0.355127E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.348445E+02    0.356597E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.362831E+02    0.339143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.383845E+02    0.344043E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.383290E+02    0.364065E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.361242E+02    0.371602E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.342154E+02    0.383332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.331693E+02    0.369531E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.330650E+02    0.352130E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.338057E+02    0.336092E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.356036E+02    0.322982E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.376172E+02    0.319278E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.394892E+02    0.325198E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.405877E+02    0.339768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.406934E+02    0.358014E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.397226E+02    0.375243E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.379514E+02    0.386994E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.359402E+02    0.389869E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.341020E+02    0.412907E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.314370E+02    0.395787E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138645E+03   -0.301325E+02    0.369021E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138629E+03   -0.306562E+02    0.338155E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.328535E+02    0.309861E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.361265E+02    0.293167E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.396463E+02    0.293305E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.426077E+02    0.309997E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.441612E+02    0.339010E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.435565E+02    0.372080E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.409400E+02    0.400511E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.375461E+02    0.415005E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.378126E+02    0.239788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.358410E+02    0.242492E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.373480E+02    0.222045E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.394976E+02    0.226232E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.393051E+02    0.249244E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.370899E+02    0.258473E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.350944E+02    0.272533E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.339121E+02    0.259350E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.338499E+02    0.240053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.349065E+02    0.219477E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.365249E+02    0.206271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.387419E+02    0.199713E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.405673E+02    0.205591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.417236E+02    0.220322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.417827E+02    0.240673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.407488E+02    0.260374E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.389860E+02    0.273719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.369521E+02    0.277787E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.348777E+02    0.304253E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138608E+03   -0.321393E+02    0.288142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.309938E+02    0.258992E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138829E+03   -0.315352E+02    0.224734E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.336969E+02    0.194150E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.372373E+02    0.172708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.409153E+02    0.170310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.438823E+02    0.186554E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.453481E+02    0.216859E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.444129E+02    0.255563E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.419523E+02    0.286395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.383674E+02    0.304484E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689612.830282552     
  ps_ts2 prof sum =   689218.654891347     
  trcom prof sum =    689218.654891347     
  ps_ts2 cur sum  =   13341.9009867459     
  trcom cur sum  =    13341.9009867459     
  
  antenna # iant =            2
  powecha_use(iant) =    671492.473225026     
  ps_ts2 prof sum =   671098.737629666     
  trcom prof sum =    671098.737629665     
  ps_ts2 cur sum  =   16049.8352723125     
  trcom cur sum  =    16049.8352723125     
  
  antenna # iant =            3
  powecha_use(iant) =    529582.956622372     
  ps_ts2 prof sum =   529223.702691845     
  trcom prof sum =    529223.702691845     
  ps_ts2 cur sum  =   8462.26977017607     
  trcom cur sum  =    8462.26977017607     
  
  antenna # iant =            4
  powecha_use(iant) =    552575.110032793     
  ps_ts2 prof sum =   552256.866514286     
  trcom prof sum =    552256.866514286     
  ps_ts2 cur sum  =   11937.2916605659     
  trcom cur sum  =    11937.2916605659     
  
  antenna # iant =            5
  powecha_use(iant) =    546447.142355833     
  ps_ts2 prof sum =   546147.577967520     
  trcom prof sum =    546147.577967520     
  ps_ts2 cur sum  =   14333.0309767098     
  trcom cur sum  =    14333.0309767098     
  
  Total ECH heating:      2987945.53969466     
  Total Current Drive:    64124.3286665102     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1879
 TA= 2.17500E+00 CPU TIME= 1.66132E-01 SECONDS.  DT= 9.24113E-04
  
 TEC1=    2.17499999999998     
 TEC2=    2.17999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.91032083333312     
  %check_save_state: izleft hours =    75.0811111111111     
 --> plasma_hash("gframe"): TA= 2.175000E+00 NSTEP=  1879 Hash code:   69009121
 ->PRGCHK: bdy curvature ratio at t= 2.1800E+00 seconds is:  5.5377E-02
% MHDEQ: TG1=     2.175000 ; TG2=     2.180000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5377E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.175000 TO TG2=    2.180000 @ NSTEP     1879
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763959894234D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.43019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.78397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.33450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.91305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.12351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.90030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -3.52307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.66053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -3.97995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.40661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.09030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.72032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.30177E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.56937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.53598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.99711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  1.98127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.67100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.64882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.58746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.58746E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.1800E+00  2.1850E+00 total power(Watts):  2.9936E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.18000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.363829E+02    0.396043E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.344464E+02    0.397092E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.358079E+02    0.380329E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.379861E+02    0.385171E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.378099E+02    0.405890E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.357011E+02    0.412780E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.337894E+02    0.424225E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.327643E+02    0.410037E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.326804E+02    0.392268E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.335218E+02    0.375836E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.351486E+02    0.364628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.371527E+02    0.361536E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.390102E+02    0.367570E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.400846E+02    0.381884E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.402675E+02    0.399829E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.392768E+02    0.417277E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.375971E+02    0.428392E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.355903E+02    0.430770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.336570E+02    0.452817E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.310191E+02    0.435886E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.297448E+02    0.408798E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.302198E+02    0.378252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.324247E+02    0.351648E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.356028E+02    0.336796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.391935E+02    0.337104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.422256E+02    0.353453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.436426E+02    0.382163E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.430950E+02    0.415249E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.406614E+02    0.442307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.370771E+02    0.455642E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.375362E+02    0.306683E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.355744E+02    0.308727E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.370118E+02    0.290081E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.391374E+02    0.294691E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.390024E+02    0.316394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.367870E+02    0.324900E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.348738E+02    0.337491E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.338070E+02    0.323375E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.336049E+02    0.305598E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.345088E+02    0.287601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.363073E+02    0.273862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.384309E+02    0.269008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.402323E+02    0.275170E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.413563E+02    0.289705E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.414801E+02    0.308783E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.404159E+02    0.327877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.386439E+02    0.340448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.366199E+02    0.343794E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.347081E+02    0.367272E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138444E+03   -0.319194E+02    0.351608E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.307434E+02    0.323545E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138853E+03   -0.312507E+02    0.290978E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.334361E+02    0.262001E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.368947E+02    0.242847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.405460E+02    0.241527E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.434579E+02    0.258526E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.449620E+02    0.287797E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.442760E+02    0.323337E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.416710E+02    0.353195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.381740E+02    0.368589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.362016E+02    0.451719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.342748E+02    0.452036E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.356444E+02    0.436278E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.378065E+02    0.441796E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.377080E+02    0.461212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.355106E+02    0.467243E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.336877E+02    0.477285E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.325925E+02    0.463742E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.325227E+02    0.446979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.333749E+02    0.431240E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.350069E+02    0.420394E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.369137E+02    0.418151E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.387521E+02    0.424913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.400989E+02    0.438738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.402605E+02    0.456279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.393560E+02    0.472184E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.374764E+02    0.482615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.354740E+02    0.484312E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.335231E+02    0.506176E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.309154E+02    0.488061E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.297502E+02    0.461090E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.300897E+02    0.432501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.322316E+02    0.406733E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.354114E+02    0.392634E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.389837E+02    0.394063E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.420750E+02    0.411345E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.434414E+02    0.441103E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.429696E+02    0.472319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.406140E+02    0.497665E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.370221E+02    0.509983E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.368006E+02    0.355674E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.349440E+02    0.356639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.362964E+02    0.339676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.383981E+02    0.344604E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.383402E+02    0.364631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.361342E+02    0.372154E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.342235E+02    0.383864E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.331788E+02    0.370050E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.330764E+02    0.352651E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.339911E+02    0.335475E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.356184E+02    0.323480E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.376324E+02    0.319783E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.395055E+02    0.325728E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.406022E+02    0.340346E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.407062E+02    0.358600E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.397331E+02    0.375824E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.380549E+02    0.387166E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.360388E+02    0.390028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.341063E+02    0.413514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.314421E+02    0.396334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.301422E+02    0.369510E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.306661E+02    0.338665E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.327836E+02    0.310936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.361448E+02    0.293579E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.397628E+02    0.293098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.426265E+02    0.310496E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.441792E+02    0.339629E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.435679E+02    0.372717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.409461E+02    0.401156E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.375503E+02    0.415645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.378352E+02    0.240149E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.358625E+02    0.242843E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.373718E+02    0.222377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.395224E+02    0.226578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.393280E+02    0.249626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.371139E+02    0.258830E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.350256E+02    0.273629E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.339317E+02    0.259707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.338706E+02    0.240394E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.348417E+02    0.220649E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.365489E+02    0.206595E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.387671E+02    0.200048E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.406904E+02    0.205085E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.417499E+02    0.220675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.418071E+02    0.241067E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.407713E+02    0.260779E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.390069E+02    0.274123E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.369716E+02    0.278181E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.348067E+02    0.305328E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.321564E+02    0.288523E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138806E+03   -0.310116E+02    0.259334E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.315531E+02    0.225063E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.338039E+02    0.193535E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.372635E+02    0.173015E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.409436E+02    0.170638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.439116E+02    0.186914E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.452707E+02    0.218031E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.446447E+02    0.254590E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.419767E+02    0.286811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.384800E+02    0.304311E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691651.960440906     
  ps_ts2 prof sum =   691245.254435646     
  trcom prof sum =    691245.254435645     
  ps_ts2 cur sum  =   13448.5838071695     
  trcom cur sum  =    13448.5838071695     
  
  antenna # iant =            2
  powecha_use(iant) =    669597.798826343     
  ps_ts2 prof sum =   669180.028671993     
  trcom prof sum =    669180.028671993     
  ps_ts2 cur sum  =   16083.1310089246     
  trcom cur sum  =    16083.1310089246     
  
  antenna # iant =            3
  powecha_use(iant) =    528664.508875775     
  ps_ts2 prof sum =   528313.215071895     
  trcom prof sum =    528313.215071895     
  ps_ts2 cur sum  =   8489.13377237620     
  trcom cur sum  =    8489.13377237620     
  
  antenna # iant =            4
  powecha_use(iant) =    558090.590503176     
  ps_ts2 prof sum =   557766.649961377     
  trcom prof sum =    557766.649961376     
  ps_ts2 cur sum  =   12115.9656550596     
  trcom cur sum  =    12115.9656550596     
  
  antenna # iant =            5
  powecha_use(iant) =    545573.110538282     
  ps_ts2 prof sum =   545239.031790069     
  trcom prof sum =    545239.031790069     
  ps_ts2 cur sum  =   14379.8656000473     
  trcom cur sum  =    14379.8656000473     
  
  Total ECH heating:      2991744.17993098     
  Total Current Drive:    64516.6798435772     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1883
 TA= 2.18000E+00 CPU TIME= 1.62850E-01 SECONDS.  DT= 1.84602E-03
  
 TEC1=    2.17999999999998     
 TEC2=    2.18499999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.92354666666643     
  %check_save_state: izleft hours =    75.0680555555556     
 --> plasma_hash("gframe"): TA= 2.180000E+00 NSTEP=  1883 Hash code:   29947206
 ->PRGCHK: bdy curvature ratio at t= 2.1850E+00 seconds is:  5.5418E-02
% MHDEQ: TG1=     2.180000 ; TG2=     2.185000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7723E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5418E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.180000 TO TG2=    2.185000 @ NSTEP     1883
   GFRAME TG2 MOMENTS CHECKSUM:  2.4767457775295D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1850E+00  2.1900E+00 total power(Watts):  2.9993E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.18500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.363888E+02    0.396592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.344521E+02    0.397626E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.359061E+02    0.380414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.379936E+02    0.385718E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.379052E+02    0.406135E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.357038E+02    0.413365E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.337919E+02    0.424816E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.327682E+02    0.410588E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.326863E+02    0.392778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.335294E+02    0.376328E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.351572E+02    0.365141E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.371623E+02    0.362068E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.390196E+02    0.368121E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.401939E+02    0.382025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.402715E+02    0.400449E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.392803E+02    0.417903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.375987E+02    0.429028E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.355921E+02    0.431387E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.336559E+02    0.453455E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.311010E+02    0.436172E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.297500E+02    0.409307E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.302270E+02    0.378718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.323498E+02    0.352677E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.357031E+02    0.336757E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.392064E+02    0.337633E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.421358E+02    0.354496E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.435472E+02    0.383141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.431012E+02    0.415909E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.406614E+02    0.443009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.370780E+02    0.456315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.375515E+02    0.307109E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.355888E+02    0.309147E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.370290E+02    0.290472E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.392503E+02    0.294462E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.390171E+02    0.316863E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.368000E+02    0.325379E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.348855E+02    0.337996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.337336E+02    0.324423E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.337889E+02    0.304716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.346990E+02    0.286600E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.364186E+02    0.273491E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.384495E+02    0.269380E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.402512E+02    0.275561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.414744E+02    0.289481E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.414956E+02    0.309254E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.405285E+02    0.327845E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.387517E+02    0.340459E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.367229E+02    0.343790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.347130E+02    0.367791E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.320943E+02    0.351029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138760E+03   -0.307551E+02    0.323978E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.313464E+02    0.290633E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.336226E+02    0.260822E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.369144E+02    0.243192E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.405673E+02    0.241889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.434794E+02    0.258928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.448758E+02    0.288865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.441865E+02    0.324418E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.416830E+02    0.353762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.381836E+02    0.369121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.362005E+02    0.452383E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.343614E+02    0.452449E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.357357E+02    0.436634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.378076E+02    0.442450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.377055E+02    0.461909E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.355101E+02    0.467913E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.336839E+02    0.477937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.325904E+02    0.464376E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.325223E+02    0.447600E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.333763E+02    0.431842E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.350095E+02    0.420991E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.370101E+02    0.418435E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.388511E+02    0.425259E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.400008E+02    0.439655E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.402582E+02    0.457017E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.393518E+02    0.472919E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.374710E+02    0.483317E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.354690E+02    0.484978E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.336014E+02    0.506707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.309923E+02    0.488510E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.297484E+02    0.461704E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.300911E+02    0.433067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.323192E+02    0.406896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.355072E+02    0.392771E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.389927E+02    0.394615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.420801E+02    0.411986E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.435458E+02    0.441613E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.429649E+02    0.473107E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.406061E+02    0.498400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.371994E+02    0.510529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.368109E+02    0.356204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.349537E+02    0.357151E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.363980E+02    0.339662E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.385051E+02    0.344624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.383502E+02    0.365165E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.361428E+02    0.372669E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.343177E+02    0.383946E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.331871E+02    0.370544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.330852E+02    0.353146E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.340024E+02    0.335967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.356312E+02    0.323948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.376463E+02    0.320254E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.395191E+02    0.326233E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.406149E+02    0.340899E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.407170E+02    0.359163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.398402E+02    0.375948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.380621E+02    0.387712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.360454E+02    0.390560E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.341100E+02    0.414082E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.313675E+02    0.397231E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138695E+03   -0.301494E+02    0.369977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138675E+03   -0.306788E+02    0.339123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138420E+03   -0.327970E+02    0.311340E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.361598E+02    0.293970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.397800E+02    0.293515E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.426432E+02    0.310972E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.441928E+02    0.340212E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.435781E+02    0.373296E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.411520E+02    0.401071E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.375539E+02    0.416249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.378549E+02    0.240499E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.357927E+02    0.243969E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.373929E+02    0.222696E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.395457E+02    0.226900E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.394439E+02    0.249235E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.371295E+02    0.259212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.352177E+02    0.272552E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.341206E+02    0.258522E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.340592E+02    0.239092E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.348619E+02    0.220946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.367495E+02    0.205154E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.387902E+02    0.200365E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.407141E+02    0.205410E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.418727E+02    0.220212E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.419294E+02    0.240673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.408900E+02    0.260445E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.390254E+02    0.274511E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.369886E+02    0.278568E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.349973E+02    0.304448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.321706E+02    0.288880E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138830E+03   -0.310278E+02    0.259661E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138878E+03   -0.315744E+02    0.225330E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.338247E+02    0.193825E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.372870E+02    0.173307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.409690E+02    0.170942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.439375E+02    0.187253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.452962E+02    0.218389E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.445646E+02    0.255686E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.419952E+02    0.287226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.384959E+02    0.304743E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691113.881606594     
  ps_ts2 prof sum =   690664.324587181     
  trcom prof sum =    690664.324587180     
  ps_ts2 cur sum  =   13488.6167542216     
  trcom cur sum  =    13488.6167542216     
  
  antenna # iant =            2
  powecha_use(iant) =    672938.709814862     
  ps_ts2 prof sum =   672553.099192475     
  trcom prof sum =    672553.099192475     
  ps_ts2 cur sum  =   16221.5296740967     
  trcom cur sum  =    16221.5296740967     
  
  antenna # iant =            3
  powecha_use(iant) =    528367.056669494     
  ps_ts2 prof sum =   528023.601124846     
  trcom prof sum =    528023.601124847     
  ps_ts2 cur sum  =   8516.92896609765     
  trcom cur sum  =    8516.92896609764     
  
  antenna # iant =            4
  powecha_use(iant) =    560716.574410115     
  ps_ts2 prof sum =   560370.681250426     
  trcom prof sum =    560370.681250425     
  ps_ts2 cur sum  =   12217.3700630093     
  trcom cur sum  =    12217.3700630093     
  
  antenna # iant =            5
  powecha_use(iant) =    546181.424002219     
  ps_ts2 prof sum =   545874.119033886     
  trcom prof sum =    545874.119033886     
  ps_ts2 cur sum  =   14447.1140231073     
  trcom cur sum  =    14447.1140231073     
  
  Total ECH heating:      2997485.82518881     
  Total Current Drive:    64891.5594805325     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1886
 TA= 2.18500E+00 CPU TIME= 1.59727E-01 SECONDS.  DT= 1.05806E-03
  
 TEC1=    2.18499999999998     
 TEC2=    2.18999999999998     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.94008888888902     
  %check_save_state: izleft hours =    75.0513888888889     
 --> plasma_hash("gframe"): TA= 2.185000E+00 NSTEP=  1886 Hash code:  113219610
 ->PRGCHK: bdy curvature ratio at t= 2.1900E+00 seconds is:  5.5458E-02
% MHDEQ: TG1=     2.185000 ; TG2=     2.190000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5458E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.185000 TO TG2=    2.190000 @ NSTEP     1886
   GFRAME TG2 MOMENTS CHECKSUM:  2.4770955656357D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.39634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.74297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.44795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.26366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.59451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.91637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -2.11383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.68604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.36074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.22285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.30048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.63771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.84014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.71230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.60358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.79927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10= -3.36280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.07832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.69502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.65158E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.65158E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.1900E+00  2.1950E+00 total power(Watts):  2.9909E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.19000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.363943E+02    0.397053E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.345451E+02    0.397684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.359131E+02    0.380851E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.380003E+02    0.386164E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.379125E+02    0.406626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.357068E+02    0.413868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.338803E+02    0.425011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.327720E+02    0.411053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.326954E+02    0.393193E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.334506E+02    0.377203E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.352542E+02    0.365106E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.372638E+02    0.362053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.390282E+02    0.368584E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.402011E+02    0.382503E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.402770E+02    0.400946E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.393818E+02    0.418117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.376008E+02    0.429572E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.355938E+02    0.431914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.337418E+02    0.453766E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.311021E+02    0.436678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.297539E+02    0.409746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.303917E+02    0.378188E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138305E+03   -0.323586E+02    0.353093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.357134E+02    0.337208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.392170E+02    0.338111E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.421457E+02    0.355005E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.437631E+02    0.382898E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.431031E+02    0.416473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.405622E+02    0.443830E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.371700E+02    0.456682E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.375652E+02    0.307516E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.356910E+02    0.308912E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.371348E+02    0.290199E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.392650E+02    0.294866E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.391258E+02    0.316713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.369034E+02    0.325246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.349838E+02    0.337892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.337442E+02    0.324835E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.338014E+02    0.305095E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.347123E+02    0.286977E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.364337E+02    0.273881E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.384655E+02    0.269783E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.403656E+02    0.275290E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.414901E+02    0.289900E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.416062E+02    0.309111E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.405414E+02    0.328314E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.387587E+02    0.340943E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.367329E+02    0.344252E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.348089E+02    0.367755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.321029E+02    0.351459E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.307652E+02    0.324373E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.313587E+02    0.290991E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.335533E+02    0.261954E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.370227E+02    0.242809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.405863E+02    0.242312E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.437043E+02    0.257967E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.451044E+02    0.288075E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.444091E+02    0.323867E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.416929E+02    0.354269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.382866E+02    0.369133E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.362001E+02    0.452940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.343610E+02    0.452993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.357368E+02    0.437174E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.378083E+02    0.443006E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.378919E+02    0.462133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.355956E+02    0.468301E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.336816E+02    0.478467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.326737E+02    0.464702E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.325191E+02    0.448145E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.333784E+02    0.432344E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.350120E+02    0.421495E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.370133E+02    0.418948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.388536E+02    0.425804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.400018E+02    0.440242E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.401588E+02    0.457802E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.393488E+02    0.473525E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.376546E+02    0.483639E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.354657E+02    0.485515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.335965E+02    0.507154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.309881E+02    0.488998E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.297475E+02    0.462215E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.302501E+02    0.432947E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.323232E+02    0.407352E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.355130E+02    0.393217E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.389963E+02    0.395097E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.420843E+02    0.412529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.435464E+02    0.442234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.429615E+02    0.473757E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.406015E+02    0.498954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.371934E+02    0.511014E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.369118E+02    0.356178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.349623E+02    0.357594E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.364082E+02    0.340121E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.385155E+02    0.345100E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.383588E+02    0.365631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.361506E+02    0.373112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.343242E+02    0.384374E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.332794E+02    0.370495E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.330091E+02    0.354097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.340124E+02    0.336404E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.357319E+02    0.323794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.377520E+02    0.320102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.395313E+02    0.326691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.407252E+02    0.340879E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.408260E+02    0.359195E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.398481E+02    0.376422E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.380685E+02    0.388172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.360513E+02    0.391009E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.341118E+02    0.414579E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.313723E+02    0.397663E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.303142E+02    0.369402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.306881E+02    0.339539E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.329767E+02    0.310447E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.362638E+02    0.293695E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.397949E+02    0.293924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.427600E+02    0.310842E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.440997E+02    0.341221E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.434828E+02    0.374212E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.410569E+02    0.401935E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.375572E+02    0.416760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.379659E+02    0.240113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.359874E+02    0.242787E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.375031E+02    0.222267E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.396595E+02    0.226518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.394619E+02    0.249652E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.371459E+02    0.259610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.352337E+02    0.272926E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.340508E+02    0.259659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.339907E+02    0.240279E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.350531E+02    0.219634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.367689E+02    0.205556E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.389042E+02    0.199911E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.407350E+02    0.205839E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.418933E+02    0.220638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.419486E+02    0.241106E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.409076E+02    0.260869E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.391369E+02    0.274219E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.370040E+02    0.278946E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.350097E+02    0.304833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138457E+03   -0.322671E+02    0.288541E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138853E+03   -0.310423E+02    0.260022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.316716E+02    0.224832E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.338435E+02    0.194214E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.372185E+02    0.174651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.410889E+02    0.170452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.440637E+02    0.186840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.455289E+02    0.217267E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.445839E+02    0.256139E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.420113E+02    0.287657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.385090E+02    0.305142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688502.323202328     
  ps_ts2 prof sum =   688056.772296856     
  trcom prof sum =    688056.772296855     
  ps_ts2 cur sum  =   13479.7818146703     
  trcom cur sum  =    13479.7818146703     
  
  antenna # iant =            2
  powecha_use(iant) =    671157.771828028     
  ps_ts2 prof sum =   670801.908215082     
  trcom prof sum =    670801.908215082     
  ps_ts2 cur sum  =   16222.3350705489     
  trcom cur sum  =    16222.3350705489     
  
  antenna # iant =            3
  powecha_use(iant) =    527762.909026235     
  ps_ts2 prof sum =   527423.551395023     
  trcom prof sum =    527423.551395023     
  ps_ts2 cur sum  =   8538.10841570707     
  trcom cur sum  =    8538.10841570707     
  
  antenna # iant =            4
  powecha_use(iant) =    555633.027569158     
  ps_ts2 prof sum =   555288.077811673     
  trcom prof sum =    555288.077811672     
  ps_ts2 cur sum  =   12142.1191037159     
  trcom cur sum  =    12142.1191037159     
  
  antenna # iant =            5
  powecha_use(iant) =    547875.116919637     
  ps_ts2 prof sum =   547580.105604101     
  trcom prof sum =    547580.105604101     
  ps_ts2 cur sum  =   14528.0386299116     
  trcom cur sum  =    14528.0386299116     
  
  Total ECH heating:      2989150.41532273     
  Total Current Drive:    64910.3830345537     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1890
 TA= 2.19000E+00 CPU TIME= 1.60135E-01 SECONDS.  DT= 1.20768E-03
  
 TEC1=    2.18999999999998     
 TEC2=    2.19499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.95486027777770     
  %check_save_state: izleft hours =    75.0366666666667     
 --> plasma_hash("gframe"): TA= 2.190000E+00 NSTEP=  1890 Hash code:   91490126
 ->PRGCHK: bdy curvature ratio at t= 2.1950E+00 seconds is:  5.5498E-02
% MHDEQ: TG1=     2.190000 ; TG2=     2.195000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7714E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5498E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.190000 TO TG2=    2.195000 @ NSTEP     1890
   GFRAME TG2 MOMENTS CHECKSUM:  2.4774453537418D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.1950E+00  2.2000E+00 total power(Watts):  2.9985E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.19500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.363992E+02    0.397513E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.345499E+02    0.398142E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.359196E+02    0.381303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.381014E+02    0.386228E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.379169E+02    0.407119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.357103E+02    0.414366E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.338822E+02    0.425526E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.328587E+02    0.411177E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.326967E+02    0.393642E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.336286E+02    0.376733E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.352622E+02    0.365551E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.372725E+02    0.362509E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.391326E+02    0.368625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.402084E+02    0.382978E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.404795E+02    0.400760E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.393847E+02    0.418656E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.376026E+02    0.430119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.355949E+02    0.432456E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.337412E+02    0.454312E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.311030E+02    0.437186E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.299136E+02    0.409446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138475E+03   -0.303196E+02    0.379044E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.325336E+02    0.352492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.357233E+02    0.337665E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.393263E+02    0.338064E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.423590E+02    0.354597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.437702E+02    0.383410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.432094E+02    0.416767E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.407600E+02    0.444001E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.371693E+02    0.457246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.376707E+02    0.307312E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.357041E+02    0.309312E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.371491E+02    0.290591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.392796E+02    0.295278E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.391386E+02    0.317148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.369148E+02    0.325692E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.349937E+02    0.338345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.339269E+02    0.324074E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.337275E+02    0.306119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.346394E+02    0.288032E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.364491E+02    0.274264E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.384820E+02    0.270180E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.403820E+02    0.275704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.415058E+02    0.290322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.416248E+02    0.309528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.405528E+02    0.328796E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.387719E+02    0.341413E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.367427E+02    0.344719E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.348165E+02    0.368195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.320287E+02    0.352417E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.308554E+02    0.324168E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.313711E+02    0.291351E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.335688E+02    0.262329E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.370401E+02    0.243213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.407023E+02    0.241981E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.436200E+02    0.259117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.451214E+02    0.288518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.444226E+02    0.324353E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.418040E+02    0.354314E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.382947E+02    0.369600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.362906E+02    0.453289E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.343604E+02    0.453541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.357379E+02    0.437713E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.379022E+02    0.443351E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.377962E+02    0.462900E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.355934E+02    0.468864E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.337647E+02    0.478847E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.326722E+02    0.465238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.325211E+02    0.448666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.333792E+02    0.432871E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.350144E+02    0.422009E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.370200E+02    0.419449E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.388558E+02    0.426356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.401983E+02    0.440374E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.403537E+02    0.458060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.392491E+02    0.474265E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.376508E+02    0.484213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.354616E+02    0.486058E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.335919E+02    0.507597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.309849E+02    0.489482E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.296684E+02    0.462945E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.302520E+02    0.433441E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.323270E+02    0.407814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.355185E+02    0.393671E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.390976E+02    0.395216E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.421894E+02    0.412785E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.435463E+02    0.442873E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.430607E+02    0.474299E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.405960E+02    0.499522E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.371876E+02    0.511490E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.369207E+02    0.356643E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.349708E+02    0.358041E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.364194E+02    0.340572E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.385286E+02    0.345564E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.384622E+02    0.365644E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.362485E+02    0.373116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.343323E+02    0.384803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.332866E+02    0.370923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.331872E+02    0.353508E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.339357E+02    0.337404E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.357433E+02    0.324223E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.377641E+02    0.320537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.396407E+02    0.326600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.407361E+02    0.341372E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.408356E+02    0.359688E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.398558E+02    0.376894E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.380749E+02    0.388630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.360574E+02    0.391464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.342018E+02    0.414733E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.315402E+02    0.397290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138515E+03   -0.302423E+02    0.370292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138724E+03   -0.306971E+02    0.339959E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.329058E+02    0.311445E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.362739E+02    0.294103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.399068E+02    0.293701E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.427743E+02    0.311286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.443209E+02    0.340789E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.436989E+02    0.373930E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.410622E+02    0.402438E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.376550E+02    0.416965E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.379833E+02    0.240527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.360042E+02    0.243186E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.375219E+02    0.222670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.396785E+02    0.226936E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.394798E+02    0.250077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.372532E+02    0.259282E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.352476E+02    0.273311E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.340665E+02    0.260041E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.340072E+02    0.240663E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.349843E+02    0.220869E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.366987E+02    0.206820E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.389249E+02    0.200323E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.408532E+02    0.205421E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.419144E+02    0.221067E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.419676E+02    0.241547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.409253E+02    0.261294E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.391530E+02    0.274630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.371143E+02    0.278630E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.350266E+02    0.305200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.322798E+02    0.288894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.311362E+02    0.259616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.316871E+02    0.225201E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138487E+03   -0.338633E+02    0.194588E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.374203E+02    0.173154E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.411126E+02    0.170855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.440876E+02    0.187283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.454460E+02    0.218515E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.448127E+02    0.255197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.421285E+02    0.287443E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.386174E+02    0.304938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693683.424198711     
  ps_ts2 prof sum =   693294.637848315     
  trcom prof sum =    693294.637848314     
  ps_ts2 cur sum  =   13621.7903968579     
  trcom cur sum  =    13621.7903968579     
  
  antenna # iant =            2
  powecha_use(iant) =    673618.312572713     
  ps_ts2 prof sum =   673215.163761002     
  trcom prof sum =    673215.163761002     
  ps_ts2 cur sum  =   16325.9530859213     
  trcom cur sum  =    16325.9530859213     
  
  antenna # iant =            3
  powecha_use(iant) =    526760.198670355     
  ps_ts2 prof sum =   526412.533825593     
  trcom prof sum =    526412.533796152     
  ps_ts2 cur sum  =   8550.34508263310     
  trcom cur sum  =    8550.34508263310     
  
  antenna # iant =            4
  powecha_use(iant) =    556584.570541117     
  ps_ts2 prof sum =   556247.306832336     
  trcom prof sum =    556247.306832336     
  ps_ts2 cur sum  =   12197.8184983052     
  trcom cur sum  =    12197.8184983052     
  
  antenna # iant =            5
  powecha_use(iant) =    547829.003778344     
  ps_ts2 prof sum =   547517.705569270     
  trcom prof sum =    547517.705569270     
  ps_ts2 cur sum  =   14563.7535397668     
  trcom cur sum  =    14563.7535397668     
  
  Total ECH heating:      2996687.34780707     
  Total Current Drive:    65259.6606034843     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1894
 TA= 2.19500E+00 CPU TIME= 1.59817E-01 SECONDS.  DT= 4.94639E-04
  
 TEC1=    2.19499999999997     
 TEC2=    2.19999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.96714916666633     
  %check_save_state: izleft hours =    75.0244444444444     
 --> plasma_hash("gframe"): TA= 2.195000E+00 NSTEP=  1894 Hash code:   86064770
 ->PRGCHK: bdy curvature ratio at t= 2.2000E+00 seconds is:  5.5539E-02
% MHDEQ: TG1=     2.195000 ; TG2=     2.200000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5539E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.195000 TO TG2=    2.200000 @ NSTEP     1894
   GFRAME TG2 MOMENTS CHECKSUM:  2.4777951418683D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.36250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.70197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.56140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.61427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.48496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.93244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4=  6.09057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.71156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.92913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  2.03909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.51067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.55510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.37850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.85524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.67118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.60141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10=  3.22629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.48564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.74121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.23883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.23883E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  2.2000E+00  2.2050E+00 total power(Watts):  3.0033E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.20000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.364954E+02    0.397610E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.345551E+02    0.398597E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.360167E+02    0.381318E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.381080E+02    0.386700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.379217E+02    0.407618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.358053E+02    0.414522E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.338863E+02    0.426028E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.328625E+02    0.411654E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.327863E+02    0.393677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.336363E+02    0.377153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.352704E+02    0.365999E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.372831E+02    0.362965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.391413E+02    0.369097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.403148E+02    0.383058E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.403882E+02    0.401581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.393883E+02    0.419198E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.376979E+02    0.430408E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.356860E+02    0.432728E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.337408E+02    0.454861E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.311043E+02    0.437700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.298395E+02    0.410264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.303262E+02    0.379444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.325423E+02    0.352928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.358231E+02    0.337578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.393354E+02    0.338563E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.422679E+02    0.355570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.437788E+02    0.383918E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.432129E+02    0.417351E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.407605E+02    0.444612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.371685E+02    0.457826E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.376843E+02    0.307724E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.357159E+02    0.309713E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.371638E+02    0.290990E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.393906E+02    0.295061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.391522E+02    0.317590E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.369273E+02    0.326135E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.350036E+02    0.338805E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.339403E+02    0.324496E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.337402E+02    0.306501E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.348267E+02    0.287059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.365550E+02    0.273959E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.385926E+02    0.269903E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.403989E+02    0.276128E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.416219E+02    0.290127E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.416392E+02    0.309977E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.406662E+02    0.328726E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.388783E+02    0.341391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.367530E+02    0.345186E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.348245E+02    0.368637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.320374E+02    0.352851E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.308657E+02    0.324575E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.314652E+02    0.291032E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.335842E+02    0.262718E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.370572E+02    0.243637E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.407215E+02    0.242425E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.436392E+02    0.259577E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.450331E+02    0.289593E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.443322E+02    0.325384E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.418146E+02    0.354823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.383031E+02    0.370071E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.362907E+02    0.453857E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.343602E+02    0.454094E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.357394E+02    0.438256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.379034E+02    0.443910E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.377955E+02    0.463477E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.355908E+02    0.469440E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.337617E+02    0.479392E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.326704E+02    0.465785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.326067E+02    0.448940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.334660E+02    0.433114E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.351075E+02    0.422207E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.371130E+02    0.419680E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.388579E+02    0.426918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.401998E+02    0.440958E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.403524E+02    0.458682E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.394393E+02    0.474613E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.375543E+02    0.484893E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.355482E+02    0.486480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.335864E+02    0.508057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.309818E+02    0.489974E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.298235E+02    0.463038E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.301749E+02    0.434239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.322470E+02    0.408642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.355246E+02    0.394116E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.391036E+02    0.395703E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.421924E+02    0.413360E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.436503E+02    0.443316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.430567E+02    0.474959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.406887E+02    0.500056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.372745E+02    0.511938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.369299E+02    0.357112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.350678E+02    0.358006E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.364284E+02    0.341047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.386309E+02    0.345566E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.384709E+02    0.366125E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.362551E+02    0.373568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.343375E+02    0.385238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.332946E+02    0.371352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.331959E+02    0.353957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.341181E+02    0.336744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.357550E+02    0.324662E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.377765E+02    0.320978E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.396530E+02    0.327072E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.407474E+02    0.341872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.408453E+02    0.360175E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.398636E+02    0.377385E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.381762E+02    0.388703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.361544E+02    0.391516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.342074E+02    0.415210E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.315450E+02    0.397724E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.302500E+02    0.370692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138518E+03   -0.307862E+02    0.339823E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.329171E+02    0.311841E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.362916E+02    0.294482E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.399221E+02    0.294126E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.427889E+02    0.311756E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.443329E+02    0.341319E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.437077E+02    0.374445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.412686E+02    0.402275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.376574E+02    0.417496E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.380019E+02    0.240948E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.359327E+02    0.244380E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.375410E+02    0.223087E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.396988E+02    0.227364E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.395943E+02    0.249757E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.372703E+02    0.259694E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.351757E+02    0.274413E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.342532E+02    0.258930E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.340240E+02    0.241054E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.350029E+02    0.221260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.368981E+02    0.205481E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.389463E+02    0.200725E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.408751E+02    0.205841E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.420344E+02    0.220715E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.420874E+02    0.241248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.410421E+02    0.261025E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.391696E+02    0.275048E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.371261E+02    0.279048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.351230E+02    0.304980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.322933E+02    0.289260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138668E+03   -0.311522E+02    0.259977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138720E+03   -0.317041E+02    0.225576E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.339666E+02    0.194029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.374428E+02    0.173502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.411370E+02    0.171214E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.441123E+02    0.187699E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.454688E+02    0.218985E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.447278E+02    0.256367E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.421451E+02    0.287880E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.386312E+02    0.305360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694645.153247642     
  ps_ts2 prof sum =   694231.037886041     
  trcom prof sum =    694231.037886040     
  ps_ts2 cur sum  =   13685.5156362105     
  trcom cur sum  =    13685.5156362105     
  
  antenna # iant =            2
  powecha_use(iant) =    674486.357738622     
  ps_ts2 prof sum =   674074.907346521     
  trcom prof sum =    674074.907346520     
  ps_ts2 cur sum  =   16391.9044832122     
  trcom cur sum  =    16391.9044832122     
  
  antenna # iant =            3
  powecha_use(iant) =    525167.460789471     
  ps_ts2 prof sum =   524816.323992498     
  trcom prof sum =    524816.323992498     
  ps_ts2 cur sum  =   8555.23347028155     
  trcom cur sum  =    8555.23347028155     
  
  antenna # iant =            4
  powecha_use(iant) =    561342.276063942     
  ps_ts2 prof sum =   561013.782625603     
  trcom prof sum =    561013.782625602     
  ps_ts2 cur sum  =   12338.1941774177     
  trcom cur sum  =    12338.1941774177     
  
  antenna # iant =            5
  powecha_use(iant) =    547689.123966526     
  ps_ts2 prof sum =   547367.093284727     
  trcom prof sum =    547367.093284727     
  ps_ts2 cur sum  =   14597.5179549875     
  trcom cur sum  =    14597.5179549875     
  
  Total ECH heating:      3001503.14513539     
  Total Current Drive:    65568.3657221094     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1900
 TA= 2.20000E+00 CPU TIME= 1.64134E-01 SECONDS.  DT= 1.17560E-03
  
 TEC1=    2.19999999999997     
 TEC2=    2.20499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.98162777777748     
  %check_save_state: izleft hours =    75.0100000000000     
 --> plasma_hash("gframe"): TA= 2.200000E+00 NSTEP=  1900 Hash code:   60730290
 ->PRGCHK: bdy curvature ratio at t= 2.2050E+00 seconds is:  5.5580E-02
% MHDEQ: TG1=     2.200000 ; TG2=     2.205000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7705E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5580E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.200000 TO TG2=    2.205000 @ NSTEP     1900
   GFRAME TG2 MOMENTS CHECKSUM:  2.4781449299949D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2050E+00  2.2100E+00 total power(Watts):  2.9905E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.20500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.365023E+02    0.398108E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.345613E+02    0.399081E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.360247E+02    0.381812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.381159E+02    0.387202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.380227E+02    0.407791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.358103E+02    0.415033E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.338897E+02    0.426527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.328675E+02    0.412136E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.327927E+02    0.394141E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.336442E+02    0.377628E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.352796E+02    0.366488E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.372911E+02    0.363480E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.391510E+02    0.369619E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.403233E+02    0.383586E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.403905E+02    0.402128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.395861E+02    0.419167E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.377013E+02    0.430944E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.356890E+02    0.433248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.337415E+02    0.455382E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.310262E+02    0.438461E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.298438E+02    0.410725E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.303335E+02    0.379891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.324691E+02    0.353907E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.358347E+02    0.338046E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.393477E+02    0.339053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.422794E+02    0.356121E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.438915E+02    0.384126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.432181E+02    0.417935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.407623E+02    0.445190E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.371685E+02    0.458389E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.376990E+02    0.308121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.357316E+02    0.310097E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.372727E+02    0.290709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.394069E+02    0.295460E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.392624E+02    0.317440E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.369403E+02    0.326579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.350155E+02    0.339255E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.338645E+02    0.325499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.339248E+02    0.305602E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.348437E+02    0.287416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.365719E+02    0.274350E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.386135E+02    0.270275E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.405145E+02    0.275864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.416392E+02    0.290538E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.416550E+02    0.310399E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.406777E+02    0.329210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.388902E+02    0.341885E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.368555E+02    0.345160E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.348332E+02    0.369134E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.322116E+02    0.352277E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138629E+03   -0.308771E+02    0.324967E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.314787E+02    0.291371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.337697E+02    0.261597E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.370759E+02    0.244041E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.407419E+02    0.242851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.436597E+02    0.260021E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.452632E+02    0.288815E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.445567E+02    0.324836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.418259E+02    0.355367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.383124E+02    0.370586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.362918E+02    0.454391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.344482E+02    0.454405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.358313E+02    0.438534E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.379055E+02    0.444456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.377945E+02    0.464061E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.355897E+02    0.470001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.337601E+02    0.479935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.326700E+02    0.466314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.326072E+02    0.449460E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.334692E+02    0.433615E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.351112E+02    0.422717E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.371172E+02    0.420204E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.389576E+02    0.427196E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.401039E+02    0.441759E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.403527E+02    0.459273E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.394373E+02    0.475218E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.375517E+02    0.485471E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.355456E+02    0.487034E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.336688E+02    0.508467E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.310596E+02    0.490349E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.298234E+02    0.463539E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.301771E+02    0.434714E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.324232E+02    0.408379E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.356205E+02    0.394221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.391110E+02    0.396214E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.421982E+02    0.413923E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134202E+03   -0.436524E+02    0.443929E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134081E+03   -0.430554E+02    0.475606E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.406841E+02    0.500653E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.372699E+02    0.512463E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.369402E+02    0.357608E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.350784E+02    0.358478E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.365307E+02    0.340999E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.386417E+02    0.346071E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.384806E+02    0.366634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.362656E+02    0.374055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.344316E+02    0.385303E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.333029E+02    0.371827E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.332055E+02    0.354431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.341294E+02    0.337188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.358569E+02    0.324521E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.378837E+02    0.320838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.396666E+02    0.327530E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.408585E+02    0.341886E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.409554E+02    0.360271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.399702E+02    0.377492E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.381840E+02    0.389212E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.361610E+02    0.392012E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.342122E+02    0.415703E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.314694E+02    0.398577E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138567E+03   -0.302581E+02    0.371143E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138543E+03   -0.307957E+02    0.340247E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.329297E+02    0.312207E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.363970E+02    0.294217E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.399386E+02    0.294519E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.429073E+02    0.311610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.442418E+02    0.342343E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.437176E+02    0.375019E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.412746E+02    0.402836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.376636E+02    0.418008E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.380214E+02    0.241360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.359509E+02    0.244774E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.375616E+02    0.223486E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.398150E+02    0.226987E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.396132E+02    0.250184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.372884E+02    0.260090E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.353678E+02    0.273373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.342695E+02    0.259314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.342117E+02    0.239839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.350222E+02    0.221642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.369193E+02    0.205872E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.390619E+02    0.200264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.408977E+02    0.206260E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.420573E+02    0.221146E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.421083E+02    0.241686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.410616E+02    0.261447E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.391876E+02    0.275439E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.371431E+02    0.279430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.351371E+02    0.305359E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.323078E+02    0.289610E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138695E+03   -0.311663E+02    0.260355E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138742E+03   -0.317217E+02    0.225941E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.339867E+02    0.194390E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.373758E+02    0.174786E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.411621E+02    0.171593E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.442400E+02    0.187269E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.457031E+02    0.217887E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.447486E+02    0.256824E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.421629E+02    0.288296E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.386469E+02    0.305761E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686346.922732825     
  ps_ts2 prof sum =   685901.294595406     
  trcom prof sum =    685901.294595405     
  ps_ts2 cur sum  =   13573.4292380390     
  trcom cur sum  =    13573.4292380390     
  
  antenna # iant =            2
  powecha_use(iant) =    674874.231309376     
  ps_ts2 prof sum =   674511.676960159     
  trcom prof sum =    674511.676960159     
  ps_ts2 cur sum  =   16453.6302413473     
  trcom cur sum  =    16453.6302413473     
  
  antenna # iant =            3
  powecha_use(iant) =    524655.417125231     
  ps_ts2 prof sum =   524311.810021450     
  trcom prof sum =    524311.810021451     
  ps_ts2 cur sum  =   8582.75624052196     
  trcom cur sum  =    8582.75624052196     
  
  antenna # iant =            4
  powecha_use(iant) =    557945.771649624     
  ps_ts2 prof sum =   557615.203027561     
  trcom prof sum =    557615.203027560     
  ps_ts2 cur sum  =   12306.0727024547     
  trcom cur sum  =    12306.0727024547     
  
  antenna # iant =            5
  powecha_use(iant) =    546643.817707104     
  ps_ts2 prof sum =   546331.326778893     
  trcom prof sum =    546331.326778893     
  ps_ts2 cur sum  =   14612.1302450193     
  trcom cur sum  =    14612.1302450193     
  
  Total ECH heating:      2988671.31138347     
  Total Current Drive:    65528.0186673822     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1904
 TA= 2.20500E+00 CPU TIME= 1.65033E-01 SECONDS.  DT= 6.47517E-04
  
 TEC1=    2.20499999999997     
 TEC2=    2.20999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    4.99537666666652     
  %check_save_state: izleft hours =    74.9961111111111     
 --> plasma_hash("gframe"): TA= 2.205000E+00 NSTEP=  1904 Hash code:    4290392
 ->PRGCHK: bdy curvature ratio at t= 2.2100E+00 seconds is:  5.5667E-02
% MHDEQ: TG1=     2.205000 ; TG2=     2.210000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1560E-03 SECONDS
   DATA R*BT AT EDGE:  2.7699E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5667E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.205000 TO TG2=    2.210000 @ NSTEP     1904
   GFRAME TG2 MOMENTS CHECKSUM:  2.4784973984962D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.43718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.62498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.68108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.51276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.48906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.94771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4= -6.22837E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.73330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10= -5.06637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.93665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.57063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.36239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.37959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.01858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.87415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.60223E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.65669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.77727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.75548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.67064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.67064E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2100E+00  2.2150E+00 total power(Watts):  2.9846E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.21000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.365222E+02    0.398662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.346677E+02    0.399237E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.360459E+02    0.382319E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.381376E+02    0.387747E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.380427E+02    0.408370E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.358284E+02    0.415592E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.339923E+02    0.426779E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.328840E+02    0.412668E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.328112E+02    0.394654E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.336640E+02    0.378114E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.353907E+02    0.366477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.373185E+02    0.363906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.391750E+02    0.370110E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.403464E+02    0.384142E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.404162E+02    0.402719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.396051E+02    0.419781E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.377187E+02    0.431537E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.357056E+02    0.433819E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.337555E+02    0.455943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.312015E+02    0.438437E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.298606E+02    0.411210E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.303530E+02    0.380329E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.324913E+02    0.354290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.358599E+02    0.338460E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.393748E+02    0.339495E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.423066E+02    0.356605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.439157E+02    0.384738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.432386E+02    0.418599E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.406803E+02    0.446048E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.372756E+02    0.458818E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.377272E+02    0.308581E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.358457E+02    0.309931E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.372995E+02    0.291145E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.394366E+02    0.295916E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.392905E+02    0.317914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.369661E+02    0.327011E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.351273E+02    0.339133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.338924E+02    0.325893E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.339504E+02    0.306021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.348700E+02    0.287824E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.366011E+02    0.274734E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.386408E+02    0.270688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.405464E+02    0.276286E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.416707E+02    0.291003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.417851E+02    0.310325E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.407096E+02    0.329660E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.389167E+02    0.342321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.368808E+02    0.345580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.348555E+02    0.369576E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.322345E+02    0.352659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138598E+03   -0.309003E+02    0.325346E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.315037E+02    0.291755E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.337974E+02    0.261926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.370168E+02    0.245125E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.407763E+02    0.243198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.437978E+02    0.259740E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.452967E+02    0.289326E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.445870E+02    0.325369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.418530E+02    0.355844E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.384305E+02    0.370641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.363049E+02    0.455006E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.344622E+02    0.454982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.358471E+02    0.439118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.379212E+02    0.445078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.378090E+02    0.464674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.356035E+02    0.470575E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.337715E+02    0.480509E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.327663E+02    0.466690E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.326215E+02    0.450011E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.334849E+02    0.434161E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.351283E+02    0.423277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.371354E+02    0.420780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.389759E+02    0.427798E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.401211E+02    0.442394E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.402702E+02    0.460088E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.394509E+02    0.475868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.375635E+02    0.486099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.355570E+02    0.487637E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.336778E+02    0.509063E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.310702E+02    0.490903E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.298354E+02    0.464065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.301928E+02    0.435207E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.324324E+02    0.408926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.356400E+02    0.394763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.391322E+02    0.396792E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.422184E+02    0.414578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.436700E+02    0.444630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.430727E+02    0.476297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.406948E+02    0.501350E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.372776E+02    0.513115E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.370565E+02    0.357571E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.351014E+02    0.358895E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.365559E+02    0.341414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.386686E+02    0.346502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.385050E+02    0.367108E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.362880E+02    0.374534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.344517E+02    0.385808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.332392E+02    0.372724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.331438E+02    0.355320E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.341536E+02    0.337583E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.358824E+02    0.324950E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.379111E+02    0.321292E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.396955E+02    0.327985E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.408864E+02    0.342342E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.409811E+02    0.360761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.399939E+02    0.378021E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.382054E+02    0.389763E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.361814E+02    0.392550E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.342293E+02    0.416250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.314872E+02    0.399075E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.302778E+02    0.371555E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.308183E+02    0.340614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.329557E+02    0.312627E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.364250E+02    0.294643E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.399689E+02    0.294981E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.429380E+02    0.312125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.444798E+02    0.341905E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.436393E+02    0.375973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.411969E+02    0.403766E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.376816E+02    0.418599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.381457E+02    0.240914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.361594E+02    0.243527E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.376853E+02    0.222968E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.398495E+02    0.227305E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.396477E+02    0.250521E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.373192E+02    0.260443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.353961E+02    0.273740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.342128E+02    0.260382E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.341566E+02    0.240925E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.352269E+02    0.220238E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.369527E+02    0.206145E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.390971E+02    0.200547E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.409340E+02    0.206564E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.420937E+02    0.221478E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.421441E+02    0.242042E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.410945E+02    0.261843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.393139E+02    0.275167E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.371718E+02    0.279843E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.351635E+02    0.305789E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.324977E+02    0.288626E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.311947E+02    0.260638E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.318308E+02    0.225347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.340191E+02    0.194623E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.375911E+02    0.173168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.412970E+02    0.170944E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.442798E+02    0.187576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.456365E+02    0.219031E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.449939E+02    0.255855E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.422957E+02    0.288134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.386755E+02    0.306226E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685348.603130871     
  ps_ts2 prof sum =   684909.943711542     
  trcom prof sum =    684909.943711541     
  ps_ts2 cur sum  =   13568.3176106273     
  trcom cur sum  =    13568.3176106273     
  
  antenna # iant =            2
  powecha_use(iant) =    671733.471223254     
  ps_ts2 prof sum =   671362.119451297     
  trcom prof sum =    671362.119451297     
  ps_ts2 cur sum  =   16396.3546060112     
  trcom cur sum  =    16396.3546060112     
  
  antenna # iant =            3
  powecha_use(iant) =    524929.149272476     
  ps_ts2 prof sum =   524567.933714250     
  trcom prof sum =    524567.933714250     
  ps_ts2 cur sum  =   8598.37055357222     
  trcom cur sum  =    8598.37055357222     
  
  antenna # iant =            4
  powecha_use(iant) =    554934.261387699     
  ps_ts2 prof sum =   554566.808871986     
  trcom prof sum =    554566.808871985     
  ps_ts2 cur sum  =   12253.2180595645     
  trcom cur sum  =    12253.2180595645     
  
  antenna # iant =            5
  powecha_use(iant) =    547640.251652313     
  ps_ts2 prof sum =   547376.782177558     
  trcom prof sum =    547376.782177558     
  ps_ts2 cur sum  =   14657.3734141317     
  trcom cur sum  =    14657.3734141317     
  
  Total ECH heating:      2982783.58792663     
  Total Current Drive:    65473.6342439070     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1909
 TA= 2.21000E+00 CPU TIME= 1.59554E-01 SECONDS.  DT= 1.58333E-03
  
 TEC1=    2.20999999999997     
 TEC2=    2.21499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.00684777777724     
  %check_save_state: izleft hours =    74.9847222222222     
 --> plasma_hash("gframe"): TA= 2.210000E+00 NSTEP=  1909 Hash code:  104937295
 ->PRGCHK: bdy curvature ratio at t= 2.2150E+00 seconds is:  5.5756E-02
% MHDEQ: TG1=     2.210000 ; TG2=     2.215000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7693E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5756E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.210000 TO TG2=    2.215000 @ NSTEP     1909
   GFRAME TG2 MOMENTS CHECKSUM:  2.4788498669975D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2150E+00  2.2200E+00 total power(Watts):  2.9950E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.21500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.365417E+02    0.399215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.346862E+02    0.399774E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.360667E+02    0.382840E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.381589E+02    0.388308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.380615E+02    0.408953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.358464E+02    0.416126E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.340088E+02    0.427288E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.329016E+02    0.413169E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.328293E+02    0.395165E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.335993E+02    0.379025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.354125E+02    0.366938E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.374303E+02    0.363962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.391983E+02    0.370629E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.403685E+02    0.384726E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.406331E+02    0.402679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.395278E+02    0.420636E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.377363E+02    0.432085E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.357210E+02    0.434347E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.338551E+02    0.456257E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.312159E+02    0.438918E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.298761E+02    0.411683E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.305282E+02    0.379912E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.325131E+02    0.354694E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.358846E+02    0.338868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.394010E+02    0.339937E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.425351E+02    0.356228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.439391E+02    0.385369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.432589E+02    0.419236E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.408947E+02    0.446245E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.372904E+02    0.459377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.377541E+02    0.309015E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.358722E+02    0.310356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.373280E+02    0.291557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.394655E+02    0.296359E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.393181E+02    0.318364E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.370834E+02    0.326882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.351512E+02    0.339537E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.339134E+02    0.326295E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.339751E+02    0.306422E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.348962E+02    0.288207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.366294E+02    0.275117E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.386706E+02    0.271079E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.405773E+02    0.276709E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.417015E+02    0.291455E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.418142E+02    0.310803E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.407341E+02    0.330129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.389424E+02    0.342762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.369050E+02    0.346008E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.349642E+02    0.369600E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.322554E+02    0.353055E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138567E+03   -0.309232E+02    0.325705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.315284E+02    0.292118E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.337405E+02    0.263003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.372285E+02    0.243921E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.408085E+02    0.243561E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.438318E+02    0.260156E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.453291E+02    0.289821E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.446165E+02    0.325878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.420799E+02    0.355450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.384532E+02    0.371159E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.363208E+02    0.455541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.344766E+02    0.455506E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.358633E+02    0.439648E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.379376E+02    0.445631E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.380113E+02    0.464928E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.357063E+02    0.470979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.337831E+02    0.481061E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.327773E+02    0.467224E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.326356E+02    0.450507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.335006E+02    0.434662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.351454E+02    0.423800E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.371539E+02    0.421326E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.389943E+02    0.428364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.401386E+02    0.442975E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.404812E+02    0.460376E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.394644E+02    0.476481E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.377616E+02    0.486515E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.355684E+02    0.488224E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.336859E+02    0.509673E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.310799E+02    0.491447E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.298470E+02    0.464554E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.303646E+02    0.435108E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.324535E+02    0.409425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.356595E+02    0.395308E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.391532E+02    0.397376E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.421389E+02    0.415463E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.436881E+02    0.445269E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.430844E+02    0.476963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.407055E+02    0.502035E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.372874E+02    0.513757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.370798E+02    0.358024E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.351236E+02    0.359345E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.365806E+02    0.341836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.386938E+02    0.346939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.385283E+02    0.367608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.363092E+02    0.375040E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.344712E+02    0.386333E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.334287E+02    0.372293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.331656E+02    0.355729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.341773E+02    0.337988E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.359083E+02    0.325361E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.379374E+02    0.321727E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.398185E+02    0.327897E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.409130E+02    0.342803E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.410061E+02    0.361263E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.400170E+02    0.378573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.382264E+02    0.390330E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.362012E+02    0.393098E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.342454E+02    0.416775E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.315048E+02    0.399572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.302969E+02    0.371992E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138482E+03   -0.308403E+02    0.340970E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.331468E+02    0.311785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.364490E+02    0.295070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.399980E+02    0.295429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.429678E+02    0.312620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.445083E+02    0.342406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.438708E+02    0.375805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.412184E+02    0.404372E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.376997E+02    0.419154E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.381770E+02    0.241248E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.361891E+02    0.243851E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.377173E+02    0.223282E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.398829E+02    0.227638E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.396769E+02    0.250906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.374405E+02    0.260072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.354238E+02    0.274115E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.342407E+02    0.260715E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.341855E+02    0.241227E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.352571E+02    0.220527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.368955E+02    0.207295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.391311E+02    0.200857E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.410658E+02    0.206057E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.421284E+02    0.221825E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.421781E+02    0.242413E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.411265E+02    0.262239E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.393438E+02    0.275577E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.372001E+02    0.280236E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.351891E+02    0.306207E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.324406E+02    0.289677E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138634E+03   -0.312189E+02    0.260963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.318592E+02    0.225614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.340498E+02    0.194893E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.376251E+02    0.173460E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.413337E+02    0.171261E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.443180E+02    0.187928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.456741E+02    0.219410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.450286E+02    0.256284E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.423265E+02    0.288596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.387031E+02    0.306664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687533.127896567     
  ps_ts2 prof sum =   687116.870818742     
  trcom prof sum =    687116.870818742     
  ps_ts2 cur sum  =   13623.3885436534     
  trcom cur sum  =    13623.3885436534     
  
  antenna # iant =            2
  powecha_use(iant) =    672982.145020118     
  ps_ts2 prof sum =   672611.361992955     
  trcom prof sum =    672611.361992955     
  ps_ts2 cur sum  =   16435.8864975867     
  trcom cur sum  =    16435.8864975867     
  
  antenna # iant =            3
  powecha_use(iant) =    525743.666872892     
  ps_ts2 prof sum =   525405.825597138     
  trcom prof sum =    525405.825597138     
  ps_ts2 cur sum  =   8623.66531744375     
  trcom cur sum  =    8623.66531744375     
  
  antenna # iant =            4
  powecha_use(iant) =    560148.095184196     
  ps_ts2 prof sum =   559798.523034777     
  trcom prof sum =    559798.523034776     
  ps_ts2 cur sum  =   12377.2830616562     
  trcom cur sum  =    12377.2830616562     
  
  antenna # iant =            5
  powecha_use(iant) =    548601.454661155     
  ps_ts2 prof sum =   548302.478013927     
  trcom prof sum =    548302.478013927     
  ps_ts2 cur sum  =   14689.4934119580     
  trcom cur sum  =    14689.4934119580     
  
  Total ECH heating:      2993235.05945754     
  Total Current Drive:    65749.7168322981     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1912
 TA= 2.21500E+00 CPU TIME= 1.59652E-01 SECONDS.  DT= 1.79690E-03
  
 TEC1=    2.21499999999997     
 TEC2=    2.21999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.01945416666626     
  %check_save_state: izleft hours =    74.9722222222222     
 --> plasma_hash("gframe"): TA= 2.215000E+00 NSTEP=  1912 Hash code:   93802862
 ->PRGCHK: bdy curvature ratio at t= 2.2200E+00 seconds is:  5.5845E-02
% MHDEQ: TG1=     2.215000 ; TG2=     2.220000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7687E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5845E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.215000 TO TG2=    2.220000 @ NSTEP     1912
   GFRAME TG2 MOMENTS CHECKSUM:  2.4792023354988D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.60285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.52281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.79494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.91640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.48319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.96080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  2.02368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.74954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #      10=  5.87768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.91754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.48901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.33352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.89472E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.18473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.18011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.87835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.30508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.93639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.73951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.88261E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.88261E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.2200E+00  2.2250E+00 total power(Watts):  2.9866E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.22000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.365625E+02    0.399825E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.347061E+02    0.400366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.360893E+02    0.383422E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.381815E+02    0.388928E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.380820E+02    0.409583E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.358658E+02    0.416719E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.340262E+02    0.427853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.329198E+02    0.413729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.328488E+02    0.395735E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.337913E+02    0.378715E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.354361E+02    0.367472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.374550E+02    0.364502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.392235E+02    0.371207E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.403922E+02    0.385374E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.406555E+02    0.403344E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.395479E+02    0.421286E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.377548E+02    0.432695E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.357397E+02    0.434928E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.338694E+02    0.456833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.312308E+02    0.439456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.298933E+02    0.412205E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.305480E+02    0.380427E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.325362E+02    0.355141E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.359111E+02    0.339327E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.395210E+02    0.339957E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.425633E+02    0.356804E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.439637E+02    0.386079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.432805E+02    0.419942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.409125E+02    0.446915E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.373058E+02    0.459995E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.377841E+02    0.309498E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.359004E+02    0.310819E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.373583E+02    0.292019E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.394973E+02    0.296839E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.393475E+02    0.318868E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.371111E+02    0.327351E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.351769E+02    0.339988E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.341114E+02    0.325591E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.340026E+02    0.306865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.349257E+02    0.288638E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.366608E+02    0.275545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.387036E+02    0.271517E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.406111E+02    0.277172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.417349E+02    0.291959E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.418452E+02    0.311343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.407641E+02    0.330637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.389718E+02    0.343250E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.369308E+02    0.346492E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.349872E+02    0.370136E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.322783E+02    0.353516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138536E+03   -0.309476E+02    0.326114E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.315550E+02    0.292514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.337707E+02    0.263377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.372623E+02    0.244298E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.409421E+02    0.243232E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.438692E+02    0.260632E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.452592E+02    0.290979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.446489E+02    0.326440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.421079E+02    0.356017E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.384772E+02    0.371746E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.363363E+02    0.456140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.344912E+02    0.456087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.358802E+02    0.440236E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.379550E+02    0.446246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.380252E+02    0.465569E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.357203E+02    0.471584E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.337957E+02    0.481656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.327904E+02    0.467792E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.326504E+02    0.451060E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.335166E+02    0.435224E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.351637E+02    0.424376E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.371708E+02    0.421937E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.390136E+02    0.428993E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.403512E+02    0.443223E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.404972E+02    0.461048E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.393823E+02    0.477258E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.377739E+02    0.487181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.355801E+02    0.488857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.336954E+02    0.510312E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.310903E+02    0.492032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.298594E+02    0.465091E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.303797E+02    0.435637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.324716E+02    0.409982E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.356804E+02    0.395901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.391754E+02    0.398018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.421607E+02    0.416148E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.437069E+02    0.445981E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.430994E+02    0.477693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.407178E+02    0.502748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.372964E+02    0.514454E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.371049E+02    0.358542E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.351473E+02    0.359846E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.366075E+02    0.342306E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.387177E+02    0.347464E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.385532E+02    0.368169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.364224E+02    0.375183E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.344888E+02    0.386922E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.334504E+02    0.372821E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.331888E+02    0.356185E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.342026E+02    0.338423E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.359353E+02    0.325820E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.379661E+02    0.322207E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.398474E+02    0.328406E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.409419E+02    0.343320E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.410335E+02    0.361825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.400416E+02    0.379194E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.382488E+02    0.390953E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.362224E+02    0.393699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.342650E+02    0.417334E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.316857E+02    0.399363E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.304734E+02    0.371560E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.308635E+02    0.341377E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.331731E+02    0.312224E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.364821E+02    0.295508E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.400304E+02    0.295914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.430002E+02    0.313174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.445389E+02    0.342977E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.438971E+02    0.376474E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.412408E+02    0.405047E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.377201E+02    0.419760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.382115E+02    0.241636E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.362221E+02    0.244216E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.377525E+02    0.223641E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.399192E+02    0.228025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.397117E+02    0.251313E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.374732E+02    0.260485E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.354540E+02    0.274531E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.342715E+02    0.261088E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.342173E+02    0.241574E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.352909E+02    0.220865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.369314E+02    0.207608E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.391689E+02    0.201178E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.411047E+02    0.206415E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.421672E+02    0.222221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.422156E+02    0.242840E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.411615E+02    0.262685E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.393763E+02    0.276032E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.372314E+02    0.280676E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.352152E+02    0.306675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.324680E+02    0.290078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.312475E+02    0.261310E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.318897E+02    0.225926E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.340832E+02    0.195163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.376632E+02    0.173703E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.413756E+02    0.171536E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.443606E+02    0.188270E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.457160E+02    0.219837E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.449627E+02    0.257449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.423608E+02    0.289094E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.387334E+02    0.307162E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683201.661293415     
  ps_ts2 prof sum =   682795.069714706     
  trcom prof sum =    682795.069714705     
  ps_ts2 cur sum  =   13566.2280540289     
  trcom cur sum  =    13566.2280540289     
  
  antenna # iant =            2
  powecha_use(iant) =    671871.585887100     
  ps_ts2 prof sum =   671504.232736677     
  trcom prof sum =    671504.232736677     
  ps_ts2 cur sum  =   16445.9288616255     
  trcom cur sum  =    16445.9288616255     
  
  antenna # iant =            3
  powecha_use(iant) =    524585.792047928     
  ps_ts2 prof sum =   524239.153855413     
  trcom prof sum =    524239.153855414     
  ps_ts2 cur sum  =   8624.41133927902     
  trcom cur sum  =    8624.41133927903     
  
  antenna # iant =            4
  powecha_use(iant) =    558880.884496212     
  ps_ts2 prof sum =   558553.221745883     
  trcom prof sum =    558553.221745883     
  ps_ts2 cur sum  =   12376.3729160757     
  trcom cur sum  =    12376.3729160757     
  
  antenna # iant =            5
  powecha_use(iant) =    548071.654289388     
  ps_ts2 prof sum =   547756.012365118     
  trcom prof sum =    547756.012365118     
  ps_ts2 cur sum  =   14707.7564500906     
  trcom cur sum  =    14707.7564500906     
  
  Total ECH heating:      2984847.69041780     
  Total Current Drive:    65720.6976210997     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1915
 TA= 2.22000E+00 CPU TIME= 1.55214E-01 SECONDS.  DT= 1.19623E-03
  
 TEC1=    2.21999999999997     
 TEC2=    2.22499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.03576277777756     
  %check_save_state: izleft hours =    74.9558333333333     
 --> plasma_hash("gframe"): TA= 2.220000E+00 NSTEP=  1915 Hash code:   23318659
 ->PRGCHK: bdy curvature ratio at t= 2.2250E+00 seconds is:  5.5934E-02
% MHDEQ: TG1=     2.220000 ; TG2=     2.225000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7681E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5934E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.220000 TO TG2=    2.225000 @ NSTEP     1915
   GFRAME TG2 MOMENTS CHECKSUM:  2.4795548040001D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2250E+00  2.2300E+00 total power(Watts):  2.9791E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.22500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.365862E+02    0.400451E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.347278E+02    0.400983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.361137E+02    0.384026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.382066E+02    0.389568E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.381103E+02    0.410213E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.358870E+02    0.417340E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.340457E+02    0.428443E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.329399E+02    0.414308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.328714E+02    0.396311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.336442E+02    0.380124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.354617E+02    0.368021E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.374822E+02    0.365060E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.392511E+02    0.371805E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.404196E+02    0.386020E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.406793E+02    0.404052E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.395705E+02    0.421952E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.377756E+02    0.433331E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.357591E+02    0.435541E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.338860E+02    0.457430E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.312483E+02    0.440015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.299124E+02    0.412747E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.305689E+02    0.380974E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.325613E+02    0.355613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.359398E+02    0.339795E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.394612E+02    0.340941E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.425942E+02    0.357399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.439924E+02    0.386794E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.433045E+02    0.420678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.409325E+02    0.447616E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.373232E+02    0.460643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.378161E+02    0.309997E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.359309E+02    0.311294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.373914E+02    0.292487E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.395315E+02    0.297329E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.393800E+02    0.319379E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.371412E+02    0.327832E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.352050E+02    0.340454E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.339690E+02    0.327168E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.340329E+02    0.307323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.349571E+02    0.289076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.366939E+02    0.275973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.387391E+02    0.271963E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.406477E+02    0.277649E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.417712E+02    0.292473E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.418813E+02    0.311882E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.407965E+02    0.331165E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.390014E+02    0.343761E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.369596E+02    0.346985E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.350122E+02    0.370691E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.323032E+02    0.353981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.309744E+02    0.326533E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.315840E+02    0.292923E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.338031E+02    0.263756E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.372985E+02    0.244688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.408850E+02    0.244395E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.439094E+02    0.261113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.454030E+02    0.290949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.446841E+02    0.327015E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.421386E+02    0.356601E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.385050E+02    0.372324E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.363540E+02    0.456766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.345081E+02    0.456691E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.358994E+02    0.440852E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.379742E+02    0.446892E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.380420E+02    0.466236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.357357E+02    0.472217E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.338097E+02    0.482276E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.328065E+02    0.468377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.326630E+02    0.451656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.335356E+02    0.435805E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.351843E+02    0.424974E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.371946E+02    0.422561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.390353E+02    0.429648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.403716E+02    0.443911E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.405156E+02    0.461748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.394946E+02    0.477842E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.377883E+02    0.487868E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.355942E+02    0.489498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.337069E+02    0.510963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.311018E+02    0.492644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.298737E+02    0.465643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.303959E+02    0.436196E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.324916E+02    0.410559E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.357033E+02    0.396522E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.392002E+02    0.398683E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.421850E+02    0.416854E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.437282E+02    0.446725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133974E+03   -0.431169E+02    0.478442E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.407307E+02    0.503514E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.373066E+02    0.515189E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.371328E+02    0.359070E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.351733E+02    0.360362E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.366363E+02    0.342789E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.387511E+02    0.347957E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.385809E+02    0.368750E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.363576E+02    0.376186E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.345153E+02    0.387503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.334743E+02    0.373368E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.332146E+02    0.356665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.342303E+02    0.338880E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.359653E+02    0.326281E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.379972E+02    0.322711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.397878E+02    0.329428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.409742E+02    0.343849E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.410632E+02    0.362405E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.400687E+02    0.379833E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.382735E+02    0.391599E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.362457E+02    0.394323E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.342865E+02    0.417922E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.315444E+02    0.400678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.303391E+02    0.372990E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.308893E+02    0.341796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.332018E+02    0.312665E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.365141E+02    0.295969E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.400651E+02    0.296415E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.430357E+02    0.313727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.445724E+02    0.343565E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.439261E+02    0.377167E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.412656E+02    0.405749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.377422E+02    0.420397E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.382488E+02    0.242030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.362575E+02    0.244602E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.377902E+02    0.224005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.399598E+02    0.228411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.397502E+02    0.251731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.375081E+02    0.260905E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.354868E+02    0.274946E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.343046E+02    0.261469E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.342512E+02    0.241925E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.353270E+02    0.221202E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.370595E+02    0.207072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.392090E+02    0.201511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.411457E+02    0.206778E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.422090E+02    0.222629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.422557E+02    0.243277E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.411996E+02    0.263138E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.394120E+02    0.276498E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.372651E+02    0.281118E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.352483E+02    0.307125E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.324978E+02    0.290492E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138572E+03   -0.312783E+02    0.261664E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.319225E+02    0.226242E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.341212E+02    0.195407E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.377043E+02    0.173948E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.414203E+02    0.171809E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.444069E+02    0.188612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.457609E+02    0.220279E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.451082E+02    0.257265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.423977E+02    0.289611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.387666E+02    0.307657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681820.681110142     
  ps_ts2 prof sum =   681408.055946486     
  trcom prof sum =    681408.055946485     
  ps_ts2 cur sum  =   13583.7345316269     
  trcom cur sum  =    13583.7345316269     
  
  antenna # iant =            2
  powecha_use(iant) =    671072.081859059     
  ps_ts2 prof sum =   670706.903480873     
  trcom prof sum =    670706.903480872     
  ps_ts2 cur sum  =   16477.9494625431     
  trcom cur sum  =    16477.9494625431     
  
  antenna # iant =            3
  powecha_use(iant) =    524772.929626627     
  ps_ts2 prof sum =   524439.956886363     
  trcom prof sum =    524439.956886363     
  ps_ts2 cur sum  =   8659.51766283147     
  trcom cur sum  =    8659.51766283148     
  
  antenna # iant =            4
  powecha_use(iant) =    554062.891233345     
  ps_ts2 prof sum =   553714.670011504     
  trcom prof sum =    553714.670011503     
  ps_ts2 cur sum  =   12309.0128622038     
  trcom cur sum  =    12309.0128622038     
  
  antenna # iant =            5
  powecha_use(iant) =    547418.019770194     
  ps_ts2 prof sum =   547133.651200689     
  trcom prof sum =    547133.651200689     
  ps_ts2 cur sum  =   14735.4159864187     
  trcom cur sum  =    14735.4159864187     
  
  Total ECH heating:      2977403.23752591     
  Total Current Drive:    65765.6305056239     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1919
 TA= 2.22500E+00 CPU TIME= 1.59418E-01 SECONDS.  DT= 5.49236E-04
  
 TEC1=    2.22499999999997     
 TEC2=    2.22999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.05118249999941     
  %check_save_state: izleft hours =    74.9402777777778     
 --> plasma_hash("gframe"): TA= 2.225000E+00 NSTEP=  1919 Hash code:   39394869
 ->PRGCHK: bdy curvature ratio at t= 2.2300E+00 seconds is:  5.6025E-02
% MHDEQ: TG1=     2.225000 ; TG2=     2.230000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7675E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6025E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.225000 TO TG2=    2.230000 @ NSTEP     1919
   GFRAME TG2 MOMENTS CHECKSUM:  2.4799072725014D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.79457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.40458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.92670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.38350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.97595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  3.53168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.76835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -3.69145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.89544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.39457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.48986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.33364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.37701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.53416E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.04066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.05539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.12052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.72103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.20323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.20323E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2300E+00  2.2350E+00 total power(Watts):  2.9954E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.23000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.366078E+02    0.401039E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.347488E+02    0.401541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.361364E+02    0.384602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.382302E+02    0.390162E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.381231E+02    0.410834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.359082E+02    0.417893E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.340639E+02    0.428994E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.329590E+02    0.414844E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.328904E+02    0.396859E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.337506E+02    0.380243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.354855E+02    0.368540E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.375077E+02    0.365590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.392770E+02    0.372372E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.404439E+02    0.386655E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.407025E+02    0.404698E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.395922E+02    0.422560E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.377955E+02    0.433914E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.357780E+02    0.436096E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.339020E+02    0.457972E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.312650E+02    0.440529E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.299303E+02    0.413250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.304336E+02    0.382326E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.325850E+02    0.356056E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.359663E+02    0.340251E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.394903E+02    0.341432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.424214E+02    0.358820E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.440183E+02    0.387482E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.433296E+02    0.421350E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.409525E+02    0.448237E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.373403E+02    0.461218E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.378466E+02    0.310469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.359595E+02    0.311751E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.374225E+02    0.292936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.395637E+02    0.297808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.394104E+02    0.319871E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.371703E+02    0.328287E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.352317E+02    0.340900E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.339962E+02    0.327601E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.340607E+02    0.307761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.349869E+02    0.289502E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.367252E+02    0.276391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.387726E+02    0.272385E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.406822E+02    0.278109E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.418054E+02    0.292972E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.419133E+02    0.312407E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.408272E+02    0.331666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.390297E+02    0.344251E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.369866E+02    0.347463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.349484E+02    0.371646E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.323275E+02    0.354423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.310001E+02    0.326932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.316116E+02    0.293322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.339179E+02    0.263387E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.373326E+02    0.245055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.409220E+02    0.244788E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.439473E+02    0.261570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.454392E+02    0.291484E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.447169E+02    0.327573E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.421673E+02    0.357162E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.385304E+02    0.372886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.363710E+02    0.457334E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.345244E+02    0.457239E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.359176E+02    0.441419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.379932E+02    0.447478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.380579E+02    0.466844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.357515E+02    0.472784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.338230E+02    0.482833E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.328215E+02    0.468908E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.326828E+02    0.452170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.335535E+02    0.436338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.352037E+02    0.425534E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.372150E+02    0.423146E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.390559E+02    0.430249E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.401977E+02    0.444923E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.405334E+02    0.462380E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.395104E+02    0.478471E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.378026E+02    0.488489E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.356077E+02    0.490094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.337172E+02    0.511557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.311126E+02    0.493200E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.298845E+02    0.466156E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.304124E+02    0.436698E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.325108E+02    0.411091E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.357248E+02    0.397102E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.392258E+02    0.399287E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.422081E+02    0.417507E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.437492E+02    0.447396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.431339E+02    0.479117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.407446E+02    0.504184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.373185E+02    0.515820E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.371583E+02    0.359577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.351981E+02    0.360857E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.366634E+02    0.343253E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.387788E+02    0.348452E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.386067E+02    0.369296E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.363816E+02    0.376734E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.345372E+02    0.388058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.333283E+02    0.374753E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.332387E+02    0.357123E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.342568E+02    0.339310E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.359931E+02    0.326734E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.380270E+02    0.323170E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.398136E+02    0.329936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.410037E+02    0.344361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.410910E+02    0.362965E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.400940E+02    0.380434E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.382969E+02    0.392200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.362678E+02    0.394907E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.343046E+02    0.418483E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.315640E+02    0.401196E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.303608E+02    0.373463E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.309133E+02    0.342201E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.330616E+02    0.314315E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.365445E+02    0.296411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.400977E+02    0.296889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.430688E+02    0.314263E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.446037E+02    0.344127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.439533E+02    0.377819E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.412886E+02    0.406410E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.377628E+02    0.420992E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.382838E+02    0.242399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.362910E+02    0.244953E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.378259E+02    0.224344E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.399959E+02    0.228782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.397858E+02    0.252126E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.374504E+02    0.262008E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.355181E+02    0.275346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.343358E+02    0.261824E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.342839E+02    0.242258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.353610E+02    0.221507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.370958E+02    0.207365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.392481E+02    0.201807E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.410895E+02    0.207924E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.422483E+02    0.222999E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.422940E+02    0.243681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.412354E+02    0.263568E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.394450E+02    0.276936E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.372970E+02    0.281546E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.352771E+02    0.307581E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.326082E+02    0.290228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.313069E+02    0.261996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138380E+03   -0.319512E+02    0.226556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.341560E+02    0.195643E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.377429E+02    0.174168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.414622E+02    0.172051E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.444503E+02    0.188929E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.458034E+02    0.220686E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.451462E+02    0.257737E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.424323E+02    0.290109E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.387975E+02    0.308141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692708.555320355     
  ps_ts2 prof sum =   692278.043798024     
  trcom prof sum =    692278.043798024     
  ps_ts2 cur sum  =   13836.7352593227     
  trcom cur sum  =    13836.7352593227     
  
  antenna # iant =            2
  powecha_use(iant) =    671732.798369171     
  ps_ts2 prof sum =   671384.013988430     
  trcom prof sum =    671384.013988430     
  ps_ts2 cur sum  =   16529.7912478327     
  trcom cur sum  =    16529.7912478327     
  
  antenna # iant =            3
  powecha_use(iant) =    524407.208314383     
  ps_ts2 prof sum =   524068.874329781     
  trcom prof sum =    524068.874329781     
  ps_ts2 cur sum  =   8680.74780080653     
  trcom cur sum  =    8680.74780080654     
  
  antenna # iant =            4
  powecha_use(iant) =    559298.079095376     
  ps_ts2 prof sum =   558927.374258512     
  trcom prof sum =    558927.374258511     
  ps_ts2 cur sum  =   12454.0422433088     
  trcom cur sum  =    12454.0422433088     
  
  antenna # iant =            5
  powecha_use(iant) =    547290.930396641     
  ps_ts2 prof sum =   547015.315274709     
  trcom prof sum =    547015.315274709     
  ps_ts2 cur sum  =   14760.6076442699     
  trcom cur sum  =    14760.6076442699     
  
  Total ECH heating:      2993673.62164945     
  Total Current Drive:    66261.9241955406     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1925
 TA= 2.23000E+00 CPU TIME= 1.59547E-01 SECONDS.  DT= 6.15504E-04
  
 TEC1=    2.22999999999997     
 TEC2=    2.23499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.06751249999979     
  %check_save_state: izleft hours =    74.9241666666667     
 --> plasma_hash("gframe"): TA= 2.230000E+00 NSTEP=  1925 Hash code:   35953895
 ->PRGCHK: bdy curvature ratio at t= 2.2350E+00 seconds is:  5.6115E-02
% MHDEQ: TG1=     2.230000 ; TG2=     2.235000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7669E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6115E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.230000 TO TG2=    2.235000 @ NSTEP     1925
   GFRAME TG2 MOMENTS CHECKSUM:  2.4802597410027D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2350E+00  2.2400E+00 total power(Watts):  2.9976E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.23500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.366277E+02    0.401606E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.347679E+02    0.402086E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.361573E+02    0.385148E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.382516E+02    0.390743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.381467E+02    0.411411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.359266E+02    0.418443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.340802E+02    0.429523E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.329773E+02    0.415349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.329087E+02    0.397382E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.336873E+02    0.381159E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.355073E+02    0.369041E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.375309E+02    0.366102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.393006E+02    0.372917E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.404644E+02    0.387253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.407232E+02    0.405324E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.396117E+02    0.423153E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.378132E+02    0.434488E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.357950E+02    0.436643E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.339164E+02    0.458500E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.312797E+02    0.441026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.299476E+02    0.413727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.306089E+02    0.381958E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.326078E+02    0.356476E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.359917E+02    0.340680E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.395169E+02    0.341898E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.426493E+02    0.358514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.440422E+02    0.388132E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.433480E+02    0.422006E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.409695E+02    0.448874E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.373602E+02    0.461765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.378738E+02    0.310918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.359853E+02    0.312194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.374507E+02    0.293374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.395932E+02    0.298274E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.394389E+02    0.320330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.371963E+02    0.328730E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.352558E+02    0.341331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.340208E+02    0.328009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.340837E+02    0.308192E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.350150E+02    0.289899E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.367546E+02    0.276785E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.388038E+02    0.272791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.407138E+02    0.278545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.418365E+02    0.293442E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.419434E+02    0.312901E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.408552E+02    0.332141E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.390558E+02    0.344720E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.370112E+02    0.347917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.350605E+02    0.371705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.323489E+02    0.354855E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.310224E+02    0.327313E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.316366E+02    0.293696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.338620E+02    0.264459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.373640E+02    0.245400E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.409561E+02    0.245162E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.439820E+02    0.262010E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.453676E+02    0.292586E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.447469E+02    0.328103E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.421934E+02    0.357700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.385535E+02    0.373429E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.363864E+02    0.457888E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.345391E+02    0.457773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.359341E+02    0.441966E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.380100E+02    0.448052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.380727E+02    0.467423E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.357630E+02    0.473335E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.338378E+02    0.483363E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.328347E+02    0.469430E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.326973E+02    0.452685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.335695E+02    0.436859E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.352205E+02    0.426079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.372333E+02    0.423713E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.390745E+02    0.430834E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.404087E+02    0.445151E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.405492E+02    0.463003E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.394292E+02    0.479166E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.378156E+02    0.489081E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.356197E+02    0.490661E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.337274E+02    0.512120E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.311234E+02    0.493727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.299002E+02    0.466639E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.304275E+02    0.437186E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.325275E+02    0.411615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.357446E+02    0.397657E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.392447E+02    0.399893E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.422289E+02    0.418146E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.437674E+02    0.448059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.431493E+02    0.479768E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.407566E+02    0.504826E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.373292E+02    0.516419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.371818E+02    0.360073E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.352207E+02    0.361328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.366883E+02    0.343698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.388043E+02    0.348925E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.386304E+02    0.369826E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.364034E+02    0.377263E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.345568E+02    0.388592E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.335171E+02    0.374383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.332610E+02    0.357568E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.342805E+02    0.339722E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.360187E+02    0.327173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.380539E+02    0.323624E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.399373E+02    0.329885E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.410308E+02    0.344852E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.411164E+02    0.363503E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.401168E+02    0.381023E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.383183E+02    0.392780E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.362880E+02    0.395466E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.343226E+02    0.419014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.315822E+02    0.401704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138380E+03   -0.303803E+02    0.373922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.309310E+02    0.342619E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.332531E+02    0.313518E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.365715E+02    0.296847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.401277E+02    0.297360E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.430992E+02    0.314773E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.446324E+02    0.344663E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.439780E+02    0.378447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.413098E+02    0.407040E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.377819E+02    0.421561E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.383161E+02    0.242748E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.363223E+02    0.245291E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.378592E+02    0.224668E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.400301E+02    0.229130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.398186E+02    0.252507E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.375677E+02    0.261704E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.355459E+02    0.275726E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.343645E+02    0.262168E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.343136E+02    0.242569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.353924E+02    0.221812E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.371293E+02    0.207647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.392832E+02    0.202096E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.412226E+02    0.207416E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.422848E+02    0.223361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.423290E+02    0.244068E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.412684E+02    0.263979E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.394758E+02    0.277358E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.373266E+02    0.281958E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.353032E+02    0.308005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.325522E+02    0.291274E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.313343E+02    0.262320E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.319821E+02    0.226806E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.341882E+02    0.195871E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.377787E+02    0.174379E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.415010E+02    0.172286E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.444903E+02    0.189231E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.458420E+02    0.221081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.450785E+02    0.258853E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.424650E+02    0.290586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.388262E+02    0.308606E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693626.214723428     
  ps_ts2 prof sum =   693201.328153793     
  trcom prof sum =    693201.328153792     
  ps_ts2 cur sum  =   13871.3016565800     
  trcom cur sum  =    13871.3016565800     
  
  antenna # iant =            2
  powecha_use(iant) =    672766.083368255     
  ps_ts2 prof sum =   672390.449878760     
  trcom prof sum =    672390.449878760     
  ps_ts2 cur sum  =   16573.4378600232     
  trcom cur sum  =    16573.4378600232     
  
  antenna # iant =            3
  powecha_use(iant) =    523983.824801035     
  ps_ts2 prof sum =   523639.603951629     
  trcom prof sum =    523639.603951630     
  ps_ts2 cur sum  =   8687.50960738526     
  trcom cur sum  =    8687.50960738526     
  
  antenna # iant =            4
  powecha_use(iant) =    559866.450788781     
  ps_ts2 prof sum =   559516.164030596     
  trcom prof sum =    559516.164030596     
  ps_ts2 cur sum  =   12480.7583017033     
  trcom cur sum  =    12480.7583017033     
  
  antenna # iant =            5
  powecha_use(iant) =    547403.989488374     
  ps_ts2 prof sum =   547110.277482899     
  trcom prof sum =    547110.277482898     
  ps_ts2 cur sum  =   14778.7605847056     
  trcom cur sum  =    14778.7605847056     
  
  Total ECH heating:      2995857.82349768     
  Total Current Drive:    66391.7680103974     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1930
 TA= 2.23500E+00 CPU TIME= 1.63604E-01 SECONDS.  DT= 1.81404E-03
  
 TEC1=    2.23499999999997     
 TEC2=    2.23999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.08012305555553     
  %check_save_state: izleft hours =    74.9113888888889     
 --> plasma_hash("gframe"): TA= 2.235000E+00 NSTEP=  1930 Hash code:    2345029
 ->PRGCHK: bdy curvature ratio at t= 2.2400E+00 seconds is:  5.6207E-02
% MHDEQ: TG1=     2.235000 ; TG2=     2.240000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7663E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6207E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.235000 TO TG2=    2.240000 @ NSTEP     1930
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806122095040D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.96997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.29642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.04725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.81084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.98981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  4.91134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.78555E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -5.99817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.87522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.30816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.80310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -4.27800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.55292E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  3.85809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.27427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.74184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.28898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.70412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.34174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.34174E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2400E+00  2.2450E+00 total power(Watts):  2.9875E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.24000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.366451E+02    0.402070E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.347850E+02    0.402526E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.361753E+02    0.385614E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.382702E+02    0.391227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.381642E+02    0.411876E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.359422E+02    0.418890E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.340962E+02    0.429917E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.329924E+02    0.415770E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.329254E+02    0.397814E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.338745E+02    0.380778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.355261E+02    0.369477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.375509E+02    0.366548E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.393210E+02    0.373395E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.404863E+02    0.387756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.407413E+02    0.405839E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.396292E+02    0.423614E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.378298E+02    0.434913E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.358108E+02    0.437052E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.339305E+02    0.458865E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.312933E+02    0.441395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.299626E+02    0.414105E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.306242E+02    0.382381E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.326260E+02    0.356871E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.360125E+02    0.341076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.396349E+02    0.341834E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.426715E+02    0.358998E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.440627E+02    0.388682E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.434682E+02    0.422288E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.409859E+02    0.449323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.373716E+02    0.462158E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.378975E+02    0.311338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.360081E+02    0.312591E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.374753E+02    0.293772E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.396183E+02    0.298695E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.394622E+02    0.320765E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.372181E+02    0.329144E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.352762E+02    0.341720E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.342119E+02    0.327270E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.341077E+02    0.308561E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.350373E+02    0.290284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.367795E+02    0.277154E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.388301E+02    0.273169E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.407398E+02    0.278951E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.418645E+02    0.293886E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.419686E+02    0.313363E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.408790E+02    0.332577E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.390781E+02    0.345139E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.370322E+02    0.348321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.350753E+02    0.372164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.323670E+02    0.355244E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.310423E+02    0.327662E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.316581E+02    0.294050E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.338866E+02    0.264781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.373915E+02    0.245723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.410820E+02    0.244777E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.440152E+02    0.262399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.453955E+02    0.293072E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.447722E+02    0.328589E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.421161E+02    0.358589E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.385731E+02    0.373909E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.364014E+02    0.458275E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.345535E+02    0.458144E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.359498E+02    0.442368E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.382111E+02    0.448101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.379946E+02    0.467945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.357792E+02    0.473697E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.339341E+02    0.483605E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.328480E+02    0.469766E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.327113E+02    0.453045E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.335846E+02    0.437247E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.352411E+02    0.426477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.372501E+02    0.424147E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.390915E+02    0.431282E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.404253E+02    0.445600E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.405653E+02    0.463416E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.394441E+02    0.479552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.378295E+02    0.489447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.356335E+02    0.491001E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.337397E+02    0.512434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.311361E+02    0.494037E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.299123E+02    0.466960E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.304409E+02    0.437551E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.325435E+02    0.412029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.357626E+02    0.398105E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.392627E+02    0.400393E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.424472E+02    0.418164E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.437851E+02    0.448534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133670E+03   -0.432667E+02    0.480134E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.408689E+02    0.505192E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.373423E+02    0.516761E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.372018E+02    0.360501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.352402E+02    0.361741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.367094E+02    0.344093E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.388261E+02    0.349347E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.387446E+02    0.369884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.365117E+02    0.377315E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.345746E+02    0.389040E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.335345E+02    0.374817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.332798E+02    0.357953E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.343011E+02    0.340100E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.360403E+02    0.327566E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.380767E+02    0.324040E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.399607E+02    0.330312E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.410537E+02    0.345288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.411380E+02    0.363978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.401370E+02    0.381516E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.383370E+02    0.393261E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.363063E+02    0.395923E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.343383E+02    0.419422E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.317589E+02    0.401398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.305530E+02    0.373426E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.309546E+02    0.342938E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.332715E+02    0.313905E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.365960E+02    0.297249E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.401532E+02    0.297785E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.431249E+02    0.315245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.446522E+02    0.345160E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.439992E+02    0.378990E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.413284E+02    0.407545E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.377986E+02    0.422012E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.383403E+02    0.243102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.363488E+02    0.245604E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.378878E+02    0.224969E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.400600E+02    0.229450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.398467E+02    0.252857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.375978E+02    0.262026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.355709E+02    0.276091E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.343896E+02    0.262486E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.343394E+02    0.242859E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.354196E+02    0.222084E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.370692E+02    0.208742E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.393135E+02    0.202352E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.412540E+02    0.207704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.423157E+02    0.223696E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.423590E+02    0.244427E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.412971E+02    0.264368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.395024E+02    0.277759E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.373519E+02    0.282335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.353244E+02    0.308409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.325743E+02    0.291632E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.313574E+02    0.262619E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.320077E+02    0.227071E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.342161E+02    0.196074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.378097E+02    0.174563E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.415335E+02    0.172499E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.445254E+02    0.189496E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.458754E+02    0.221441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.451083E+02    0.259268E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.424908E+02    0.291041E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.388501E+02    0.309035E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689181.977065135     
  ps_ts2 prof sum =   688768.618043950     
  trcom prof sum =    688768.618043949     
  ps_ts2 cur sum  =   13773.4718567740     
  trcom cur sum  =    13773.4718567740     
  
  antenna # iant =            2
  powecha_use(iant) =    672755.170455852     
  ps_ts2 prof sum =   672377.669014265     
  trcom prof sum =    672377.669014264     
  ps_ts2 cur sum  =   16555.9168890505     
  trcom cur sum  =    16555.9168890505     
  
  antenna # iant =            3
  powecha_use(iant) =    523400.424280203     
  ps_ts2 prof sum =   523068.480858141     
  trcom prof sum =    523068.480858142     
  ps_ts2 cur sum  =   8678.89944875513     
  trcom cur sum  =    8678.89944875513     
  
  antenna # iant =            4
  powecha_use(iant) =    553928.054544917     
  ps_ts2 prof sum =   553604.052464953     
  trcom prof sum =    553604.052464953     
  ps_ts2 cur sum  =   12337.6945642901     
  trcom cur sum  =    12337.6945642900     
  
  antenna # iant =            5
  powecha_use(iant) =    548219.911012392     
  ps_ts2 prof sum =   547898.075209907     
  trcom prof sum =    547898.075209907     
  ps_ts2 cur sum  =   14784.1865902404     
  trcom cur sum  =    14784.1865902404     
  
  Total ECH heating:      2985716.89559121     
  Total Current Drive:    66130.1693491101     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1933
 TA= 2.24000E+00 CPU TIME= 1.67717E-01 SECONDS.  DT= 1.14801E-03
  
 TEC1=    2.23999999999997     
 TEC2=    2.24499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.09472555555567     
  %check_save_state: izleft hours =    74.8969444444444     
 --> plasma_hash("gframe"): TA= 2.240000E+00 NSTEP=  1933 Hash code:   59212820
 ->PRGCHK: bdy curvature ratio at t= 2.2450E+00 seconds is:  5.6299E-02
% MHDEQ: TG1=     2.240000 ; TG2=     2.245000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7657E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6299E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.240000 TO TG2=    2.245000 @ NSTEP     1933
   GFRAME TG2 MOMENTS CHECKSUM:  2.4809646780053D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2450E+00  2.2500E+00 total power(Watts):  2.9905E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.24500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.366623E+02    0.402524E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.348010E+02    0.402971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.361930E+02    0.386064E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.383821E+02    0.391349E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.381807E+02    0.412351E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.359606E+02    0.419312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.341110E+02    0.430318E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.330907E+02    0.415873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.329416E+02    0.398241E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.338910E+02    0.381212E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.355449E+02    0.369905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.375698E+02    0.366994E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.394358E+02    0.373464E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.405055E+02    0.388257E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.406617E+02    0.406635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.396458E+02    0.424090E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.378455E+02    0.435349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.358259E+02    0.437463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.339441E+02    0.459226E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.313068E+02    0.441764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.299755E+02    0.414498E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.305618E+02    0.383207E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.328088E+02    0.356288E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.360329E+02    0.341458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.396567E+02    0.342250E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.425971E+02    0.359862E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.440818E+02    0.389238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.434859E+02    0.422807E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.410015E+02    0.449783E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.373856E+02    0.462562E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.380120E+02    0.311172E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.360291E+02    0.312992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.374988E+02    0.294172E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.396425E+02    0.299130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.394859E+02    0.321184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.372396E+02    0.329538E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.352961E+02    0.342100E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.342321E+02    0.327643E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.341288E+02    0.308942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.349740E+02    0.291299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.368036E+02    0.277518E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.389487E+02    0.272877E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.407662E+02    0.279359E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.418886E+02    0.294334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.419930E+02    0.313817E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.409995E+02    0.332503E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.390996E+02    0.345551E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.370502E+02    0.348731E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.350937E+02    0.372589E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.323035E+02    0.356105E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.311407E+02    0.327427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.316787E+02    0.294394E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.339102E+02    0.265102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.374177E+02    0.246045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.411104E+02    0.245136E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.440406E+02    0.262826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.454226E+02    0.293548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.446931E+02    0.329550E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.421376E+02    0.359058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.385924E+02    0.374368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.365059E+02    0.458494E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.345673E+02    0.458511E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.359647E+02    0.442776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.381343E+02    0.448698E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.380102E+02    0.468313E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.357928E+02    0.474053E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.339473E+02    0.483936E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.328610E+02    0.470105E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.327246E+02    0.453410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.335975E+02    0.437640E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.352527E+02    0.426897E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.372663E+02    0.424583E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.391078E+02    0.431731E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.404412E+02    0.446051E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.405804E+02    0.463836E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.396495E+02    0.479764E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.378431E+02    0.489810E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.356465E+02    0.491343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.337519E+02    0.512740E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.311478E+02    0.494341E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.299245E+02    0.467282E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.304543E+02    0.437916E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.325587E+02    0.412437E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.357791E+02    0.398567E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.393763E+02    0.400555E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.424649E+02    0.418676E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.438014E+02    0.449032E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.432820E+02    0.480557E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.408828E+02    0.505566E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.372632E+02    0.517084E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.372213E+02    0.360925E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.352588E+02    0.362150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.367298E+02    0.344486E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.388473E+02    0.349760E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.387640E+02    0.370340E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.365291E+02    0.377776E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.345912E+02    0.389486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.335520E+02    0.375238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.334658E+02    0.357373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.342351E+02    0.340991E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.360612E+02    0.327950E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.380986E+02    0.324452E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.399833E+02    0.330732E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.410762E+02    0.345718E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.411588E+02    0.364446E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.401562E+02    0.382004E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.383546E+02    0.393747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.363232E+02    0.396388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.343529E+02    0.419852E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.317746E+02    0.401813E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.304906E+02    0.374269E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.309726E+02    0.343275E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.332950E+02    0.314268E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.366187E+02    0.297645E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.402735E+02    0.297625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.431497E+02    0.315707E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.446798E+02    0.345612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.440195E+02    0.379519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.413461E+02    0.408062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.379077E+02    0.422191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.383710E+02    0.243397E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.363744E+02    0.245916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.379153E+02    0.225269E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.400886E+02    0.229774E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.398740E+02    0.253208E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.376232E+02    0.262373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.355960E+02    0.276429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.344135E+02    0.262806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.343644E+02    0.243140E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.353593E+02    0.223173E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.372750E+02    0.207321E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.393431E+02    0.202615E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.412844E+02    0.207997E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.424449E+02    0.223253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.424870E+02    0.244064E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.414216E+02    0.264071E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.395276E+02    0.278150E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.374666E+02    0.282063E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.353475E+02    0.308797E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.325952E+02    0.291983E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138449E+03   -0.313796E+02    0.262916E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.320317E+02    0.227328E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.344087E+02    0.194506E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.378393E+02    0.174755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.415674E+02    0.172698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.446604E+02    0.188930E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.461159E+02    0.220299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.451376E+02    0.259678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.425170E+02    0.291487E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.389671E+02    0.308877E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692573.861641842     
  ps_ts2 prof sum =   692147.954307835     
  trcom prof sum =    692147.954307834     
  ps_ts2 cur sum  =   13823.8996227113     
  trcom cur sum  =    13823.8996227113     
  
  antenna # iant =            2
  powecha_use(iant) =    670231.087226182     
  ps_ts2 prof sum =   669825.218944889     
  trcom prof sum =    669825.218944889     
  ps_ts2 cur sum  =   16471.0296697260     
  trcom cur sum  =    16471.0296697260     
  
  antenna # iant =            3
  powecha_use(iant) =    521940.325136062     
  ps_ts2 prof sum =   521603.505205905     
  trcom prof sum =    521603.505205905     
  ps_ts2 cur sum  =   8650.64305401229     
  trcom cur sum  =    8650.64305401230     
  
  antenna # iant =            4
  powecha_use(iant) =    557310.351256770     
  ps_ts2 prof sum =   556971.732048640     
  trcom prof sum =    556971.732048640     
  ps_ts2 cur sum  =   12395.7710669072     
  trcom cur sum  =    12395.7710669072     
  
  antenna # iant =            5
  powecha_use(iant) =    548483.497182012     
  ps_ts2 prof sum =   548194.688069727     
  trcom prof sum =    548194.688069727     
  ps_ts2 cur sum  =   14771.6186505777     
  trcom cur sum  =    14771.6186505777     
  
  Total ECH heating:      2988743.09857700     
  Total Current Drive:    66112.9620639345     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1937
 TA= 2.24500E+00 CPU TIME= 1.59164E-01 SECONDS.  DT= 7.79003E-04
  
 TEC1=    2.24499999999997     
 TEC2=    2.24999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.11097666666660     
  %check_save_state: izleft hours =    74.8805555555556     
 --> plasma_hash("gframe"): TA= 2.245000E+00 NSTEP=  1937 Hash code:     495270
 ->PRGCHK: bdy curvature ratio at t= 2.2500E+00 seconds is:  5.6391E-02
% MHDEQ: TG1=     2.245000 ; TG2=     2.250000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6391E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.245000 TO TG2=    2.250000 @ NSTEP     1937
   GFRAME TG2 MOMENTS CHECKSUM:  2.4813171465066D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.16068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.17880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.17832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.27549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.46342E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.00488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  6.41145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.80425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.63109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.85323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.21420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -5.29932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -1.36721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.74419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.21029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.29968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.48823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.47215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.68573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.15809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.15809E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2500E+00  2.2550E+00 total power(Watts):  2.9993E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.25000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.366799E+02    0.402983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.348174E+02    0.403420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.362111E+02    0.386530E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.384004E+02    0.391838E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.381979E+02    0.412821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.359743E+02    0.419767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.341292E+02    0.430732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.331058E+02    0.416292E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.329576E+02    0.398674E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.339082E+02    0.381656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.355632E+02    0.370348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.375893E+02    0.367444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.394551E+02    0.373954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.407186E+02    0.388080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.406799E+02    0.407144E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.396627E+02    0.424573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.378617E+02    0.435791E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.358411E+02    0.437887E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.339580E+02    0.459605E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.313206E+02    0.442147E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.301457E+02    0.414227E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.305778E+02    0.383619E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.328272E+02    0.356677E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.360532E+02    0.341857E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.396788E+02    0.342686E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.426146E+02    0.360378E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.439994E+02    0.390112E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.435037E+02    0.423343E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.410178E+02    0.450252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.374001E+02    0.462970E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.380350E+02    0.311616E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.360519E+02    0.313408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.375229E+02    0.294604E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.397615E+02    0.298980E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.395085E+02    0.321633E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.372614E+02    0.329952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.353160E+02    0.342496E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.342517E+02    0.328034E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.340660E+02    0.309944E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.349968E+02    0.291698E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.368283E+02    0.277919E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.389746E+02    0.273290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.407926E+02    0.279793E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.420133E+02    0.294204E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.420178E+02    0.314293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.410228E+02    0.332955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.392156E+02    0.345510E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.370730E+02    0.349134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.351112E+02    0.373037E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.323220E+02    0.356485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.311599E+02    0.327787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.317007E+02    0.294768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.339340E+02    0.265451E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.374413E+02    0.246422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.411393E+02    0.245519E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.440698E+02    0.263268E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.456588E+02    0.292917E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.447180E+02    0.330034E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.421594E+02    0.359539E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.386114E+02    0.374851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.365206E+02    0.458897E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.345815E+02    0.458896E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.359801E+02    0.443194E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.381486E+02    0.449152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.380250E+02    0.468715E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.358067E+02    0.474430E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.339603E+02    0.484297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.328740E+02    0.470461E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.327383E+02    0.453786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.336135E+02    0.438037E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.352681E+02    0.427328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.372822E+02    0.425043E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.391245E+02    0.432192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.404574E+02    0.446518E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.405959E+02    0.464275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.396641E+02    0.480171E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.377646E+02    0.490253E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.356599E+02    0.491697E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.337641E+02    0.513045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.311579E+02    0.494659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.298596E+02    0.467789E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.304679E+02    0.438295E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.325734E+02    0.412859E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.357959E+02    0.399027E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.393939E+02    0.401054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.424829E+02    0.419188E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133729E+03   -0.439205E+02    0.449390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.432975E+02    0.480999E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.408967E+02    0.505955E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.372763E+02    0.517411E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.372412E+02    0.361362E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.353652E+02    0.362127E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.367503E+02    0.344895E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.389625E+02    0.349732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.387834E+02    0.370812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.365485E+02    0.378230E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.346083E+02    0.389941E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.335687E+02    0.375680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.334841E+02    0.357786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.342550E+02    0.341371E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.360823E+02    0.328354E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.381211E+02    0.324879E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.400063E+02    0.331173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.410987E+02    0.346173E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.411796E+02    0.364933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.401732E+02    0.382512E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.384668E+02    0.393886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.363409E+02    0.396846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.344556E+02    0.419980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.317901E+02    0.402231E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.305061E+02    0.374678E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.309913E+02    0.343639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.333158E+02    0.314660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.366420E+02    0.298066E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.402980E+02    0.298080E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.433769E+02    0.315145E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.446000E+02    0.346546E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.440403E+02    0.380075E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.415611E+02    0.408013E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.379246E+02    0.422648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.383985E+02    0.243754E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.364006E+02    0.246260E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.379434E+02    0.225601E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.401179E+02    0.230127E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.399964E+02    0.252884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.376491E+02    0.262754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.355314E+02    0.277504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.344380E+02    0.263157E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.343898E+02    0.243458E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.353870E+02    0.223478E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.373037E+02    0.207614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.393767E+02    0.202884E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.413157E+02    0.208329E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.424758E+02    0.223619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.425167E+02    0.244468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.414491E+02    0.264489E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.395541E+02    0.278572E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.374907E+02    0.282478E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.352827E+02    0.309803E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.326170E+02    0.292362E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.314023E+02    0.263241E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.320567E+02    0.227617E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.343538E+02    0.195632E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.378703E+02    0.174972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.416967E+02    0.172049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.446948E+02    0.189239E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.461471E+02    0.220707E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.451683E+02    0.260130E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.425433E+02    0.291952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.389905E+02    0.309326E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694879.565575967     
  ps_ts2 prof sum =   694457.521051021     
  trcom prof sum =    694457.521051020     
  ps_ts2 cur sum  =   13859.1768916411     
  trcom cur sum  =    13859.1768916411     
  
  antenna # iant =            2
  powecha_use(iant) =    672892.212326204     
  ps_ts2 prof sum =   672482.745925471     
  trcom prof sum =    672482.745925471     
  ps_ts2 cur sum  =   16517.0937323289     
  trcom cur sum  =    16517.0937323289     
  
  antenna # iant =            3
  powecha_use(iant) =    521900.274251493     
  ps_ts2 prof sum =   521540.426843558     
  trcom prof sum =    521540.426843559     
  ps_ts2 cur sum  =   8650.75345365973     
  trcom cur sum  =    8650.75345365974     
  
  antenna # iant =            4
  powecha_use(iant) =    561362.661589638     
  ps_ts2 prof sum =   561037.365108079     
  trcom prof sum =    561037.365108078     
  ps_ts2 cur sum  =   12472.9486699355     
  trcom cur sum  =    12472.9486699355     
  
  antenna # iant =            5
  powecha_use(iant) =    548243.074944102     
  ps_ts2 prof sum =   547918.075938845     
  trcom prof sum =    547918.075938844     
  ps_ts2 cur sum  =   14746.7581231417     
  trcom cur sum  =    14746.7581231417     
  
  Total ECH heating:      2997436.13486697     
  Total Current Drive:    66246.7308707069     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1942
 TA= 2.25000E+00 CPU TIME= 1.59785E-01 SECONDS.  DT= 6.35700E-04
  
 TEC1=    2.24999999999997     
 TEC2=    2.25499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.12434111111111     
  %check_save_state: izleft hours =    74.8672222222222     
 --> plasma_hash("gframe"): TA= 2.250000E+00 NSTEP=  1942 Hash code:  106781015
 ->PRGCHK: bdy curvature ratio at t= 2.2550E+00 seconds is:  5.6485E-02
% MHDEQ: TG1=     2.250000 ; TG2=     2.255000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0710E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6485E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.250000 TO TG2=    2.255000 @ NSTEP     1942
   GFRAME TG2 MOMENTS CHECKSUM:  2.4816696150079D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2550E+00  2.2600E+00 total power(Watts):  2.9863E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.25500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.367879E+02    0.403145E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.348350E+02    0.403886E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.362293E+02    0.387014E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.384192E+02    0.392356E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.382160E+02    0.413310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.360799E+02    0.419954E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.341415E+02    0.431174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.331230E+02    0.416724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.329742E+02    0.399126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.339263E+02    0.382116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.355820E+02    0.370810E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.376102E+02    0.367917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.394758E+02    0.374453E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.407385E+02    0.388622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.406989E+02    0.407673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.396807E+02    0.425065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.379705E+02    0.436053E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.359453E+02    0.438120E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.339723E+02    0.460024E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.313350E+02    0.442555E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.301599E+02    0.414653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.305946E+02    0.384047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.328463E+02    0.357079E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.360749E+02    0.342267E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.397014E+02    0.343139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.426376E+02    0.360885E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.442252E+02    0.390063E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.435229E+02    0.423887E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.410339E+02    0.450761E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.374152E+02    0.463419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.380594E+02    0.312055E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.360753E+02    0.313832E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.375473E+02    0.295025E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.397878E+02    0.299426E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.395328E+02    0.322081E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.372842E+02    0.330373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.353372E+02    0.342903E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.342741E+02    0.328425E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.340886E+02    0.310341E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.350216E+02    0.292085E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.368538E+02    0.278307E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.390018E+02    0.273695E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.408205E+02    0.280214E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.420406E+02    0.294676E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.420435E+02    0.314775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.410473E+02    0.333409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.392381E+02    0.345955E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.370946E+02    0.349562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.351302E+02    0.373496E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.323410E+02    0.356880E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.311801E+02    0.328158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.317231E+02    0.295137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.339591E+02    0.265787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.374722E+02    0.246735E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.411693E+02    0.245884E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.443037E+02    0.262376E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.456875E+02    0.293424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.449557E+02    0.329561E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.421819E+02    0.360039E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.386317E+02    0.375346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.365357E+02    0.459341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.345960E+02    0.459321E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.359957E+02    0.443646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.381686E+02    0.449615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.380400E+02    0.469164E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.358209E+02    0.474853E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.339734E+02    0.484682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.328874E+02    0.470861E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.327529E+02    0.454193E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.337129E+02    0.438238E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.352842E+02    0.427780E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.372996E+02    0.425507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.393308E+02    0.432244E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.404733E+02    0.447030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.406118E+02    0.464760E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.396792E+02    0.480632E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.377786E+02    0.490672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.357621E+02    0.492021E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.337778E+02    0.513341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.311720E+02    0.495008E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.298725E+02    0.468172E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.304820E+02    0.438706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.325910E+02    0.413276E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.358142E+02    0.399502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.394128E+02    0.401572E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.424975E+02    0.419748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133702E+03   -0.439375E+02    0.449937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133597E+03   -0.433134E+02    0.481498E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.409115E+02    0.506363E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.372902E+02    0.517731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.372622E+02    0.361820E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.353848E+02    0.362571E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.367712E+02    0.345315E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.389847E+02    0.350185E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.388042E+02    0.371295E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.365676E+02    0.378717E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.346261E+02    0.390411E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.335844E+02    0.376147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.335034E+02    0.358200E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.344462E+02    0.340747E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.361047E+02    0.328767E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.381447E+02    0.325308E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.400303E+02    0.331617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.411224E+02    0.346635E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.412023E+02    0.365419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.401962E+02    0.383024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.384870E+02    0.394400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.364484E+02    0.396988E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.344717E+02    0.420435E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.318062E+02    0.402673E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.305244E+02    0.375092E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.310108E+02    0.344005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.332549E+02    0.315636E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.366657E+02    0.298482E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.403248E+02    0.298531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.434028E+02    0.315642E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.446250E+02    0.347050E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.440619E+02    0.380645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.415801E+02    0.408555E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.379416E+02    0.423135E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.384271E+02    0.244096E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.364279E+02    0.246586E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.379748E+02    0.225897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.402427E+02    0.229698E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.400254E+02    0.253251E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.376762E+02    0.263113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.355566E+02    0.277879E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.344635E+02    0.263479E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.344169E+02    0.243768E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.354142E+02    0.223775E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.373335E+02    0.207899E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.394976E+02    0.202364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.413480E+02    0.208640E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.425079E+02    0.223968E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.425476E+02    0.244844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.414783E+02    0.264898E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.395809E+02    0.278988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.375164E+02    0.282875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.353060E+02    0.310209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.326401E+02    0.292742E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.315045E+02    0.262820E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.320824E+02    0.227889E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.343828E+02    0.195864E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.378139E+02    0.176094E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.417312E+02    0.172293E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.447302E+02    0.189548E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.460791E+02    0.221831E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.451996E+02    0.260563E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.425711E+02    0.292423E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.390157E+02    0.309779E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689584.261531494     
  ps_ts2 prof sum =   689187.699168955     
  trcom prof sum =    689187.699168955     
  ps_ts2 cur sum  =   13750.5834504594     
  trcom cur sum  =    13750.5834504594     
  
  antenna # iant =            2
  powecha_use(iant) =    670359.407001750     
  ps_ts2 prof sum =   669963.455243162     
  trcom prof sum =    669963.455243162     
  ps_ts2 cur sum  =   16446.6809970952     
  trcom cur sum  =    16446.6809970952     
  
  antenna # iant =            3
  powecha_use(iant) =    522547.203331835     
  ps_ts2 prof sum =   522195.241740270     
  trcom prof sum =    522195.241740271     
  ps_ts2 cur sum  =   8665.63927453861     
  trcom cur sum  =    8665.63927453861     
  
  antenna # iant =            4
  powecha_use(iant) =    555278.932722159     
  ps_ts2 prof sum =   554956.966013338     
  trcom prof sum =    554956.966013337     
  ps_ts2 cur sum  =   12332.3534748476     
  trcom cur sum  =    12332.3534748476     
  
  antenna # iant =            5
  powecha_use(iant) =    548487.260985788     
  ps_ts2 prof sum =   548150.708651953     
  trcom prof sum =    548150.708651953     
  ps_ts2 cur sum  =   14745.6512039926     
  trcom cur sum  =    14745.6512039926     
  
  Total ECH heating:      2984454.07081768     
  Total Current Drive:    65940.9084009333     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1947
 TA= 2.25500E+00 CPU TIME= 1.59183E-01 SECONDS.  DT= 1.66849E-03
  
 TEC1=    2.25499999999997     
 TEC2=    2.25999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.13874083333280     
  %check_save_state: izleft hours =    74.8527777777778     
 --> plasma_hash("gframe"): TA= 2.255000E+00 NSTEP=  1947 Hash code:   47335708
 ->PRGCHK: bdy curvature ratio at t= 2.2600E+00 seconds is:  5.6437E-02
% MHDEQ: TG1=     2.255000 ; TG2=     2.260000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6437E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.255000 TO TG2=    2.260000 @ NSTEP     1947
   GFRAME TG2 MOMENTS CHECKSUM:  2.4809761124069D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.16986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.05354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.33688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.11452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.00386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  7.98549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.80487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.23468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.75029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.25295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.87056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  4.50878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.21386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.54657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16= -1.38344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.13269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.93193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.23443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.23443E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2600E+00  2.2650E+00 total power(Watts):  2.9847E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.26000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.367181E+02    0.403823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.348547E+02    0.404214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.362512E+02    0.387373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.383526E+02    0.393047E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.382369E+02    0.413668E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.360099E+02    0.420569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.341586E+02    0.431496E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.330570E+02    0.417344E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.329935E+02    0.399446E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.338629E+02    0.382851E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.356052E+02    0.371164E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.376340E+02    0.368282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.394057E+02    0.375217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.405678E+02    0.389697E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.408180E+02    0.407779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.397006E+02    0.425443E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.378963E+02    0.436618E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.358743E+02    0.438672E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.339873E+02    0.460300E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.313502E+02    0.442846E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.300225E+02    0.415586E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.305361E+02    0.384760E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.327045E+02    0.358346E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.361004E+02    0.342619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.397295E+02    0.343514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.427656E+02    0.360891E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.441481E+02    0.390817E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.435445E+02    0.424306E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.410524E+02    0.451127E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.374312E+02    0.463715E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.379971E+02    0.312985E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.361032E+02    0.314182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.375783E+02    0.295374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.397247E+02    0.300398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.395623E+02    0.322460E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.373114E+02    0.330734E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.353622E+02    0.343251E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.341303E+02    0.329840E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.342002E+02    0.310083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.351368E+02    0.291779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.368857E+02    0.278632E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.389425E+02    0.274691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.408551E+02    0.280586E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.419755E+02    0.295659E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.420753E+02    0.315177E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.409794E+02    0.334292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.391711E+02    0.346798E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.371202E+02    0.349919E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.351526E+02    0.373848E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.324447E+02    0.356726E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.311254E+02    0.329024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.317498E+02    0.295442E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.339895E+02    0.266070E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.375066E+02    0.247038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.412069E+02    0.246222E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.441384E+02    0.264079E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.455148E+02    0.294989E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.447751E+02    0.330975E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.422099E+02    0.360448E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.386552E+02    0.375730E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.364646E+02    0.459788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.346113E+02    0.459604E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.360119E+02    0.443982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.380883E+02    0.450130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.381486E+02    0.469334E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.358356E+02    0.475107E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.339015E+02    0.484995E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.329016E+02    0.471109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.327679E+02    0.454473E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.336445E+02    0.438793E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.353020E+02    0.428108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.373185E+02    0.425854E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.391606E+02    0.433053E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.404919E+02    0.447398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.406288E+02    0.465090E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.395039E+02    0.481064E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.378854E+02    0.490840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.356874E+02    0.492293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.337899E+02    0.513484E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.311841E+02    0.495182E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.299631E+02    0.468231E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.304969E+02    0.438990E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.326072E+02    0.413617E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.358346E+02    0.399850E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.393399E+02    0.402261E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.425232E+02    0.420140E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.438551E+02    0.450474E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.433303E+02    0.481809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.408284E+02    0.506578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.373948E+02    0.517894E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.372868E+02    0.362179E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.353211E+02    0.363356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.367977E+02    0.345676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.389173E+02    0.351026E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.387351E+02    0.372073E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.365007E+02    0.379466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.346463E+02    0.390761E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.334411E+02    0.377286E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.333593E+02    0.359453E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.343862E+02    0.341584E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.361319E+02    0.329114E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.381731E+02    0.325674E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.400593E+02    0.332000E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.411503E+02    0.347034E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.412286E+02    0.365825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.402202E+02    0.383429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.384112E+02    0.395119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.363801E+02    0.397680E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.344040E+02    0.421045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.316637E+02    0.403676E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.304664E+02    0.375831E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.310334E+02    0.344309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.333632E+02    0.315375E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.366941E+02    0.298840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.402612E+02    0.299493E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.432336E+02    0.317110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.447584E+02    0.347058E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.440882E+02    0.381088E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.414059E+02    0.409500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.378687E+02    0.423745E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.384626E+02    0.244403E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.364615E+02    0.246880E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.380060E+02    0.226216E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.401865E+02    0.230766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.399669E+02    0.254290E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.377097E+02    0.263448E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.356743E+02    0.277519E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.344945E+02    0.263777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.344495E+02    0.244040E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.355357E+02    0.223220E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.371936E+02    0.209798E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.394451E+02    0.203442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.413888E+02    0.208918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.425484E+02    0.224289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.424876E+02    0.245906E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.414173E+02    0.265926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.396146E+02    0.279340E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.374580E+02    0.283857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.354206E+02    0.309961E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.327494E+02    0.292397E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.314548E+02    0.263814E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.321141E+02    0.228129E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.343356E+02    0.196935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.379434E+02    0.175369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.416803E+02    0.173376E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.446746E+02    0.190640E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.460187E+02    0.222926E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.452388E+02    0.260959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.426054E+02    0.292827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.389524E+02    0.310719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691390.186007870     
  ps_ts2 prof sum =   690968.877174873     
  trcom prof sum =    690968.877174873     
  ps_ts2 cur sum  =   13843.0125751570     
  trcom cur sum  =    13843.0125751570     
  
  antenna # iant =            2
  powecha_use(iant) =    668461.141083536     
  ps_ts2 prof sum =   668072.814245901     
  trcom prof sum =    668072.814245901     
  ps_ts2 cur sum  =   16463.5755363556     
  trcom cur sum  =    16463.5755363556     
  
  antenna # iant =            3
  powecha_use(iant) =    522873.970070099     
  ps_ts2 prof sum =   522543.895139982     
  trcom prof sum =    522543.895139982     
  ps_ts2 cur sum  =   8708.41141596014     
  trcom cur sum  =    8708.41141596015     
  
  antenna # iant =            4
  powecha_use(iant) =    552415.857843315     
  ps_ts2 prof sum =   552053.902935975     
  trcom prof sum =    552053.902935975     
  ps_ts2 cur sum  =   12317.4246180133     
  trcom cur sum  =    12317.4246180133     
  
  antenna # iant =            5
  powecha_use(iant) =    549543.662162334     
  ps_ts2 prof sum =   549236.861138914     
  trcom prof sum =    549236.861138914     
  ps_ts2 cur sum  =   14829.9822505010     
  trcom cur sum  =    14829.9822505010     
  
  Total ECH heating:      2982876.35063564     
  Total Current Drive:    66162.4063959871     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1950
 TA= 2.26000E+00 CPU TIME= 2.04765E-01 SECONDS.  DT= 1.55738E-03
  
 TEC1=    2.25999999999997     
 TEC2=    2.26499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.15167138888842     
  %check_save_state: izleft hours =    74.8400000000000     
 --> plasma_hash("gframe"): TA= 2.260000E+00 NSTEP=  1950 Hash code:  109105165
 ->PRGCHK: bdy curvature ratio at t= 2.2650E+00 seconds is:  5.6390E-02
% MHDEQ: TG1=     2.260000 ; TG2=     2.265000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6390E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.260000 TO TG2=    2.265000 @ NSTEP     1950
   GFRAME TG2 MOMENTS CHECKSUM:  2.4802826098060D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2650E+00  2.2700E+00 total power(Watts):  2.9988E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.26500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.367370E+02    0.404162E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.347867E+02    0.404853E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.362716E+02    0.387706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.383691E+02    0.393413E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.382562E+02    0.414004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.360278E+02    0.420882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.340897E+02    0.432033E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.330742E+02    0.417637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.330113E+02    0.399758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.338823E+02    0.383166E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.355391E+02    0.371893E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.375655E+02    0.369029E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.394280E+02    0.375581E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.405903E+02    0.390062E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.406446E+02    0.408697E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.398151E+02    0.425548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.379142E+02    0.436924E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.358908E+02    0.438968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.339165E+02    0.460723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.312046E+02    0.443569E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.300384E+02    0.415854E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.305543E+02    0.385043E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.328077E+02    0.358172E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.361247E+02    0.342918E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.396602E+02    0.344319E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.425911E+02    0.362074E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.441720E+02    0.391222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.434636E+02    0.424900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.408743E+02    0.451763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.373549E+02    0.464119E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.380247E+02    0.313305E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.360413E+02    0.315049E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.376076E+02    0.295686E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.397545E+02    0.300732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.395901E+02    0.322791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.372475E+02    0.331551E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.352997E+02    0.344030E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.342394E+02    0.329581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.340567E+02    0.311553E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.351641E+02    0.292076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.369155E+02    0.278924E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.389739E+02    0.274995E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.408866E+02    0.280917E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.420071E+02    0.296010E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.420063E+02    0.316067E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.410068E+02    0.334639E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.391966E+02    0.347133E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.371447E+02    0.350236E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.350864E+02    0.374577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.323034E+02    0.357952E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.311479E+02    0.329279E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.316951E+02    0.296352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.339344E+02    0.267030E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.374495E+02    0.248026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.411458E+02    0.247219E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.441744E+02    0.264409E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.456535E+02    0.294816E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.449099E+02    0.330875E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.421365E+02    0.361215E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.385848E+02    0.376456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.364752E+02    0.460069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.345398E+02    0.460022E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.359397E+02    0.444464E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.381064E+02    0.450423E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.379781E+02    0.469835E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.357611E+02    0.475458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.339146E+02    0.485193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.328319E+02    0.471474E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.327822E+02    0.454727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.336605E+02    0.439063E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.353190E+02    0.428410E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.373365E+02    0.426176E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.391788E+02    0.433381E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.403160E+02    0.448052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.405481E+02    0.465504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.396145E+02    0.481238E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.377143E+02    0.491170E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.357004E+02    0.492485E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.338016E+02    0.513606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.311156E+02    0.495423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.299755E+02    0.468439E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.303555E+02    0.439740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.324598E+02    0.414521E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.358537E+02    0.400179E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.393606E+02    0.402615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.424439E+02    0.420747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.438740E+02    0.450823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133811E+03   -0.432449E+02    0.482146E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.408426E+02    0.506764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.374077E+02    0.518025E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.372193E+02    0.362932E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.353432E+02    0.363668E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.368220E+02    0.345983E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.389425E+02    0.351345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.387579E+02    0.372430E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.365220E+02    0.379797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.345802E+02    0.391433E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.335451E+02    0.377181E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.334640E+02    0.359293E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.344097E+02    0.341871E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.360690E+02    0.329942E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.382000E+02    0.325994E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.399908E+02    0.332840E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.411771E+02    0.347374E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.412538E+02    0.366196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.402428E+02    0.383787E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.384344E+02    0.395464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.363997E+02    0.398017E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.344213E+02    0.421344E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.317615E+02    0.403620E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.304853E+02    0.376113E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.310549E+02    0.344571E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.332230E+02    0.316821E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.367238E+02    0.299145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.402905E+02    0.299842E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.432641E+02    0.317477E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.447869E+02    0.347444E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.439083E+02    0.382151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.415260E+02    0.409589E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.378871E+02    0.424068E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.384960E+02    0.244664E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.363178E+02    0.248605E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.380437E+02    0.226441E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.402223E+02    0.231030E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.400007E+02    0.254572E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.376505E+02    0.264411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.357033E+02    0.277800E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.346083E+02    0.263317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.345640E+02    0.243507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.353969E+02    0.225052E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.373174E+02    0.209185E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.394823E+02    0.203668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.413310E+02    0.209970E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.424882E+02    0.225322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.425240E+02    0.246197E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.414512E+02    0.266227E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.396460E+02    0.279656E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.374876E+02    0.284167E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.354465E+02    0.310256E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.326124E+02    0.293963E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.314821E+02    0.264050E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.320640E+02    0.229137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.343693E+02    0.197103E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.379813E+02    0.175515E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.417217E+02    0.173547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.447173E+02    0.190872E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.460596E+02    0.223229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.453792E+02    0.260646E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.425377E+02    0.293765E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.389809E+02    0.311046E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.86 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697550.350573189     
  ps_ts2 prof sum =   697111.679462762     
  trcom prof sum =    697111.679462762     
  ps_ts2 cur sum  =   14011.6330622203     
  trcom cur sum  =    14011.6330622203     
  
  antenna # iant =            2
  powecha_use(iant) =    672476.487432314     
  ps_ts2 prof sum =   672068.812214232     
  trcom prof sum =    672068.812214231     
  ps_ts2 cur sum  =   16610.7384190679     
  trcom cur sum  =    16610.7384190679     
  
  antenna # iant =            3
  powecha_use(iant) =    521174.732791310     
  ps_ts2 prof sum =   520814.994770218     
  trcom prof sum =    520814.994770218     
  ps_ts2 cur sum  =   8711.76602799452     
  trcom cur sum  =    8711.76602799452     
  
  antenna # iant =            4
  powecha_use(iant) =    559410.786644472     
  ps_ts2 prof sum =   559090.437572733     
  trcom prof sum =    559090.437572733     
  ps_ts2 cur sum  =   12511.9917723050     
  trcom cur sum  =    12511.9917723050     
  
  antenna # iant =            5
  powecha_use(iant) =    548197.989354932     
  ps_ts2 prof sum =   547899.629500750     
  trcom prof sum =    547899.629500750     
  ps_ts2 cur sum  =   14834.3443748599     
  trcom cur sum  =    14834.3443748599     
  
  Total ECH heating:      2996985.55352069     
  Total Current Drive:    66680.4736564476     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1953
 TA= 2.26500E+00 CPU TIME= 1.60989E-01 SECONDS.  DT= 1.86988E-03
  
 TEC1=    2.26499999999997     
 TEC2=    2.26999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.16553472222199     
  %check_save_state: izleft hours =    74.8261111111111     
 --> plasma_hash("gframe"): TA= 2.265000E+00 NSTEP=  1953 Hash code:   77855468
 ->PRGCHK: bdy curvature ratio at t= 2.2700E+00 seconds is:  5.6342E-02
% MHDEQ: TG1=     2.265000 ; TG2=     2.270000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7683E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6342E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.265000 TO TG2=    2.270000 @ NSTEP     1953
   GFRAME TG2 MOMENTS CHECKSUM:  2.4795890952348D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.00093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.93748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.50115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.36533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.50140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.98731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  9.42226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.78777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  1.91748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.58217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.41586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.52818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  5.00861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.89236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.82261E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17=  2.52930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.59213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.60011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.46236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.46236E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2700E+00  2.2750E+00 total power(Watts):  2.9969E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.27000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.366734E+02    0.404831E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.348058E+02    0.405228E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.362051E+02    0.388453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.383927E+02    0.393819E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.381843E+02    0.414667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.359586E+02    0.421510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.341077E+02    0.432366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.330925E+02    0.417976E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.329481E+02    0.400458E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.339041E+02    0.383529E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.355628E+02    0.372269E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.375901E+02    0.369427E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.394536E+02    0.375993E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.405175E+02    0.390819E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.406684E+02    0.409103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.396446E+02    0.426400E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.378400E+02    0.437502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.358200E+02    0.439518E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.339324E+02    0.461002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.313003E+02    0.443634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.299782E+02    0.416484E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.305742E+02    0.385374E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.328316E+02    0.358510E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.360635E+02    0.343765E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.396894E+02    0.344715E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.426196E+02    0.362513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.440965E+02    0.391986E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.434859E+02    0.425344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.409910E+02    0.451983E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.373715E+02    0.464427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.380556E+02    0.313694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.360707E+02    0.315420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.375482E+02    0.296681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.396927E+02    0.301716E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.395268E+02    0.323710E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.372761E+02    0.331929E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.353258E+02    0.344386E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.342662E+02    0.329928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.341697E+02    0.311311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.350217E+02    0.293687E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.368588E+02    0.279943E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.390088E+02    0.275373E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.408264E+02    0.281941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.419435E+02    0.297007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.420399E+02    0.316487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.410375E+02    0.335056E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.391306E+02    0.347981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.370810E+02    0.351075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.351105E+02    0.374941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.323265E+02    0.358286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.311728E+02    0.329598E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.317220E+02    0.296675E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.339661E+02    0.267349E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.374854E+02    0.248341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.411851E+02    0.247569E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.441127E+02    0.265460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.454823E+02    0.296399E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.447364E+02    0.332274E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.421646E+02    0.361664E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.386102E+02    0.376851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.364939E+02    0.460367E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.345557E+02    0.460315E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.359574E+02    0.444792E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.381239E+02    0.450775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.379946E+02    0.470135E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.357762E+02    0.475729E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.339283E+02    0.485425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.328464E+02    0.471731E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.327151E+02    0.455199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.335931E+02    0.439606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.352497E+02    0.429010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.372647E+02    0.426789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.391039E+02    0.433965E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.404323E+02    0.448248E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.405659E+02    0.465839E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.394396E+02    0.481673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.378219E+02    0.491361E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.356257E+02    0.492778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.337280E+02    0.513779E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.311287E+02    0.495609E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.299123E+02    0.468843E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.304482E+02    0.439798E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.325614E+02    0.414546E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.357846E+02    0.400899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.393838E+02    0.403020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.424663E+02    0.421177E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.437915E+02    0.451372E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.432622E+02    0.482479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.408578E+02    0.506993E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.373293E+02    0.518169E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.372443E+02    0.363328E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.352804E+02    0.364475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.367591E+02    0.346829E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.388762E+02    0.352190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.387836E+02    0.372828E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.365452E+02    0.380184E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.346015E+02    0.391803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.335673E+02    0.377537E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.334885E+02    0.359630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.342650E+02    0.343219E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.360971E+02    0.330305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.381378E+02    0.326900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.400210E+02    0.333241E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.411084E+02    0.348255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.411779E+02    0.367027E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.401713E+02    0.384562E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.383641E+02    0.396193E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.363316E+02    0.398733E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.343542E+02    0.421960E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.317799E+02    0.403972E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.305061E+02    0.376442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.309993E+02    0.345400E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.333329E+02    0.316585E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.366654E+02    0.300119E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.403248E+02    0.300247E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.431970E+02    0.318424E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.447154E+02    0.348327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.440370E+02    0.382301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.413522E+02    0.410550E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.379074E+02    0.424442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.384415E+02    0.245722E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.364410E+02    0.248179E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.379919E+02    0.227515E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.401676E+02    0.232111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.399436E+02    0.255624E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.376852E+02    0.264760E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.356482E+02    0.278817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.344711E+02    0.265057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.344297E+02    0.245305E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.354333E+02    0.225323E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.373570E+02    0.209456E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.394316E+02    0.204773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.413741E+02    0.210277E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.425306E+02    0.225670E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.425645E+02    0.246557E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.414888E+02    0.266615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.395865E+02    0.280685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.375206E+02    0.284534E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.353889E+02    0.311197E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.326402E+02    0.294292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.314339E+02    0.265058E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.320972E+02    0.229389E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.344070E+02    0.197320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.378456E+02    0.177515E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.417673E+02    0.173778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.447648E+02    0.191175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.462096E+02    0.222877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.452135E+02    0.262354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.425735E+02    0.294186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.390125E+02    0.311442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.77 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694809.937862080     
  ps_ts2 prof sum =   694393.140042930     
  trcom prof sum =    694393.140042929     
  ps_ts2 cur sum  =   14018.3304679579     
  trcom cur sum  =    14018.3304679578     
  
  antenna # iant =            2
  powecha_use(iant) =    672058.887532445     
  ps_ts2 prof sum =   671656.977241604     
  trcom prof sum =    671656.977241604     
  ps_ts2 cur sum  =   16671.2546930063     
  trcom cur sum  =    16671.2546930063     
  
  antenna # iant =            3
  powecha_use(iant) =    522209.335607902     
  ps_ts2 prof sum =   521881.080640697     
  trcom prof sum =    521881.080640698     
  ps_ts2 cur sum  =   8770.86428301359     
  trcom cur sum  =    8770.86428301359     
  
  antenna # iant =            4
  powecha_use(iant) =    559559.035088953     
  ps_ts2 prof sum =   559225.650321353     
  trcom prof sum =    559225.650321352     
  ps_ts2 cur sum  =   12570.5714993917     
  trcom cur sum  =    12570.5714993916     
  
  antenna # iant =            5
  powecha_use(iant) =    548256.870875050     
  ps_ts2 prof sum =   547951.900098599     
  trcom prof sum =    547951.900098599     
  ps_ts2 cur sum  =   14898.6867623659     
  trcom cur sum  =    14898.6867623659     
  
  Total ECH heating:      2995108.74834518     
  Total Current Drive:    66929.7077057353     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1956
 TA= 2.27000E+00 CPU TIME= 1.60142E-01 SECONDS.  DT= 9.90961E-04
  
 TEC1=    2.26999999999997     
 TEC2=    2.27499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.17838027777748     
  %check_save_state: izleft hours =    74.8130555555556     
 --> plasma_hash("gframe"): TA= 2.270000E+00 NSTEP=  1956 Hash code:   59568997
 ->PRGCHK: bdy curvature ratio at t= 2.2750E+00 seconds is:  5.6295E-02
% MHDEQ: TG1=     2.270000 ; TG2=     2.275000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7696E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6295E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.270000 TO TG2=    2.275000 @ NSTEP     1956
   GFRAME TG2 MOMENTS CHECKSUM:  2.4788955806635D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2750E+00  2.2800E+00 total power(Watts):  2.9900E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.27500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.366920E+02    0.405240E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.347415E+02    0.405921E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.362293E+02    0.388853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.383245E+02    0.394567E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.382078E+02    0.415064E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.359797E+02    0.421883E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.340418E+02    0.432954E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.330294E+02    0.418620E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.329698E+02    0.400819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.338431E+02    0.384281E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.355006E+02    0.373055E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.375257E+02    0.370229E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.393866E+02    0.376782E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.405450E+02    0.391253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.405957E+02    0.409812E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.395714E+02    0.427035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.378608E+02    0.437876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.358397E+02    0.439872E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.338639E+02    0.461465E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.311602E+02    0.444390E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.299968E+02    0.416805E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.305175E+02    0.386114E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.327746E+02    0.359312E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.360953E+02    0.344115E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.396253E+02    0.345573E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.425506E+02    0.363338E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.441244E+02    0.392489E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.434087E+02    0.426009E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.409143E+02    0.452512E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.372980E+02    0.464883E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.379967E+02    0.314622E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.360138E+02    0.316333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.375822E+02    0.297043E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.397286E+02    0.302098E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.395602E+02    0.324099E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.372166E+02    0.332806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.352676E+02    0.345230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.342102E+02    0.330802E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.340302E+02    0.312817E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.351408E+02    0.293400E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.368940E+02    0.280285E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.389530E+02    0.276379E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.408646E+02    0.282325E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.419813E+02    0.297409E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.419766E+02    0.317420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.409733E+02    0.335934E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.391611E+02    0.348378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.371093E+02    0.351463E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.350485E+02    0.375728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.322699E+02    0.359082E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.311206E+02    0.330464E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138369E+03   -0.317505E+02    0.296990E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.339162E+02    0.268347E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.374339E+02    0.249370E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.411302E+02    0.248610E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.441554E+02    0.265853E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.456274E+02    0.296296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.448758E+02    0.332268E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.420959E+02    0.362495E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.385436E+02    0.377644E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.364218E+02    0.460848E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.344862E+02    0.460782E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.358871E+02    0.445340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.380508E+02    0.451294E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.379197E+02    0.470571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.357038E+02    0.476130E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.338583E+02    0.485775E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.327788E+02    0.472145E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.327320E+02    0.455505E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.336117E+02    0.439947E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.352698E+02    0.429370E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.372862E+02    0.427171E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.391254E+02    0.434361E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.402584E+02    0.448970E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.404880E+02    0.466319E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.395545E+02    0.481927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.376530E+02    0.491750E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.356413E+02    0.493029E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.337444E+02    0.513958E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.310622E+02    0.495902E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.299270E+02    0.469105E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.303096E+02    0.440580E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.324169E+02    0.415500E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.358096E+02    0.401273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.393142E+02    0.403733E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.423907E+02    0.421856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.438137E+02    0.451794E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134026E+03   -0.431798E+02    0.482875E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.407761E+02    0.507260E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.373437E+02    0.518362E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.371808E+02    0.364140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.353062E+02    0.364852E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.367887E+02    0.347192E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.389060E+02    0.352584E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.387174E+02    0.373626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.364811E+02    0.380951E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.345385E+02    0.392540E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.335073E+02    0.378312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.334301E+02    0.360440E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.343780E+02    0.343070E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.360387E+02    0.331184E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.381700E+02    0.327272E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.399586E+02    0.334119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.411405E+02    0.348652E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.412126E+02    0.367435E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.401985E+02    0.384995E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.383893E+02    0.396602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.363552E+02    0.399127E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.343783E+02    0.422317E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.317204E+02    0.404655E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.304498E+02    0.377212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.310246E+02    0.345717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.331961E+02    0.318064E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.365203E+02    0.301679E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.402653E+02    0.301216E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.432335E+02    0.318852E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.445422E+02    0.349612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.438618E+02    0.383434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.414758E+02    0.410734E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.378367E+02    0.425078E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.384810E+02    0.246025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.363018E+02    0.249933E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.380325E+02    0.227805E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.402100E+02    0.232420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.399837E+02    0.255956E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.376320E+02    0.265773E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.356826E+02    0.279151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.345907E+02    0.264647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.345500E+02    0.244822E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.353853E+02    0.226385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.373091E+02    0.210541E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.394757E+02    0.205035E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.413233E+02    0.211364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.424770E+02    0.226749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.425086E+02    0.247602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.414316E+02    0.267638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.395294E+02    0.281687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.374653E+02    0.285528E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.354204E+02    0.311549E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.325926E+02    0.295225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138551E+03   -0.314655E+02    0.265337E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138606E+03   -0.320528E+02    0.230433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.343634E+02    0.198390E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.379796E+02    0.176800E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.417205E+02    0.174871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.447138E+02    0.192277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.460497E+02    0.224704E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.453614E+02    0.262109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.425120E+02    0.295179E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.389527E+02    0.312382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692594.264982150     
  ps_ts2 prof sum =   692161.159649669     
  trcom prof sum =    692161.159649668     
  ps_ts2 cur sum  =   14052.9445059861     
  trcom cur sum  =    14052.9445059860     
  
  antenna # iant =            2
  powecha_use(iant) =    670178.962540425     
  ps_ts2 prof sum =   669792.886355980     
  trcom prof sum =    669792.886355979     
  ps_ts2 cur sum  =   16713.6132082552     
  trcom cur sum  =    16713.6132082552     
  
  antenna # iant =            3
  powecha_use(iant) =    522729.477025450     
  ps_ts2 prof sum =   522374.058858436     
  trcom prof sum =    522374.058858437     
  ps_ts2 cur sum  =   8831.46265203512     
  trcom cur sum  =    8831.46265203512     
  
  antenna # iant =            4
  powecha_use(iant) =    555628.170651942     
  ps_ts2 prof sum =   555294.387135328     
  trcom prof sum =    555294.387135327     
  ps_ts2 cur sum  =   12550.4958979446     
  trcom cur sum  =    12550.4958979446     
  
  antenna # iant =            5
  powecha_use(iant) =    548901.273066925     
  ps_ts2 prof sum =   548606.042990032     
  trcom prof sum =    548606.042990032     
  ps_ts2 cur sum  =   14993.6068264560     
  trcom cur sum  =    14993.6068264560     
  
  Total ECH heating:      2988228.53498944     
  Total Current Drive:    67142.1230906770     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1960
 TA= 2.27500E+00 CPU TIME= 1.59421E-01 SECONDS.  DT= 1.52745E-03
  
 TEC1=    2.27499999999997     
 TEC2=    2.27999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.19551083333340     
  %check_save_state: izleft hours =    74.7961111111111     
 --> plasma_hash("gframe"): TA= 2.275000E+00 NSTEP=  1960 Hash code:   13381415
 ->PRGCHK: bdy curvature ratio at t= 2.2800E+00 seconds is:  5.6247E-02
% MHDEQ: TG1=     2.275000 ; TG2=     2.280000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6247E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.275000 TO TG2=    2.280000 @ NSTEP     1960
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782020660923D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.80291E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.80144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.69370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.48711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.96791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.76773E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.38124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.38509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.60683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.44767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  5.59407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.21407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.14620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17=  4.45166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.17557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.38336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.39983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.39983E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.2800E+00  2.2850E+00 total power(Watts):  2.9955E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.28000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.366218E+02    0.405887E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.347623E+02    0.406230E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.361622E+02    0.389525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.383470E+02    0.394911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.381350E+02    0.415670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.359094E+02    0.422448E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.340583E+02    0.433238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.330477E+02    0.418904E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.329058E+02    0.401458E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.338636E+02    0.384609E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.355231E+02    0.373390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.375498E+02    0.370566E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.394109E+02    0.377148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.404715E+02    0.391943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.407148E+02    0.409916E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.395915E+02    0.427363E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.377866E+02    0.438376E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.357682E+02    0.440361E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.338787E+02    0.461709E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.312517E+02    0.444410E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138488E+03   -0.299358E+02    0.417384E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138383E+03   -0.305362E+02    0.386407E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.326314E+02    0.360548E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.360265E+02    0.344941E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.396528E+02    0.345924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.426785E+02    0.363341E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.440468E+02    0.393199E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.434304E+02    0.426386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.409329E+02    0.452818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.373133E+02    0.465146E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.380261E+02    0.314958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.360420E+02    0.316659E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.375221E+02    0.297978E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.396647E+02    0.303029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.394949E+02    0.324964E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.372438E+02    0.333136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.352919E+02    0.345549E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.342362E+02    0.331112E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.341426E+02    0.312542E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.349974E+02    0.294958E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.368359E+02    0.281252E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.389863E+02    0.276700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.408047E+02    0.283277E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.419154E+02    0.298366E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.420085E+02    0.317795E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.409048E+02    0.336772E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.390935E+02    0.349180E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.370442E+02    0.352241E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.350701E+02    0.376057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.322919E+02    0.359387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.311442E+02    0.330741E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.316990E+02    0.297906E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.339461E+02    0.268613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.374681E+02    0.249648E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.411673E+02    0.248911E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.440914E+02    0.266846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.454540E+02    0.297810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.447002E+02    0.333593E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.421232E+02    0.362870E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.385673E+02    0.378000E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.364380E+02    0.461101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.345018E+02    0.461022E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.359041E+02    0.445620E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.380681E+02    0.451579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.379356E+02    0.470824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.357189E+02    0.476349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.338720E+02    0.485963E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.327933E+02    0.472344E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.326641E+02    0.455920E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.335437E+02    0.440434E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.352001E+02    0.429902E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.372139E+02    0.427711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.390500E+02    0.434876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.403741E+02    0.449119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.405046E+02    0.466604E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.393747E+02    0.482299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.377609E+02    0.491908E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.355662E+02    0.493270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.336678E+02    0.514067E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.310746E+02    0.496046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.297855E+02    0.469611E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.304040E+02    0.440579E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.325175E+02    0.415479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.357424E+02    0.401911E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.392404E+02    0.404387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.422114E+02    0.422672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.437309E+02    0.452259E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.431970E+02    0.483144E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.406932E+02    0.507426E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.372651E+02    0.518453E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.372050E+02    0.364480E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.352421E+02    0.365603E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.367241E+02    0.347989E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.388382E+02    0.353373E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.387413E+02    0.373980E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.365035E+02    0.381293E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.345596E+02    0.392853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.335281E+02    0.378632E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.334527E+02    0.360753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.342316E+02    0.344365E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.360658E+02    0.331502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.381058E+02    0.328124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.399869E+02    0.334472E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.410706E+02    0.349466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.411406E+02    0.368196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.401262E+02    0.385706E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.383189E+02    0.397263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.362873E+02    0.399775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.343066E+02    0.422876E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.317384E+02    0.404947E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.304698E+02    0.377498E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138632E+03   -0.309687E+02    0.346501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.333056E+02    0.317790E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.366390E+02    0.301409E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.402967E+02    0.301575E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.431642E+02    0.319755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.446756E+02    0.349616E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.439909E+02    0.383511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.413005E+02    0.411627E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.378563E+02    0.425393E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.384245E+02    0.247033E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.364235E+02    0.249466E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.379785E+02    0.228846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.401528E+02    0.233459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.399244E+02    0.256950E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.376650E+02    0.266074E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.356265E+02    0.280106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.344545E+02    0.266300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.344130E+02    0.246576E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.354201E+02    0.226615E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.373466E+02    0.210774E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.394226E+02    0.206094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.413639E+02    0.211633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.425174E+02    0.227049E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.425469E+02    0.247920E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.413695E+02    0.268631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.395628E+02    0.282018E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.374964E+02    0.285853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.353614E+02    0.312440E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.326158E+02    0.295544E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138762E+03   -0.314145E+02    0.266306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.320856E+02    0.230643E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.343990E+02    0.198580E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.378428E+02    0.178756E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.417654E+02    0.175060E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.447595E+02    0.192533E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.459886E+02    0.225765E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.451930E+02    0.263752E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.425462E+02    0.295557E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.389830E+02    0.312725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694119.711174097     
  ps_ts2 prof sum =   693712.036033686     
  trcom prof sum =    693712.036033686     
  ps_ts2 cur sum  =   14141.8659112436     
  trcom cur sum  =    14141.8659112436     
  
  antenna # iant =            2
  powecha_use(iant) =    669958.643814593     
  ps_ts2 prof sum =   669571.614254444     
  trcom prof sum =    669571.614254444     
  ps_ts2 cur sum  =   16764.1134660765     
  trcom cur sum  =    16764.1134660765     
  
  antenna # iant =            3
  powecha_use(iant) =    522738.779547885     
  ps_ts2 prof sum =   522392.812472492     
  trcom prof sum =    522392.812472493     
  ps_ts2 cur sum  =   8871.72478036940     
  trcom cur sum  =    8871.72478036941     
  
  antenna # iant =            4
  powecha_use(iant) =    559983.919953799     
  ps_ts2 prof sum =   559664.357933457     
  trcom prof sum =    559664.357933456     
  ps_ts2 cur sum  =   12695.8630433172     
  trcom cur sum  =    12695.8630433172     
  
  antenna # iant =            5
  powecha_use(iant) =    548669.217900781     
  ps_ts2 prof sum =   548363.166206057     
  trcom prof sum =    548363.166206057     
  ps_ts2 cur sum  =   15033.7628856634     
  trcom cur sum  =    15033.7628856634     
  
  Total ECH heating:      2993703.98690014     
  Total Current Drive:    67507.3300866701     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1963
 TA= 2.28000E+00 CPU TIME= 1.67949E-01 SECONDS.  DT= 1.95404E-03
  
 TEC1=    2.27999999999997     
 TEC2=    2.28499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.20966555555538     
  %check_save_state: izleft hours =    74.7819444444444     
 --> plasma_hash("gframe"): TA= 2.280000E+00 NSTEP=  1963 Hash code:    9200844
 ->PRGCHK: bdy curvature ratio at t= 2.2850E+00 seconds is:  5.6200E-02
% MHDEQ: TG1=     2.280000 ; TG2=     2.285000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7722E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6200E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.280000 TO TG2=    2.285000 @ NSTEP     1963
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775085515210D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2850E+00  2.2900E+00 total power(Watts):  2.9968E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.28500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.366413E+02    0.406215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.346934E+02    0.406870E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.361822E+02    0.389870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.382748E+02    0.395586E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.381542E+02    0.416008E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.359269E+02    0.422763E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.339894E+02    0.433746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.329812E+02    0.419477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.329242E+02    0.401764E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.337987E+02    0.385306E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.354561E+02    0.374121E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.374807E+02    0.371307E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.393413E+02    0.377871E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.404939E+02    0.392316E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.405406E+02    0.410812E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.397062E+02    0.427485E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.378041E+02    0.438673E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.357847E+02    0.440640E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.338079E+02    0.462083E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.312676E+02    0.444653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.299526E+02    0.417645E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.304753E+02    0.387095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.326531E+02    0.360827E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.360533E+02    0.345253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.395837E+02    0.346723E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.425035E+02    0.364499E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.440707E+02    0.393611E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.433485E+02    0.426973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.407541E+02    0.453406E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.373290E+02    0.465389E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.379623E+02    0.315828E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.359800E+02    0.317517E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.375512E+02    0.298294E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.396951E+02    0.303368E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.395223E+02    0.325309E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.371786E+02    0.333958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.352283E+02    0.346343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.340898E+02    0.332452E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.341683E+02    0.312835E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.351116E+02    0.294634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.368666E+02    0.281539E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.389244E+02    0.277657E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.408322E+02    0.283636E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.419479E+02    0.298717E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.419388E+02    0.318679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.409325E+02    0.337124E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.391194E+02    0.349520E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.370685E+02    0.352572E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.350043E+02    0.376775E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.323948E+02    0.359221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138694E+03   -0.310879E+02    0.331556E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.317242E+02    0.298175E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.340598E+02    0.268163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.373210E+02    0.251344E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.411068E+02    0.249894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.441283E+02    0.267177E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.455927E+02    0.297671E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.448345E+02    0.333522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.420493E+02    0.363646E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.384962E+02    0.378726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.363626E+02    0.461493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.345161E+02    0.461258E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.359204E+02    0.445887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.379912E+02    0.452018E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.378578E+02    0.471163E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.356434E+02    0.476667E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.337993E+02    0.486229E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.328059E+02    0.472556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.326777E+02    0.456155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.335592E+02    0.440692E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.352171E+02    0.430195E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.372314E+02    0.428026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.390680E+02    0.435196E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.401975E+02    0.449738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.404237E+02    0.466982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.394877E+02    0.482458E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.375849E+02    0.492183E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.355796E+02    0.493434E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.336800E+02    0.514164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.310864E+02    0.496176E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.298747E+02    0.469650E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.302615E+02    0.441286E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.325344E+02    0.415769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.357610E+02    0.402244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.392611E+02    0.404745E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.423321E+02    0.422827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.437523E+02    0.452596E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.431108E+02    0.483452E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.407073E+02    0.507584E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.372780E+02    0.518553E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.371371E+02    0.365227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.352645E+02    0.365925E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.367489E+02    0.348311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.388636E+02    0.353715E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.386708E+02    0.374715E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.364347E+02    0.382006E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.345782E+02    0.393184E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.334639E+02    0.379338E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.333066E+02    0.361951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.343408E+02    0.344169E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.360910E+02    0.331813E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.381326E+02    0.328448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.399184E+02    0.335301E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.410971E+02    0.349825E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.411652E+02    0.368581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.401489E+02    0.386075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.383399E+02    0.397616E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.363064E+02    0.400112E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.343237E+02    0.423177E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.315945E+02    0.405897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.304099E+02    0.378209E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138618E+03   -0.309899E+02    0.346778E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.331638E+02    0.319212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.366676E+02    0.301717E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.402318E+02    0.302487E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.431953E+02    0.320126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.444971E+02    0.350835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.438101E+02    0.384559E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.414200E+02    0.411750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.377816E+02    0.425959E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.384590E+02    0.247294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.364567E+02    0.249717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.380137E+02    0.229090E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.401899E+02    0.233719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.399591E+02    0.257233E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.376066E+02    0.267028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.356554E+02    0.280391E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.344811E+02    0.266578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.344446E+02    0.246804E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.355400E+02    0.226045E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.372955E+02    0.211789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.394608E+02    0.206324E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.414029E+02    0.211890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.424576E+02    0.228070E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.424852E+02    0.248908E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.414042E+02    0.268942E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.395950E+02    0.282335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.374359E+02    0.286788E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.353877E+02    0.312741E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.325614E+02    0.296443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138748E+03   -0.314426E+02    0.266528E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.321162E+02    0.230845E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.343503E+02    0.199618E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.379716E+02    0.178010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.417121E+02    0.176110E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.447018E+02    0.193586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.460305E+02    0.226080E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.453348E+02    0.263461E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.425793E+02    0.295917E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.389182E+02    0.313604E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692260.472047343     
  ps_ts2 prof sum =   691832.163193918     
  trcom prof sum =    691832.163193917     
  ps_ts2 cur sum  =   14148.9383695842     
  trcom cur sum  =    14148.9383695842     
  
  antenna # iant =            2
  powecha_use(iant) =    671253.133663280     
  ps_ts2 prof sum =   670883.289172702     
  trcom prof sum =    670883.289172702     
  ps_ts2 cur sum  =   16848.6223603382     
  trcom cur sum  =    16848.6223603382     
  
  antenna # iant =            3
  powecha_use(iant) =    521756.076643351     
  ps_ts2 prof sum =   521422.148923653     
  trcom prof sum =    521422.148923653     
  ps_ts2 cur sum  =   8884.63814547576     
  trcom cur sum  =    8884.63814547576     
  
  antenna # iant =            4
  powecha_use(iant) =    562415.960866414     
  ps_ts2 prof sum =   562070.147250111     
  trcom prof sum =    562070.147250110     
  ps_ts2 cur sum  =   12790.6965518890     
  trcom cur sum  =    12790.6965518890     
  
  antenna # iant =            5
  powecha_use(iant) =    549110.450732342     
  ps_ts2 prof sum =   548834.946177455     
  trcom prof sum =    548834.946177455     
  ps_ts2 cur sum  =   15092.5087956954     
  trcom cur sum  =    15092.5087956954     
  
  Total ECH heating:      2995042.69471784     
  Total Current Drive:    67765.4042229824     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1966
 TA= 2.28500E+00 CPU TIME= 1.59653E-01 SECONDS.  DT= 7.54258E-04
  
 TEC1=    2.28499999999997     
 TEC2=    2.28999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.22456249999959     
  %check_save_state: izleft hours =    74.7669444444444     
 --> plasma_hash("gframe"): TA= 2.285000E+00 NSTEP=  1966 Hash code:   37400791
 ->PRGCHK: bdy curvature ratio at t= 2.2900E+00 seconds is:  5.6153E-02
% MHDEQ: TG1=     2.285000 ; TG2=     2.290000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7735E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6153E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.285000 TO TG2=    2.290000 @ NSTEP     1966
   GFRAME TG2 MOMENTS CHECKSUM:  2.4768150369498D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.63138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.68359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.86049E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.56031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.95110E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.75037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.64917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.21438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.77224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.11035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -1.25194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.32287E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.42648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16= -1.39446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.26502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.06182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.49146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.49146E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.2900E+00  2.2950E+00 total power(Watts):  2.9838E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.29000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.366557E+02    0.406439E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.347072E+02    0.407074E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.361083E+02    0.390446E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.382902E+02    0.395834E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.380748E+02    0.416486E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.359407E+02    0.422947E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.340016E+02    0.433902E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.329936E+02    0.419660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.327712E+02    0.402628E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.338136E+02    0.385522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.354728E+02    0.374345E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.374974E+02    0.371550E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.393538E+02    0.378148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.404130E+02    0.392894E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.405558E+02    0.411060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.395283E+02    0.428126E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.378171E+02    0.438837E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.357970E+02    0.440790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.338182E+02    0.462178E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.311985E+02    0.444984E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138465E+03   -0.299640E+02    0.417805E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.304890E+02    0.387295E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.327515E+02    0.360593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.360721E+02    0.345471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.396033E+02    0.346980E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.425230E+02    0.364781E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.439854E+02    0.394190E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.433637E+02    0.427212E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.408650E+02    0.453431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.372484E+02    0.465611E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.379869E+02    0.316041E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.360005E+02    0.317730E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.374828E+02    0.299116E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.397184E+02    0.303600E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.394490E+02    0.326047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.371982E+02    0.334190E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.352507E+02    0.346537E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.341941E+02    0.332136E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.340180E+02    0.314189E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.349599E+02    0.296075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.367103E+02    0.283029E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.389499E+02    0.277862E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.407632E+02    0.284463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.419726E+02    0.298973E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.419624E+02    0.318926E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.409541E+02    0.337376E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.391384E+02    0.349773E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.369958E+02    0.353258E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.350199E+02    0.377003E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.322467E+02    0.360347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138680E+03   -0.311057E+02    0.331746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.316665E+02    0.298968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.339149E+02    0.269721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.374379E+02    0.250791E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.411354E+02    0.250079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.440544E+02    0.268044E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.454100E+02    0.299026E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.446498E+02    0.334710E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.420688E+02    0.363917E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.385130E+02    0.378974E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.363739E+02    0.461604E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.344399E+02    0.461508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.358430E+02    0.446212E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.380037E+02    0.452153E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.378688E+02    0.471258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.356544E+02    0.476722E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.338095E+02    0.486249E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.327329E+02    0.472743E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.326886E+02    0.456253E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.335710E+02    0.440834E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.352298E+02    0.430367E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.371529E+02    0.428452E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.389864E+02    0.435576E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.403077E+02    0.449747E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.404364E+02    0.467093E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.394994E+02    0.482515E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.375999E+02    0.492201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.355901E+02    0.493439E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.336049E+02    0.514088E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.310158E+02    0.496229E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.297297E+02    0.470008E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.303501E+02    0.441182E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.324647E+02    0.416246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.356863E+02    0.402786E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.392765E+02    0.404983E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.423470E+02    0.423066E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.437611E+02    0.452773E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.431238E+02    0.483516E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.407194E+02    0.507543E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.371047E+02    0.518420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.371551E+02    0.365462E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.352809E+02    0.366155E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.366772E+02    0.349008E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.388823E+02    0.353971E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.386876E+02    0.374972E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.364507E+02    0.382244E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.345069E+02    0.393748E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.334787E+02    0.379564E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.334066E+02    0.361723E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.343587E+02    0.344383E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.360213E+02    0.332545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.380603E+02    0.329194E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.399397E+02    0.335548E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.410198E+02    0.350512E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.410858E+02    0.369222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.400690E+02    0.386676E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.383551E+02    0.397864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.363211E+02    0.400343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.343367E+02    0.423354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.316882E+02    0.405766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138628E+03   -0.304237E+02    0.378413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.310063E+02    0.346976E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.331828E+02    0.319410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.365998E+02    0.302526E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.402554E+02    0.302727E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.431175E+02    0.320883E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.446228E+02    0.350706E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.439313E+02    0.384538E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.412378E+02    0.412503E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.377953E+02    0.426156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.383942E+02    0.248184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.363055E+02    0.251330E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.379505E+02    0.230017E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.402185E+02    0.233888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.399866E+02    0.257412E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.376310E+02    0.267222E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.355034E+02    0.281892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.345897E+02    0.266042E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.343848E+02    0.247691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138189E+03   -0.353938E+02    0.227772E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.373181E+02    0.211977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.394909E+02    0.206464E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.413376E+02    0.212847E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.424882E+02    0.228254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.425148E+02    0.249100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.414337E+02    0.269133E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.395250E+02    0.283181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.374598E+02    0.286998E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.352337E+02    0.314099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.325815E+02    0.296636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138734E+03   -0.314642E+02    0.266679E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138788E+03   -0.320602E+02    0.231778E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.343785E+02    0.199707E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.380021E+02    0.178095E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.417460E+02    0.176220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.447366E+02    0.193745E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.460635E+02    0.226285E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.451563E+02    0.264961E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.425042E+02    0.296745E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.389403E+02    0.313838E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686591.259095109     
  ps_ts2 prof sum =   686185.400610391     
  trcom prof sum =    686185.400610390     
  ps_ts2 cur sum  =   14034.8096533125     
  trcom cur sum  =    14034.8096533125     
  
  antenna # iant =            2
  powecha_use(iant) =    668247.559010023     
  ps_ts2 prof sum =   667820.129459728     
  trcom prof sum =    667820.129459727     
  ps_ts2 cur sum  =   16772.8052166487     
  trcom cur sum  =    16772.8052166487     
  
  antenna # iant =            3
  powecha_use(iant) =    522272.307937528     
  ps_ts2 prof sum =   521940.602637292     
  trcom prof sum =    521940.602637292     
  ps_ts2 cur sum  =   8897.98521041469     
  trcom cur sum  =    8897.98521041469     
  
  antenna # iant =            4
  powecha_use(iant) =    558022.794133010     
  ps_ts2 prof sum =   557710.291451970     
  trcom prof sum =    557710.291451969     
  ps_ts2 cur sum  =   12690.9539991973     
  trcom cur sum  =    12690.9539991972     
  
  antenna # iant =            5
  powecha_use(iant) =    548644.619716136     
  ps_ts2 prof sum =   548325.407663694     
  trcom prof sum =    548325.407663694     
  ps_ts2 cur sum  =   15080.1916478233     
  trcom cur sum  =    15080.1916478233     
  
  Total ECH heating:      2981981.83182307     
  Total Current Drive:    67476.7457273964     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1971
 TA= 2.29000E+00 CPU TIME= 1.58876E-01 SECONDS.  DT= 8.14036E-04
  
 TEC1=    2.28999999999997     
 TEC2=    2.29499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.23851611111104     
  %check_save_state: izleft hours =    74.7530555555556     
 --> plasma_hash("gframe"): TA= 2.290000E+00 NSTEP=  1971 Hash code:  123141888
 ->PRGCHK: bdy curvature ratio at t= 2.2950E+00 seconds is:  5.6106E-02
% MHDEQ: TG1=     2.290000 ; TG2=     2.295000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7748E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6106E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.290000 TO TG2=    2.295000 @ NSTEP     1971
   GFRAME TG2 MOMENTS CHECKSUM:  2.4761215223786D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.2950E+00  2.3000E+00 total power(Watts):  2.9875E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.29500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.365796E+02    0.406968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.347211E+02    0.407294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.361238E+02    0.390700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.382121E+02    0.396401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.380895E+02    0.416713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.358646E+02    0.423397E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.340133E+02    0.434071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.329229E+02    0.420128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.328680E+02    0.402516E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.336582E+02    0.386494E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.354892E+02    0.374590E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.375148E+02    0.371811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.392782E+02    0.378765E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.404295E+02    0.393171E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.404735E+02    0.411569E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.395419E+02    0.428349E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.377371E+02    0.439213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.357201E+02    0.441149E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.338292E+02    0.462272E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.312091E+02    0.445113E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.298973E+02    0.418286E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.305031E+02    0.387503E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.326020E+02    0.361723E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.360017E+02    0.346194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.396229E+02    0.347251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.426432E+02    0.364714E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.440063E+02    0.394486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.432769E+02    0.427655E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.406820E+02    0.453848E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.372601E+02    0.465714E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.379116E+02    0.316856E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.360211E+02    0.317972E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.375052E+02    0.299357E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.396466E+02    0.304429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.394707E+02    0.326310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.372182E+02    0.334433E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.352631E+02    0.346810E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.340417E+02    0.333404E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.341236E+02    0.313840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.350684E+02    0.295676E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.368241E+02    0.282616E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.389752E+02    0.278094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.407893E+02    0.284712E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.418985E+02    0.299813E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.419863E+02    0.319208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.408783E+02    0.338112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.390629E+02    0.350483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.370136E+02    0.353515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.350362E+02    0.377250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.323446E+02    0.360120E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138666E+03   -0.311228E+02    0.331953E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138770E+03   -0.316823E+02    0.299202E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.339384E+02    0.269902E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.374647E+02    0.250972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.411645E+02    0.250291E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.440835E+02    0.268293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.454371E+02    0.299333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.447776E+02    0.334564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.421887E+02    0.363829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.385301E+02    0.379238E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.362948E+02    0.461848E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.344511E+02    0.461607E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.358547E+02    0.446364E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.379226E+02    0.452449E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.379738E+02    0.471243E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.356652E+02    0.476783E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.338198E+02    0.486275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.327432E+02    0.472804E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.326157E+02    0.456537E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.334979E+02    0.441190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.351539E+02    0.430784E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.371664E+02    0.428648E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.390002E+02    0.435781E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.401266E+02    0.450199E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.402535E+02    0.467406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.394155E+02    0.482640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.375183E+02    0.492258E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.355114E+02    0.493499E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.336145E+02    0.514015E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.310256E+02    0.496210E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.298167E+02    0.469913E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.303613E+02    0.441309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.324770E+02    0.416441E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.357008E+02    0.403010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.391965E+02    0.405520E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.421611E+02    0.423747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.436738E+02    0.453081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.430344E+02    0.483631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.406319E+02    0.507528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.372082E+02    0.518346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.371723E+02    0.365730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.352104E+02    0.366817E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.366956E+02    0.349259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.388076E+02    0.354667E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.386112E+02    0.375615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.364670E+02    0.382494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.345212E+02    0.393986E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.334941E+02    0.379792E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.332551E+02    0.362844E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.342050E+02    0.345592E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.360411E+02    0.332779E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.380813E+02    0.329444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.399614E+02    0.335800E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.410399E+02    0.350798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.411047E+02    0.369509E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.400860E+02    0.386951E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.382768E+02    0.398430E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.362457E+02    0.400894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.342632E+02    0.423803E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.315388E+02    0.406622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138849E+03   -0.303603E+02    0.379030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138822E+03   -0.309429E+02    0.347686E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.332859E+02    0.319060E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.366219E+02    0.302766E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.401828E+02    0.303558E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.431420E+02    0.321174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.446443E+02    0.351029E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.439496E+02    0.384857E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.412538E+02    0.412756E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.377151E+02    0.426602E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.384219E+02    0.248374E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.364200E+02    0.250776E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.379792E+02    0.230195E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.401535E+02    0.234824E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.399192E+02    0.258304E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.376573E+02    0.267418E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.356156E+02    0.281446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.344440E+02    0.267611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.344100E+02    0.247853E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.354209E+02    0.227930E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.371718E+02    0.213740E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.394287E+02    0.207448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.413688E+02    0.213034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.425201E+02    0.228457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.425448E+02    0.249317E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.413576E+02    0.270049E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.395502E+02    0.283420E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.374836E+02    0.287234E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.353422E+02    0.313758E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138551E+03   -0.326017E+02    0.296842E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138947E+03   -0.314070E+02    0.267560E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138774E+03   -0.320847E+02    0.231921E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.344060E+02    0.199844E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.378542E+02    0.179999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.417807E+02    0.176344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.447717E+02    0.193925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.459928E+02    0.227235E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.451863E+02    0.265216E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.425297E+02    0.297024E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.388683E+02    0.314636E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.36 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687029.503950928     
  ps_ts2 prof sum =   686592.923508953     
  trcom prof sum =    686592.923508953     
  ps_ts2 cur sum  =   14044.0608100156     
  trcom cur sum  =    14044.0608100156     
  
  antenna # iant =            2
  powecha_use(iant) =    670052.059555287     
  ps_ts2 prof sum =   669696.189008631     
  trcom prof sum =    669696.189008631     
  ps_ts2 cur sum  =   16821.0635782890     
  trcom cur sum  =    16821.0635782890     
  
  antenna # iant =            3
  powecha_use(iant) =    522307.757299754     
  ps_ts2 prof sum =   521967.319111254     
  trcom prof sum =    521967.319111254     
  ps_ts2 cur sum  =   8902.01228659521     
  trcom cur sum  =    8902.01228659521     
  
  antenna # iant =            4
  powecha_use(iant) =    558645.828919350     
  ps_ts2 prof sum =   558296.014330709     
  trcom prof sum =    558296.014330708     
  ps_ts2 cur sum  =   12706.2628479815     
  trcom cur sum  =    12706.2628479815     
  
  antenna # iant =            5
  powecha_use(iant) =    549423.064281740     
  ps_ts2 prof sum =   549107.311055961     
  trcom prof sum =    549107.311055961     
  ps_ts2 cur sum  =   15106.4144214646     
  trcom cur sum  =    15106.4144214646     
  
  Total ECH heating:      2985659.75701551     
  Total Current Drive:    67579.8139443459     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1976
 TA= 2.29500E+00 CPU TIME= 1.60310E-01 SECONDS.  DT= 3.83217E-04
  
 TEC1=    2.29499999999997     
 TEC2=    2.29999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.25283388888829     
  %check_save_state: izleft hours =    74.7386111111111     
 --> plasma_hash("gframe"): TA= 2.295000E+00 NSTEP=  1976 Hash code:   94812669
 ->PRGCHK: bdy curvature ratio at t= 2.3000E+00 seconds is:  5.6059E-02
% MHDEQ: TG1=     2.295000 ; TG2=     2.300000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0670E-03 SECONDS
   DATA R*BT AT EDGE:  2.7760E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6059E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.295000 TO TG2=    2.300000 @ NSTEP     1976
   GFRAME TG2 MOMENTS CHECKSUM:  2.4754280078073D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.43596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.54933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.05052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -2.17831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.59146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.93195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.23106E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.73059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.09374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.29975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.96071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.37578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -1.37050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.44683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.74582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16= -1.82696E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.36693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.24987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.68118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -4.07979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -4.07979E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3000E+00  2.3050E+00 total power(Watts):  2.9848E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.30000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.365948E+02    0.407201E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.346488E+02    0.407813E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.361396E+02    0.390943E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.382283E+02    0.396669E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.381043E+02    0.416946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.358785E+02    0.423603E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.339405E+02    0.434470E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.329357E+02    0.420317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.328821E+02    0.402730E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.337590E+02    0.386356E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.354176E+02    0.375236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.374407E+02    0.372468E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.392962E+02    0.379041E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.404468E+02    0.393445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.404898E+02    0.411824E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.394602E+02    0.428782E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.377507E+02    0.439392E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.357330E+02    0.441316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.337550E+02    0.462520E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.310596E+02    0.445669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.299098E+02    0.418462E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138795E+03   -0.304400E+02    0.388086E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.326195E+02    0.361940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.360205E+02    0.346434E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.395486E+02    0.347949E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.424621E+02    0.365762E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.438128E+02    0.395373E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.432926E+02    0.427910E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.407939E+02    0.453880E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.371805E+02    0.465931E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.379356E+02    0.317089E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.359540E+02    0.318746E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.375288E+02    0.299591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.396709E+02    0.304681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.394940E+02    0.326567E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.371486E+02    0.335164E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.351961E+02    0.347503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.340609E+02    0.333625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.339738E+02    0.315198E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.350909E+02    0.295888E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.368492E+02    0.282809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.389077E+02    0.278940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.408155E+02    0.284944E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.419245E+02    0.300069E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.419110E+02    0.319984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.409001E+02    0.338386E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.390840E+02    0.350735E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.370334E+02    0.353755E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.349653E+02    0.377885E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138610E+03   -0.321980E+02    0.361242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138883E+03   -0.310616E+02    0.332690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.317041E+02    0.299386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.340466E+02    0.269381E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.373111E+02    0.252563E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.410968E+02    0.251168E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.441138E+02    0.268518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.455702E+02    0.299090E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.448020E+02    0.334868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.420084E+02    0.364895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.384537E+02    0.379866E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.363076E+02    0.461950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.344629E+02    0.461710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.357778E+02    0.446697E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.379356E+02    0.452595E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.377992E+02    0.471542E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.355872E+02    0.476958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.337448E+02    0.486393E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.326708E+02    0.472993E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.326271E+02    0.456645E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.335102E+02    0.441343E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.351677E+02    0.430962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.371799E+02    0.428847E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.390099E+02    0.435973E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.401404E+02    0.450366E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.403645E+02    0.467419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.394279E+02    0.482710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.375298E+02    0.492280E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.355223E+02    0.493524E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.336252E+02    0.513940E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.310355E+02    0.496196E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.298273E+02    0.469974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.302153E+02    0.441898E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.323242E+02    0.417218E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.357158E+02    0.403244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.392128E+02    0.405770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.422775E+02    0.423786E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.436885E+02    0.453268E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.430477E+02    0.483726E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.406447E+02    0.507493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.370344E+02    0.518231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.370995E+02    0.366389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.352278E+02    0.367062E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.367150E+02    0.349508E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.388269E+02    0.354929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.386290E+02    0.375888E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.363936E+02    0.383105E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.344500E+02    0.394564E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.334255E+02    0.380426E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.333582E+02    0.362620E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.343090E+02    0.345333E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.360614E+02    0.333018E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.381037E+02    0.329685E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.398872E+02    0.336537E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.410615E+02    0.351064E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.411244E+02    0.369795E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.401036E+02    0.387221E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.382930E+02    0.398691E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.362637E+02    0.401123E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.342766E+02    0.423999E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.315524E+02    0.406824E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138836E+03   -0.303746E+02    0.379247E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138808E+03   -0.309604E+02    0.347886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138540E+03   -0.331384E+02    0.320393E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.366447E+02    0.302998E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.402075E+02    0.303811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.431668E+02    0.321451E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.444591E+02    0.352136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.438659E+02    0.385479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.413689E+02    0.412776E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.377296E+02    0.426809E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.384501E+02    0.248535E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.364468E+02    0.250929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.380082E+02    0.230352E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.401839E+02    0.234996E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.399476E+02    0.258488E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.375925E+02    0.268275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.356389E+02    0.281650E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.344682E+02    0.267777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.344354E+02    0.247996E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.355351E+02    0.227282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.372913E+02    0.213069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.394603E+02    0.207604E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.414018E+02    0.213203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.424533E+02    0.229382E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.424758E+02    0.250201E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.413893E+02    0.270237E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.395762E+02    0.283647E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.374167E+02    0.288076E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.353633E+02    0.313985E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138765E+03   -0.325409E+02    0.297664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138933E+03   -0.314295E+02    0.267705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138762E+03   -0.321097E+02    0.232043E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.343505E+02    0.200820E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.379749E+02    0.179218E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.417192E+02    0.177348E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.447059E+02    0.194909E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.460275E+02    0.227440E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.453217E+02    0.264815E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.424561E+02    0.297851E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.388916E+02    0.314884E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691117.001708673     
  ps_ts2 prof sum =   690675.972065395     
  trcom prof sum =    690675.972065394     
  ps_ts2 cur sum  =   14133.8666062866     
  trcom cur sum  =    14133.8666062866     
  
  antenna # iant =            2
  powecha_use(iant) =    669094.075242025     
  ps_ts2 prof sum =   668708.625821389     
  trcom prof sum =    668708.625821389     
  ps_ts2 cur sum  =   16802.7970937053     
  trcom cur sum  =    16802.7970937053     
  
  antenna # iant =            3
  powecha_use(iant) =    522000.214702198     
  ps_ts2 prof sum =   521660.196058966     
  trcom prof sum =    521660.196058966     
  ps_ts2 cur sum  =   8904.42109484275     
  trcom cur sum  =    8904.42109484275     
  
  antenna # iant =            4
  powecha_use(iant) =    554091.587073301     
  ps_ts2 prof sum =   553781.194206184     
  trcom prof sum =    553781.194206184     
  ps_ts2 cur sum  =   12606.8110649297     
  trcom cur sum  =    12606.8110649296     
  
  antenna # iant =            5
  powecha_use(iant) =    548448.367179877     
  ps_ts2 prof sum =   548175.220046953     
  trcom prof sum =    548175.220046953     
  ps_ts2 cur sum  =   15086.4448103798     
  trcom cur sum  =    15086.4448103797     
  
  Total ECH heating:      2983001.20819888     
  Total Current Drive:    67534.3406701440     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1983
 TA= 2.30000E+00 CPU TIME= 1.59456E-01 SECONDS.  DT= 8.56805E-04
  
 TEC1=    2.29999999999997     
 TEC2=    2.30499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.27079333333313     
  %check_save_state: izleft hours =    74.7208333333333     
 --> plasma_hash("gframe"): TA= 2.300000E+00 NSTEP=  1983 Hash code:    5153117
 ->PRGCHK: bdy curvature ratio at t= 2.3050E+00 seconds is:  5.6012E-02
% MHDEQ: TG1=     2.300000 ; TG2=     2.305000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7773E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6012E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.300000 TO TG2=    2.305000 @ NSTEP     1983
   GFRAME TG2 MOMENTS CHECKSUM:  2.4747344932361D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3050E+00  2.3100E+00 total power(Watts):  2.9860E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.30500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.365193E+02    0.407735E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.346633E+02    0.408047E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.360658E+02    0.391539E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.382452E+02    0.396926E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.380260E+02    0.417433E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.358031E+02    0.424062E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.339537E+02    0.434640E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.329494E+02    0.420509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.328129E+02    0.403278E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.337745E+02    0.386604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.354349E+02    0.375491E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.374584E+02    0.372743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.393143E+02    0.379332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.403670E+02    0.394035E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.405063E+02    0.412086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.394793E+02    0.428998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.376712E+02    0.439774E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.356567E+02    0.441686E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.337672E+02    0.462632E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.311513E+02    0.445599E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138429E+03   -0.299999E+02    0.418351E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.304492E+02    0.388335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.327196E+02    0.361732E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.359514E+02    0.347146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.395701E+02    0.348221E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.425840E+02    0.365699E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.439372E+02    0.395410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.433090E+02    0.428171E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.408078E+02    0.454060E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.371928E+02    0.466059E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.379592E+02    0.317345E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.359762E+02    0.318996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.374616E+02    0.300426E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.396005E+02    0.305509E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.394217E+02    0.327330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.371699E+02    0.335417E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.352151E+02    0.347751E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.341672E+02    0.333329E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.339952E+02    0.315422E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.349408E+02    0.297347E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.367847E+02    0.283672E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.389342E+02    0.279168E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.407457E+02    0.285812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.419513E+02    0.300353E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.419361E+02    0.320272E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.409229E+02    0.338661E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.390098E+02    0.351443E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.369622E+02    0.354462E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.349818E+02    0.378133E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.322151E+02    0.361472E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138869E+03   -0.310804E+02    0.332899E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138967E+03   -0.316449E+02    0.300224E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.339020E+02    0.270931E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.374297E+02    0.252031E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.411277E+02    0.251367E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.440422E+02    0.269398E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.453885E+02    0.300478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.446182E+02    0.336074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.420292E+02    0.365199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.384737E+02    0.380138E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.363198E+02    0.462083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.343882E+02    0.461971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.357905E+02    0.446861E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.379486E+02    0.452761E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.378120E+02    0.471654E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.355987E+02    0.477048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.337555E+02    0.486451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.326813E+02    0.473085E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.325557E+02    0.456933E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.334374E+02    0.441715E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.350925E+02    0.431390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.371017E+02    0.429291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.389328E+02    0.436365E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.402515E+02    0.450408E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.403777E+02    0.467565E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.392476E+02    0.482933E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.376346E+02    0.492299E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.354439E+02    0.493616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.335505E+02    0.513874E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.309644E+02    0.496285E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138478E+03   -0.296819E+02    0.470357E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.303060E+02    0.441805E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.324205E+02    0.417131E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.356420E+02    0.403797E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.392290E+02    0.406040E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.420922E+02    0.424467E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.436006E+02    0.453582E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.429585E+02    0.483876E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.405583E+02    0.507483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.371385E+02    0.518170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.371177E+02    0.366662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.352448E+02    0.367320E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.366443E+02    0.350212E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.387527E+02    0.355624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.386475E+02    0.376168E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.364100E+02    0.383375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.344651E+02    0.394803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.334416E+02    0.380669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.333697E+02    0.362889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.341563E+02    0.346528E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.359952E+02    0.333758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.380331E+02    0.330444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.399090E+02    0.336815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.409847E+02    0.351777E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.410449E+02    0.370471E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.400247E+02    0.387835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.382159E+02    0.399246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.361855E+02    0.401683E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.342904E+02    0.424194E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.316473E+02    0.406710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138822E+03   -0.303897E+02    0.379469E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138795E+03   -0.309777E+02    0.348099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138526E+03   -0.331593E+02    0.320615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.365784E+02    0.303821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.402331E+02    0.304083E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.430899E+02    0.322244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.445864E+02    0.352059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.438855E+02    0.385802E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.411867E+02    0.413548E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.377442E+02    0.427026E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.383866E+02    0.249434E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.362965E+02    0.252551E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.379474E+02    0.231281E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.402150E+02    0.235179E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.399769E+02    0.258695E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.376193E+02    0.268474E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.354879E+02    0.283152E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.344076E+02    0.268643E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.343804E+02    0.248869E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.353906E+02    0.229007E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.373229E+02    0.213228E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.394928E+02    0.207763E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.413389E+02    0.214173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.424866E+02    0.229582E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.425074E+02    0.250410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.414187E+02    0.270471E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.395079E+02    0.284511E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.374426E+02    0.288304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.352102E+02    0.315342E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138751E+03   -0.325633E+02    0.297879E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138920E+03   -0.314527E+02    0.267864E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138972E+03   -0.320550E+02    0.232976E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138571E+03   -0.343792E+02    0.200935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.378290E+02    0.181104E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.417565E+02    0.177481E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.447446E+02    0.195081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.460635E+02    0.227670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.451452E+02    0.266325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.424834E+02    0.298133E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.389162E+02    0.315146E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690628.866284221     
  ps_ts2 prof sum =   690253.021985528     
  trcom prof sum =    690253.021947529     
  ps_ts2 cur sum  =   14134.5316077347     
  trcom cur sum  =    14134.5316077347     
  
  antenna # iant =            2
  powecha_use(iant) =    670311.522231041     
  ps_ts2 prof sum =   669911.917074421     
  trcom prof sum =    669911.917074421     
  ps_ts2 cur sum  =   16846.5093705617     
  trcom cur sum  =    16846.5093705617     
  
  antenna # iant =            3
  powecha_use(iant) =    522581.857239917     
  ps_ts2 prof sum =   522244.553703117     
  trcom prof sum =    522244.553703118     
  ps_ts2 cur sum  =   8921.65472218368     
  trcom cur sum  =    8921.65472201670     
  
  antenna # iant =            4
  powecha_use(iant) =    554674.836633717     
  ps_ts2 prof sum =   554360.316138588     
  trcom prof sum =    554360.316138588     
  ps_ts2 cur sum  =   12629.9372177151     
  trcom cur sum  =    12629.9372177151     
  
  antenna # iant =            5
  powecha_use(iant) =    547803.116987835     
  ps_ts2 prof sum =   547475.636522715     
  trcom prof sum =    547475.636522715     
  ps_ts2 cur sum  =   15080.1750724728     
  trcom cur sum  =    15080.1750724728     
  
  Total ECH heating:      2984245.44538637     
  Total Current Drive:    67612.8079905010     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   1988
 TA= 2.30500E+00 CPU TIME= 1.60088E-01 SECONDS.  DT= 7.49828E-05
  
 TEC1=    2.30499999999997     
 TEC2=    2.30999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.28360138888888     
  %check_save_state: izleft hours =    74.7080555555556     
 --> plasma_hash("gframe"): TA= 2.305000E+00 NSTEP=  1988 Hash code:   89209634
 ->PRGCHK: bdy curvature ratio at t= 2.3100E+00 seconds is:  5.5980E-02
% MHDEQ: TG1=     2.305000 ; TG2=     2.310000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7756E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5980E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.305000 TO TG2=    2.310000 @ NSTEP     1988
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753814376190D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.14812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.47390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.20988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.60855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.93129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.23390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.71401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.09462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.55843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.10493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.32516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -1.28349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.46686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.18962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.90508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.55705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.34526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.68768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.76498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.76498E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3100E+00  2.3150E+00 total power(Watts):  2.9858E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.31000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.366280E+02    0.407584E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.346805E+02    0.408171E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.361740E+02    0.391351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.382638E+02    0.397100E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.380444E+02    0.417568E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.359102E+02    0.423908E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.339702E+02    0.434689E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.329673E+02    0.420600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.329124E+02    0.403084E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.337915E+02    0.386739E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.354526E+02    0.375628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.374784E+02    0.372871E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.393345E+02    0.379488E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.404842E+02    0.393918E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.405258E+02    0.412246E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.394941E+02    0.429112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.377827E+02    0.439647E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.357636E+02    0.441533E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.337836E+02    0.462643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.310873E+02    0.445813E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.299375E+02    0.418713E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.304685E+02    0.388437E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.326511E+02    0.362276E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.360598E+02    0.346759E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.395910E+02    0.348327E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.425047E+02    0.366224E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.438551E+02    0.395895E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.433294E+02    0.428316E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.408275E+02    0.454104E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.372105E+02    0.466091E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.379794E+02    0.317454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.359957E+02    0.319081E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.375737E+02    0.299947E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.397175E+02    0.305067E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.395386E+02    0.326936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.371901E+02    0.335498E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.352341E+02    0.347829E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.341855E+02    0.333400E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.340139E+02    0.315504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.351339E+02    0.296204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.368943E+02    0.283108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.389574E+02    0.279224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.408665E+02    0.285284E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.419740E+02    0.300489E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.419588E+02    0.320394E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.409446E+02    0.338776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.391255E+02    0.351116E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.370734E+02    0.354119E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.350000E+02    0.378269E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.322320E+02    0.361556E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138820E+03   -0.310973E+02    0.332952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.317427E+02    0.299676E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.339221E+02    0.270940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.373613E+02    0.252710E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.411549E+02    0.251334E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.441696E+02    0.268818E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.456233E+02    0.299556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.448502E+02    0.335324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.420507E+02    0.365350E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.384912E+02    0.380304E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.363372E+02    0.462107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.344045E+02    0.461990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.358082E+02    0.446890E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.379669E+02    0.452798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.378298E+02    0.471683E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.356160E+02    0.477064E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.337723E+02    0.486447E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.326974E+02    0.473091E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.326552E+02    0.456772E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.335391E+02    0.441538E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.351991E+02    0.431217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.372119E+02    0.429153E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.389518E+02    0.436441E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.402710E+02    0.450458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.403943E+02    0.467604E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.394587E+02    0.482837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.375592E+02    0.492341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.355508E+02    0.493536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.335671E+02    0.513699E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.309802E+02    0.496224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.298519E+02    0.470068E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.302423E+02    0.442056E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.323537E+02    0.417506E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.356594E+02    0.403937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.392482E+02    0.406198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.423138E+02    0.424197E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.437246E+02    0.453536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.430812E+02    0.483881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.406774E+02    0.507420E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.370650E+02    0.517961E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.371362E+02    0.366797E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.352628E+02    0.367438E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.367541E+02    0.349848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.388684E+02    0.355312E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.386672E+02    0.376308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.364289E+02    0.383513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.344819E+02    0.394954E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.334590E+02    0.380787E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.333899E+02    0.362981E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.343454E+02    0.345642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.360131E+02    0.333836E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.381465E+02    0.330033E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.399305E+02    0.336911E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.411044E+02    0.351475E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.411642E+02    0.370262E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.401415E+02    0.387688E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.383282E+02    0.399119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.362946E+02    0.401523E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.343063E+02    0.424284E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.316626E+02    0.406823E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.304092E+02    0.379561E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138746E+03   -0.309945E+02    0.348156E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.331775E+02    0.320685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.365088E+02    0.304503E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.402550E+02    0.304207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.432198E+02    0.321862E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.445056E+02    0.352592E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.439120E+02    0.385991E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.414052E+02    0.413219E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.377623E+02    0.427120E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.385016E+02    0.248695E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.364958E+02    0.251071E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.380607E+02    0.230491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.402386E+02    0.235154E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.400001E+02    0.258689E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.376410E+02    0.268494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.356830E+02    0.281920E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.345986E+02    0.267265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.345677E+02    0.247367E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.354112E+02    0.228970E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.373440E+02    0.213222E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.395160E+02    0.207771E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.414602E+02    0.213391E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.425096E+02    0.229585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.425322E+02    0.250400E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.414421E+02    0.270506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.395303E+02    0.284588E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.374626E+02    0.288389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.354046E+02    0.314315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138701E+03   -0.325815E+02    0.297948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138872E+03   -0.314714E+02    0.267851E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138924E+03   -0.320747E+02    0.232927E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138521E+03   -0.344005E+02    0.200912E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.380321E+02    0.179312E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.417800E+02    0.177479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.447699E+02    0.195105E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.460906E+02    0.227674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.453791E+02    0.265123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.425065E+02    0.298268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.389366E+02    0.315264E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690802.062476659     
  ps_ts2 prof sum =   690371.676409155     
  trcom prof sum =    690371.676368121     
  ps_ts2 cur sum  =   14122.1193844237     
  trcom cur sum  =    14122.1193844237     
  
  antenna # iant =            2
  powecha_use(iant) =    668550.547295450     
  ps_ts2 prof sum =   668167.710029343     
  trcom prof sum =    668167.710029343     
  ps_ts2 cur sum  =   16770.4233447919     
  trcom cur sum  =    16770.4233447919     
  
  antenna # iant =            3
  powecha_use(iant) =    523414.114725128     
  ps_ts2 prof sum =   523073.571334958     
  trcom prof sum =    523073.571334959     
  ps_ts2 cur sum  =   8935.83635325505     
  trcom cur sum  =    8935.83635325506     
  
  antenna # iant =            4
  powecha_use(iant) =    554659.845467328     
  ps_ts2 prof sum =   554352.006779518     
  trcom prof sum =    554352.006779517     
  ps_ts2 cur sum  =   12609.0833430763     
  trcom cur sum  =    12609.0833430763     
  
  antenna # iant =            5
  powecha_use(iant) =    548410.132924690     
  ps_ts2 prof sum =   548129.666642831     
  trcom prof sum =    548129.666642831     
  ps_ts2 cur sum  =   15063.6176963387     
  trcom cur sum  =    15063.6176963387     
  
  Total ECH heating:      2984094.63115477     
  Total Current Drive:    67501.0801218857     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2001
 TA= 2.31000E+00 CPU TIME= 1.59429E-01 SECONDS.  DT= 1.16920E-03
  
 TEC1=    2.30999999999997     
 TEC2=    2.31499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.29792749999956     
  %check_save_state: izleft hours =    74.6936111111111     
 --> plasma_hash("gframe"): TA= 2.310000E+00 NSTEP=  2001 Hash code:   53875344
 ->PRGCHK: bdy curvature ratio at t= 2.3150E+00 seconds is:  5.5954E-02
% MHDEQ: TG1=     2.310000 ; TG2=     2.315000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5954E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.310000 TO TG2=    2.315000 @ NSTEP     2001
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760283820019D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3150E+00  2.3200E+00 total power(Watts):  2.9924E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.31500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.366447E+02    0.407699E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.347833E+02    0.407976E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.361858E+02    0.391492E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.382809E+02    0.397240E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.381552E+02    0.417427E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.359259E+02    0.423980E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.340718E+02    0.434502E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.329791E+02    0.420671E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.329281E+02    0.403173E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.337225E+02    0.387210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.355571E+02    0.375367E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.375874E+02    0.372624E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.393524E+02    0.379626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.405024E+02    0.394067E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.405395E+02    0.412401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.396084E+02    0.428985E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.378000E+02    0.439693E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.357801E+02    0.441563E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.338844E+02    0.462503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.312624E+02    0.445403E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.299518E+02    0.418760E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.304825E+02    0.388522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.326688E+02    0.362346E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.360778E+02    0.346836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.397058E+02    0.347977E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.427264E+02    0.365620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.440811E+02    0.395521E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.433490E+02    0.428422E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.407477E+02    0.454264E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.373200E+02    0.465979E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.379982E+02    0.317537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.360996E+02    0.318625E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.375893E+02    0.300053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.397372E+02    0.305173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.395575E+02    0.327017E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.372991E+02    0.335071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.353393E+02    0.347423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.341174E+02    0.333963E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.342016E+02    0.314433E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.351518E+02    0.296278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.369136E+02    0.283158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.390677E+02    0.278664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.408864E+02    0.285372E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.419949E+02    0.300593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.420787E+02    0.319991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.409649E+02    0.338855E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.391444E+02    0.351196E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.370911E+02    0.354203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.351038E+02    0.378002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.324109E+02    0.360746E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.311133E+02    0.332995E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138639E+03   -0.317599E+02    0.299727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.340245E+02    0.270253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.375622E+02    0.251252E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.412708E+02    0.250638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.441924E+02    0.268866E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.455403E+02    0.300223E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.447678E+02    0.335867E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.421709E+02    0.365097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.386030E+02    0.380089E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.363538E+02    0.462113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.345073E+02    0.461849E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.359141E+02    0.446736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.379845E+02    0.452813E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.378470E+02    0.471692E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.357216E+02    0.476969E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.337876E+02    0.486425E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.327957E+02    0.472970E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.326701E+02    0.456771E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.335546E+02    0.441559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.352147E+02    0.431277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.372292E+02    0.429215E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.390648E+02    0.436321E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.401918E+02    0.450636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.403177E+02    0.467704E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.394764E+02    0.482844E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.375761E+02    0.492322E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.355667E+02    0.493503E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.336693E+02    0.513535E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.310742E+02    0.496098E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.298655E+02    0.470061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.302561E+02    0.442060E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.325343E+02    0.417003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.357647E+02    0.403747E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.392656E+02    0.406336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.422322E+02    0.424511E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.437442E+02    0.453585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.431001E+02    0.483906E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.406957E+02    0.507351E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.370830E+02    0.517796E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.372460E+02    0.366496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.352808E+02    0.367539E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.367726E+02    0.349920E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.388873E+02    0.355395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.386852E+02    0.376448E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.364453E+02    0.383653E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.345848E+02    0.394724E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.333899E+02    0.381277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.333221E+02    0.363494E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.343642E+02    0.345694E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.361199E+02    0.333400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.381648E+02    0.330111E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.400468E+02    0.336519E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.411241E+02    0.351568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.411837E+02    0.370399E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.401597E+02    0.387840E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.383455E+02    0.399254E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.363107E+02    0.401653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.343222E+02    0.424342E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.315972E+02    0.407212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138724E+03   -0.304201E+02    0.379671E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.310102E+02    0.348206E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.333612E+02    0.319640E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.367068E+02    0.303437E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.403713E+02    0.303753E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.432368E+02    0.321989E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.447344E+02    0.351931E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.440293E+02    0.385884E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.413249E+02    0.413588E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.377796E+02    0.427195E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.385222E+02    0.248658E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.365152E+02    0.251032E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.380813E+02    0.230448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.403552E+02    0.234382E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.400245E+02    0.258661E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.377517E+02    0.267833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.357014E+02    0.281963E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.345319E+02    0.267948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.345014E+02    0.248056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.355176E+02    0.228138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.374533E+02    0.212384E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.395363E+02    0.207750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.414818E+02    0.213372E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.426331E+02    0.228803E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.426543E+02    0.249701E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.415615E+02    0.269910E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.396452E+02    0.284043E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.375731E+02    0.287842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.354221E+02    0.314381E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.326804E+02    0.297388E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138824E+03   -0.314884E+02    0.267838E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.321723E+02    0.232069E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.345021E+02    0.200016E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.379625E+02    0.180151E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.418983E+02    0.176581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.448949E+02    0.194301E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.462194E+02    0.226945E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.452983E+02    0.265783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.426280E+02    0.297813E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.390499E+02    0.314820E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692317.704425785     
  ps_ts2 prof sum =   691885.854361169     
  trcom prof sum =    691885.854317702     
  ps_ts2 cur sum  =   14131.2401564205     
  trcom cur sum  =    14131.2401564205     
  
  antenna # iant =            2
  powecha_use(iant) =    668087.520538929     
  ps_ts2 prof sum =   667708.522215293     
  trcom prof sum =    667708.522215293     
  ps_ts2 cur sum  =   16721.2807947040     
  trcom cur sum  =    16721.2807947040     
  
  antenna # iant =            3
  powecha_use(iant) =    522411.354547057     
  ps_ts2 prof sum =   522056.594229621     
  trcom prof sum =    522056.594229621     
  ps_ts2 cur sum  =   8915.26555249507     
  trcom cur sum  =    8915.26555249507     
  
  antenna # iant =            4
  powecha_use(iant) =    560283.370876747     
  ps_ts2 prof sum =   559938.306299220     
  trcom prof sum =    559938.306299219     
  ps_ts2 cur sum  =   12713.3635207715     
  trcom cur sum  =    12713.3635207715     
  
  antenna # iant =            5
  powecha_use(iant) =    549281.909328256     
  ps_ts2 prof sum =   548988.862884351     
  trcom prof sum =    548988.862884351     
  ps_ts2 cur sum  =   15044.8612835380     
  trcom cur sum  =    15044.8612835380     
  
  Total ECH heating:      2990578.13994619     
  Total Current Drive:    67526.0113079291     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2005
 TA= 2.31500E+00 CPU TIME= 1.59685E-01 SECONDS.  DT= 6.78040E-04
  
 TEC1=    2.31499999999997     
 TEC2=    2.31999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.31149861111112     
  %check_save_state: izleft hours =    74.6800000000000     
 --> plasma_hash("gframe"): TA= 2.315000E+00 NSTEP=  2005 Hash code:    1880040
 ->PRGCHK: bdy curvature ratio at t= 2.3200E+00 seconds is:  5.5932E-02
% MHDEQ: TG1=     2.315000 ; TG2=     2.320000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5932E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.315000 TO TG2=    2.320000 @ NSTEP     2005
   GFRAME TG2 MOMENTS CHECKSUM:  2.4766753353334D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.75591E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.44909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.35020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.76982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.94793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.69941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.74012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.38276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.34249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  4.86447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.39054E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.77742E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.67115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.84160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.40332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.69954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.27782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.27782E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3200E+00  2.3250E+00 total power(Watts):  2.9900E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.32000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.366630E+02    0.407860E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.348005E+02    0.408122E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.362084E+02    0.391652E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.383938E+02    0.397119E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.381746E+02    0.417565E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.359437E+02    0.424100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.340886E+02    0.434587E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.330805E+02    0.420502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.329441E+02    0.403323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.339088E+02    0.386661E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.355765E+02    0.375532E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.376071E+02    0.372793E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.394679E+02    0.379484E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.405225E+02    0.394277E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.406613E+02    0.412330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.396288E+02    0.429103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.378188E+02    0.439777E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.358017E+02    0.441626E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.339011E+02    0.462533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.312781E+02    0.445432E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138521E+03   -0.299670E+02    0.418851E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.305768E+02    0.388298E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.328523E+02    0.361596E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.360977E+02    0.346947E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.397309E+02    0.348104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.426475E+02    0.366190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.441025E+02    0.395758E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.434720E+02    0.428409E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.409690E+02    0.454082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.373381E+02    0.466021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.381121E+02    0.317134E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.361230E+02    0.318726E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.376143E+02    0.300160E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.398553E+02    0.304762E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.395795E+02    0.327156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.373197E+02    0.335195E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.353586E+02    0.347545E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.343071E+02    0.333045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.341366E+02    0.315103E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.350856E+02    0.297003E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.368453E+02    0.283903E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.390923E+02    0.278762E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.410069E+02    0.284913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.421177E+02    0.300201E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.421051E+02    0.320138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.410854E+02    0.338545E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.392609E+02    0.350912E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.371110E+02    0.354343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.351218E+02    0.378172E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.323458E+02    0.361324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.312096E+02    0.332552E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.317785E+02    0.299825E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.340450E+02    0.270309E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.375848E+02    0.251272E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.412957E+02    0.250673E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.443206E+02    0.268344E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.457750E+02    0.299357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.447925E+02    0.336039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.421927E+02    0.365289E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.386224E+02    0.380290E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.364619E+02    0.462023E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.345242E+02    0.461881E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.359324E+02    0.446792E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.380965E+02    0.452727E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.379586E+02    0.471639E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.357387E+02    0.476996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.338899E+02    0.486341E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.328116E+02    0.472990E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.326863E+02    0.456809E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.335712E+02    0.441610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.352325E+02    0.431358E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.372479E+02    0.429321E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.390842E+02    0.436418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.404062E+02    0.450433E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.405324E+02    0.467585E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.393990E+02    0.482936E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.377807E+02    0.492231E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.355837E+02    0.493495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.336864E+02    0.513411E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.310895E+02    0.496052E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.298024E+02    0.470218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.304288E+02    0.441649E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.325509E+02    0.417114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.357824E+02    0.403910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.393805E+02    0.406249E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.424537E+02    0.424285E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.437654E+02    0.453681E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.432224E+02    0.483919E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.407155E+02    0.507300E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.372825E+02    0.517689E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.372658E+02    0.366658E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.353856E+02    0.367301E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.367926E+02    0.350051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.390021E+02    0.355138E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.387992E+02    0.376274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.365541E+02    0.383483E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.346022E+02    0.394888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.335760E+02    0.380682E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.335084E+02    0.362761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.342979E+02    0.346280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.361401E+02    0.333511E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.381860E+02    0.330241E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.400688E+02    0.336665E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.411465E+02    0.351728E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.412050E+02    0.370599E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.401803E+02    0.388038E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.384582E+02    0.399146E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.363287E+02    0.401821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.344266E+02    0.424193E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.317736E+02    0.406730E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.305138E+02    0.379414E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138648E+03   -0.310270E+02    0.348303E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.332970E+02    0.320284E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.367280E+02    0.303557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.403942E+02    0.303905E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.434630E+02    0.321189E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.446542E+02    0.352511E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.440511E+02    0.386122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.413451E+02    0.413778E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.378945E+02    0.427082E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.385456E+02    0.248674E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.364489E+02    0.251763E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.380137E+02    0.231208E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.403799E+02    0.234395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.401401E+02    0.258054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.377742E+02    0.267906E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.356353E+02    0.282708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.347226E+02    0.266625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.345216E+02    0.248047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.355388E+02    0.228126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.374762E+02    0.212392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.396533E+02    0.206968E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.415070E+02    0.213402E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.426591E+02    0.228826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.426799E+02    0.249737E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.415859E+02    0.270001E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.396681E+02    0.284174E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.375947E+02    0.287969E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.353588E+02    0.315031E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.326995E+02    0.297491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.315862E+02    0.267169E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138605E+03   -0.321932E+02    0.232034E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.345230E+02    0.200037E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.381656E+02    0.178399E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.419239E+02    0.176618E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.449219E+02    0.194369E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.462475E+02    0.226988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.455325E+02    0.264644E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.426520E+02    0.297989E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.390721E+02    0.314959E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688881.195183392     
  ps_ts2 prof sum =   688474.862559419     
  trcom prof sum =    688474.862536581     
  ps_ts2 cur sum  =   14057.2842882953     
  trcom cur sum  =    14057.2842882953     
  
  antenna # iant =            2
  powecha_use(iant) =    669316.168460142     
  ps_ts2 prof sum =   668913.897885458     
  trcom prof sum =    668913.897885457     
  ps_ts2 cur sum  =   16731.4736144222     
  trcom cur sum  =    16731.4736144222     
  
  antenna # iant =            3
  powecha_use(iant) =    524014.610004683     
  ps_ts2 prof sum =   523693.556147487     
  trcom prof sum =    523693.556147488     
  ps_ts2 cur sum  =   8948.10825680464     
  trcom cur sum  =    8948.10825680464     
  
  antenna # iant =            4
  powecha_use(iant) =    559278.117718224     
  ps_ts2 prof sum =   558953.618306711     
  trcom prof sum =    558953.618306711     
  ps_ts2 cur sum  =   12679.3330508671     
  trcom cur sum  =    12679.3330508671     
  
  antenna # iant =            5
  powecha_use(iant) =    548548.736302094     
  ps_ts2 prof sum =   548217.302379127     
  trcom prof sum =    548217.302379127     
  ps_ts2 cur sum  =   15001.9028026041     
  trcom cur sum  =    15001.9028026041     
  
  Total ECH heating:      2988253.23725536     
  Total Current Drive:    67418.1020129934     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2010
 TA= 2.32000E+00 CPU TIME= 1.68118E-01 SECONDS.  DT= 1.36334E-03
  
 TEC1=    2.31999999999997     
 TEC2=    2.32499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.32674444444410     
  %check_save_state: izleft hours =    74.6647222222222     
 --> plasma_hash("gframe"): TA= 2.320000E+00 NSTEP=  2010 Hash code:   76983815
 ->PRGCHK: bdy curvature ratio at t= 2.3250E+00 seconds is:  5.5916E-02
% MHDEQ: TG1=     2.320000 ; TG2=     2.325000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7703E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5916E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.320000 TO TG2=    2.325000 @ NSTEP     2010
   GFRAME TG2 MOMENTS CHECKSUM:  2.4773222886649D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3250E+00  2.3300E+00 total power(Watts):  2.9831E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.32500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.367743E+02    0.407760E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.348206E+02    0.408291E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.362295E+02    0.391855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.384160E+02    0.397326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.381957E+02    0.417748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.360541E+02    0.423996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.341079E+02    0.434680E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.330996E+02    0.420630E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.328800E+02    0.403797E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.339294E+02    0.386834E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.355973E+02    0.375716E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.376297E+02    0.372991E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.394914E+02    0.379695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.405460E+02    0.394501E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.406842E+02    0.412539E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.396506E+02    0.429264E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.379330E+02    0.439718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.359070E+02    0.441548E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.339201E+02    0.462604E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.312957E+02    0.445503E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.301395E+02    0.418388E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138354E+03   -0.305954E+02    0.388445E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.328724E+02    0.361750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.362096E+02    0.346632E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.397526E+02    0.348283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.426725E+02    0.366416E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.440243E+02    0.396285E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.434958E+02    0.428615E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.409862E+02    0.454211E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.373581E+02    0.466109E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.381365E+02    0.317284E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.361463E+02    0.318862E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.376390E+02    0.300324E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.398810E+02    0.304931E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.396047E+02    0.327313E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.373434E+02    0.335336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.353812E+02    0.347682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.343286E+02    0.333176E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.341589E+02    0.315226E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.351088E+02    0.297135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.370486E+02    0.282776E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.391183E+02    0.278902E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.410334E+02    0.285077E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.421443E+02    0.300404E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.421289E+02    0.320335E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.411110E+02    0.338711E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.392845E+02    0.351090E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.371337E+02    0.354506E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.351421E+02    0.378364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.323668E+02    0.361458E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.312301E+02    0.332653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.317990E+02    0.299946E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.340680E+02    0.270386E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.376108E+02    0.251315E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.413235E+02    0.250747E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.443498E+02    0.268486E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.458038E+02    0.299581E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.450278E+02    0.335370E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.422178E+02    0.365517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.386455E+02    0.380492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.364819E+02    0.462109E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.345436E+02    0.461954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.359524E+02    0.446885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.381179E+02    0.452825E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.379791E+02    0.471717E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.357577E+02    0.477068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.339076E+02    0.486384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.328295E+02    0.473047E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.327879E+02    0.456707E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.336750E+02    0.441494E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.352517E+02    0.431481E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.372689E+02    0.429457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.391061E+02    0.436561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.404284E+02    0.450554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.405541E+02    0.467686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.394202E+02    0.483005E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.378008E+02    0.492272E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.356028E+02    0.493516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.337052E+02    0.513315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.311076E+02    0.496025E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.298197E+02    0.470256E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.304453E+02    0.441724E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.325695E+02    0.417244E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.358034E+02    0.404086E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.394027E+02    0.406455E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.424774E+02    0.424475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.438920E+02    0.453717E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.432457E+02    0.484017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.407378E+02    0.507284E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.373074E+02    0.517602E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.372896E+02    0.366844E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.354082E+02    0.367458E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.368161E+02    0.350200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.390258E+02    0.355316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.388216E+02    0.376493E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.365755E+02    0.383676E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.346223E+02    0.395076E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.335957E+02    0.380860E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.335291E+02    0.362915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.344907E+02    0.345465E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.361632E+02    0.333643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.382106E+02    0.330384E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.400964E+02    0.336816E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.412698E+02    0.351501E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.412293E+02    0.370819E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.402034E+02    0.388266E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.384806E+02    0.399346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.364401E+02    0.401703E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.344457E+02    0.424330E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.317935E+02    0.406869E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.305323E+02    0.379570E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.311268E+02    0.347924E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.333188E+02    0.320399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.367521E+02    0.303708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.404202E+02    0.304078E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.433894E+02    0.321854E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.446815E+02    0.352709E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.440759E+02    0.386395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.415655E+02    0.413536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.379131E+02    0.427238E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.386638E+02    0.248005E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.364749E+02    0.251794E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.382220E+02    0.229698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.404080E+02    0.234420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.401675E+02    0.258127E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.377996E+02    0.268000E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.356589E+02    0.282828E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.347467E+02    0.266699E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.347163E+02    0.246589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.355656E+02    0.228117E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.375038E+02    0.212390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.396816E+02    0.206993E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.416328E+02    0.212649E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.426890E+02    0.228863E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.427095E+02    0.249797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.416133E+02    0.270129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.396940E+02    0.284326E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.376188E+02    0.288124E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.353786E+02    0.315180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.327211E+02    0.297612E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138500E+03   -0.316085E+02    0.267226E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.322158E+02    0.232018E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.345491E+02    0.200030E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.381921E+02    0.178421E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.419538E+02    0.176655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.449531E+02    0.194433E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.462795E+02    0.227037E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.454605E+02    0.265395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.426790E+02    0.298189E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.390972E+02    0.315116E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684612.079996009     
  ps_ts2 prof sum =   684209.560267020     
  trcom prof sum =    684209.560267020     
  ps_ts2 cur sum  =   13981.4251356928     
  trcom cur sum  =    13981.4251356928     
  
  antenna # iant =            2
  powecha_use(iant) =    669256.217019282     
  ps_ts2 prof sum =   668856.740386163     
  trcom prof sum =    668856.740386162     
  ps_ts2 cur sum  =   16723.0490858811     
  trcom cur sum  =    16723.0490858811     
  
  antenna # iant =            3
  powecha_use(iant) =    525919.745674600     
  ps_ts2 prof sum =   525589.216227175     
  trcom prof sum =    525589.216227175     
  ps_ts2 cur sum  =   8999.59406107940     
  trcom cur sum  =    8999.59406107940     
  
  antenna # iant =            4
  powecha_use(iant) =    554649.903990604     
  ps_ts2 prof sum =   554344.959250012     
  trcom prof sum =    554344.959250012     
  ps_ts2 cur sum  =   12576.4082374722     
  trcom cur sum  =    12576.4082374722     
  
  antenna # iant =            5
  powecha_use(iant) =    548632.358394825     
  ps_ts2 prof sum =   548309.098033985     
  trcom prof sum =    548309.098033985     
  ps_ts2 cur sum  =   14989.9306910267     
  trcom cur sum  =    14989.9306910267     
  
  Total ECH heating:      2981309.57416435     
  Total Current Drive:    67270.4072111523     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2013
 TA= 2.32500E+00 CPU TIME= 1.46920E-01 SECONDS.  DT= 2.41560E-03
  
 TEC1=    2.32499999999997     
 TEC2=    2.32999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.34019527777718     
  %check_save_state: izleft hours =    74.6513888888889     
 --> plasma_hash("gframe"): TA= 2.325000E+00 NSTEP=  2013 Hash code:   84159517
 ->PRGCHK: bdy curvature ratio at t= 2.3300E+00 seconds is:  5.5904E-02
% MHDEQ: TG1=     2.325000 ; TG2=     2.330000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7686E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5904E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.325000 TO TG2=    2.330000 @ NSTEP     2013
   GFRAME TG2 MOMENTS CHECKSUM:  2.4779692419964D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.36370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.42427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.49052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.58493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.90965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.96458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.68480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.38561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.20709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.32797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.97485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  3.47398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.31422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.36521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.78524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.12614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.46139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.71139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.82014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.82014E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3300E+00  2.3350E+00 total power(Watts):  2.9924E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.33000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.367937E+02    0.407878E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.348388E+02    0.408396E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.363384E+02    0.391645E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.384356E+02    0.397468E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.383088E+02    0.417618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.360724E+02    0.424085E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.341255E+02    0.434731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.331168E+02    0.420707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.330637E+02    0.403270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.339473E+02    0.386948E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.356193E+02    0.375819E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.376496E+02    0.373114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.395119E+02    0.379837E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.406645E+02    0.394360E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.407049E+02    0.412675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.396708E+02    0.429364E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.379522E+02    0.439780E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.359254E+02    0.441587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.339375E+02    0.462626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.312316E+02    0.445734E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.300776E+02    0.418738E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.306116E+02    0.388539E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.328076E+02    0.362269E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.362292E+02    0.346702E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.397747E+02    0.348367E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.426953E+02    0.366557E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.442524E+02    0.395936E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.435179E+02    0.428737E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.410068E+02    0.454274E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.373766E+02    0.466152E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.381578E+02    0.317363E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.361665E+02    0.318929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.377504E+02    0.299832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.399024E+02    0.305035E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.397220E+02    0.326900E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.373645E+02    0.335409E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.354006E+02    0.347750E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.342636E+02    0.333725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.341758E+02    0.315299E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.353009E+02    0.296014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.370693E+02    0.282863E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.391404E+02    0.278983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.410561E+02    0.285188E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.421680E+02    0.300507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.422516E+02    0.319940E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.411336E+02    0.338802E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.393057E+02    0.351185E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.372449E+02    0.354154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.351608E+02    0.378481E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.323850E+02    0.361539E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.312485E+02    0.332682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.318971E+02    0.299390E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.342555E+02    0.269061E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.377227E+02    0.250589E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.414449E+02    0.250051E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.443748E+02    0.268566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.457242E+02    0.300242E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.450520E+02    0.335494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.422400E+02    0.365654E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.386651E+02    0.380639E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.365001E+02    0.462148E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.345613E+02    0.461979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.359707E+02    0.446930E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.381372E+02    0.452871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.379979E+02    0.471755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.357760E+02    0.477080E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.339257E+02    0.486359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.328461E+02    0.473057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.328044E+02    0.456739E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.336924E+02    0.441530E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.353583E+02    0.431324E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.373800E+02    0.429321E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.392213E+02    0.436448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.403487E+02    0.450756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.405738E+02    0.467748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.396325E+02    0.482912E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.377265E+02    0.492290E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.357100E+02    0.493438E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.337229E+02    0.513166E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.311234E+02    0.495955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.299903E+02    0.469977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.303828E+02    0.441964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.325038E+02    0.417603E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.359107E+02    0.403909E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.394183E+02    0.406604E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.424987E+02    0.424610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.439136E+02    0.453804E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.432672E+02    0.484052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.408570E+02    0.507220E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.372343E+02    0.517431E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.373079E+02    0.366953E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.354263E+02    0.367580E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.369260E+02    0.349845E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.390470E+02    0.355414E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.388423E+02    0.376621E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.365945E+02    0.383801E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.346403E+02    0.395187E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.336134E+02    0.380970E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.335471E+02    0.363008E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.345097E+02    0.345526E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.362722E+02    0.333216E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.383243E+02    0.329962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.401159E+02    0.336909E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.412919E+02    0.351610E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.413493E+02    0.370603E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.403204E+02    0.388117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.385004E+02    0.399487E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.364586E+02    0.401835E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.344633E+02    0.424401E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.318102E+02    0.406956E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.305488E+02    0.379664E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.311423E+02    0.347989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.333378E+02    0.320450E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.368614E+02    0.303212E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.404422E+02    0.304186E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.434132E+02    0.321961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.449162E+02    0.352068E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.439957E+02    0.386866E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.415865E+02    0.413681E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.379325E+02    0.427328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.386864E+02    0.247990E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.366721E+02    0.250351E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.382445E+02    0.229651E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.404315E+02    0.234381E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.401905E+02    0.258147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.379117E+02    0.267383E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.358533E+02    0.281627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.346815E+02    0.267410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.346523E+02    0.247284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.357579E+02    0.226498E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.374373E+02    0.213146E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.397050E+02    0.206959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.416572E+02    0.212618E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.428125E+02    0.228094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.428330E+02    0.249127E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.416370E+02    0.270194E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.398105E+02    0.283820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.376398E+02    0.288213E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.355727E+02    0.314145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.327396E+02    0.297681E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138451E+03   -0.316263E+02    0.267239E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.323148E+02    0.231157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.345694E+02    0.199989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.382139E+02    0.178404E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.420740E+02    0.175792E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.450809E+02    0.193637E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.465145E+02    0.225605E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.454843E+02    0.265478E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.427997E+02    0.297760E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.391190E+02    0.315196E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688552.219710487     
  ps_ts2 prof sum =   688119.832280255     
  trcom prof sum =    688119.832280255     
  ps_ts2 cur sum  =   14056.4486288559     
  trcom cur sum  =    14056.4486288559     
  
  antenna # iant =            2
  powecha_use(iant) =    671772.755159412     
  ps_ts2 prof sum =   671379.850432477     
  trcom prof sum =    671379.850432477     
  ps_ts2 cur sum  =   16761.9029946669     
  trcom cur sum  =    16761.9029946669     
  
  antenna # iant =            3
  powecha_use(iant) =    525126.331034814     
  ps_ts2 prof sum =   524780.434380996     
  trcom prof sum =    524780.434380997     
  ps_ts2 cur sum  =   8994.29491928530     
  trcom cur sum  =    8994.29491928530     
  
  antenna # iant =            4
  powecha_use(iant) =    559210.898925308     
  ps_ts2 prof sum =   558897.419700091     
  trcom prof sum =    558897.419700091     
  ps_ts2 cur sum  =   12668.1654054476     
  trcom cur sum  =    12668.1654054476     
  
  antenna # iant =            5
  powecha_use(iant) =    547739.353373947     
  ps_ts2 prof sum =   547456.405481638     
  trcom prof sum =    547456.405481638     
  ps_ts2 cur sum  =   14937.5838055922     
  trcom cur sum  =    14937.5838055922     
  
  Total ECH heating:      2990633.94227546     
  Total Current Drive:    67418.3957538479     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2015
 TA= 2.33000E+00 CPU TIME= 1.59293E-01 SECONDS.  DT= 3.23050E-03
  
 TEC1=    2.32999999999997     
 TEC2=    2.33499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.35465583333303     
  %check_save_state: izleft hours =    74.6369444444444     
 --> plasma_hash("gframe"): TA= 2.330000E+00 NSTEP=  2015 Hash code:   20941558
 ->PRGCHK: bdy curvature ratio at t= 2.3350E+00 seconds is:  5.5898E-02
% MHDEQ: TG1=     2.330000 ; TG2=     2.335000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7668E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5898E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.330000 TO TG2=    2.335000 @ NSTEP     2015
   GFRAME TG2 MOMENTS CHECKSUM:  2.4786161953279D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3350E+00  2.3400E+00 total power(Watts):  3.0002E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.33500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.368111E+02    0.407960E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.349422E+02    0.408183E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.363557E+02    0.391743E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.384539E+02    0.397568E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.383269E+02    0.417696E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.360897E+02    0.424135E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.342273E+02    0.434541E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.331326E+02    0.420754E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.330801E+02    0.403331E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.338758E+02    0.387398E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.357210E+02    0.375546E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.377593E+02    0.372841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.395303E+02    0.379952E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.406836E+02    0.394481E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.409193E+02    0.412299E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.397858E+02    0.429227E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.379699E+02    0.439816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.359426E+02    0.441613E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.339534E+02    0.462637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.314062E+02    0.445351E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.300924E+02    0.418770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.306266E+02    0.388609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.328239E+02    0.362325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.362476E+02    0.346744E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.398894E+02    0.348004E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.428163E+02    0.366308E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.442727E+02    0.396089E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.436400E+02    0.428657E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.409279E+02    0.454432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.374861E+02    0.466060E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.382690E+02    0.316886E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.362734E+02    0.318442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.377689E+02    0.299900E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.399227E+02    0.305104E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.397411E+02    0.326961E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.374737E+02    0.334972E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.355051E+02    0.347339E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.342809E+02    0.333752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.343644E+02    0.314210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.353183E+02    0.296073E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.370875E+02    0.282928E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.392530E+02    0.278420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.410761E+02    0.285265E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.422872E+02    0.300051E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.422723E+02    0.320005E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.412517E+02    0.338417E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.393252E+02    0.351246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.372632E+02    0.354224E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.352646E+02    0.378202E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.325637E+02    0.360724E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.312645E+02    0.332693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.319132E+02    0.299431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.341885E+02    0.269750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.377434E+02    0.250531E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.414658E+02    0.250014E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.444981E+02    0.268002E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.459546E+02    0.299316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.449703E+02    0.336000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.423599E+02    0.365400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.387778E+02    0.380394E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.365179E+02    0.462160E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.346645E+02    0.461855E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.360774E+02    0.446776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.381549E+02    0.452906E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.380154E+02    0.471773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.358822E+02    0.476987E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.339373E+02    0.486327E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.329449E+02    0.472937E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.328198E+02    0.456747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.337080E+02    0.441553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.353771E+02    0.431355E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.373977E+02    0.429371E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.392398E+02    0.436492E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.403706E+02    0.450787E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.404951E+02    0.467856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.396508E+02    0.482913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.377439E+02    0.492261E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.357269E+02    0.493377E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.338259E+02    0.512984E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.312193E+02    0.495785E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.300033E+02    0.469981E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.303978E+02    0.441965E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.326845E+02    0.417106E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.359278E+02    0.403995E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.394418E+02    0.406695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.424183E+02    0.424899E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.439340E+02    0.453855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.432871E+02    0.484065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.408768E+02    0.507111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.372528E+02    0.517254E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.374169E+02    0.366650E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.354433E+02    0.367661E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.369437E+02    0.349898E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.390654E+02    0.355485E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.389546E+02    0.376377E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.366123E+02    0.383899E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.347433E+02    0.394946E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.335455E+02    0.381425E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.334803E+02    0.363502E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.345268E+02    0.345565E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.362902E+02    0.333254E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.383434E+02    0.330008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.402319E+02    0.336501E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.413122E+02    0.351684E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.413698E+02    0.370704E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.403398E+02    0.388227E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.385186E+02    0.399590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.364762E+02    0.401919E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.344791E+02    0.424452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.317448E+02    0.407321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.305641E+02    0.379727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.311596E+02    0.348004E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.335205E+02    0.319388E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.368795E+02    0.303272E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.405582E+02    0.303712E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.434345E+02    0.322038E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.448304E+02    0.352551E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.442215E+02    0.386420E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.415069E+02    0.414017E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.379497E+02    0.427395E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.387062E+02    0.247935E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.366911E+02    0.250303E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.382644E+02    0.229555E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.405469E+02    0.233575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.403051E+02    0.257466E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.379305E+02    0.267404E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.358718E+02    0.281682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.346988E+02    0.267412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.346703E+02    0.247212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.356917E+02    0.227173E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.376341E+02    0.211453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.398216E+02    0.206043E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.416787E+02    0.212533E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.428343E+02    0.228018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.428546E+02    0.249093E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.417548E+02    0.269612E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.398298E+02    0.283898E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.377486E+02    0.287676E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.355904E+02    0.314188E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.328375E+02    0.297113E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.316425E+02    0.267233E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.323324E+02    0.231051E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.346714E+02    0.199045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.381441E+02    0.179231E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.420949E+02    0.175756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.451038E+02    0.193581E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.464319E+02    0.226257E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.457130E+02    0.264292E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.428234E+02    0.297841E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.392322E+02    0.314725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690988.323470333     
  ps_ts2 prof sum =   690550.128745191     
  trcom prof sum =    690550.128745191     
  ps_ts2 cur sum  =   14082.0377664688     
  trcom cur sum  =    14082.0377664688     
  
  antenna # iant =            2
  powecha_use(iant) =    676069.883118975     
  ps_ts2 prof sum =   675695.266874617     
  trcom prof sum =    675695.266874616     
  ps_ts2 cur sum  =   16830.1284003983     
  trcom cur sum  =    16830.1284003983     
  
  antenna # iant =            3
  powecha_use(iant) =    525212.733703681     
  ps_ts2 prof sum =   524852.139685911     
  trcom prof sum =    524852.139685911     
  ps_ts2 cur sum  =   8987.64018848778     
  trcom cur sum  =    8987.64018848779     
  
  antenna # iant =            4
  powecha_use(iant) =    559339.376550467     
  ps_ts2 prof sum =   558978.234106128     
  trcom prof sum =    558978.234106127     
  ps_ts2 cur sum  =   12644.9703683056     
  trcom cur sum  =    12644.9703683056     
  
  antenna # iant =            5
  powecha_use(iant) =    548558.344939424     
  ps_ts2 prof sum =   548253.726658327     
  trcom prof sum =    548253.726658327     
  ps_ts2 cur sum  =   14919.9698129586     
  trcom cur sum  =    14919.9698129586     
  
  Total ECH heating:      2998329.49607017     
  Total Current Drive:    67464.7465366190     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2017
 TA= 2.33500E+00 CPU TIME= 1.60832E-01 SECONDS.  DT= 2.21188E-03
  
 TEC1=    2.33499999999997     
 TEC2=    2.33999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.36876805555494     
  %check_save_state: izleft hours =    74.6227777777778     
 --> plasma_hash("gframe"): TA= 2.335000E+00 NSTEP=  2017 Hash code:   92592829
 ->PRGCHK: bdy curvature ratio at t= 2.3400E+00 seconds is:  5.5896E-02
% MHDEQ: TG1=     2.335000 ; TG2=     2.340000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5896E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.335000 TO TG2=    2.340000 @ NSTEP     2017
   GFRAME TG2 MOMENTS CHECKSUM:  2.4792631486594D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.97241E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.39952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.63051E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.39813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.36259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.62331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.98119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  9.77937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.67024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.03425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.03183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.43923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  3.35062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  2.08673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.23808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.25575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.89675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.41003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.51932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.72322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.45401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.45401E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3400E+00  2.3450E+00 total power(Watts):  2.3688E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.34000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.369174E+02    0.407619E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.349576E+02    0.408106E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.363709E+02    0.391672E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.385639E+02    0.397206E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.383432E+02    0.417630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.361050E+02    0.424069E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.342446E+02    0.434452E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.332300E+02    0.420410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.330942E+02    0.403262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.340628E+02    0.386602E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.357361E+02    0.375454E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.377749E+02    0.372756E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.396420E+02    0.379529E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.407978E+02    0.394130E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.408392E+02    0.412477E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.398028E+02    0.429158E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.380788E+02    0.439559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.359580E+02    0.441526E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.340528E+02    0.462429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.314206E+02    0.445245E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.301048E+02    0.418691E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.307178E+02    0.388164E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.330024E+02    0.361344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.363505E+02    0.346127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.399056E+02    0.347837E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.428339E+02    0.366200E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.443935E+02    0.395775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.436589E+02    0.428596E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.411423E+02    0.454117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.375037E+02    0.465968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.382846E+02    0.316657E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.362883E+02    0.318211E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.378749E+02    0.299111E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.400335E+02    0.304329E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.398529E+02    0.326241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.374890E+02    0.334770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.355197E+02    0.347173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.344652E+02    0.332536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.342948E+02    0.314539E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.352467E+02    0.296457E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.371906E+02    0.282117E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.392672E+02    0.278247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.411881E+02    0.284488E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.423041E+02    0.299828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.423886E+02    0.319280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.412685E+02    0.338222E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.394360E+02    0.350660E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.373690E+02    0.353649E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.352796E+02    0.378110E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.324959E+02    0.361029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.313567E+02    0.331966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.319259E+02    0.299211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.342024E+02    0.269575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.378450E+02    0.249688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.415762E+02    0.249179E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.445141E+02    0.267844E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.458682E+02    0.299623E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.451981E+02    0.334925E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.423785E+02    0.365284E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.387937E+02    0.380315E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.366245E+02    0.461951E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.346785E+02    0.461786E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.360922E+02    0.446694E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.382656E+02    0.452674E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.381261E+02    0.471591E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.358987E+02    0.476876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.340427E+02    0.486119E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.329599E+02    0.472835E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.328332E+02    0.456676E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.337228E+02    0.441464E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.353906E+02    0.431274E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.374138E+02    0.429302E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.392567E+02    0.436416E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.405829E+02    0.450448E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.407086E+02    0.467599E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.395726E+02    0.482859E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.379484E+02    0.492023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.357448E+02    0.493203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.338430E+02    0.512732E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.312360E+02    0.495602E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.300162E+02    0.469891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.305674E+02    0.441446E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.326991E+02    0.417016E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.359434E+02    0.403926E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.395537E+02    0.406370E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.426371E+02    0.424458E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.440563E+02    0.453673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.434092E+02    0.483933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.408973E+02    0.506882E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.374577E+02    0.517018E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.374325E+02    0.366543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.355458E+02    0.367149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.369605E+02    0.349729E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.391763E+02    0.354918E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.389706E+02    0.376298E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.367172E+02    0.383480E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.347582E+02    0.394868E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.337306E+02    0.380587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.336611E+02    0.362534E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.346266E+02    0.344927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.363055E+02    0.333045E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.384517E+02    0.329299E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.402484E+02    0.336305E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.414274E+02    0.351108E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.414845E+02    0.370255E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.404533E+02    0.387848E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.386286E+02    0.399235E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.365816E+02    0.401558E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.345809E+02    0.424122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.319197E+02    0.406633E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.306547E+02    0.379243E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.311729E+02    0.347836E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.334524E+02    0.319708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.368949E+02    0.303051E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.405746E+02    0.303483E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.435532E+02    0.321326E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.450551E+02    0.351638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.441370E+02    0.386657E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.417222E+02    0.413505E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.380599E+02    0.427098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.388112E+02    0.247076E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.367918E+02    0.249430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.383634E+02    0.228698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.405603E+02    0.233427E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.403193E+02    0.257311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.379442E+02    0.267241E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.357979E+02    0.282136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.348815E+02    0.265883E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.348503E+02    0.245598E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.358743E+02    0.225481E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.375571E+02    0.212125E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.398304E+02    0.205962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.417876E+02    0.211640E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.429466E+02    0.227153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.429678E+02    0.248272E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.417699E+02    0.269450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.399392E+02    0.283103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.377634E+02    0.287473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.356923E+02    0.313412E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.328505E+02    0.296895E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.317336E+02    0.266363E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.323433E+02    0.230903E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.346821E+02    0.198937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.383336E+02    0.177366E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.422022E+02    0.174800E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.452179E+02    0.192692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.465528E+02    0.225410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.456259E+02    0.264748E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.429399E+02    0.297077E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.392481E+02    0.314492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    73024.0122682519     
  ps_ts2 prof sum =   72981.0153291688     
  trcom prof sum =    72981.0153291687     
  ps_ts2 cur sum  =   1483.29259208254     
  trcom cur sum  =    1483.29259208254     
  
  antenna # iant =            2
  powecha_use(iant) =    671863.188265457     
  ps_ts2 prof sum =   671463.710086752     
  trcom prof sum =    671463.710086751     
  ps_ts2 cur sum  =   16653.4993795810     
  trcom cur sum  =    16653.4993795810     
  
  antenna # iant =            3
  powecha_use(iant) =    523143.847379623     
  ps_ts2 prof sum =   522825.862118762     
  trcom prof sum =    522825.862118763     
  ps_ts2 cur sum  =   8934.82581811270     
  trcom cur sum  =    8934.82581811271     
  
  antenna # iant =            4
  powecha_use(iant) =    551924.811964306     
  ps_ts2 prof sum =   551622.057340100     
  trcom prof sum =    551622.057340099     
  ps_ts2 cur sum  =   12429.7315837100     
  trcom cur sum  =    12429.7315837100     
  
  antenna # iant =            5
  powecha_use(iant) =    548839.147824649     
  ps_ts2 prof sum =   548556.781993758     
  trcom prof sum =    548556.781993758     
  ps_ts2 cur sum  =   14853.8322785648     
  trcom cur sum  =    14853.8322785648     
  
  Total ECH heating:      2367449.42686854     
  Total Current Drive:    54355.1816520510     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2020
 TA= 2.34000E+00 CPU TIME= 1.59668E-01 SECONDS.  DT= 2.90905E-05
  
 TEC1=    2.33999999999997     
 TEC2=    2.34499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.38335777777752     
  %check_save_state: izleft hours =    74.6083333333333     
 --> plasma_hash("gframe"): TA= 2.340000E+00 NSTEP=  2020 Hash code:    9189615
 ->PRGCHK: bdy curvature ratio at t= 2.3450E+00 seconds is:  5.5899E-02
% MHDEQ: TG1=     2.340000 ; TG2=     2.345000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0730E-03 SECONDS
   DATA R*BT AT EDGE:  2.7633E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5899E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.340000 TO TG2=    2.345000 @ NSTEP     2020
   GFRAME TG2 MOMENTS CHECKSUM:  2.4799101019909D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  2.3450E+00  2.3500E+00 total power(Watts):  2.3923E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.34500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.369335E+02    0.407590E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.349729E+02    0.408069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.364762E+02    0.391314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.385760E+02    0.397196E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.384534E+02    0.417362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.362108E+02    0.423777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.342585E+02    0.434377E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.332448E+02    0.420359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.331920E+02    0.402908E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.340779E+02    0.386559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.357520E+02    0.375400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.378835E+02    0.372318E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.396592E+02    0.379491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.408154E+02    0.394112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.408572E+02    0.412461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.399170E+02    0.428916E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.380973E+02    0.439491E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.360638E+02    0.441281E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.340682E+02    0.462373E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.314345E+02    0.445193E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.301964E+02    0.418341E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.307321E+02    0.388106E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.329349E+02    0.361688E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.363667E+02    0.345994E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.400184E+02    0.347282E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.429526E+02    0.365782E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.444127E+02    0.395770E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.436782E+02    0.428572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.410621E+02    0.454208E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.375199E+02    0.465932E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.383012E+02    0.316455E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.363922E+02    0.317465E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.378911E+02    0.298902E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.400532E+02    0.304107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.398707E+02    0.326050E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.376010E+02    0.334093E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.356226E+02    0.346586E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.343962E+02    0.332849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.344786E+02    0.313210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.354342E+02    0.295061E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.372068E+02    0.281944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.393766E+02    0.277479E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.412057E+02    0.284320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.424208E+02    0.299090E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.424076E+02    0.319082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.412871E+02    0.338059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.394535E+02    0.350541E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.373856E+02    0.353537E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.352953E+02    0.378059E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.325105E+02    0.360936E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.313702E+02    0.331791E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.320203E+02    0.298386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.342998E+02    0.268775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.378589E+02    0.249607E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.415925E+02    0.249107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.446341E+02    0.267121E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.460961E+02    0.298381E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.451123E+02    0.335197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.424958E+02    0.364846E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.389041E+02    0.379934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.366394E+02    0.461921E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.346943E+02    0.461734E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.361097E+02    0.446633E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.382819E+02    0.452637E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.381437E+02    0.471539E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.359150E+02    0.476811E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.340589E+02    0.486006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.329747E+02    0.472771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.329327E+02    0.456447E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.338235E+02    0.441198E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.354954E+02    0.430982E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.375230E+02    0.429026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.393701E+02    0.436171E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.405034E+02    0.450535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.407269E+02    0.467559E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.397833E+02    0.482674E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.378728E+02    0.491945E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.358517E+02    0.493017E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.338600E+02    0.512510E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.312500E+02    0.495430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.299535E+02    0.469951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.305034E+02    0.441587E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.326307E+02    0.417241E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.360480E+02    0.403596E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.395713E+02    0.406344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.425562E+02    0.424611E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.440759E+02    0.453642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133628E+03   -0.434290E+02    0.483872E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.410157E+02    0.506707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.373836E+02    0.516763E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.375398E+02    0.366088E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.355615E+02    0.367074E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.370656E+02    0.349168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.391936E+02    0.354820E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.389877E+02    0.376247E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.367335E+02    0.383440E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.348598E+02    0.394510E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.337430E+02    0.380544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.336762E+02    0.362458E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.346421E+02    0.344786E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.364101E+02    0.332381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.384685E+02    0.329130E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.403623E+02    0.335664E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.414455E+02    0.350993E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.415024E+02    0.370200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.404710E+02    0.387815E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.386456E+02    0.399211E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.365979E+02    0.401521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.345970E+02    0.424064E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.319339E+02    0.406579E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.306685E+02    0.379184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.312660E+02    0.347226E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.334670E+02    0.319497E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.369995E+02    0.302268E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.406876E+02    0.302732E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.435726E+02    0.321141E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.449720E+02    0.351905E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.443609E+02    0.386058E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.416422E+02    0.413706E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.380770E+02    0.427051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.388262E+02    0.246996E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.368054E+02    0.249348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.383818E+02    0.228602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.406701E+02    0.232641E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.404290E+02    0.256560E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.380496E+02    0.266464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.359869E+02    0.280707E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.348105E+02    0.266445E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.347807E+02    0.246240E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.358026E+02    0.226198E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.377477E+02    0.210477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.399370E+02    0.205116E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.418030E+02    0.211605E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.429627E+02    0.227107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.429846E+02    0.248196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.418837E+02    0.268701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.399561E+02    0.282935E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.377797E+02    0.287294E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.357082E+02    0.313195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.328657E+02    0.296687E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.317456E+02    0.266239E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.324345E+02    0.230042E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.346948E+02    0.198873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.382586E+02    0.178180E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.422167E+02    0.174745E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.452337E+02    0.192663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.465698E+02    0.225378E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.458501E+02    0.263419E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.429586E+02    0.296885E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.393606E+02    0.313758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    90577.9992824897     
  ps_ts2 prof sum =   90521.4172081163     
  trcom prof sum =    90521.4172081162     
  ps_ts2 cur sum  =   1834.83226375258     
  trcom cur sum  =    1834.83226375257     
  
  antenna # iant =            2
  powecha_use(iant) =    674505.916457094     
  ps_ts2 prof sum =   674117.147658161     
  trcom prof sum =    674117.147658161     
  ps_ts2 cur sum  =   16662.3114819906     
  trcom cur sum  =    16662.3114819906     
  
  antenna # iant =            3
  powecha_use(iant) =    525090.210204010     
  ps_ts2 prof sum =   524719.371138788     
  trcom prof sum =    524719.371138789     
  ps_ts2 cur sum  =   8952.03190351101     
  trcom cur sum  =    8952.03190351101     
  
  antenna # iant =            4
  powecha_use(iant) =    553077.267161010     
  ps_ts2 prof sum =   552751.941493718     
  trcom prof sum =    552751.941493717     
  ps_ts2 cur sum  =   12417.4637412241     
  trcom cur sum  =    12417.4637412241     
  
  antenna # iant =            5
  powecha_use(iant) =    549092.672081580     
  ps_ts2 prof sum =   548784.297752870     
  trcom prof sum =    548784.297752870     
  ps_ts2 cur sum  =   14801.0529551080     
  trcom cur sum  =    14801.0529551080     
  
  Total ECH heating:      2390894.17525165     
  Total Current Drive:    54667.6923455863     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2037
 TA= 2.34500E+00 CPU TIME= 1.61406E-01 SECONDS.  DT= 1.22794E-03
  
 TEC1=    2.34499999999997     
 TEC2=    2.34999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    5.39632888888855     
  %check_save_state: izleft hours =    74.5952777777778     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  2.3450000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 2.345000E+00 NSTEP=  2037 Hash code:   31041406
 ->PRGCHK: bdy curvature ratio at t= 2.3500E+00 seconds is:  5.5907E-02
% MHDEQ: TG1=     2.345000 ; TG2=     2.350000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7616E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5907E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.345000 TO TG2=    2.350000 @ NSTEP     2037
   GFRAME TG2 MOMENTS CHECKSUM:  2.4805570553224D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.59178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.37544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -5.76668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.18918E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.83045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.62809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.99734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  8.32871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.65607E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.55743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -5.86135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.54746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.68502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12= -3.50405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.37072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.97795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.68618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.57567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.73473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.42534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.42534E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3500E+00  2.3550E+00 total power(Watts):  2.9626E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.35000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.369503E+02    0.407542E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.350754E+02    0.407736E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.364926E+02    0.391267E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.386905E+02    0.396854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.384709E+02    0.417312E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.362276E+02    0.423709E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.343600E+02    0.434075E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.332606E+02    0.420283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.332067E+02    0.402864E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.340084E+02    0.386850E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.358551E+02    0.374964E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.378996E+02    0.372254E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.397721E+02    0.379092E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.408332E+02    0.394083E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.409729E+02    0.412189E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.399352E+02    0.428849E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.381150E+02    0.439403E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.360807E+02    0.441198E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.340852E+02    0.462303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.315263E+02    0.444917E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.302112E+02    0.418258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.307464E+02    0.388044E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.329498E+02    0.361590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.363829E+02    0.345861E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.400359E+02    0.347152E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.429713E+02    0.365703E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.445345E+02    0.395486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.438000E+02    0.428346E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.412782E+02    0.453895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.376303E+02    0.465752E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.384144E+02    0.315682E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.364086E+02    0.317254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.379078E+02    0.298680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.401636E+02    0.303343E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.398887E+02    0.325853E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.376132E+02    0.333944E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.356381E+02    0.346451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.345811E+02    0.331669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.344933E+02    0.312989E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.353642E+02    0.295441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.371336E+02    0.282397E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.393930E+02    0.277320E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.413191E+02    0.283549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.424398E+02    0.298868E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.425251E+02    0.318380E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.414024E+02    0.337453E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.395650E+02    0.350001E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.374022E+02    0.353427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.353974E+02    0.377634E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.326882E+02    0.359976E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.313857E+02    0.331595E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.320344E+02    0.298161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.343155E+02    0.268631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.378743E+02    0.249495E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.417044E+02    0.248326E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.446513E+02    0.266996E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.460123E+02    0.298684E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.453382E+02    0.334177E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.425139E+02    0.364783E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.389213E+02    0.379874E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.366579E+02    0.461849E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.347985E+02    0.461526E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.362156E+02    0.446390E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.383005E+02    0.452570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.381612E+02    0.471472E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.360216E+02    0.476626E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.340757E+02    0.485883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.330748E+02    0.472565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.329480E+02    0.456386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.338394E+02    0.441112E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.355116E+02    0.430900E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.375401E+02    0.428952E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.393885E+02    0.436090E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.407170E+02    0.450203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.408432E+02    0.467423E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.398015E+02    0.482592E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.378898E+02    0.491794E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.358689E+02    0.492867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.338761E+02    0.512293E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.312649E+02    0.495271E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.301233E+02    0.469586E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.305179E+02    0.441503E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.328107E+02    0.416629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.360640E+02    0.403554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.396837E+02    0.406055E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.427756E+02    0.424192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.440971E+02    0.453576E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133357E+03   -0.435517E+02    0.483756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.410363E+02    0.506515E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.374028E+02    0.516540E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.375563E+02    0.366005E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.355769E+02    0.366998E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.370819E+02    0.349051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.393045E+02    0.354303E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.390985E+02    0.375827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.368394E+02    0.383032E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.348757E+02    0.394463E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.336740E+02    0.380854E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.336078E+02    0.362782E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.345718E+02    0.345118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.364261E+02    0.332194E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.384861E+02    0.328934E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.403800E+02    0.335510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.415613E+02    0.350470E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.415210E+02    0.370133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.404884E+02    0.387784E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.386623E+02    0.399178E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.366141E+02    0.401480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.346128E+02    0.423990E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.318678E+02    0.406830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.306825E+02    0.379115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.312800E+02    0.347089E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.336472E+02    0.318197E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.370160E+02    0.302043E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.407059E+02    0.302503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.436931E+02    0.320435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.451968E+02    0.351038E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134100E+03   -0.443800E+02    0.386031E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.416608E+02    0.413679E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.380947E+02    0.426979E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.389320E+02    0.246195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.367331E+02    0.249943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.384856E+02    0.227780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.406852E+02    0.232563E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.404453E+02    0.256443E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.380654E+02    0.266339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.359155E+02    0.281163E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.348255E+02    0.266312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.347948E+02    0.246134E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.358161E+02    0.226115E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.377612E+02    0.210421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.399507E+02    0.205065E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.419130E+02    0.210784E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.430758E+02    0.226325E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.430030E+02    0.248095E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.419010E+02    0.268578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.399730E+02    0.282758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.378859E+02    0.286495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.356374E+02    0.313514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.329617E+02    0.295864E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.317594E+02    0.266099E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.324476E+02    0.229958E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.347902E+02    0.197964E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.384487E+02    0.176369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.422305E+02    0.174699E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.453493E+02    0.191842E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.466899E+02    0.224625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.457657E+02    0.263928E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.430768E+02    0.296114E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.393766E+02    0.313538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657311.787037912     
  ps_ts2 prof sum =   656894.149133614     
  trcom prof sum =    656894.149133613     
  ps_ts2 cur sum  =   13276.0582137047     
  trcom cur sum  =    13276.0582137047     
  
  antenna # iant =            2
  powecha_use(iant) =    673323.145863186     
  ps_ts2 prof sum =   672928.755090202     
  trcom prof sum =    672928.755090201     
  ps_ts2 cur sum  =   16570.8173930810     
  trcom cur sum  =    16570.8173930811     
  
  antenna # iant =            3
  powecha_use(iant) =    523674.743195060     
  ps_ts2 prof sum =   523337.267739899     
  trcom prof sum =    523337.267739899     
  ps_ts2 cur sum  =   8910.50633138065     
  trcom cur sum  =    8910.50633138065     
  
  antenna # iant =            4
  powecha_use(iant) =    558424.533741305     
  ps_ts2 prof sum =   558053.087229725     
  trcom prof sum =    558053.087229724     
  ps_ts2 cur sum  =   12495.2616796409     
  trcom cur sum  =    12495.2616796409     
  
  antenna # iant =            5
  powecha_use(iant) =    549856.679984526     
  ps_ts2 prof sum =   549517.105648805     
  trcom prof sum =    549517.105648805     
  ps_ts2 cur sum  =   14758.5689544565     
  trcom cur sum  =    14758.5689544566     
  
  Total ECH heating:      2960730.36484224     
  Total Current Drive:    66011.2125722639     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2041
 TA= 2.35000E+00 CPU TIME= 1.62270E-01 SECONDS.  DT= 3.98091E-04
  
 TEC1=    2.34999999999997     
 TEC2=    2.35499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.41100111111109     
  %check_save_state: izleft hours =    74.5805555555555     
 --> plasma_hash("gframe"): TA= 2.350000E+00 NSTEP=  2041 Hash code:   58435980
 ->PRGCHK: bdy curvature ratio at t= 2.3550E+00 seconds is:  5.5919E-02
% MHDEQ: TG1=     2.350000 ; TG2=     2.355000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7599E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5919E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.350000 TO TG2=    2.355000 @ NSTEP     2041
   GFRAME TG2 MOMENTS CHECKSUM:  2.4812040086539D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3550E+00  2.3600E+00 total power(Watts):  2.9464E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.35500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.370584E+02    0.407258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.350925E+02    0.407716E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.365101E+02    0.391246E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.387095E+02    0.396839E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.384901E+02    0.417290E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.362457E+02    0.423670E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.343772E+02    0.434024E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.333606E+02    0.419980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.332231E+02    0.402836E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.341939E+02    0.386122E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.358725E+02    0.374925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.379178E+02    0.372215E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.397908E+02    0.379072E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.409500E+02    0.393784E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.409927E+02    0.412190E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.399576E+02    0.428816E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.382269E+02    0.439185E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.360987E+02    0.441152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.341876E+02    0.462142E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.315453E+02    0.444867E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.302258E+02    0.418211E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.309170E+02    0.387286E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.331301E+02    0.360660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.364890E+02    0.345287E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.400554E+02    0.347040E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.431919E+02    0.364943E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133784E+03   -0.445555E+02    0.395495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133799E+03   -0.438211E+02    0.428341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.412980E+02    0.453884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.376485E+02    0.465741E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.384297E+02    0.315490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.364269E+02    0.317040E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.380174E+02    0.297888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.401835E+02    0.303122E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.400027E+02    0.325176E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.376321E+02    0.333770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.356558E+02    0.346338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.345978E+02    0.331499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.344272E+02    0.313319E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.355530E+02    0.294035E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.373290E+02    0.280970E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.394117E+02    0.277159E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.413392E+02    0.283371E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.424607E+02    0.298647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.425462E+02    0.318169E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.414225E+02    0.337297E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.395842E+02    0.349910E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.375105E+02    0.352920E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.354144E+02    0.377595E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.326229E+02    0.360325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.314793E+02    0.330897E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.320511E+02    0.297952E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.343301E+02    0.268495E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.379807E+02    0.248694E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.417227E+02    0.248231E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.446720E+02    0.266883E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133840E+03   -0.462439E+02    0.297414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.452574E+02    0.334439E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.427329E+02    0.363999E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.389423E+02    0.379844E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.367662E+02    0.461712E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.348153E+02    0.461504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.362336E+02    0.446359E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.384125E+02    0.452413E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.382736E+02    0.471359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.360392E+02    0.476588E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.340931E+02    0.485786E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.330906E+02    0.472535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.329641E+02    0.456363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.338561E+02    0.441064E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.355292E+02    0.430854E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.375587E+02    0.428913E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.394077E+02    0.436058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.407368E+02    0.450186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.408633E+02    0.467410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.397253E+02    0.482592E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.380976E+02    0.491625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.358875E+02    0.492756E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.339817E+02    0.512098E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.313619E+02    0.495062E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.301382E+02    0.469547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.306897E+02    0.441026E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.328272E+02    0.416587E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.360814E+02    0.403540E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.397034E+02    0.406049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.427964E+02    0.424187E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133403E+03   -0.442204E+02    0.453483E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133313E+03   -0.435728E+02    0.483729E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.410573E+02    0.506364E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.376084E+02    0.516380E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.375745E+02    0.365954E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.356814E+02    0.366540E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.371894E+02    0.348504E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.393235E+02    0.354223E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.391174E+02    0.375795E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.368573E+02    0.383005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.348925E+02    0.394441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.338581E+02    0.380078E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.337904E+02    0.361865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.347593E+02    0.344061E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.364459E+02    0.332016E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.385969E+02    0.328261E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.403999E+02    0.335348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.415810E+02    0.350377E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.416385E+02    0.369736E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.406041E+02    0.387460E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.387745E+02    0.398879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.367204E+02    0.401177E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.346301E+02    0.423946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.320452E+02    0.406188E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.308533E+02    0.378282E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.312954E+02    0.346971E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.335820E+02    0.318521E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.371236E+02    0.301251E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.407264E+02    0.302284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.437145E+02    0.320232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.452189E+02    0.350940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.445031E+02    0.385732E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.418779E+02    0.413230E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.382063E+02    0.426731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.389495E+02    0.246098E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.369245E+02    0.248425E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.385019E+02    0.227704E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.407024E+02    0.232496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.404639E+02    0.256336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.380828E+02    0.266197E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.361059E+02    0.279709E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.350101E+02    0.264819E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.349778E+02    0.244557E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.360023E+02    0.224473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.376887E+02    0.211150E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.399672E+02    0.205013E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.419298E+02    0.210732E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.430939E+02    0.226256E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.431178E+02    0.247347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.419203E+02    0.268449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.400859E+02    0.281983E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.379045E+02    0.286304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.358285E+02    0.312203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.329782E+02    0.295650E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.318529E+02    0.265267E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.324617E+02    0.229865E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.348047E+02    0.197889E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.384638E+02    0.176313E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.423419E+02    0.173799E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.453668E+02    0.191815E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.467090E+02    0.224578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.459913E+02    0.262585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.430978E+02    0.295914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.393964E+02    0.313324E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    648995.803712949     
  ps_ts2 prof sum =   648627.350231723     
  trcom prof sum =    648627.350231723     
  ps_ts2 cur sum  =   13087.9643184742     
  trcom cur sum  =    13087.9643184741     
  
  antenna # iant =            2
  powecha_use(iant) =    669372.498133600     
  ps_ts2 prof sum =   668981.781096834     
  trcom prof sum =    668981.781096833     
  ps_ts2 cur sum  =   16435.9318252826     
  trcom cur sum  =    16435.9318252827     
  
  antenna # iant =            3
  powecha_use(iant) =    525394.320986305     
  ps_ts2 prof sum =   525071.998915654     
  trcom prof sum =    525071.998915654     
  ps_ts2 cur sum  =   8934.17556332538     
  trcom cur sum  =    8934.17556332538     
  
  antenna # iant =            4
  powecha_use(iant) =    554570.150866151     
  ps_ts2 prof sum =   554271.815471666     
  trcom prof sum =    554271.815471665     
  ps_ts2 cur sum  =   12384.6516714031     
  trcom cur sum  =    12384.6516714031     
  
  antenna # iant =            5
  powecha_use(iant) =    548034.924323476     
  ps_ts2 prof sum =   547758.301052333     
  trcom prof sum =    547758.301052332     
  ps_ts2 cur sum  =   14667.6361318213     
  trcom cur sum  =    14667.6361318213     
  
  Total ECH heating:      2944711.24676821     
  Total Current Drive:    65510.3595103065     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2048
 TA= 2.35500E+00 CPU TIME= 1.60431E-01 SECONDS.  DT= 6.47473E-04
  
 TEC1=    2.35499999999997     
 TEC2=    2.35999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.42619305555559     
  %check_save_state: izleft hours =    74.5652777777778     
 --> plasma_hash("gframe"): TA= 2.355000E+00 NSTEP=  2048 Hash code:   73255562
 ->PRGCHK: bdy curvature ratio at t= 2.3600E+00 seconds is:  5.5991E-02
% MHDEQ: TG1=     2.355000 ; TG2=     2.360000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7612E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5991E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.355000 TO TG2=    2.360000 @ NSTEP     2048
   GFRAME TG2 MOMENTS CHECKSUM:  2.4804713963067D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.77543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.56421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -4.46209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  2.64639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.69449E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.57599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.94108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  5.25564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.79983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.06204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.16163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.09499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.19168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -5.31439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.48569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.25875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.01344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.67409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.37405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.68065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.29345E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.29345E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3600E+00  2.3650E+00 total power(Watts):  2.9403E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.36000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.369758E+02    0.407867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.350997E+02    0.408045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.365189E+02    0.391622E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.386245E+02    0.397518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.384966E+02    0.417632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.362515E+02    0.423987E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.342964E+02    0.434516E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.332830E+02    0.420539E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.332300E+02    0.403173E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.341187E+02    0.386829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.358828E+02    0.375305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.379290E+02    0.372605E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.398008E+02    0.379490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.408620E+02    0.394474E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.410001E+02    0.412554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.399625E+02    0.429150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.381388E+02    0.439653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.361033E+02    0.441423E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.341055E+02    0.462442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.313890E+02    0.445485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.302318E+02    0.418492E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.307682E+02    0.388342E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.329773E+02    0.361860E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.364146E+02    0.346097E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.400695E+02    0.347433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.430045E+02    0.366090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.443598E+02    0.396454E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133794E+03   -0.438274E+02    0.428714E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.413022E+02    0.454142E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.376516E+02    0.465913E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.384469E+02    0.315872E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.364437E+02    0.317408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.379460E+02    0.298848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.402030E+02    0.303530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.399254E+02    0.326053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.376475E+02    0.334138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.356693E+02    0.346693E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.346127E+02    0.331845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.345277E+02    0.313123E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.354002E+02    0.295599E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.372605E+02    0.281988E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.394329E+02    0.277577E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.413617E+02    0.283794E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.424813E+02    0.299083E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.424662E+02    0.319073E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.414387E+02    0.337689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.395977E+02    0.350294E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.374334E+02    0.353718E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.354245E+02    0.377973E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.327157E+02    0.360249E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.314149E+02    0.331743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.320674E+02    0.298290E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.343505E+02    0.268870E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.379155E+02    0.249813E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.416527E+02    0.249363E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.446975E+02    0.267354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.460583E+02    0.298934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.453781E+02    0.334444E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.425470E+02    0.365152E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.389517E+02    0.380252E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.366794E+02    0.462014E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.348190E+02    0.461675E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.362380E+02    0.446607E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.383231E+02    0.452789E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.381837E+02    0.471581E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.359521E+02    0.476788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.340962E+02    0.485827E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.330107E+02    0.472744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.329682E+02    0.456539E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.338602E+02    0.441331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.355344E+02    0.431153E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.375641E+02    0.429232E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.394129E+02    0.436369E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.407413E+02    0.450458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.406716E+02    0.467756E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.398253E+02    0.482616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.379136E+02    0.491712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.358908E+02    0.492742E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.338992E+02    0.511968E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.312844E+02    0.495089E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.299858E+02    0.469929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.305371E+02    0.441690E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.328334E+02    0.416892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.360894E+02    0.403880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.396159E+02    0.406675E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.428028E+02    0.424559E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133627E+03   -0.441220E+02    0.453859E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133539E+03   -0.434740E+02    0.483854E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.410615E+02    0.506265E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.374268E+02    0.516178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.375862E+02    0.366337E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.356051E+02    0.367320E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.371137E+02    0.349317E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.393370E+02    0.354614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.391284E+02    0.376204E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.367773E+02    0.383738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.349005E+02    0.394801E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.336998E+02    0.381174E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.336338E+02    0.363066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.346877E+02    0.344868E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.364602E+02    0.332381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.385214E+02    0.329126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.404159E+02    0.335733E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.415958E+02    0.350780E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.415522E+02    0.370522E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.405174E+02    0.388178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.386892E+02    0.399546E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.366371E+02    0.401827E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.346357E+02    0.424251E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.318910E+02    0.407092E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.307069E+02    0.379406E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.313071E+02    0.347300E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.336806E+02    0.318326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.370531E+02    0.302196E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.407460E+02    0.302698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.437333E+02    0.320663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.452341E+02    0.351385E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134050E+03   -0.444115E+02    0.386475E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.416881E+02    0.414049E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.381191E+02    0.427270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.388832E+02    0.247224E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.367732E+02    0.250248E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.384387E+02    0.228872E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.407295E+02    0.232933E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.404883E+02    0.256772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.381051E+02    0.266618E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.359526E+02    0.281364E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.348625E+02    0.266560E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.348334E+02    0.246417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.358565E+02    0.226429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.378044E+02    0.210765E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.399967E+02    0.205444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.419602E+02    0.211183E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.430253E+02    0.227453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.430464E+02    0.248482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.419439E+02    0.268896E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.400135E+02    0.283005E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.379247E+02    0.286701E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.357596E+02    0.313117E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.329949E+02    0.295996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.317940E+02    0.266317E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.324844E+02    0.230235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.348312E+02    0.198279E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.384947E+02    0.176752E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.422806E+02    0.175119E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.454012E+02    0.192304E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134062E+03   -0.468437E+02    0.224377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.458123E+02    0.264293E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.431191E+02    0.296349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.394143E+02    0.313716E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    642694.209855826     
  ps_ts2 prof sum =   642281.793970519     
  trcom prof sum =    642281.793970518     
  ps_ts2 cur sum  =   12904.4316395634     
  trcom cur sum  =    12904.4316395633     
  
  antenna # iant =            2
  powecha_use(iant) =    670867.234710300     
  ps_ts2 prof sum =   670492.736224036     
  trcom prof sum =    670492.736224035     
  ps_ts2 cur sum  =   16432.2676926222     
  trcom cur sum  =    16432.2676926222     
  
  antenna # iant =            3
  powecha_use(iant) =    525629.599368787     
  ps_ts2 prof sum =   525269.776976747     
  trcom prof sum =    525269.776976748     
  ps_ts2 cur sum  =   8889.40586741734     
  trcom cur sum  =    8889.40586741734     
  
  antenna # iant =            4
  powecha_use(iant) =    552206.468611020     
  ps_ts2 prof sum =   551862.267300008     
  trcom prof sum =    551862.267300007     
  ps_ts2 cur sum  =   12290.2132780054     
  trcom cur sum  =    12290.2132780054     
  
  antenna # iant =            5
  powecha_use(iant) =    548951.816250495     
  ps_ts2 prof sum =   548636.357736150     
  trcom prof sum =    548636.357736149     
  ps_ts2 cur sum  =   14669.8770190644     
  trcom cur sum  =    14669.8770190644     
  
  Total ECH heating:      2938542.93220746     
  Total Current Drive:    65186.1954966726     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2053
 TA= 2.36000E+00 CPU TIME= 1.65172E-01 SECONDS.  DT= 1.58364E-03
  
 TEC1=    2.35999999999997     
 TEC2=    2.36499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.44222388888829     
  %check_save_state: izleft hours =    74.5494444444444     
 --> plasma_hash("gframe"): TA= 2.360000E+00 NSTEP=  2053 Hash code:   58017449
 ->PRGCHK: bdy curvature ratio at t= 2.3650E+00 seconds is:  5.5950E-02
% MHDEQ: TG1=     2.360000 ; TG2=     2.365000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7626E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5950E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.360000 TO TG2=    2.365000 @ NSTEP     2053
   GFRAME TG2 MOMENTS CHECKSUM:  2.4797387839594D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3650E+00  2.3700E+00 total power(Watts):  2.9484E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.36500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.369821E+02    0.408239E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.350197E+02    0.408665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.365268E+02    0.392008E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.386327E+02    0.397905E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.385028E+02    0.417983E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.362563E+02    0.424317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.343008E+02    0.434799E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.332888E+02    0.420845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.330714E+02    0.404099E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.341268E+02    0.387213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.358051E+02    0.376066E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.378482E+02    0.373387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.397158E+02    0.380249E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.408705E+02    0.394898E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.409089E+02    0.413180E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.398704E+02    0.429680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.381426E+02    0.439955E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.361073E+02    0.441693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.341081E+02    0.462598E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.314736E+02    0.445504E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.303149E+02    0.418506E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.307753E+02    0.388688E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.330710E+02    0.361810E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.364279E+02    0.346489E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.400840E+02    0.347849E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.431170E+02    0.366205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.444710E+02    0.396671E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.437306E+02    0.429263E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.411089E+02    0.454622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.375625E+02    0.466174E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.383729E+02    0.316797E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.364601E+02    0.317798E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.379655E+02    0.299261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.401278E+02    0.304499E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.399422E+02    0.326470E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.376627E+02    0.334539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.355955E+02    0.347529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.344576E+02    0.333217E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.343756E+02    0.314596E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.355046E+02    0.295393E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.372823E+02    0.282393E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.394562E+02    0.278004E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.412876E+02    0.284836E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.425023E+02    0.299535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.424847E+02    0.319515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.413574E+02    0.338561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.395176E+02    0.351127E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.374465E+02    0.354112E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.353471E+02    0.378732E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.325637E+02    0.361469E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.314287E+02    0.332085E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.320847E+02    0.298650E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.344548E+02    0.268596E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.379397E+02    0.250244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.416787E+02    0.249835E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.447231E+02    0.267841E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.461840E+02    0.298908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.451888E+02    0.335766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.425593E+02    0.365607E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.388665E+02    0.381018E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.366821E+02    0.462191E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.347342E+02    0.461975E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.361522E+02    0.447015E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.383260E+02    0.453026E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.381864E+02    0.471713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.359546E+02    0.476877E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.340994E+02    0.485836E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.330131E+02    0.472845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.328879E+02    0.456876E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.338647E+02    0.441570E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.355391E+02    0.431453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.375694E+02    0.429549E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.394172E+02    0.436694E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.405497E+02    0.450980E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.407721E+02    0.467852E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.398280E+02    0.482693E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.380102E+02    0.491667E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.358037E+02    0.492772E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.339024E+02    0.511814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.312864E+02    0.495050E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.299886E+02    0.470026E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.306196E+02    0.441707E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.327571E+02    0.417466E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.360077E+02    0.404528E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.396230E+02    0.407061E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.427085E+02    0.425117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.441251E+02    0.454151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.434770E+02    0.483939E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133924E+03   -0.410650E+02    0.506164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.375238E+02    0.516011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.375066E+02    0.367125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.356158E+02    0.367715E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.371274E+02    0.349703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.392562E+02    0.355425E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.390442E+02    0.376980E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.367861E+02    0.384141E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.348222E+02    0.395478E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.337929E+02    0.381181E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.337275E+02    0.363033E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.347003E+02    0.345251E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.364746E+02    0.332773E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.385372E+02    0.329522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.404322E+02    0.336139E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.415123E+02    0.351613E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.415636E+02    0.370964E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.405264E+02    0.388608E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.386972E+02    0.399930E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.366432E+02    0.402205E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.346404E+02    0.424573E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.319777E+02    0.407128E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.307155E+02    0.379759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.313195E+02    0.347650E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.335304E+02    0.319771E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.370721E+02    0.302601E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.407657E+02    0.303131E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.436509E+02    0.321599E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.450427E+02    0.352605E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.444212E+02    0.386958E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.416945E+02    0.414451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.381242E+02    0.427600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.389083E+02    0.247665E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.368843E+02    0.249961E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.384656E+02    0.229313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.407571E+02    0.233389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.405136E+02    0.257223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.381286E+02    0.267036E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.360608E+02    0.281133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.348839E+02    0.266950E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.348559E+02    0.246821E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.359672E+02    0.226076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.376561E+02    0.212785E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.399347E+02    0.206686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.418952E+02    0.212420E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.430548E+02    0.227929E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.430732E+02    0.248968E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.419688E+02    0.269354E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.400357E+02    0.283442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.378552E+02    0.287724E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.357759E+02    0.313503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.329318E+02    0.296970E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.318137E+02    0.266692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.324286E+02    0.231393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.347763E+02    0.199524E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.383491E+02    0.178918E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.423153E+02    0.175597E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.453353E+02    0.193600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.466692E+02    0.226297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.459421E+02    0.264200E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.430414E+02    0.297351E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.394324E+02    0.314131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    646425.752705409     
  ps_ts2 prof sum =   646047.096643366     
  trcom prof sum =    646047.096643366     
  ps_ts2 cur sum  =   12919.1900685094     
  trcom cur sum  =    12919.1900685093     
  
  antenna # iant =            2
  powecha_use(iant) =    669915.900862639     
  ps_ts2 prof sum =   669529.051170710     
  trcom prof sum =    669529.051170709     
  ps_ts2 cur sum  =   16370.6125919927     
  trcom cur sum  =    16370.6125919927     
  
  antenna # iant =            3
  powecha_use(iant) =    525018.985963395     
  ps_ts2 prof sum =   524694.503478255     
  trcom prof sum =    524694.503478256     
  ps_ts2 cur sum  =   8827.68566088397     
  trcom cur sum  =    8827.68566088397     
  
  antenna # iant =            4
  powecha_use(iant) =    557746.737868951     
  ps_ts2 prof sum =   557429.590968566     
  trcom prof sum =    557429.590968566     
  ps_ts2 cur sum  =   12370.2761899067     
  trcom cur sum  =    12370.2761899067     
  
  antenna # iant =            5
  powecha_use(iant) =    549271.039352914     
  ps_ts2 prof sum =   548962.753627219     
  trcom prof sum =    548962.753627219     
  ps_ts2 cur sum  =   14661.5254668421     
  trcom cur sum  =    14661.5254668421     
  
  Total ECH heating:      2946662.99588811     
  Total Current Drive:    65149.2899781348     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2056
 TA= 2.36500E+00 CPU TIME= 1.59953E-01 SECONDS.  DT= 1.79600E-03
  
 TEC1=    2.36499999999997     
 TEC2=    2.36999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.45449611111076     
  %check_save_state: izleft hours =    74.5369444444444     
 --> plasma_hash("gframe"): TA= 2.365000E+00 NSTEP=  2056 Hash code:   74539102
 ->PRGCHK: bdy curvature ratio at t= 2.3700E+00 seconds is:  5.5889E-02
% MHDEQ: TG1=     2.365000 ; TG2=     2.370000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5889E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.365000 TO TG2=    2.370000 @ NSTEP     2056
   GFRAME TG2 MOMENTS CHECKSUM:  2.4790061689809D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.48468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.92940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.96818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  8.97597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.82333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       4= -9.82334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.96820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.87354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.16960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.44730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  2.97127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.35013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.40822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.00618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.37858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.21493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.57146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.07164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.07164E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3700E+00  2.3750E+00 total power(Watts):  2.9554E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.37000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.369021E+02    0.408886E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.350295E+02    0.409043E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.364489E+02    0.392724E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.385507E+02    0.398610E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.384187E+02    0.418596E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.361758E+02    0.424883E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.343089E+02    0.435093E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.332133E+02    0.421434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.331645E+02    0.404166E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.340537E+02    0.387944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.358187E+02    0.376472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.378624E+02    0.373810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.397297E+02    0.380694E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.407856E+02    0.395614E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.409195E+02    0.413593E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.398772E+02    0.430061E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.380557E+02    0.440448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.360234E+02    0.442175E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.340277E+02    0.462917E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.313189E+02    0.446123E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.301678E+02    0.419368E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.307071E+02    0.389409E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.329196E+02    0.363026E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.363560E+02    0.347328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.400071E+02    0.348691E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.429327E+02    0.367368E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.443814E+02    0.397388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134014E+03   -0.437396E+02    0.429681E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.412141E+02    0.454792E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.375687E+02    0.466355E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.383946E+02    0.317196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.363928E+02    0.318705E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.378982E+02    0.300230E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.401516E+02    0.304921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.398686E+02    0.327354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.375913E+02    0.335400E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.356117E+02    0.347922E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.345607E+02    0.333087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.344803E+02    0.314416E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.353552E+02    0.296961E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.372178E+02    0.283418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.393895E+02    0.279053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.413147E+02    0.285282E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.424295E+02    0.300523E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.424083E+02    0.320432E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.413774E+02    0.338986E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.395352E+02    0.351546E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.373721E+02    0.354939E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.353606E+02    0.379125E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.326591E+02    0.361423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.313665E+02    0.332943E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.320259E+02    0.299614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.343124E+02    0.270316E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.378784E+02    0.251361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.416134E+02    0.250960E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.446525E+02    0.268927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.460022E+02    0.300434E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.453141E+02    0.335813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.424759E+02    0.366427E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.388794E+02    0.381449E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.365971E+02    0.462509E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.347412E+02    0.462157E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.361584E+02    0.447283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.382396E+02    0.453399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.380981E+02    0.471962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.358702E+02    0.477086E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.340179E+02    0.485971E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.330182E+02    0.472975E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.328928E+02    0.457089E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.337866E+02    0.442039E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.354590E+02    0.431988E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.374854E+02    0.430105E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.393289E+02    0.437207E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.406551E+02    0.451125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.405822E+02    0.468209E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.397373E+02    0.482850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.378283E+02    0.491788E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.358094E+02    0.492785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.338216E+02    0.511726E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.312104E+02    0.495108E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.300717E+02    0.470012E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.304697E+02    0.442354E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.327658E+02    0.417804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.360218E+02    0.404909E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.395383E+02    0.407726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.427168E+02    0.425549E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133849E+03   -0.440295E+02    0.454541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133764E+03   -0.433804E+02    0.484088E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.409722E+02    0.506101E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.373431E+02    0.515861E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.375215E+02    0.367543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.355428E+02    0.368504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.370538E+02    0.350544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.392733E+02    0.355854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.390584E+02    0.377416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.367095E+02    0.384872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.348330E+02    0.395870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.336370E+02    0.382284E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.335734E+02    0.364243E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.345464E+02    0.346540E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.364045E+02    0.333637E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.384651E+02    0.330403E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.403560E+02    0.337010E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.414327E+02    0.352445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.414807E+02    0.371765E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.404427E+02    0.389350E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.386150E+02    0.400628E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.365640E+02    0.402881E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.345633E+02    0.425126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.318253E+02    0.408066E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.306489E+02    0.380503E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.312563E+02    0.348474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.336326E+02    0.319599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.370054E+02    0.303558E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.406943E+02    0.304096E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.436746E+02    0.322032E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.451651E+02    0.352722E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.443330E+02    0.387724E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.416104E+02    0.415076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.380397E+02    0.428158E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.388460E+02    0.248789E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.367362E+02    0.251768E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.384063E+02    0.230482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.406952E+02    0.234563E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.404482E+02    0.258327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.380646E+02    0.268108E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.359109E+02    0.282779E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.348243E+02    0.268012E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.347983E+02    0.247937E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.358251E+02    0.228021E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.377768E+02    0.212426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.399691E+02    0.207143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.419309E+02    0.212886E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.429911E+02    0.229125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.430066E+02    0.250103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.419006E+02    0.270423E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.399727E+02    0.284441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.378800E+02    0.288128E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.357099E+02    0.314419E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.329532E+02    0.297334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.317589E+02    0.267748E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.324558E+02    0.231770E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.348076E+02    0.199927E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.384741E+02    0.178495E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.422590E+02    0.176924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.453755E+02    0.194110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.468098E+02    0.226132E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.457676E+02    0.265905E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.429679E+02    0.298340E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.393614E+02    0.315055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.52 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654249.584594919     
  ps_ts2 prof sum =   653839.668357779     
  trcom prof sum =    653839.668357779     
  ps_ts2 cur sum  =   13044.0764021801     
  trcom cur sum  =    13044.0764021801     
  
  antenna # iant =            2
  powecha_use(iant) =    671079.852907714     
  ps_ts2 prof sum =   670713.762821687     
  trcom prof sum =    670713.762821687     
  ps_ts2 cur sum  =   16387.8157799607     
  trcom cur sum  =    16387.8157799607     
  
  antenna # iant =            3
  powecha_use(iant) =    526252.993670349     
  ps_ts2 prof sum =   525903.929602215     
  trcom prof sum =    525903.929602216     
  ps_ts2 cur sum  =   8818.95786809128     
  trcom cur sum  =    8818.95786809128     
  
  antenna # iant =            4
  powecha_use(iant) =    556088.922169958     
  ps_ts2 prof sum =   555730.492515913     
  trcom prof sum =    555730.492515912     
  ps_ts2 cur sum  =   12313.1339210040     
  trcom cur sum  =    12313.1339210040     
  
  antenna # iant =            5
  powecha_use(iant) =    547699.045458270     
  ps_ts2 prof sum =   547388.469527321     
  trcom prof sum =    547388.469527321     
  ps_ts2 cur sum  =   14624.2215415080     
  trcom cur sum  =    14624.2215415080     
  
  Total ECH heating:      2953576.32282492     
  Total Current Drive:    65188.2055127440     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2059
 TA= 2.37000E+00 CPU TIME= 1.59874E-01 SECONDS.  DT= 1.19875E-03
  
 TEC1=    2.36999999999997     
 TEC2=    2.37499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.46785527777752     
  %check_save_state: izleft hours =    74.5236111111111     
 --> plasma_hash("gframe"): TA= 2.370000E+00 NSTEP=  2059 Hash code:   80181657
 ->PRGCHK: bdy curvature ratio at t= 2.3750E+00 seconds is:  5.5836E-02
% MHDEQ: TG1=     2.370000 ; TG2=     2.375000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5836E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.370000 TO TG2=    2.375000 @ NSTEP     2059
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782735540023D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3750E+00  2.3800E+00 total power(Watts):  2.9540E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.37500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.369115E+02    0.409284E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.349511E+02    0.409706E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.363709E+02    0.393460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.385614E+02    0.399048E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.383330E+02    0.419215E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.361825E+02    0.425249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.342292E+02    0.435600E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.332209E+02    0.421776E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.330897E+02    0.404856E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.340648E+02    0.388354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.357433E+02    0.377286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.377834E+02    0.374638E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.396473E+02    0.381497E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.407967E+02    0.396099E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.408308E+02    0.414249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.397875E+02    0.430614E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.380638E+02    0.440733E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.360305E+02    0.442446E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.340322E+02    0.463097E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.314033E+02    0.446180E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.302528E+02    0.419424E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.307169E+02    0.389796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.330155E+02    0.363038E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.363731E+02    0.347775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.399290E+02    0.349593E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.428478E+02    0.368228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.443925E+02    0.397918E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.436454E+02    0.430262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.411213E+02    0.455167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.374807E+02    0.466638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.383242E+02    0.318161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.363250E+02    0.319658E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.379215E+02    0.300690E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.400805E+02    0.305935E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.398886E+02    0.327821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.375186E+02    0.336315E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.355412E+02    0.348803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.344936E+02    0.333992E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.343311E+02    0.315918E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.354640E+02    0.296808E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.372431E+02    0.283874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.393235E+02    0.280133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.412446E+02    0.286355E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.423560E+02    0.301555E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.424312E+02    0.320923E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.412991E+02    0.339902E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.394575E+02    0.352442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.373881E+02    0.355402E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.352856E+02    0.379923E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.325090E+02    0.362686E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.313834E+02    0.333328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.319667E+02    0.300615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.342533E+02    0.271395E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.379079E+02    0.251812E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.416453E+02    0.251452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.445814E+02    0.270057E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.459241E+02    0.301489E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.451283E+02    0.337161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.423918E+02    0.367285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.387976E+02    0.382239E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.366019E+02    0.462711E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.346574E+02    0.462485E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.360755E+02    0.447688E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.382442E+02    0.453661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.381030E+02    0.472113E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.358757E+02    0.477188E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.340214E+02    0.486024E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.329395E+02    0.473198E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.328156E+02    0.457413E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.337917E+02    0.442308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.354650E+02    0.432318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.374920E+02    0.430457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.392410E+02    0.437696E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.404649E+02    0.451665E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.406853E+02    0.468331E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.395480E+02    0.483053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.379273E+02    0.491770E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.357230E+02    0.492858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.338262E+02    0.511611E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.312152E+02    0.495084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.299197E+02    0.470403E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.305519E+02    0.442412E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.326904E+02    0.418414E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.359412E+02    0.405596E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.395481E+02    0.408157E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.426253E+02    0.426142E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.440356E+02    0.454846E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133763E+03   -0.433855E+02    0.484204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.409776E+02    0.506038E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.374421E+02    0.515731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.374446E+02    0.368380E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.355571E+02    0.368944E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.370698E+02    0.351005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.391955E+02    0.356729E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.389776E+02    0.378229E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.367207E+02    0.385326E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.347573E+02    0.396587E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.337329E+02    0.382357E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.336711E+02    0.364260E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.346482E+02    0.346517E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.363335E+02    0.334549E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.384848E+02    0.330850E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.402794E+02    0.337932E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.414498E+02    0.352953E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.414954E+02    0.372275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.404551E+02    0.389822E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.386251E+02    0.401068E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.365734E+02    0.403298E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.345705E+02    0.425472E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.319149E+02    0.408142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.306603E+02    0.380890E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.312705E+02    0.348873E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.334856E+02    0.321070E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.370280E+02    0.304010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.406226E+02    0.305113E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.435963E+02    0.323003E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.450804E+02    0.353642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.441403E+02    0.388793E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.417178E+02    0.415299E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.380465E+02    0.428522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.388766E+02    0.249245E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.368532E+02    0.251507E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.384384E+02    0.230943E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.406336E+02    0.235759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.403836E+02    0.259461E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.380015E+02    0.269208E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.360219E+02    0.282598E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.349348E+02    0.267771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.349097E+02    0.247637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.357688E+02    0.229224E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.376326E+02    0.214447E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.399125E+02    0.208407E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.418709E+02    0.214150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.430263E+02    0.229634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.430394E+02    0.250608E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.418321E+02    0.271540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.399982E+02    0.284928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.378144E+02    0.289184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.357307E+02    0.314852E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.328930E+02    0.298347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.317821E+02    0.268143E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.324036E+02    0.232954E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.347569E+02    0.201198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.384225E+02    0.179821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.422995E+02    0.177433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.453155E+02    0.195432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.466404E+02    0.228075E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.456963E+02    0.267041E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.429940E+02    0.298858E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.392898E+02    0.316032E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664744.199023188     
  ps_ts2 prof sum =   664369.951962448     
  trcom prof sum =    664369.951919640     
  ps_ts2 cur sum  =   13217.2016899504     
  trcom cur sum  =    13217.2016899504     
  
  antenna # iant =            2
  powecha_use(iant) =    667890.251163859     
  ps_ts2 prof sum =   667489.592438584     
  trcom prof sum =    667489.592438584     
  ps_ts2 cur sum  =   16297.2668571899     
  trcom cur sum  =    16297.2668571899     
  
  antenna # iant =            3
  powecha_use(iant) =    525466.042328162     
  ps_ts2 prof sum =   525138.881682349     
  trcom prof sum =    525138.881682349     
  ps_ts2 cur sum  =   8770.79271347904     
  trcom cur sum  =    8770.79271347904     
  
  antenna # iant =            4
  powecha_use(iant) =    547548.929663909     
  ps_ts2 prof sum =   547254.665739725     
  trcom prof sum =    547254.665739725     
  ps_ts2 cur sum  =   12102.9243106189     
  trcom cur sum  =    12102.9243106189     
  
  antenna # iant =            5
  powecha_use(iant) =    548323.893070831     
  ps_ts2 prof sum =   548038.751464112     
  trcom prof sum =    548038.751464112     
  ps_ts2 cur sum  =   14645.2298246330     
  trcom cur sum  =    14645.2298246330     
  
  Total ECH heating:      2952291.84324441     
  Total Current Drive:    65033.4153958712     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2063
 TA= 2.37500E+00 CPU TIME= 1.60385E-01 SECONDS.  DT= 5.37218E-04
  
 TEC1=    2.37499999999997     
 TEC2=    2.37999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.48331277777788     
  %check_save_state: izleft hours =    74.5083333333333     
 --> plasma_hash("gframe"): TA= 2.375000E+00 NSTEP=  2063 Hash code:   20308339
 ->PRGCHK: bdy curvature ratio at t= 2.3800E+00 seconds is:  5.5793E-02
% MHDEQ: TG1=     2.375000 ; TG2=     2.380000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7668E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5793E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.375000 TO TG2=    2.380000 @ NSTEP     2063
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775409390238D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.29804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.34820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.02522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.29877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.36360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.68829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -3.58736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.38802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.42466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.68994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.10838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.55269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  5.16535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.04790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.61649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.85109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.03969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.57858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.44624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.75931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.75931E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3800E+00  2.3850E+00 total power(Watts):  2.9889E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.38000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.368300E+02    0.409873E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.349606E+02    0.410019E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.363817E+02    0.393822E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.384773E+02    0.399693E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.383421E+02    0.419536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.361021E+02    0.425737E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.342366E+02    0.435839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.331441E+02    0.422301E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.330993E+02    0.405161E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.339911E+02    0.389027E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.357556E+02    0.377652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.377969E+02    0.375025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.395649E+02    0.382209E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.407101E+02    0.396749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.409385E+02    0.414387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.397953E+02    0.430915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.379777E+02    0.441139E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.359489E+02    0.442824E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.339525E+02    0.463334E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.312501E+02    0.446710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.301050E+02    0.420214E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.306473E+02    0.390463E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.328637E+02    0.364210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.363006E+02    0.348574E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.399463E+02    0.349978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.428633E+02    0.368659E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.443027E+02    0.398565E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.436542E+02    0.430600E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.409305E+02    0.455576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.374870E+02    0.466758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.383449E+02    0.318541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.363447E+02    0.320019E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.378530E+02    0.301643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.401034E+02    0.306342E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.398141E+02    0.328667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.375373E+02    0.336675E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.355573E+02    0.349163E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.343403E+02    0.335300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.344353E+02    0.315727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.353994E+02    0.297766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.371771E+02    0.284878E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.393482E+02    0.280542E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.411736E+02    0.287362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.423808E+02    0.301989E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.423539E+02    0.321804E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.413182E+02    0.340298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.393795E+02    0.353229E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.373129E+02    0.356192E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.352099E+02    0.380641E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.326046E+02    0.362621E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.313204E+02    0.334153E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.319866E+02    0.300960E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.342775E+02    0.271762E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.378456E+02    0.252901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.415790E+02    0.252549E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.446108E+02    0.270532E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.460543E+02    0.301470E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.452532E+02    0.337190E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.424075E+02    0.367710E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.388102E+02    0.382626E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.365169E+02    0.462961E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.346642E+02    0.462598E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.360823E+02    0.447885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.381568E+02    0.453973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.380145E+02    0.472307E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.358819E+02    0.477251E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.339404E+02    0.486115E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.329447E+02    0.473269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.328215E+02    0.457559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.337141E+02    0.442689E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.353852E+02    0.432773E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.374084E+02    0.430928E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.392482E+02    0.437974E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.403740E+02    0.451990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.404950E+02    0.468612E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.396510E+02    0.483065E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.377449E+02    0.491845E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.357284E+02    0.492842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.338324E+02    0.511474E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.312206E+02    0.495040E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.300035E+02    0.470345E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.304029E+02    0.442980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.326990E+02    0.418691E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.359510E+02    0.405912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.394613E+02    0.408764E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.424325E+02    0.426819E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134074E+03   -0.439396E+02    0.455155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.432890E+02    0.484292E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.408847E+02    0.505938E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.372615E+02    0.515555E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.374579E+02    0.368777E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.354829E+02    0.369701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.369960E+02    0.351794E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.391172E+02    0.357521E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.388967E+02    0.378952E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.366428E+02    0.386013E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.347675E+02    0.396929E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.335755E+02    0.383410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.335152E+02    0.365432E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.345792E+02    0.347313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.363509E+02    0.334911E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.384114E+02    0.331689E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.402984E+02    0.338318E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.413687E+02    0.353750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.414114E+02    0.373021E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.403699E+02    0.390511E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.385412E+02    0.401697E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.364972E+02    0.403901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.344909E+02    0.425975E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.317615E+02    0.409008E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.305933E+02    0.381596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.312067E+02    0.349655E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.334206E+02    0.321930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.369603E+02    0.304946E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.406458E+02    0.305531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.437198E+02    0.322971E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.448913E+02    0.354805E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.442559E+02    0.388967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.415283E+02    0.416084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.379622E+02    0.428999E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.388134E+02    0.250349E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.367922E+02    0.252604E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.383778E+02    0.232107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.406649E+02    0.236211E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.404124E+02    0.259881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.380279E+02    0.269609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.359586E+02    0.283607E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.347895E+02    0.269468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.347665E+02    0.249455E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.357969E+02    0.229621E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.377532E+02    0.214087E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.399458E+02    0.208852E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.418085E+02    0.215367E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.429609E+02    0.230819E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.429716E+02    0.251710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.418596E+02    0.271980E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.399284E+02    0.285926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.378381E+02    0.289590E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.356635E+02    0.315744E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.328316E+02    0.299293E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.317270E+02    0.269180E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.324299E+02    0.233323E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.347879E+02    0.201581E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.382787E+02    0.181967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.422421E+02    0.178733E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.452525E+02    0.196704E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.465716E+02    0.229276E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.457269E+02    0.267524E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.429193E+02    0.299823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.393112E+02    0.316425E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690507.071377538     
  ps_ts2 prof sum =   690077.553384575     
  trcom prof sum =    690077.553346991     
  ps_ts2 cur sum  =   13686.7012076323     
  trcom cur sum  =    13686.7012076323     
  
  antenna # iant =            2
  powecha_use(iant) =    666120.837644956     
  ps_ts2 prof sum =   665773.848088203     
  trcom prof sum =    665773.848088203     
  ps_ts2 cur sum  =   16233.4490637743     
  trcom cur sum  =    16233.4490637742     
  
  antenna # iant =            3
  powecha_use(iant) =    526130.007706069     
  ps_ts2 prof sum =   525777.744523412     
  trcom prof sum =    525777.744523412     
  ps_ts2 cur sum  =   8744.44925182693     
  trcom cur sum  =    8744.44925182693     
  
  antenna # iant =            4
  powecha_use(iant) =    557287.103855976     
  ps_ts2 prof sum =   556929.390523637     
  trcom prof sum =    556929.390523636     
  ps_ts2 cur sum  =   12291.1394191088     
  trcom cur sum  =    12291.1394191088     
  
  antenna # iant =            5
  powecha_use(iant) =    548836.160472559     
  ps_ts2 prof sum =   548534.311385649     
  trcom prof sum =    548534.311385649     
  ps_ts2 cur sum  =   14653.6440914207     
  trcom cur sum  =    14653.6440914207     
  
  Total ECH heating:      2987092.84786789     
  Total Current Drive:    65609.3830337630     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2069
 TA= 2.38000E+00 CPU TIME= 1.59985E-01 SECONDS.  DT= 7.38794E-04
  
 TEC1=    2.37999999999997     
 TEC2=    2.38499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.49980055555511     
  %check_save_state: izleft hours =    74.4916666666667     
 --> plasma_hash("gframe"): TA= 2.380000E+00 NSTEP=  2069 Hash code:   95133773
 ->PRGCHK: bdy curvature ratio at t= 2.3850E+00 seconds is:  5.5757E-02
% MHDEQ: TG1=     2.380000 ; TG2=     2.385000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7681E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5757E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.380000 TO TG2=    2.385000 @ NSTEP     2069
   GFRAME TG2 MOMENTS CHECKSUM:  2.4768083240452D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3850E+00  2.3900E+00 total power(Watts):  2.9942E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.38500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.368381E+02    0.410171E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.348814E+02    0.410553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.363907E+02    0.394143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.384874E+02    0.400021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.382554E+02    0.420028E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.361089E+02    0.425991E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.341566E+02    0.436237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.331525E+02    0.422526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.329393E+02    0.406010E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.340007E+02    0.389341E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.356780E+02    0.378348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.377163E+02    0.375728E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.395758E+02    0.382567E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.407204E+02    0.397111E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.407505E+02    0.415123E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.397049E+02    0.431344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.379829E+02    0.441355E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.359549E+02    0.443009E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.339574E+02    0.463425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.313366E+02    0.446666E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.301897E+02    0.420180E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.306604E+02    0.390737E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.329589E+02    0.364133E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.363152E+02    0.348916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.398660E+02    0.350752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.427753E+02    0.369399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.443123E+02    0.398978E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.435586E+02    0.431043E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.410353E+02    0.455636E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.373988E+02    0.466946E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.382715E+02    0.319399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.362738E+02    0.320870E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.378733E+02    0.302024E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.400289E+02    0.307260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.398321E+02    0.329036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.374622E+02    0.337473E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.354840E+02    0.349932E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.344419E+02    0.335132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.342826E+02    0.317128E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.352453E+02    0.299280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.371989E+02    0.285264E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.392778E+02    0.281541E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.411967E+02    0.287773E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.423031E+02    0.302925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.423734E+02    0.322203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.412374E+02    0.341091E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.393943E+02    0.353596E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.373267E+02    0.356550E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.352207E+02    0.380968E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.324526E+02    0.363767E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.313353E+02    0.334456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138465E+03   -0.319247E+02    0.301885E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.342147E+02    0.272775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.376900E+02    0.254659E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.416065E+02    0.252975E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.445358E+02    0.271554E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.458679E+02    0.302918E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.450641E+02    0.338398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.423200E+02    0.368454E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.387266E+02    0.383301E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.365224E+02    0.463050E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.345814E+02    0.462820E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.359962E+02    0.448215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.381623E+02    0.454122E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.380193E+02    0.472374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.357961E+02    0.477370E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.339452E+02    0.486105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.328683E+02    0.473434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.328257E+02    0.457677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.337206E+02    0.442853E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.353919E+02    0.432989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.374154E+02    0.431162E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.391585E+02    0.438355E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.403797E+02    0.452161E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.405987E+02    0.468637E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.394616E+02    0.483175E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.377498E+02    0.491803E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.356430E+02    0.492841E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.337508E+02    0.511329E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.311445E+02    0.495031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.298511E+02    0.470659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.304877E+02    0.442931E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.326229E+02    0.419191E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.358697E+02    0.406482E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.394702E+02    0.409070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.425409E+02    0.426944E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.439453E+02    0.455334E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.432941E+02    0.484325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.408965E+02    0.505807E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.372673E+02    0.515365E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.373790E+02    0.369501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.354946E+02    0.370051E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.370101E+02    0.352148E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.391307E+02    0.357897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.389074E+02    0.379330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.366523E+02    0.386360E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.346889E+02    0.397539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.336700E+02    0.383383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.336154E+02    0.365351E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.345936E+02    0.347642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.362780E+02    0.335714E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.384285E+02    0.332044E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.402191E+02    0.339114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.413839E+02    0.354128E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.414237E+02    0.373422E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.403807E+02    0.390875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.385509E+02    0.402022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.365063E+02    0.404206E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.344985E+02    0.426213E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.318504E+02    0.408986E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.306028E+02    0.381903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.312198E+02    0.349964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.334371E+02    0.322244E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.368002E+02    0.306407E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.405707E+02    0.306446E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.435366E+02    0.324288E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.450112E+02    0.354871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.440618E+02    0.389889E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.416353E+02    0.416198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.379692E+02    0.429247E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.388394E+02    0.250761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.368174E+02    0.252995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.384061E+02    0.232517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.405984E+02    0.237343E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.403433E+02    0.260938E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.379608E+02    0.270633E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.358047E+02    0.285206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.348969E+02    0.269173E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.348761E+02    0.249119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.357368E+02    0.230764E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.376037E+02    0.216056E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.398841E+02    0.210053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.418406E+02    0.215810E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.429918E+02    0.231270E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.430001E+02    0.252153E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.417872E+02    0.273008E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.399507E+02    0.286341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.377683E+02    0.290562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.356814E+02    0.316089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.328498E+02    0.299629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.317475E+02    0.269515E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138459E+03   -0.323747E+02    0.234449E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.347323E+02    0.202785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.384016E+02    0.181522E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.422787E+02    0.179183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.452884E+02    0.197186E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.466048E+02    0.229767E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.456509E+02    0.268575E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.429415E+02    0.300250E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.392365E+02    0.317290E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.58 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694636.567023672     
  ps_ts2 prof sum =   694240.128823353     
  trcom prof sum =    694240.128823352     
  ps_ts2 cur sum  =   13708.7257443411     
  trcom cur sum  =    13708.7257443411     
  
  antenna # iant =            2
  powecha_use(iant) =    669775.980146394     
  ps_ts2 prof sum =   669351.569844614     
  trcom prof sum =    669351.569844614     
  ps_ts2 cur sum  =   16283.3621618785     
  trcom cur sum  =    16283.3621618784     
  
  antenna # iant =            3
  powecha_use(iant) =    525298.604848854     
  ps_ts2 prof sum =   524959.786173680     
  trcom prof sum =    524959.786173680     
  ps_ts2 cur sum  =   8685.23648337538     
  trcom cur sum  =    8685.23648337538     
  
  antenna # iant =            4
  powecha_use(iant) =    556168.884931833     
  ps_ts2 prof sum =   555862.359413839     
  trcom prof sum =    555862.359413838     
  ps_ts2 cur sum  =   12224.2414901041     
  trcom cur sum  =    12224.2414901041     
  
  antenna # iant =            5
  powecha_use(iant) =    548318.407722784     
  ps_ts2 prof sum =   548030.286455764     
  trcom prof sum =    548030.286455764     
  ps_ts2 cur sum  =   14620.0660039751     
  trcom cur sum  =    14620.0660039751     
  
  Total ECH heating:      2992444.13071125     
  Total Current Drive:    65521.6318836742     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2074
 TA= 2.38500E+00 CPU TIME= 1.60492E-01 SECONDS.  DT= 9.25490E-04
  
 TEC1=    2.38499999999997     
 TEC2=    2.38999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.51502277777763     
  %check_save_state: izleft hours =    74.4766666666667     
 --> plasma_hash("gframe"): TA= 2.385000E+00 NSTEP=  2074 Hash code:   10810816
 ->PRGCHK: bdy curvature ratio at t= 2.3900E+00 seconds is:  5.5730E-02
% MHDEQ: TG1=     2.385000 ; TG2=     2.390000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1670E-03 SECONDS
   DATA R*BT AT EDGE:  2.7695E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5730E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.385000 TO TG2=    2.390000 @ NSTEP     2074
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760757090666D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.12889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.77600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.81325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.21144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.62851E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.24771E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.55035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -8.41278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.70899E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.91245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.19092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.02433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.00684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -1.42023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.71765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.78621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.67114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.69352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #      10=  2.99919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.31833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.90708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.90708E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.3900E+00  2.3950E+00 total power(Watts):  2.9778E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.39000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.367580E+02    0.410568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.348919E+02    0.410698E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.363129E+02    0.394640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.384051E+02    0.400474E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.382662E+02    0.420160E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.360286E+02    0.426326E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.341649E+02    0.436340E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.330778E+02    0.422883E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.330344E+02    0.405862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.338415E+02    0.390176E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.356910E+02    0.378563E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.377299E+02    0.375956E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.395897E+02    0.382799E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.406354E+02    0.397562E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.407611E+02    0.415292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.397144E+02    0.431473E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.378981E+02    0.441606E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.358725E+02    0.443265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.339656E+02    0.463434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.313446E+02    0.446727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.300426E+02    0.420811E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138513E+03   -0.305924E+02    0.391237E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.328061E+02    0.365134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.362419E+02    0.349557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.398828E+02    0.350985E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.427919E+02    0.369635E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.442224E+02    0.399417E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.435692E+02    0.431203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.410445E+02    0.455693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.374075E+02    0.466941E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.382905E+02    0.319662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.362916E+02    0.321126E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.378023E+02    0.302857E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.400499E+02    0.307560E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.397552E+02    0.329746E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.374795E+02    0.337698E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.354997E+02    0.350141E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.344576E+02    0.335356E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.343854E+02    0.316845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.352649E+02    0.299556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.371309E+02    0.286161E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.393011E+02    0.281865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.412197E+02    0.288099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.423252E+02    0.303243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.422937E+02    0.322954E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.412555E+02    0.341334E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.393155E+02    0.354224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.372507E+02    0.357170E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.352331E+02    0.381187E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.325483E+02    0.363558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.312707E+02    0.335154E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138463E+03   -0.319425E+02    0.302132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.342362E+02    0.273072E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.378058E+02    0.254319E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.415358E+02    0.254009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.445621E+02    0.271931E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.459959E+02    0.302785E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.451880E+02    0.338281E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.423365E+02    0.368687E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.387389E+02    0.383539E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.364394E+02    0.463176E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.345898E+02    0.462829E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.360053E+02    0.448276E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.380769E+02    0.454290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.380285E+02    0.472344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.358045E+02    0.477330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.338663E+02    0.486098E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.328756E+02    0.473407E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.327500E+02    0.457840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.336431E+02    0.443111E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.353119E+02    0.433301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.373321E+02    0.431483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.391680E+02    0.438463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.404873E+02    0.452104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.404106E+02    0.468780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.394707E+02    0.483112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.376645E+02    0.491738E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.356516E+02    0.492730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.337602E+02    0.511128E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.311521E+02    0.494919E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.299377E+02    0.470500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.304956E+02    0.442999E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.326330E+02    0.419309E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.358808E+02    0.406628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.393857E+02    0.409468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.425512E+02    0.427103E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.438513E+02    0.455485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.433039E+02    0.484263E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.408061E+02    0.505619E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.371831E+02    0.515140E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.373931E+02    0.369722E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.354202E+02    0.370633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.369356E+02    0.352778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.390521E+02    0.358502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.389263E+02    0.379525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.366657E+02    0.386560E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.347015E+02    0.397704E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.335122E+02    0.384263E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.334605E+02    0.366343E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.344367E+02    0.348729E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.362937E+02    0.335939E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.383534E+02    0.332745E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.402371E+02    0.339356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.413069E+02    0.354738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.413406E+02    0.373965E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.402961E+02    0.391380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.384689E+02    0.402450E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.364273E+02    0.404622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.344213E+02    0.426545E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.316975E+02    0.409685E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.305354E+02    0.382441E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.311543E+02    0.350609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.335378E+02    0.321955E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.369101E+02    0.306138E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.405918E+02    0.306752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.435572E+02    0.324574E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.448208E+02    0.355833E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.441787E+02    0.389885E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.414472E+02    0.416752E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.378849E+02    0.429576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.387728E+02    0.251788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.366645E+02    0.254692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.383420E+02    0.233609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.406266E+02    0.237723E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.403689E+02    0.261306E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.379841E+02    0.270967E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.359136E+02    0.284885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.347480E+02    0.270791E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.347289E+02    0.250863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.357627E+02    0.231106E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.377217E+02    0.215627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.399141E+02    0.210429E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.418711E+02    0.216203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.429223E+02    0.232371E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.429275E+02    0.253194E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.418124E+02    0.273354E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.398784E+02    0.287240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.377901E+02    0.290864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.356121E+02    0.316875E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.328688E+02    0.299889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.316883E+02    0.270478E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138455E+03   -0.323983E+02    0.234763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.347597E+02    0.203121E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.382524E+02    0.183607E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.422166E+02    0.180423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.453234E+02    0.197614E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.465319E+02    0.230876E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.456781E+02    0.268970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.428635E+02    0.301096E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.392560E+02    0.317564E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693122.763093488     
  ps_ts2 prof sum =   692691.797605835     
  trcom prof sum =    692691.797605835     
  ps_ts2 cur sum  =   13618.2395555218     
  trcom cur sum  =    13618.2395555218     
  
  antenna # iant =            2
  powecha_use(iant) =    665855.810846899     
  ps_ts2 prof sum =   665509.814387546     
  trcom prof sum =    665509.814387546     
  ps_ts2 cur sum  =   16141.9141305319     
  trcom cur sum  =    16141.9141305319     
  
  antenna # iant =            3
  powecha_use(iant) =    525865.793569415     
  ps_ts2 prof sum =   525529.972070784     
  trcom prof sum =    525529.972070785     
  ps_ts2 cur sum  =   8646.57049922272     
  trcom cur sum  =    8646.57049922272     
  
  antenna # iant =            4
  powecha_use(iant) =    544226.460247454     
  ps_ts2 prof sum =   543869.622228187     
  trcom prof sum =    543869.622228186     
  ps_ts2 cur sum  =   11917.2810925343     
  trcom cur sum  =    11917.2810925343     
  
  antenna # iant =            5
  powecha_use(iant) =    548690.550008045     
  ps_ts2 prof sum =   548382.568492715     
  trcom prof sum =    548382.568492715     
  ps_ts2 cur sum  =   14601.3646270916     
  trcom cur sum  =    14601.3646270916     
  
  Total ECH heating:      2975983.77478507     
  Total Current Drive:    64925.3699049023     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2078
 TA= 2.39000E+00 CPU TIME= 1.63807E-01 SECONDS.  DT= 1.83946E-03
  
 TEC1=    2.38999999999997     
 TEC2=    2.39499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.52863638888857     
  %check_save_state: izleft hours =    74.4627777777778     
 --> plasma_hash("gframe"): TA= 2.390000E+00 NSTEP=  2078 Hash code:  120711529
 ->PRGCHK: bdy curvature ratio at t= 2.3950E+00 seconds is:  5.5712E-02
% MHDEQ: TG1=     2.390000 ; TG2=     2.395000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5712E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.390000 TO TG2=    2.395000 @ NSTEP     2078
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753430940881D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.3950E+00  2.4000E+00 total power(Watts):  2.9849E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.39500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.367690E+02    0.410719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.348138E+02    0.411107E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.363249E+02    0.394833E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.384175E+02    0.400648E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.382766E+02    0.420303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.360384E+02    0.426451E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.340865E+02    0.436630E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.330874E+02    0.423003E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.330455E+02    0.406011E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.339391E+02    0.390039E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.356159E+02    0.379109E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.376518E+02    0.376510E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.395071E+02    0.383344E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.406479E+02    0.397765E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.406745E+02    0.415653E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.396267E+02    0.431775E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.379075E+02    0.441692E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.358815E+02    0.443340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.338869E+02    0.463565E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.311894E+02    0.447145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.300517E+02    0.420924E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138513E+03   -0.306040E+02    0.391404E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.329025E+02    0.364937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.362577E+02    0.349779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.398030E+02    0.351622E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.427060E+02    0.370210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.442354E+02    0.399653E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.434775E+02    0.431484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.408551E+02    0.455943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.373226E+02    0.467036E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.382167E+02    0.320441E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.361315E+02    0.322398E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.378227E+02    0.303177E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.399749E+02    0.308395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.397740E+02    0.330018E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.374969E+02    0.337942E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.354272E+02    0.350788E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.343023E+02    0.336541E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.342323E+02    0.318166E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.353723E+02    0.299282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.371530E+02    0.286487E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.392303E+02    0.282806E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.411457E+02    0.289023E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.422476E+02    0.304109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.423143E+02    0.323259E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.411751E+02    0.342013E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.393315E+02    0.354470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.372657E+02    0.357405E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.351584E+02    0.381728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.323967E+02    0.364570E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138608E+03   -0.312864E+02    0.335361E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.319609E+02    0.302405E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.341731E+02    0.274037E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.378311E+02    0.254687E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.415630E+02    0.254404E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.444854E+02    0.272928E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.458089E+02    0.304133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.449986E+02    0.339381E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.424526E+02    0.368621E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.386569E+02    0.384070E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.364474E+02    0.463196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.345980E+02    0.462840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.360144E+02    0.448336E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.380861E+02    0.454338E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.379424E+02    0.472409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.357223E+02    0.477367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.338747E+02    0.486013E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.327987E+02    0.473478E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.327582E+02    0.457863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.336510E+02    0.443186E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.353214E+02    0.433405E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.373413E+02    0.431602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.391776E+02    0.438569E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.402999E+02    0.452393E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.405185E+02    0.468706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.395773E+02    0.482997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.376734E+02    0.491630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.356601E+02    0.492622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.336819E+02    0.510960E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.310787E+02    0.494864E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.299453E+02    0.470477E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.303452E+02    0.443453E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.324758E+02    0.419925E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.358913E+02    0.406792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.393970E+02    0.409641E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.424609E+02    0.427414E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.438612E+02    0.455548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.432100E+02    0.484217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.408158E+02    0.505434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.371936E+02    0.514910E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.373159E+02    0.370303E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.354343E+02    0.370848E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.369514E+02    0.353000E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.390675E+02    0.358748E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.388447E+02    0.380083E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.365875E+02    0.387087E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.346256E+02    0.398175E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.336095E+02    0.384114E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.335578E+02    0.366164E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.345384E+02    0.348508E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.363105E+02    0.336193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.383717E+02    0.333001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.402549E+02    0.339622E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.413233E+02    0.355001E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.413552E+02    0.374216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.403093E+02    0.391585E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.384807E+02    0.402634E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.364384E+02    0.404793E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.344305E+02    0.426668E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.317893E+02    0.409532E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.305466E+02    0.382628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.311684E+02    0.350816E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.333873E+02    0.323241E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.369298E+02    0.306445E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.405160E+02    0.307590E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.434756E+02    0.325332E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.449432E+02    0.355758E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.439859E+02    0.390633E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.415576E+02    0.416721E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.378947E+02    0.429696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.387991E+02    0.252165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.367781E+02    0.254372E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.383697E+02    0.233984E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.405595E+02    0.238808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.402989E+02    0.262321E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.380077E+02    0.271316E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.359355E+02    0.285211E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.347704E+02    0.271115E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.347528E+02    0.251208E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.358761E+02    0.230718E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.375707E+02    0.217547E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.398518E+02    0.211586E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.418059E+02    0.217352E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.429526E+02    0.232788E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.429560E+02    0.253601E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417393E+02    0.274336E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.399011E+02    0.287583E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.377207E+02    0.291761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.356310E+02    0.317137E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.328050E+02    0.300756E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.317095E+02    0.270780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138451E+03   -0.324226E+02    0.235095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.347036E+02    0.204295E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.383754E+02    0.183139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.422517E+02    0.180853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.452567E+02    0.198824E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.465644E+02    0.231333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.456009E+02    0.269976E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.428862E+02    0.301449E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.391810E+02    0.318355E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699247.895251350     
  ps_ts2 prof sum =   698813.916629567     
  trcom prof sum =    698813.916629566     
  ps_ts2 cur sum  =   13675.2223447415     
  trcom cur sum  =    13675.2223447414     
  
  antenna # iant =            2
  powecha_use(iant) =    665776.616320001     
  ps_ts2 prof sum =   665365.192447703     
  trcom prof sum =    665365.192447703     
  ps_ts2 cur sum  =   16094.5319796727     
  trcom cur sum  =    16094.5319796727     
  
  antenna # iant =            3
  powecha_use(iant) =    525046.486825166     
  ps_ts2 prof sum =   524710.721191186     
  trcom prof sum =    524710.721191186     
  ps_ts2 cur sum  =   8585.97109274559     
  trcom cur sum  =    8585.97109274559     
  
  antenna # iant =            4
  powecha_use(iant) =    545162.440069084     
  ps_ts2 prof sum =   544863.866529237     
  trcom prof sum =    544863.866529236     
  ps_ts2 cur sum  =   11893.9106129757     
  trcom cur sum  =    11893.9106129757     
  
  antenna # iant =            5
  powecha_use(iant) =    549654.884983695     
  ps_ts2 prof sum =   549369.380218059     
  trcom prof sum =    549369.380218059     
  ps_ts2 cur sum  =   14600.4974152313     
  trcom cur sum  =    14600.4974152313     
  
  Total ECH heating:      2983123.07701575     
  Total Current Drive:    64850.1334453668     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2081
 TA= 2.39500E+00 CPU TIME= 1.61459E-01 SECONDS.  DT= 1.07651E-03
  
 TEC1=    2.39499999999997     
 TEC2=    2.39999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.54439416666628     
  %check_save_state: izleft hours =    74.4458333333333     
 --> plasma_hash("gframe"): TA= 2.395000E+00 NSTEP=  2081 Hash code:   55259358
 ->PRGCHK: bdy curvature ratio at t= 2.4000E+00 seconds is:  5.5701E-02
% MHDEQ: TG1=     2.395000 ; TG2=     2.400000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7723E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5701E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.395000 TO TG2=    2.400000 @ NSTEP     2081
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746104814208D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.91338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.17993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.57169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       3=  9.93986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.42011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.01204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.31722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.30093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -2.00077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.43564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -1.82600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  1.46164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -6.15619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.90506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.36666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.65727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.19756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.53910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.53910E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4000E+00  2.4050E+00 total power(Watts):  2.9870E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.40000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.366881E+02    0.411102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.348251E+02    0.411230E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.362460E+02    0.395301E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.384292E+02    0.400816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.381926E+02    0.420640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.359576E+02    0.426772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.340956E+02    0.436711E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.330966E+02    0.423117E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.329711E+02    0.406427E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.339501E+02    0.390227E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.356285E+02    0.379315E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.376650E+02    0.376722E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.395206E+02    0.383552E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.405614E+02    0.398226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.406856E+02    0.415799E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.396363E+02    0.431884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.378227E+02    0.441928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.357998E+02    0.443578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.338951E+02    0.463565E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.312790E+02    0.447011E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138646E+03   -0.299823E+02    0.421278E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138513E+03   -0.306146E+02    0.391558E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.327482E+02    0.365937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.361832E+02    0.350416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.398201E+02    0.351843E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.427213E+02    0.370455E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.440404E+02    0.400316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.434882E+02    0.431620E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.409641E+02    0.455882E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.373310E+02    0.467033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.382354E+02    0.320702E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.362393E+02    0.322134E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.377509E+02    0.304002E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.399955E+02    0.308690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.396963E+02    0.330725E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.374218E+02    0.338622E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.354421E+02    0.351000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.344050E+02    0.336273E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.342501E+02    0.318395E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.352171E+02    0.300700E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.369933E+02    0.287977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.392531E+02    0.283132E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.411686E+02    0.289357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.422689E+02    0.304426E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.422337E+02    0.324000E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.411927E+02    0.342255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.393480E+02    0.354677E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.371894E+02    0.358004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.351709E+02    0.381925E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.324091E+02    0.364767E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138608E+03   -0.313019E+02    0.335556E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138689E+03   -0.318977E+02    0.303239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.341938E+02    0.274334E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.377646E+02    0.255705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.414917E+02    0.255431E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.445114E+02    0.273314E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.458319E+02    0.304485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.451229E+02    0.339261E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.422663E+02    0.369508E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.386696E+02    0.384282E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.364562E+02    0.463193E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.345180E+02    0.462968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.359322E+02    0.448548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.380943E+02    0.454390E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.379513E+02    0.472374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.357308E+02    0.477319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.338833E+02    0.485924E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.328065E+02    0.473439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.326817E+02    0.458032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.335737E+02    0.443427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.352412E+02    0.433690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.372581E+02    0.431882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.390906E+02    0.438821E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.404078E+02    0.452339E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.405277E+02    0.468697E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.393910E+02    0.483024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.377772E+02    0.491479E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.355780E+02    0.492554E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.336919E+02    0.510753E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.310870E+02    0.494733E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.297953E+02    0.470710E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.304331E+02    0.443313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.325690E+02    0.419788E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.358103E+02    0.407214E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.394083E+02    0.409795E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.424720E+02    0.427543E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.438712E+02    0.455601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.432200E+02    0.484135E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.407254E+02    0.505240E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.372982E+02    0.514680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.373293E+02    0.370529E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.353586E+02    0.371420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.368757E+02    0.353623E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.390832E+02    0.358962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.388575E+02    0.380308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.365999E+02    0.387288E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.346364E+02    0.398348E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.336218E+02    0.384304E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.335716E+02    0.366365E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.343801E+02    0.349586E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.362383E+02    0.336866E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.382958E+02    0.333694E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.401758E+02    0.340284E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.412402E+02    0.355601E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.412702E+02    0.374770E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.402243E+02    0.392063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.384918E+02    0.402805E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.363579E+02    0.405219E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.344401E+02    0.426774E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.317996E+02    0.409654E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.305582E+02    0.382799E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138763E+03   -0.311027E+02    0.351447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.334042E+02    0.323463E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.368593E+02    0.307253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.405368E+02    0.307889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.434959E+02    0.325621E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.447515E+02    0.356703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.441030E+02    0.390616E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.413690E+02    0.417260E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.379041E+02    0.429810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.388245E+02    0.252526E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.366234E+02    0.256069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.382130E+02    0.235792E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.405872E+02    0.239190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.403241E+02    0.262681E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.379392E+02    0.272274E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.357801E+02    0.286708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.347063E+02    0.272071E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.346904E+02    0.252232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.357274E+02    0.232551E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.376893E+02    0.217134E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.398820E+02    0.211968E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.418368E+02    0.217750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.429824E+02    0.233193E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.428830E+02    0.254636E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417638E+02    0.274684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.398281E+02    0.288485E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.377419E+02    0.292068E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.354724E+02    0.318421E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138472E+03   -0.328235E+02    0.301015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138628E+03   -0.317302E+02    0.271065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138673E+03   -0.323657E+02    0.236166E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.347312E+02    0.204642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.384071E+02    0.183532E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.421888E+02    0.182109E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.452915E+02    0.199274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.464907E+02    0.232442E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.456278E+02    0.270372E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.428071E+02    0.302288E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.392002E+02    0.318622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696989.277522231     
  ps_ts2 prof sum =   696557.348769409     
  trcom prof sum =    696557.348769409     
  ps_ts2 cur sum  =   13568.8630939236     
  trcom cur sum  =    13568.8630939236     
  
  antenna # iant =            2
  powecha_use(iant) =    666758.799183446     
  ps_ts2 prof sum =   666367.823030946     
  trcom prof sum =    666367.823030945     
  ps_ts2 cur sum  =   16067.9224689964     
  trcom cur sum  =    16067.9224689964     
  
  antenna # iant =            3
  powecha_use(iant) =    524201.199298559     
  ps_ts2 prof sum =   523887.509033991     
  trcom prof sum =    523887.509033992     
  ps_ts2 cur sum  =   8526.51701596634     
  trcom cur sum  =    8526.51701596634     
  
  antenna # iant =            4
  powecha_use(iant) =    549620.124817236     
  ps_ts2 prof sum =   549297.946029401     
  trcom prof sum =    549297.946029400     
  ps_ts2 cur sum  =   11943.8811853377     
  trcom cur sum  =    11943.8811853377     
  
  antenna # iant =            5
  powecha_use(iant) =    549407.707086514     
  ps_ts2 prof sum =   549079.030274045     
  trcom prof sum =    549079.030274046     
  ps_ts2 cur sum  =   14562.5255409591     
  trcom cur sum  =    14562.5255409591     
  
  Total ECH heating:      2985189.65713779     
  Total Current Drive:    64669.7093051830     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2085
 TA= 2.40000E+00 CPU TIME= 1.61031E-01 SECONDS.  DT= 1.11977E-03
  
 TEC1=    2.39999999999997     
 TEC2=    2.40499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.55783194444439     
  %check_save_state: izleft hours =    74.4336111111111     
 --> plasma_hash("gframe"): TA= 2.400000E+00 NSTEP=  2085 Hash code:   14442881
 ->PRGCHK: bdy curvature ratio at t= 2.4050E+00 seconds is:  5.5699E-02
% MHDEQ: TG1=     2.400000 ; TG2=     2.405000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7737E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5699E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.400000 TO TG2=    2.405000 @ NSTEP     2085
   GFRAME TG2 MOMENTS CHECKSUM:  2.4738778687536D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4050E+00  2.4100E+00 total power(Watts):  2.9831E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.40500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.366983E+02    0.411255E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.347477E+02    0.411628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.362581E+02    0.395479E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.383459E+02    0.401274E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.382031E+02    0.420778E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.359670E+02    0.426885E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.341049E+02    0.436799E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.330217E+02    0.423462E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.329812E+02    0.406580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.338762E+02    0.390730E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.355525E+02    0.379853E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.375854E+02    0.377286E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.394373E+02    0.384088E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.405737E+02    0.398427E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.405982E+02    0.416148E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.396462E+02    0.432002E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.378320E+02    0.442017E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.358089E+02    0.443652E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.339036E+02    0.463563E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.312873E+02    0.447073E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.299915E+02    0.421383E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.305453E+02    0.392074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.327624E+02    0.366128E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.361994E+02    0.350636E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.398365E+02    0.352091E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.428383E+02    0.370404E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.441575E+02    0.400309E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.433959E+02    0.431892E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.407742E+02    0.456138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.373391E+02    0.467028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.381604E+02    0.321491E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.362567E+02    0.322422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.377713E+02    0.304323E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.399197E+02    0.309528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.397153E+02    0.331004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.374392E+02    0.338870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.352809E+02    0.352059E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.342487E+02    0.337448E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.343535E+02    0.318141E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.353246E+02    0.300426E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.371059E+02    0.287719E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.392758E+02    0.283484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.410934E+02    0.290277E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.421912E+02    0.305274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.422543E+02    0.324301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.411115E+02    0.342938E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.392687E+02    0.355304E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.372044E+02    0.358233E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.350955E+02    0.382457E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138560E+03   -0.323405E+02    0.365357E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138840E+03   -0.312371E+02    0.336270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.319164E+02    0.303514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.342163E+02    0.274661E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.377902E+02    0.256083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.415191E+02    0.255841E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.444343E+02    0.274307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.457497E+02    0.305344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.449323E+02    0.340342E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.422818E+02    0.369769E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.386827E+02    0.384499E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.363729E+02    0.463311E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.345267E+02    0.462968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.359418E+02    0.448603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.380083E+02    0.454559E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.378648E+02    0.472431E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.357397E+02    0.477260E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.338040E+02    0.485907E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.328148E+02    0.473398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.326906E+02    0.458046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.335823E+02    0.443501E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.352506E+02    0.433791E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.372678E+02    0.431996E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.391006E+02    0.438913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.402194E+02    0.452636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.403387E+02    0.468833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.394983E+02    0.482897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.375974E+02    0.491434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.355874E+02    0.492419E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.337014E+02    0.510543E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.310956E+02    0.494599E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.298822E+02    0.470544E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.302812E+02    0.443766E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.325785E+02    0.419909E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.358214E+02    0.407365E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.393231E+02    0.410185E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.422794E+02    0.428004E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.437766E+02    0.455755E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.431259E+02    0.484077E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.407350E+02    0.505050E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.371196E+02    0.514449E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.373441E+02    0.370740E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.353729E+02    0.371628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.368917E+02    0.353843E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.390034E+02    0.359578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.387759E+02    0.380841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.365216E+02    0.387788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.346480E+02    0.398511E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.335487E+02    0.384831E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.334161E+02    0.367337E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.344822E+02    0.349371E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.362553E+02    0.337101E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.383140E+02    0.333954E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.401935E+02    0.340544E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.412568E+02    0.355855E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.412848E+02    0.375011E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.402369E+02    0.392296E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.384087E+02    0.403241E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.363696E+02    0.405374E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.343620E+02    0.427104E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.316458E+02    0.410340E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.304908E+02    0.383334E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138762E+03   -0.311158E+02    0.351658E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.333366E+02    0.324233E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.368786E+02    0.307565E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.405577E+02    0.308224E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.434142E+02    0.326381E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.448740E+02    0.356641E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.441169E+02    0.390868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.413797E+02    0.417418E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.378202E+02    0.430111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.387577E+02    0.253576E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.367380E+02    0.255751E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.383334E+02    0.235453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.406160E+02    0.239606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.403503E+02    0.263074E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.379635E+02    0.272636E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.358900E+02    0.286434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.347283E+02    0.272402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.347148E+02    0.252589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.357543E+02    0.232915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.375376E+02    0.219051E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.397247E+02    0.213912E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.417707E+02    0.218917E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.429130E+02    0.234318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.429112E+02    0.255059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417891E+02    0.275074E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.398511E+02    0.288837E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.376710E+02    0.292968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.355788E+02    0.318180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.327595E+02    0.301878E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138853E+03   -0.316713E+02    0.272052E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.323905E+02    0.236499E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138470E+03   -0.346746E+02    0.205840E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.382578E+02    0.185640E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.422245E+02    0.182565E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.452248E+02    0.200505E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.465240E+02    0.232907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.455504E+02    0.271380E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.428301E+02    0.302642E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.392192E+02    0.318936E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692675.403112516     
  ps_ts2 prof sum =   692270.698976199     
  trcom prof sum =    692270.698976198     
  ps_ts2 cur sum  =   13422.0859164832     
  trcom cur sum  =    13422.0859164832     
  
  antenna # iant =            2
  powecha_use(iant) =    667713.182062022     
  ps_ts2 prof sum =   667318.865362488     
  trcom prof sum =    667318.865362488     
  ps_ts2 cur sum  =   16042.1656311276     
  trcom cur sum  =    16042.1656311276     
  
  antenna # iant =            3
  powecha_use(iant) =    525855.726063176     
  ps_ts2 prof sum =   525519.077978784     
  trcom prof sum =    525519.077978784     
  ps_ts2 cur sum  =   8503.96076698843     
  trcom cur sum  =    8503.96076698843     
  
  antenna # iant =            4
  powecha_use(iant) =    547032.360675728     
  ps_ts2 prof sum =   546716.339479770     
  trcom prof sum =    546716.339444214     
  ps_ts2 cur sum  =   11842.8196057393     
  trcom cur sum  =    11842.8196057393     
  
  antenna # iant =            5
  powecha_use(iant) =    549822.104479904     
  ps_ts2 prof sum =   549511.917795869     
  trcom prof sum =    549511.917795869     
  ps_ts2 cur sum  =   14543.6441007023     
  trcom cur sum  =    14543.6441007023     
  
  Total ECH heating:      2981336.89955755     
  Total Current Drive:    64354.6760210408     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2089
 TA= 2.40500E+00 CPU TIME= 1.46343E-01 SECONDS.  DT= 9.13598E-04
  
 TEC1=    2.40499999999997     
 TEC2=    2.40999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.57252833333291     
  %check_save_state: izleft hours =    74.4188888888889     
 --> plasma_hash("gframe"): TA= 2.405000E+00 NSTEP=  2089 Hash code:  103406622
 ->PRGCHK: bdy curvature ratio at t= 2.4100E+00 seconds is:  5.5647E-02
% MHDEQ: TG1=     2.405000 ; TG2=     2.410000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7741E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5647E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.405000 TO TG2=    2.410000 @ NSTEP     2089
   GFRAME TG2 MOMENTS CHECKSUM:  2.4739531262004D+04
 %MFRCHK - LABEL "YMS11", #       1=  6.55314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -6.08740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.17515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.93038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.39171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.07048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.31761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4=  1.27371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -1.99942E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.38503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.75125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  1.98175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       7= -5.60541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.19823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.43487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.70860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.22772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.27858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.27858E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.4100E+00  2.4150E+00 total power(Watts):  2.9811E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.41000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.366945E+02    0.411528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.347443E+02    0.411890E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.362542E+02    0.395744E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.383415E+02    0.401544E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.381991E+02    0.421061E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.359635E+02    0.427169E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.341022E+02    0.437074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.330187E+02    0.423735E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.329784E+02    0.406839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.338729E+02    0.390994E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.355487E+02    0.380116E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.375810E+02    0.377554E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.394328E+02    0.384353E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.405690E+02    0.398708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.405933E+02    0.416437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.396452E+02    0.432299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.378281E+02    0.442307E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.358060E+02    0.443934E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.339014E+02    0.463799E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.311231E+02    0.447684E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.299894E+02    0.421649E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138758E+03   -0.305410E+02    0.392335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.327592E+02    0.366387E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.361951E+02    0.350927E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.397349E+02    0.352783E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.428324E+02    0.370696E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.441513E+02    0.400609E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.433901E+02    0.432212E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.407705E+02    0.456407E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.373366E+02    0.467271E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.381557E+02    0.321844E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.360732E+02    0.323741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.377661E+02    0.304686E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.399139E+02    0.309888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.397097E+02    0.331348E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.374347E+02    0.339185E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.352770E+02    0.352342E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.342442E+02    0.337762E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.341776E+02    0.319527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.353201E+02    0.300784E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.371011E+02    0.288078E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.391768E+02    0.284440E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.410879E+02    0.290650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.421847E+02    0.305667E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.422478E+02    0.324669E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.411058E+02    0.343265E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.392634E+02    0.355604E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.372004E+02    0.358514E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.350918E+02    0.382718E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.323372E+02    0.365626E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138843E+03   -0.312339E+02    0.336570E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.319129E+02    0.303852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.342978E+02    0.274382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.377858E+02    0.256462E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.415135E+02    0.256249E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.444277E+02    0.274711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.457482E+02    0.305711E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.449257E+02    0.340689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.423771E+02    0.369736E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.386824E+02    0.384757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.363702E+02    0.463562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.345240E+02    0.463214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.359388E+02    0.448878E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.380053E+02    0.454825E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.378625E+02    0.472656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.357378E+02    0.477470E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.338033E+02    0.486086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.328116E+02    0.473597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.326883E+02    0.458291E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.335800E+02    0.443768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.352474E+02    0.434072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.372642E+02    0.432285E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.390965E+02    0.439208E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.402157E+02    0.452916E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.403357E+02    0.469079E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.394964E+02    0.483095E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.375961E+02    0.491607E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.355865E+02    0.492587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.337023E+02    0.510664E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.310957E+02    0.494751E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.298814E+02    0.470745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.302792E+02    0.444025E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.325757E+02    0.420178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.358228E+02    0.407614E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.393187E+02    0.410465E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.422742E+02    0.428310E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.437720E+02    0.456053E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.431234E+02    0.484288E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.407317E+02    0.505186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.371204E+02    0.514563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.373397E+02    0.371008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.353691E+02    0.371891E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.368872E+02    0.354133E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.389985E+02    0.359868E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.387679E+02    0.381126E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.365175E+02    0.388056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.346445E+02    0.398772E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.335453E+02    0.385088E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.334102E+02    0.367608E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.344776E+02    0.349671E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.362548E+02    0.337413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.383084E+02    0.334303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.401881E+02    0.340877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.412472E+02    0.356165E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.412794E+02    0.375292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.402320E+02    0.392572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.384046E+02    0.403507E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.363622E+02    0.405661E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.343590E+02    0.427379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.316431E+02    0.410593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138786E+03   -0.304883E+02    0.383592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.311127E+02    0.351932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138496E+03   -0.333330E+02    0.324557E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.368735E+02    0.307923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.404541E+02    0.309104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.434072E+02    0.326744E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.448673E+02    0.356953E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.441110E+02    0.391157E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.413788E+02    0.417701E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.378162E+02    0.430403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.387533E+02    0.253971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.367338E+02    0.256146E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.383285E+02    0.235871E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.405150E+02    0.240713E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.402489E+02    0.264096E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.379589E+02    0.273000E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.358854E+02    0.286795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.347245E+02    0.272765E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.347153E+02    0.252938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.358431E+02    0.232527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.375339E+02    0.219466E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.398150E+02    0.213570E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.417659E+02    0.219350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.429083E+02    0.234739E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.429053E+02    0.255475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417832E+02    0.275469E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.398425E+02    0.289220E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.376666E+02    0.293329E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.355741E+02    0.318526E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138701E+03   -0.327556E+02    0.302219E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138855E+03   -0.316678E+02    0.272395E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.323872E+02    0.236879E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.346716E+02    0.206238E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.383458E+02    0.185227E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.422204E+02    0.183013E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.452193E+02    0.200973E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.465171E+02    0.233373E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.455433E+02    0.271801E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.428236E+02    0.303026E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.391190E+02    0.319780E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691075.267042475     
  ps_ts2 prof sum =   690650.080937660     
  trcom prof sum =    690650.080937659     
  ps_ts2 cur sum  =   13292.8688771056     
  trcom cur sum  =    13292.8688771056     
  
  antenna # iant =            2
  powecha_use(iant) =    669406.256881089     
  ps_ts2 prof sum =   668995.059901410     
  trcom prof sum =    668995.059901410     
  ps_ts2 cur sum  =   15968.4486521352     
  trcom cur sum  =    15968.4486521352     
  
  antenna # iant =            3
  powecha_use(iant) =    525330.135289750     
  ps_ts2 prof sum =   524994.571977402     
  trcom prof sum =    524994.571977402     
  ps_ts2 cur sum  =   8433.43689166214     
  trcom cur sum  =    8433.43689166214     
  
  antenna # iant =            4
  powecha_use(iant) =    545894.561110478     
  ps_ts2 prof sum =   545577.473564963     
  trcom prof sum =    545577.473564962     
  ps_ts2 cur sum  =   11733.3025050982     
  trcom cur sum  =    11733.3025050982     
  
  antenna # iant =            5
  powecha_use(iant) =    549426.586272717     
  ps_ts2 prof sum =   549143.340780143     
  trcom prof sum =    549143.340780143     
  ps_ts2 cur sum  =   14431.8152916958     
  trcom cur sum  =    14431.8152916958     
  
  Total ECH heating:      2979360.52716158     
  Total Current Drive:    63859.8722176969     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2093
 TA= 2.41000E+00 CPU TIME= 1.59643E-01 SECONDS.  DT= 1.89613E-03
  
 TEC1=    2.40999999999997     
 TEC2=    2.41499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.58556749999980     
  %check_save_state: izleft hours =    74.4061111111111     
 --> plasma_hash("gframe"): TA= 2.410000E+00 NSTEP=  2093 Hash code:   46519190
 ->PRGCHK: bdy curvature ratio at t= 2.4150E+00 seconds is:  5.5607E-02
% MHDEQ: TG1=     2.410000 ; TG2=     2.415000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7746E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5607E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.410000 TO TG2=    2.415000 @ NSTEP     2093
   GFRAME TG2 MOMENTS CHECKSUM:  2.4740283836472D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4150E+00  2.4200E+00 total power(Watts):  2.9882E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.41500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.366888E+02    0.411776E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.348275E+02    0.411879E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.362478E+02    0.396000E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.383351E+02    0.401794E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.381932E+02    0.421312E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.359580E+02    0.427432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.340976E+02    0.437332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.330142E+02    0.423978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.329732E+02    0.407079E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.338671E+02    0.391242E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.356311E+02    0.380056E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.376669E+02    0.377488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.394255E+02    0.384617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.405616E+02    0.398966E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.405864E+02    0.416702E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.396430E+02    0.432559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.378230E+02    0.442562E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.358012E+02    0.444182E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.338985E+02    0.463997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.312827E+02    0.447556E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.299854E+02    0.421888E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138752E+03   -0.305399E+02    0.392563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.327531E+02    0.366656E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.361877E+02    0.351209E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.398231E+02    0.352688E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.428237E+02    0.370972E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.441428E+02    0.400888E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.433824E+02    0.432487E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.407647E+02    0.456657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.373332E+02    0.467463E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.381477E+02    0.322160E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.362454E+02    0.323070E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.377579E+02    0.305021E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.399054E+02    0.310241E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.397012E+02    0.331670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.374266E+02    0.339503E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.352696E+02    0.352630E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.342386E+02    0.338052E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.343423E+02    0.318798E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.353122E+02    0.301124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.370936E+02    0.288432E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.391677E+02    0.284807E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.410791E+02    0.291015E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.421763E+02    0.306015E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.422385E+02    0.325006E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.410980E+02    0.343564E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.392550E+02    0.355897E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.371929E+02    0.358794E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.350853E+02    0.382982E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.323313E+02    0.365887E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138847E+03   -0.312286E+02    0.336854E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.319064E+02    0.304181E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.342909E+02    0.274727E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.377782E+02    0.256837E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.415048E+02    0.256632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.445216E+02    0.274524E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.459469E+02    0.305143E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.449154E+02    0.341016E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.422678E+02    0.370333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.386747E+02    0.385027E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.363669E+02    0.463762E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.345208E+02    0.463414E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.359336E+02    0.449126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.380004E+02    0.455063E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.378590E+02    0.472839E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.357354E+02    0.477625E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.338016E+02    0.486216E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.328092E+02    0.473766E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.326847E+02    0.458499E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.335757E+02    0.444016E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.352423E+02    0.434335E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.372584E+02    0.432551E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.390903E+02    0.439477E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.402105E+02    0.453162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.403310E+02    0.469281E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.394936E+02    0.483244E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.375944E+02    0.491726E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.355854E+02    0.492699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.337023E+02    0.510736E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.310950E+02    0.494859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.298796E+02    0.470911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.302759E+02    0.444260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.325712E+02    0.420421E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.358118E+02    0.407876E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.393124E+02    0.410722E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.422671E+02    0.428585E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.437657E+02    0.456308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.431196E+02    0.484444E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.407304E+02    0.505272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.371204E+02    0.514635E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.373323E+02    0.371288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.353630E+02    0.372150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.368793E+02    0.354427E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.389911E+02    0.360145E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.387609E+02    0.381382E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.365110E+02    0.388317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.346390E+02    0.399018E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.334542E+02    0.385674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.334084E+02    0.367854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.344720E+02    0.349924E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.362471E+02    0.337711E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.383010E+02    0.334602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.401798E+02    0.341181E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.412389E+02    0.356457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.412716E+02    0.375571E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.402248E+02    0.392837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.383980E+02    0.403767E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.363598E+02    0.405901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.343536E+02    0.427638E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.316390E+02    0.410830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138790E+03   -0.304826E+02    0.383848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.311077E+02    0.352188E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138498E+03   -0.333261E+02    0.324865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.368658E+02    0.308260E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.405429E+02    0.308944E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.433979E+02    0.327087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.448574E+02    0.357271E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.441022E+02    0.391433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.413671E+02    0.417973E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.378102E+02    0.430670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.387451E+02    0.254349E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.367267E+02    0.256505E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383211E+02    0.236248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.406026E+02    0.240413E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.403364E+02    0.263838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.379510E+02    0.273365E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.358784E+02    0.287136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.347185E+02    0.273106E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.347068E+02    0.253303E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.358343E+02    0.232919E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.375273E+02    0.219858E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.398072E+02    0.213982E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.417576E+02    0.219759E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.428990E+02    0.235153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.428960E+02    0.255870E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417738E+02    0.275843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.398346E+02    0.289578E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.376582E+02    0.293687E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.355672E+02    0.318843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138704E+03   -0.327496E+02    0.302545E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138858E+03   -0.316626E+02    0.272721E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138672E+03   -0.323817E+02    0.237242E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.346662E+02    0.206629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.382449E+02    0.186505E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.422126E+02    0.183453E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.452116E+02    0.201407E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.465074E+02    0.233787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.455335E+02    0.272189E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.428145E+02    0.303393E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.392062E+02    0.319618E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698580.923195604     
  ps_ts2 prof sum =   698177.003982993     
  trcom prof sum =    698177.003982992     
  ps_ts2 cur sum  =   13321.3097830778     
  trcom cur sum  =    13321.3097830778     
  
  antenna # iant =            2
  powecha_use(iant) =    666861.252822248     
  ps_ts2 prof sum =   666483.473435975     
  trcom prof sum =    666483.473435975     
  ps_ts2 cur sum  =   15776.5143674205     
  trcom cur sum  =    15776.5143674205     
  
  antenna # iant =            3
  powecha_use(iant) =    524952.490846762     
  ps_ts2 prof sum =   524609.651522550     
  trcom prof sum =    524609.651522550     
  ps_ts2 cur sum  =   8357.44050340169     
  trcom cur sum  =    8357.44050340169     
  
  antenna # iant =            4
  powecha_use(iant) =    548197.337433988     
  ps_ts2 prof sum =   547863.063014528     
  trcom prof sum =    547863.063014528     
  ps_ts2 cur sum  =   11682.4873754478     
  trcom cur sum  =    11682.4873754477     
  
  antenna # iant =            5
  powecha_use(iant) =    549576.234831611     
  ps_ts2 prof sum =   549284.255686265     
  trcom prof sum =    549284.255686265     
  ps_ts2 cur sum  =   14323.9356296430     
  trcom cur sum  =    14323.9356296429     
  
  Total ECH heating:      2986417.44764231     
  Total Current Drive:    63461.6876589907     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2096
 TA= 2.41500E+00 CPU TIME= 1.60203E-01 SECONDS.  DT= 9.17121E-04
  
 TEC1=    2.41499999999997     
 TEC2=    2.41999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.60209472222209     
  %check_save_state: izleft hours =    74.3894444444445     
 --> plasma_hash("gframe"): TA= 2.415000E+00 NSTEP=  2096 Hash code:   14102912
 ->PRGCHK: bdy curvature ratio at t= 2.4200E+00 seconds is:  5.5577E-02
% MHDEQ: TG1=     2.415000 ; TG2=     2.420000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7750E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5577E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.415000 TO TG2=    2.420000 @ NSTEP     2096
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741036410939D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.65094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.76167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.88932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.28226E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.46514E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3= -3.74395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.88432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.91364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -7.93935E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.02027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.85503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.79999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.27797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  2.50222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.83978E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.89814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -1.40011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.40881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.06875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.06875E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4200E+00  2.4250E+00 total power(Watts):  2.9884E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.42000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.366842E+02    0.412068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.348223E+02    0.412174E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.362432E+02    0.396287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.383299E+02    0.402097E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.381883E+02    0.421613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.359538E+02    0.427724E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.340941E+02    0.437610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.330103E+02    0.424265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.329699E+02    0.407350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.338626E+02    0.391531E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.356264E+02    0.380350E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.376625E+02    0.377774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.394196E+02    0.384933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.405558E+02    0.399280E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.405809E+02    0.417004E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.396341E+02    0.432875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.378185E+02    0.442848E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.357975E+02    0.444461E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.338962E+02    0.464222E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.312796E+02    0.447822E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.299825E+02    0.422165E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.305354E+02    0.392836E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.327496E+02    0.366935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.361825E+02    0.351534E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.398165E+02    0.353028E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.428168E+02    0.371307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.441331E+02    0.401204E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.432730E+02    0.432944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.407605E+02    0.456938E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.373302E+02    0.467691E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.381377E+02    0.322555E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.362394E+02    0.323434E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.377523E+02    0.305399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.398991E+02    0.310618E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.396950E+02    0.332028E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.374220E+02    0.339817E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.352641E+02    0.352941E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.342342E+02    0.338369E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.343377E+02    0.319148E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.353073E+02    0.301498E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.370882E+02    0.288825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.391615E+02    0.285211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.410725E+02    0.291427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.421696E+02    0.306416E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.422315E+02    0.325382E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.410911E+02    0.343914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.392501E+02    0.356208E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.371883E+02    0.359099E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.350808E+02    0.383272E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138572E+03   -0.323283E+02    0.366164E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138850E+03   -0.312248E+02    0.337166E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.319011E+02    0.304542E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.342867E+02    0.275111E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.377732E+02    0.257235E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.414989E+02    0.257059E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.444118E+02    0.275520E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.459385E+02    0.305571E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.449076E+02    0.341394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.422611E+02    0.370667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.386690E+02    0.385338E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.363635E+02    0.464002E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.345186E+02    0.463635E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.359300E+02    0.449397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.379968E+02    0.455334E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.378567E+02    0.473046E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.357333E+02    0.477812E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.338007E+02    0.486366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.328081E+02    0.473948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.326823E+02    0.458734E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.335725E+02    0.444285E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.352382E+02    0.434620E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.372539E+02    0.432845E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.390815E+02    0.439770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.402058E+02    0.453450E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.403276E+02    0.469517E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.394917E+02    0.483417E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.375930E+02    0.491872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.355847E+02    0.492834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.337029E+02    0.510836E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.310951E+02    0.494983E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.298781E+02    0.471103E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.302733E+02    0.444524E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.325676E+02    0.420708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.358074E+02    0.408166E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.393070E+02    0.411022E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.422612E+02    0.428904E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.437607E+02    0.456595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.431169E+02    0.484629E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.407300E+02    0.505377E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.371213E+02    0.514717E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.373271E+02    0.371593E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.353577E+02    0.372462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.368746E+02    0.354733E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.389858E+02    0.360457E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.387552E+02    0.381699E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.365056E+02    0.388623E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.346346E+02    0.399307E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.335353E+02    0.385625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.334025E+02    0.368146E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.344662E+02    0.350254E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.362415E+02    0.338046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.382953E+02    0.334958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.401735E+02    0.341521E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.412331E+02    0.356779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.412652E+02    0.375888E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.402189E+02    0.393140E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.383928E+02    0.404066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.363598E+02    0.406173E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.343498E+02    0.427923E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.316357E+02    0.411105E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138795E+03   -0.304799E+02    0.384107E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138775E+03   -0.311052E+02    0.352476E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.333217E+02    0.325211E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.368603E+02    0.308628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.405363E+02    0.309329E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.433908E+02    0.327468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.448503E+02    0.357609E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.440946E+02    0.391772E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.413614E+02    0.418281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.378055E+02    0.430966E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.387402E+02    0.254755E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.367221E+02    0.256902E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383167E+02    0.236671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.405015E+02    0.241529E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.402347E+02    0.264878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.379451E+02    0.273777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.358737E+02    0.287517E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.347132E+02    0.273497E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.347032E+02    0.253694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.358303E+02    0.233341E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.375231E+02    0.220288E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.398027E+02    0.214433E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.417526E+02    0.220225E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.428930E+02    0.235606E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.428856E+02    0.256320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.417670E+02    0.276262E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.398279E+02    0.289988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.376526E+02    0.294069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.355622E+02    0.319199E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138706E+03   -0.327449E+02    0.302910E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.316581E+02    0.273096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138673E+03   -0.323786E+02    0.237639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.346627E+02    0.207068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.383380E+02    0.186095E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.422085E+02    0.183947E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.452044E+02    0.201920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.465001E+02    0.234272E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.455261E+02    0.272623E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.428077E+02    0.303800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.392004E+02    0.319984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697403.431733699     
  ps_ts2 prof sum =   696989.524034358     
  trcom prof sum =    696989.524034357     
  ps_ts2 cur sum  =   13195.9226144643     
  trcom cur sum  =    13195.9226144643     
  
  antenna # iant =            2
  powecha_use(iant) =    667422.036640204     
  ps_ts2 prof sum =   667037.495622847     
  trcom prof sum =    667037.495622846     
  ps_ts2 cur sum  =   15675.1264964955     
  trcom cur sum  =    15675.1264964955     
  
  antenna # iant =            3
  powecha_use(iant) =    525130.562871760     
  ps_ts2 prof sum =   524785.667366463     
  trcom prof sum =    524785.667366463     
  ps_ts2 cur sum  =   8297.07098505587     
  trcom cur sum  =    8297.07098505587     
  
  antenna # iant =            4
  powecha_use(iant) =    547987.218303790     
  ps_ts2 prof sum =   547660.982883906     
  trcom prof sum =    547660.982883906     
  ps_ts2 cur sum  =   11590.0617129186     
  trcom cur sum  =    11590.0617129186     
  
  antenna # iant =            5
  powecha_use(iant) =    550499.422990525     
  ps_ts2 prof sum =   550213.638306440     
  trcom prof sum =    550213.638306440     
  ps_ts2 cur sum  =   14248.9711348249     
  trcom cur sum  =    14248.9711348248     
  
  Total ECH heating:      2986687.30821401     
  Total Current Drive:    63007.1529437591     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2100
 TA= 2.42000E+00 CPU TIME= 1.64513E-01 SECONDS.  DT= 1.87934E-03
  
 TEC1=    2.41999999999997     
 TEC2=    2.42499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.61421694444425     
  %check_save_state: izleft hours =    74.3772222222222     
 --> plasma_hash("gframe"): TA= 2.420000E+00 NSTEP=  2100 Hash code:  100387818
 ->PRGCHK: bdy curvature ratio at t= 2.4250E+00 seconds is:  5.5559E-02
% MHDEQ: TG1=     2.420000 ; TG2=     2.425000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7755E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5559E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.420000 TO TG2=    2.425000 @ NSTEP     2100
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741788985407D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4250E+00  2.4300E+00 total power(Watts):  2.9845E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.42500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.366812E+02    0.412368E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.347316E+02    0.412718E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.362402E+02    0.396591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.383262E+02    0.402399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.381844E+02    0.421928E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.359510E+02    0.428019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.340915E+02    0.437897E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.330080E+02    0.424556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.329674E+02    0.407638E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.338603E+02    0.391816E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.355340E+02    0.380978E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.375650E+02    0.378420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.394154E+02    0.385246E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.405513E+02    0.399589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.405765E+02    0.417324E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.396307E+02    0.433176E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.378155E+02    0.443144E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.357952E+02    0.444744E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.338079E+02    0.464574E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.311151E+02    0.448441E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138665E+03   -0.299810E+02    0.422443E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.305332E+02    0.393111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.327468E+02    0.367228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.361788E+02    0.351847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.397158E+02    0.353739E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.428114E+02    0.371637E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.441330E+02    0.401517E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.433719E+02    0.433137E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.407576E+02    0.457216E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.373289E+02    0.467921E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.381390E+02    0.322876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.360574E+02    0.324750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.377481E+02    0.305778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.398950E+02    0.310991E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.396908E+02    0.332373E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.374171E+02    0.340159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.353529E+02    0.352821E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.342308E+02    0.338682E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.341628E+02    0.320527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.353033E+02    0.301865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.370832E+02    0.289206E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.391571E+02    0.285619E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.410673E+02    0.291836E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.421641E+02    0.306812E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.422264E+02    0.325755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.410863E+02    0.344260E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.392456E+02    0.356530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.371843E+02    0.359411E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.350778E+02    0.383565E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.323255E+02    0.366454E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138854E+03   -0.312222E+02    0.337474E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138918E+03   -0.318224E+02    0.305444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138541E+03   -0.341140E+02    0.276756E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.377696E+02    0.257648E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.414942E+02    0.257485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.444060E+02    0.275951E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.457210E+02    0.306939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.449014E+02    0.341762E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.423566E+02    0.370680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.386649E+02    0.385647E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.363622E+02    0.464239E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.345173E+02    0.463869E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.359278E+02    0.449676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.379944E+02    0.455606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.378555E+02    0.473254E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.356416E+02    0.478089E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.338010E+02    0.486523E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.328074E+02    0.474142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.326811E+02    0.458973E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.335704E+02    0.444565E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.352355E+02    0.434912E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.372512E+02    0.433138E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.390808E+02    0.440081E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.402028E+02    0.453734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.403257E+02    0.469754E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.394912E+02    0.483591E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.375932E+02    0.492018E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.355852E+02    0.492974E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.337051E+02    0.510931E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.310975E+02    0.495100E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.298776E+02    0.471297E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.302721E+02    0.444789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.323982E+02    0.421476E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.358041E+02    0.408462E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.393036E+02    0.411320E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.422570E+02    0.429217E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.437569E+02    0.456890E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.431155E+02    0.484825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.407311E+02    0.505488E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.371235E+02    0.514808E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.373230E+02    0.371899E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.353541E+02    0.372757E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.368714E+02    0.355035E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.389813E+02    0.360777E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.387511E+02    0.382003E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.365024E+02    0.388915E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.346316E+02    0.399598E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.335325E+02    0.385919E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.334843E+02    0.368058E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.344636E+02    0.350552E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.362377E+02    0.338378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.382910E+02    0.335293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.401687E+02    0.341870E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.412281E+02    0.357109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.412603E+02    0.376211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.402145E+02    0.393454E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.383890E+02    0.404370E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.363521E+02    0.406483E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.343474E+02    0.428214E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.316327E+02    0.411396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138800E+03   -0.304777E+02    0.384387E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138779E+03   -0.311022E+02    0.352768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.333187E+02    0.325530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.368565E+02    0.308999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.404351E+02    0.310210E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.433849E+02    0.327838E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.448441E+02    0.357957E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.440891E+02    0.392107E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.413570E+02    0.418604E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.378026E+02    0.431261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.387362E+02    0.255169E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.367186E+02    0.257304E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383129E+02    0.237101E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.404974E+02    0.241961E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.402304E+02    0.265294E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.377579E+02    0.275394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.358689E+02    0.287911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.347102E+02    0.273865E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.346999E+02    0.254082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.356530E+02    0.235220E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.375201E+02    0.220729E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.397991E+02    0.214898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.417484E+02    0.220695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.428885E+02    0.236060E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.428868E+02    0.256723E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.416636E+02    0.277258E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.398231E+02    0.290394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.376486E+02    0.294464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.355580E+02    0.319550E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138709E+03   -0.327416E+02    0.303264E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.316560E+02    0.273468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138898E+03   -0.322956E+02    0.238780E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.346612E+02    0.207512E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.383336E+02    0.186594E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.422051E+02    0.184458E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.452000E+02    0.202433E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.464940E+02    0.234757E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.455193E+02    0.273070E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.428020E+02    0.304205E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.391010E+02    0.320838E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693842.269897504     
  ps_ts2 prof sum =   693411.531133152     
  trcom prof sum =    693411.531117795     
  ps_ts2 cur sum  =   13033.5176338665     
  trcom cur sum  =    13033.5176338665     
  
  antenna # iant =            2
  powecha_use(iant) =    667483.367977044     
  ps_ts2 prof sum =   667063.764561059     
  trcom prof sum =    667063.764561059     
  ps_ts2 cur sum  =   15567.3622338759     
  trcom cur sum  =    15567.3622338759     
  
  antenna # iant =            3
  powecha_use(iant) =    525253.831715422     
  ps_ts2 prof sum =   524903.076890997     
  trcom prof sum =    524903.076890997     
  ps_ts2 cur sum  =   8242.39398101724     
  trcom cur sum  =    8242.39398101724     
  
  antenna # iant =            4
  powecha_use(iant) =    546249.803999228     
  ps_ts2 prof sum =   545942.064170397     
  trcom prof sum =    545942.064170397     
  ps_ts2 cur sum  =   11470.5392662085     
  trcom cur sum  =    11470.5392662084     
  
  antenna # iant =            5
  powecha_use(iant) =    551697.703689892     
  ps_ts2 prof sum =   551386.669401964     
  trcom prof sum =    551386.669401964     
  ps_ts2 cur sum  =   14184.4247573462     
  trcom cur sum  =    14184.4247573462     
  
  Total ECH heating:      2982707.10614221     
  Total Current Drive:    62498.2378723143     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2103
 TA= 2.42500E+00 CPU TIME= 1.60170E-01 SECONDS.  DT= 9.64342E-04
  
 TEC1=    2.42499999999997     
 TEC2=    2.42999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.62526888888897     
  %check_save_state: izleft hours =    74.3663888888889     
 --> plasma_hash("gframe"): TA= 2.425000E+00 NSTEP=  2103 Hash code:   85033149
 ->PRGCHK: bdy curvature ratio at t= 2.4300E+00 seconds is:  5.5552E-02
% MHDEQ: TG1=     2.425000 ; TG2=     2.430000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7759E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5552E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.425000 TO TG2=    2.430000 @ NSTEP     2103
   GFRAME TG2 MOMENTS CHECKSUM:  2.4742541559875D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.21449E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.34820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.84827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.05478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.53858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       3=  3.92473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.69815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.50966E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.76223E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.04112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.32502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.91400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.57420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  4.04102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.06630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.36141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.17165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.58990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.16065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.16065E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4300E+00  2.4350E+00 total power(Watts):  2.9887E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.43000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.366786E+02    0.412694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.347290E+02    0.413043E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.362369E+02    0.396933E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.383224E+02    0.402749E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.381807E+02    0.422270E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.359485E+02    0.428334E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.340029E+02    0.438374E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.330056E+02    0.424870E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.329650E+02    0.407960E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.338574E+02    0.392152E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.355308E+02    0.381327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.375612E+02    0.378782E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.394093E+02    0.385611E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.405463E+02    0.399956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.405724E+02    0.417674E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.396269E+02    0.433517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.378127E+02    0.443452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.357928E+02    0.445038E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.338069E+02    0.464804E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.311143E+02    0.448699E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.299792E+02    0.422747E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138770E+03   -0.305313E+02    0.393424E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.327438E+02    0.367577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.361752E+02    0.352215E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.397115E+02    0.354123E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.428065E+02    0.372023E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.441253E+02    0.401920E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.433674E+02    0.433486E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.407550E+02    0.457493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.373276E+02    0.468155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.381348E+02    0.323282E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.360540E+02    0.325153E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.377442E+02    0.306196E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.398908E+02    0.311414E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.396865E+02    0.332777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.373217E+02    0.340979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.353467E+02    0.353196E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.342274E+02    0.339064E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.341600E+02    0.320909E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.353000E+02    0.302278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.370797E+02    0.289643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.391537E+02    0.286043E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.410632E+02    0.292276E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.421593E+02    0.307255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.422214E+02    0.326179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.410807E+02    0.344671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.392413E+02    0.356909E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.371805E+02    0.359782E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.350746E+02    0.383917E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.323224E+02    0.366800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138857E+03   -0.312194E+02    0.337841E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138930E+03   -0.318165E+02    0.305846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.341114E+02    0.277162E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.375846E+02    0.259379E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.414905E+02    0.257925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.444004E+02    0.276426E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.457152E+02    0.307407E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.448957E+02    0.342188E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.423517E+02    0.371058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.386609E+02    0.386008E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.363607E+02    0.464478E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.345164E+02    0.464104E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.359258E+02    0.449959E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.379921E+02    0.455879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.378544E+02    0.473474E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.356413E+02    0.478279E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.338027E+02    0.486667E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.328072E+02    0.474335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.326800E+02    0.459216E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.335685E+02    0.444851E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.352335E+02    0.435217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.372482E+02    0.433461E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.390823E+02    0.440389E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.402001E+02    0.454027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.403240E+02    0.469993E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.394908E+02    0.483772E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.375940E+02    0.492161E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.355861E+02    0.493113E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.337075E+02    0.511025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.310989E+02    0.495228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.298778E+02    0.471490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.302712E+02    0.445056E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.323959E+02    0.421786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.358011E+02    0.408792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.392997E+02    0.411667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.422524E+02    0.429575E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.437536E+02    0.457195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.431142E+02    0.485015E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.407326E+02    0.505597E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.371260E+02    0.514895E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.373195E+02    0.372266E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.353509E+02    0.373114E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.368675E+02    0.355410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.389772E+02    0.361155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.387470E+02    0.382368E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.364990E+02    0.389264E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.346286E+02    0.399932E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.335298E+02    0.386255E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.334810E+02    0.368412E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.344605E+02    0.350913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.362341E+02    0.338761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.382873E+02    0.335684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.401642E+02    0.342273E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.412227E+02    0.357518E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.412556E+02    0.376604E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.402102E+02    0.393818E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.383853E+02    0.404716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.363490E+02    0.406821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.343453E+02    0.428518E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.316304E+02    0.411712E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138804E+03   -0.304756E+02    0.384715E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.310992E+02    0.353122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138507E+03   -0.333163E+02    0.325914E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.368530E+02    0.309411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.404308E+02    0.310636E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.433791E+02    0.328285E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.448382E+02    0.358371E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.440836E+02    0.392496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.413531E+02    0.418953E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.377994E+02    0.431588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.387333E+02    0.255596E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.367158E+02    0.257717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383103E+02    0.237529E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.404946E+02    0.242403E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.402259E+02    0.265734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.378466E+02    0.275201E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.358649E+02    0.288332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.347907E+02    0.273657E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.347831E+02    0.253797E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.356513E+02    0.235637E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.375181E+02    0.221169E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.397969E+02    0.215356E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.417457E+02    0.221155E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.428850E+02    0.236524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.428803E+02    0.257191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.416646E+02    0.277686E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.398193E+02    0.290827E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.376445E+02    0.294884E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.355553E+02    0.319948E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138711E+03   -0.327393E+02    0.303655E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138865E+03   -0.316542E+02    0.273861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138900E+03   -0.322945E+02    0.239179E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.346602E+02    0.207939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.383318E+02    0.187062E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.422033E+02    0.184938E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.451969E+02    0.202934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.464900E+02    0.235242E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.455149E+02    0.273536E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.427969E+02    0.304648E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.390969E+02    0.321250E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    701208.712086698     
  ps_ts2 prof sum =   700773.070019644     
  trcom prof sum =    700773.070019644     
  ps_ts2 cur sum  =   13074.9969310754     
  trcom cur sum  =    13074.9969310754     
  
  antenna # iant =            2
  powecha_use(iant) =    667456.810416980     
  ps_ts2 prof sum =   667023.953901696     
  trcom prof sum =    667023.953901696     
  ps_ts2 cur sum  =   15457.4920679131     
  trcom cur sum  =    15457.4920679131     
  
  antenna # iant =            3
  powecha_use(iant) =    524558.892736459     
  ps_ts2 prof sum =   524212.202755447     
  trcom prof sum =    524212.202755448     
  ps_ts2 cur sum  =   8174.27419321111     
  trcom cur sum  =    8174.27419321111     
  
  antenna # iant =            4
  powecha_use(iant) =    545648.769332205     
  ps_ts2 prof sum =   545345.424152266     
  trcom prof sum =    545345.424152265     
  ps_ts2 cur sum  =   11374.6030575271     
  trcom cur sum  =    11374.6030575271     
  
  antenna # iant =            5
  powecha_use(iant) =    549789.585021678     
  ps_ts2 prof sum =   549515.030261889     
  trcom prof sum =    549515.030261889     
  ps_ts2 cur sum  =   14042.6972572120     
  trcom cur sum  =    14042.6972572120     
  
  Total ECH heating:      2986869.68109094     
  Total Current Drive:    62124.0635069387     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2107
 TA= 2.43000E+00 CPU TIME= 1.60869E-01 SECONDS.  DT= 1.65431E-03
  
 TEC1=    2.42999999999997     
 TEC2=    2.43499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.63762722222191     
  %check_save_state: izleft hours =    74.3538888888889     
 --> plasma_hash("gframe"): TA= 2.430000E+00 NSTEP=  2107 Hash code:   10264915
 ->PRGCHK: bdy curvature ratio at t= 2.4350E+00 seconds is:  5.5556E-02
% MHDEQ: TG1=     2.430000 ; TG2=     2.435000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7764E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5556E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.430000 TO TG2=    2.435000 @ NSTEP     2107
   GFRAME TG2 MOMENTS CHECKSUM:  2.4743294134342D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4350E+00  2.4400E+00 total power(Watts):  2.9863E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.43500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.366736E+02    0.412986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.347254E+02    0.413318E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.362315E+02    0.397227E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.383161E+02    0.403051E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.381758E+02    0.422556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.359440E+02    0.428616E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.340863E+02    0.438451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.330020E+02    0.425142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.329608E+02    0.408242E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.338531E+02    0.392443E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.355255E+02    0.381631E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.375557E+02    0.379101E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.394074E+02    0.385926E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.405400E+02    0.400270E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.405666E+02    0.417975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.396216E+02    0.433801E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.378086E+02    0.443712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.357894E+02    0.445291E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.338048E+02    0.464992E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.311115E+02    0.448938E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138674E+03   -0.299755E+02    0.423016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138775E+03   -0.305274E+02    0.393708E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.327390E+02    0.367882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.361693E+02    0.352542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.398009E+02    0.354079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.427990E+02    0.372365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.441182E+02    0.402240E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.433614E+02    0.433786E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.407508E+02    0.457742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.373253E+02    0.468346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.381277E+02    0.323647E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.360480E+02    0.325505E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.377376E+02    0.306572E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.398834E+02    0.311798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.396787E+02    0.333144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.374071E+02    0.340882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.353410E+02    0.353514E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.342220E+02    0.339397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.341547E+02    0.321258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.352946E+02    0.302644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.370735E+02    0.290021E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.391468E+02    0.286438E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.410554E+02    0.292684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.421513E+02    0.307650E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.422128E+02    0.326579E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.410733E+02    0.345021E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.392342E+02    0.357250E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.371741E+02    0.360116E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.350694E+02    0.384215E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.323177E+02    0.367107E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.312145E+02    0.338162E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138702E+03   -0.318917E+02    0.305635E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.341048E+02    0.277533E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.377602E+02    0.258464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.414827E+02    0.258336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.443918E+02    0.276850E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.457058E+02    0.307823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.448867E+02    0.342562E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.422436E+02    0.371715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.386547E+02    0.386324E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.363587E+02    0.464677E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.345140E+02    0.464298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.359220E+02    0.450207E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.379888E+02    0.456111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.378519E+02    0.473657E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.356404E+02    0.478424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.338024E+02    0.486788E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.328061E+02    0.474494E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.326778E+02    0.459431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.335654E+02    0.445100E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.352296E+02    0.435484E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.372434E+02    0.433744E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.390741E+02    0.440670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.401960E+02    0.454271E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.403216E+02    0.470182E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.394894E+02    0.483908E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.375936E+02    0.492272E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.355861E+02    0.493217E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.337094E+02    0.511093E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.310996E+02    0.495325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.298770E+02    0.471651E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.302692E+02    0.445293E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.323921E+02    0.422061E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.357963E+02    0.409082E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.392934E+02    0.411978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.422462E+02    0.429876E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.437457E+02    0.457439E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.431122E+02    0.485159E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.407332E+02    0.505667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.371274E+02    0.514954E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.373142E+02    0.372571E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.353453E+02    0.373427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.368607E+02    0.355756E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.389707E+02    0.361480E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.387408E+02    0.382690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.364934E+02    0.389571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.346240E+02    0.400223E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.335252E+02    0.386549E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.334761E+02    0.368717E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.344554E+02    0.351236E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.362281E+02    0.339099E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.382799E+02    0.336043E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.401561E+02    0.342627E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.412157E+02    0.357848E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.412486E+02    0.376922E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.402030E+02    0.394143E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.383790E+02    0.405012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.363434E+02    0.407106E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.343411E+02    0.428801E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.316267E+02    0.411984E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138808E+03   -0.304718E+02    0.385000E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138786E+03   -0.310948E+02    0.353429E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138510E+03   -0.333108E+02    0.326259E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.368466E+02    0.309776E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.404234E+02    0.311034E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.433708E+02    0.328667E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.448295E+02    0.358738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.440759E+02    0.392831E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.413468E+02    0.419261E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.377945E+02    0.431876E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.387259E+02    0.256001E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.367101E+02    0.258110E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383037E+02    0.237942E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.404869E+02    0.242823E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.402186E+02    0.266141E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.377482E+02    0.276213E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.358594E+02    0.288712E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.347903E+02    0.274004E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.346926E+02    0.254867E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.356462E+02    0.236037E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.375122E+02    0.221596E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.397903E+02    0.215792E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.417381E+02    0.221599E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.428769E+02    0.236948E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.428725E+02    0.257604E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.416529E+02    0.278099E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.398120E+02    0.291227E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.376383E+02    0.295268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.355501E+02    0.320301E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138720E+03   -0.327317E+02    0.304031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138866E+03   -0.316491E+02    0.274227E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138901E+03   -0.322898E+02    0.239567E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.346559E+02    0.208345E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.383278E+02    0.187488E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.421964E+02    0.185408E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.451889E+02    0.203396E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.464813E+02    0.235695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.455063E+02    0.273962E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.427886E+02    0.305051E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.390898E+02    0.321618E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697689.375478765     
  ps_ts2 prof sum =   697255.673021792     
  trcom prof sum =    697255.673021792     
  ps_ts2 cur sum  =   12899.0740701434     
  trcom cur sum  =    12899.0740701433     
  
  antenna # iant =            2
  powecha_use(iant) =    670112.174474942     
  ps_ts2 prof sum =   669686.947550872     
  trcom prof sum =    669686.947550871     
  ps_ts2 cur sum  =   15389.8930795064     
  trcom cur sum  =    15389.8930795064     
  
  antenna # iant =            3
  powecha_use(iant) =    524015.592366577     
  ps_ts2 prof sum =   523663.794173542     
  trcom prof sum =    523663.794173543     
  ps_ts2 cur sum  =   8101.01107182959     
  trcom cur sum  =    8101.01107182959     
  
  antenna # iant =            4
  powecha_use(iant) =    545383.637459009     
  ps_ts2 prof sum =   545070.450839849     
  trcom prof sum =    545070.450839848     
  ps_ts2 cur sum  =   11272.4382754352     
  trcom cur sum  =    11272.4382754352     
  
  antenna # iant =            5
  powecha_use(iant) =    549129.962193720     
  ps_ts2 prof sum =   548826.720000138     
  trcom prof sum =    548826.720000138     
  ps_ts2 cur sum  =   13914.2455490923     
  trcom cur sum  =    13914.2455490923     
  
  Total ECH heating:      2984503.58558619     
  Total Current Drive:    61576.6620460068     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2110
 TA= 2.43500E+00 CPU TIME= 1.59272E-01 SECONDS.  DT= 1.59726E-03
  
 TEC1=    2.43499999999997     
 TEC2=    2.43999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.65286250000008     
  %check_save_state: izleft hours =    74.3386111111111     
 --> plasma_hash("gframe"): TA= 2.435000E+00 NSTEP=  2110 Hash code:   55196085
 ->PRGCHK: bdy curvature ratio at t= 2.4400E+00 seconds is:  5.5521E-02
% MHDEQ: TG1=     2.435000 ; TG2=     2.440000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7768E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5521E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.435000 TO TG2=    2.440000 @ NSTEP     2110
   GFRAME TG2 MOMENTS CHECKSUM:  2.4744046708810D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.77804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.93472E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.62055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.18511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.54719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.61201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.51198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.10568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -5.58511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.06197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.62557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.20792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.40085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.57983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.29282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.82469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.61178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.77098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.84828E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.84828E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.4400E+00  2.4450E+00 total power(Watts):  2.9849E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.44000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.366716E+02    0.413402E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.347238E+02    0.413722E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.362299E+02    0.397660E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.383143E+02    0.403489E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.381746E+02    0.422949E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.359435E+02    0.428970E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.340862E+02    0.438771E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.330014E+02    0.425500E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.329603E+02    0.408626E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.338521E+02    0.392872E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.355241E+02    0.382099E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.375533E+02    0.379590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.394022E+02    0.386419E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.405382E+02    0.400720E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.405647E+02    0.418396E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.396202E+02    0.434168E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.378080E+02    0.444042E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.357891E+02    0.445603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.338062E+02    0.465229E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.311081E+02    0.449225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.299757E+02    0.423358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138778E+03   -0.305267E+02    0.394111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.327383E+02    0.368348E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.361670E+02    0.353052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.397983E+02    0.354617E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.427950E+02    0.372924E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.441151E+02    0.402728E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.432560E+02    0.434315E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.407513E+02    0.458023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.373268E+02    0.468578E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.381258E+02    0.324186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.360472E+02    0.326011E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.377370E+02    0.307108E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.398778E+02    0.312371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.396769E+02    0.333688E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.374016E+02    0.341422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.353397E+02    0.354010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.342213E+02    0.339888E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.341544E+02    0.321760E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.352945E+02    0.303153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.370735E+02    0.290534E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.391467E+02    0.286955E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.410547E+02    0.293226E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.421490E+02    0.308227E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.422106E+02    0.327137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.410708E+02    0.345578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.392321E+02    0.357786E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.371722E+02    0.360618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.350681E+02    0.384673E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.323171E+02    0.367570E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138861E+03   -0.312147E+02    0.338643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138932E+03   -0.318115E+02    0.306678E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.341070E+02    0.277998E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.377605E+02    0.258953E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.414833E+02    0.258841E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.443912E+02    0.277394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.457029E+02    0.308425E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.448836E+02    0.343147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.422402E+02    0.372268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.386526E+02    0.386808E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.363601E+02    0.464917E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.345158E+02    0.464536E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.359227E+02    0.450498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.379892E+02    0.456392E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.378535E+02    0.473870E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.357338E+02    0.478526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.338054E+02    0.486947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.328083E+02    0.474688E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.326793E+02    0.459675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.335664E+02    0.445392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.352286E+02    0.435821E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.372424E+02    0.434095E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.390735E+02    0.441009E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.401962E+02    0.454571E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.403227E+02    0.470423E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.394923E+02    0.484084E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.375967E+02    0.492425E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.355894E+02    0.493366E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.337142E+02    0.511206E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.311035E+02    0.495460E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.298803E+02    0.471837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138514E+03   -0.302691E+02    0.445587E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.325590E+02    0.421946E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.357947E+02    0.409496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.392914E+02    0.412403E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.422448E+02    0.430261E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.437491E+02    0.457751E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.431144E+02    0.485347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.407375E+02    0.505794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.371325E+02    0.515064E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.373114E+02    0.373081E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.353447E+02    0.373888E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.368591E+02    0.356263E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.389686E+02    0.362000E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.387387E+02    0.383177E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.364921E+02    0.390023E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.346229E+02    0.400635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.335241E+02    0.386990E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.334754E+02    0.369193E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.344542E+02    0.351735E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.362271E+02    0.339602E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.382784E+02    0.336570E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.401541E+02    0.343173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.412136E+02    0.358397E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.412459E+02    0.377445E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.402007E+02    0.394617E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.383772E+02    0.405454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.363418E+02    0.407526E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.343377E+02    0.429151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.316264E+02    0.412358E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138811E+03   -0.304713E+02    0.385425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138787E+03   -0.310932E+02    0.353899E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138510E+03   -0.333110E+02    0.326748E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.368459E+02    0.310301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.404221E+02    0.311581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.433683E+02    0.329240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.448263E+02    0.359299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.440727E+02    0.393344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.413445E+02    0.419684E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.377933E+02    0.432237E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.387268E+02    0.256484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.367101E+02    0.258589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.383052E+02    0.238410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.404884E+02    0.243311E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.402193E+02    0.266646E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.377484E+02    0.276693E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.358592E+02    0.289213E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138281E+03   -0.347036E+02    0.275125E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.347786E+02    0.254645E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.356482E+02    0.236482E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.375148E+02    0.222048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.397922E+02    0.216263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.417403E+02    0.222076E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.428781E+02    0.237455E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.428732E+02    0.258115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.416522E+02    0.278631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.398115E+02    0.291754E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.376381E+02    0.295786E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.355493E+02    0.320807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138707E+03   -0.327366E+02    0.304489E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138868E+03   -0.316511E+02    0.274683E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138903E+03   -0.322924E+02    0.239996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.346586E+02    0.208780E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.383313E+02    0.187929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.421997E+02    0.185871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.451915E+02    0.203892E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.464820E+02    0.236218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.455056E+02    0.274507E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.427863E+02    0.305630E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.390832E+02    0.322178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695724.359427448     
  ps_ts2 prof sum =   695281.093962812     
  trcom prof sum =    695281.093962812     
  ps_ts2 cur sum  =   12769.5470289764     
  trcom cur sum  =    12769.5470289764     
  
  antenna # iant =            2
  powecha_use(iant) =    670177.873545584     
  ps_ts2 prof sum =   669741.536785770     
  trcom prof sum =    669741.536785770     
  ps_ts2 cur sum  =   15278.5318830694     
  trcom cur sum  =    15278.5318830694     
  
  antenna # iant =            3
  powecha_use(iant) =    524077.772437409     
  ps_ts2 prof sum =   523742.172494944     
  trcom prof sum =    523742.172494945     
  ps_ts2 cur sum  =   8050.11435370593     
  trcom cur sum  =    8050.11435370594     
  
  antenna # iant =            4
  powecha_use(iant) =    545328.128288207     
  ps_ts2 prof sum =   545013.158909790     
  trcom prof sum =    545013.158909789     
  ps_ts2 cur sum  =   11187.1863543941     
  trcom cur sum  =    11187.1863543941     
  
  antenna # iant =            5
  powecha_use(iant) =    549586.823800122     
  ps_ts2 prof sum =   549282.488731771     
  trcom prof sum =    549282.488731771     
  ps_ts2 cur sum  =   13830.9140382130     
  trcom cur sum  =    13830.9140382130     
  
  Total ECH heating:      2983060.45088509     
  Total Current Drive:    61116.2936583589     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2113
 TA= 2.44000E+00 CPU TIME= 1.60416E-01 SECONDS.  DT= 1.75769E-03
  
 TEC1=    2.43999999999997     
 TEC2=    2.44499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.66758249999975     
  %check_save_state: izleft hours =    74.3238888888889     
 --> plasma_hash("gframe"): TA= 2.440000E+00 NSTEP=  2113 Hash code:   76603727
 ->PRGCHK: bdy curvature ratio at t= 2.4450E+00 seconds is:  5.5354E-02
% MHDEQ: TG1=     2.440000 ; TG2=     2.445000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7773E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5354E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.440000 TO TG2=    2.445000 @ NSTEP     2113
   GFRAME TG2 MOMENTS CHECKSUM:  2.4744799283278D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4450E+00  2.4500E+00 total power(Watts):  2.9812E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.44500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.366672E+02    0.413800E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.348101E+02    0.413869E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.362270E+02    0.398105E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.383122E+02    0.403924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.381725E+02    0.423343E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.359420E+02    0.429337E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.340847E+02    0.439101E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.330007E+02    0.425851E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.329588E+02    0.409028E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.338504E+02    0.393303E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.356110E+02    0.382245E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.376432E+02    0.379751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.393998E+02    0.386905E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.405352E+02    0.401188E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.407591E+02    0.418438E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.396184E+02    0.434535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.378072E+02    0.444366E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.357883E+02    0.445916E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.338081E+02    0.465448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.311125E+02    0.449491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138683E+03   -0.299750E+02    0.423700E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138781E+03   -0.305262E+02    0.394518E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.327372E+02    0.368814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.361692E+02    0.353550E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.397952E+02    0.355152E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.427910E+02    0.373468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.441113E+02    0.403216E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.434602E+02    0.434434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.407506E+02    0.458319E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.373275E+02    0.468805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.381240E+02    0.324706E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.362236E+02    0.325554E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.377356E+02    0.307628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.398813E+02    0.312884E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.396744E+02    0.334227E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.374040E+02    0.341927E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.352499E+02    0.354926E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.342204E+02    0.340385E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.341536E+02    0.322254E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.352931E+02    0.303666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.370727E+02    0.291037E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.391456E+02    0.287471E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.410533E+02    0.293758E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.421467E+02    0.308778E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.422076E+02    0.327691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.410683E+02    0.346113E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.392290E+02    0.358312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.371700E+02    0.361125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.350661E+02    0.385131E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138586E+03   -0.323158E+02    0.368035E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.312140E+02    0.339111E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138703E+03   -0.318914E+02    0.306589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.341073E+02    0.278463E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.377611E+02    0.259421E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.414830E+02    0.259334E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.443898E+02    0.277924E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.459093E+02    0.308085E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.448803E+02    0.343715E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.422364E+02    0.372808E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.386498E+02    0.387283E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.363606E+02    0.465162E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.345171E+02    0.464764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.359224E+02    0.450793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.379893E+02    0.456672E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.378546E+02    0.474082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.357344E+02    0.478720E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.338078E+02    0.487099E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.328098E+02    0.474880E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.326799E+02    0.459920E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.335661E+02    0.445693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.352276E+02    0.436158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.372407E+02    0.434448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.390721E+02    0.441348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.401954E+02    0.454873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.403231E+02    0.470659E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.394941E+02    0.484258E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.375951E+02    0.492563E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.355920E+02    0.493506E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.337186E+02    0.511302E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.311064E+02    0.495591E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.298816E+02    0.472035E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.302688E+02    0.445878E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.325581E+02    0.422304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.357932E+02    0.409903E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.392890E+02    0.412827E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.422423E+02    0.430662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.437517E+02    0.458059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.431162E+02    0.485519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.407411E+02    0.505909E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.371372E+02    0.515161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.373097E+02    0.373577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.353426E+02    0.374368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.368567E+02    0.356770E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.389658E+02    0.362518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.387361E+02    0.383660E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.364898E+02    0.390484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.346209E+02    0.401055E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.335228E+02    0.387431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.333890E+02    0.370040E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.344528E+02    0.352223E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.362248E+02    0.340123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.382761E+02    0.337104E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.401512E+02    0.343714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.412107E+02    0.358926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.412420E+02    0.377982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.401977E+02    0.395092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.383753E+02    0.405880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.363398E+02    0.407942E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.343401E+02    0.429501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.316256E+02    0.412736E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138813E+03   -0.304705E+02    0.385850E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138788E+03   -0.310933E+02    0.354370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.333102E+02    0.327237E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.368445E+02    0.310814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.404193E+02    0.312128E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.433655E+02    0.329789E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.447175E+02    0.360219E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.440691E+02    0.393854E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.413420E+02    0.420107E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.377917E+02    0.432595E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.387272E+02    0.256968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.367106E+02    0.259057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.383062E+02    0.238882E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.404892E+02    0.243786E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.402191E+02    0.267129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.379307E+02    0.275974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.358587E+02    0.289708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138281E+03   -0.347030E+02    0.275592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.346944E+02    0.255778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.358222E+02    0.235480E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.375168E+02    0.222502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.397939E+02    0.216729E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.417408E+02    0.222561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.428783E+02    0.237943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.428727E+02    0.258620E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.417490E+02    0.278572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.398102E+02    0.292284E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.376365E+02    0.296303E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.355471E+02    0.321322E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138714E+03   -0.327337E+02    0.304984E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138869E+03   -0.316515E+02    0.275131E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138905E+03   -0.322942E+02    0.240418E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.346607E+02    0.209212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.383326E+02    0.188395E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.422018E+02    0.186355E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.451924E+02    0.204396E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.464820E+02    0.236730E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.455033E+02    0.275059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.427840E+02    0.306186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.390861E+02    0.322693E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692608.669817299     
  ps_ts2 prof sum =   692194.927741909     
  trcom prof sum =    692194.927741909     
  ps_ts2 cur sum  =   12615.1992452022     
  trcom cur sum  =    12615.1992452022     
  
  antenna # iant =            2
  powecha_use(iant) =    668417.525373713     
  ps_ts2 prof sum =   667996.164492750     
  trcom prof sum =    667996.164492749     
  ps_ts2 cur sum  =   15126.2298078319     
  trcom cur sum  =    15126.2298078319     
  
  antenna # iant =            3
  powecha_use(iant) =    524527.441336739     
  ps_ts2 prof sum =   524185.139799217     
  trcom prof sum =    524185.139799217     
  ps_ts2 cur sum  =   8000.83177605692     
  trcom cur sum  =    8000.83177605693     
  
  antenna # iant =            4
  powecha_use(iant) =    545545.624034331     
  ps_ts2 prof sum =   545206.229979719     
  trcom prof sum =    545206.229979719     
  ps_ts2 cur sum  =   11106.1599803665     
  trcom cur sum  =    11106.1599803665     
  
  antenna # iant =            5
  powecha_use(iant) =    550058.118285494     
  ps_ts2 prof sum =   549770.604371523     
  trcom prof sum =    549770.604371523     
  ps_ts2 cur sum  =   13748.9522176658     
  trcom cur sum  =    13748.9522176658     
  
  Total ECH heating:      2979353.06638512     
  Total Current Drive:    60597.3730271234     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2116
 TA= 2.44500E+00 CPU TIME= 1.59643E-01 SECONDS.  DT= 1.30649E-03
  
 TEC1=    2.44499999999997     
 TEC2=    2.44999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.67917722222205     
  %check_save_state: izleft hours =    74.3125000000000     
 --> plasma_hash("gframe"): TA= 2.445000E+00 NSTEP=  2116 Hash code:   39275751
 ->PRGCHK: bdy curvature ratio at t= 2.4500E+00 seconds is:  5.5197E-02
% MHDEQ: TG1=     2.445000 ; TG2=     2.450000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5197E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.445000 TO TG2=    2.450000 @ NSTEP     2116
   GFRAME TG2 MOMENTS CHECKSUM:  2.4745551896752D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.34242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.52203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.22996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.19095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.27396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.67941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.68531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -1.66544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.32616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.09847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -4.41022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.08088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.54772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.57057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.76279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.11570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.51701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.28708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.28873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.95173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.49914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.49914E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4500E+00  2.4550E+00 total power(Watts):  2.9863E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.45000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.366697E+02    0.414217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.347221E+02    0.414511E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.362270E+02    0.398540E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.383116E+02    0.404367E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.381716E+02    0.423747E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.359415E+02    0.429705E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.340858E+02    0.439431E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.330012E+02    0.426210E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.329588E+02    0.409423E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.338502E+02    0.393731E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.355215E+02    0.383041E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.375499E+02    0.380563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.393983E+02    0.387403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.405339E+02    0.401653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.407582E+02    0.418859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.396183E+02    0.434911E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.378085E+02    0.444695E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.357894E+02    0.446239E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.338102E+02    0.465696E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.311161E+02    0.449783E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.299759E+02    0.424053E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.305266E+02    0.394927E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.327375E+02    0.369287E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.361652E+02    0.354078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.397936E+02    0.355696E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.427889E+02    0.374026E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.441089E+02    0.403711E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.434601E+02    0.434821E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.407515E+02    0.458626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.373296E+02    0.469052E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.381238E+02    0.325236E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.360460E+02    0.327034E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.377358E+02    0.308147E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.398793E+02    0.313438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.396738E+02    0.334766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.374017E+02    0.342472E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.353375E+02    0.355024E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.342207E+02    0.340881E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.341543E+02    0.322760E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.352934E+02    0.304164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.370734E+02    0.291545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.391470E+02    0.287977E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.410533E+02    0.294289E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.421462E+02    0.309326E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.422065E+02    0.328256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.410665E+02    0.346673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.392281E+02    0.358846E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.371693E+02    0.361641E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.350658E+02    0.385595E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.323162E+02    0.368504E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138863E+03   -0.312152E+02    0.339592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138933E+03   -0.318124E+02    0.307642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.341087E+02    0.278922E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.377631E+02    0.259883E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.414848E+02    0.259818E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.443901E+02    0.278456E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.459077E+02    0.308676E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.448777E+02    0.344319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.422345E+02    0.373359E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.386486E+02    0.387774E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.363624E+02    0.465419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.345191E+02    0.465017E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.359239E+02    0.451094E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.379904E+02    0.456970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.378572E+02    0.474306E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.357374E+02    0.478917E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.338114E+02    0.487265E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.328131E+02    0.475080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.326824E+02    0.460178E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.335664E+02    0.446010E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.352278E+02    0.436507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.372408E+02    0.434809E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.390728E+02    0.441699E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.401963E+02    0.455192E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.403251E+02    0.470912E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.394927E+02    0.484449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.376016E+02    0.492728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.355961E+02    0.493660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.337198E+02    0.511416E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.311106E+02    0.495736E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.298844E+02    0.472237E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.302702E+02    0.446176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.325584E+02    0.422674E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.357932E+02    0.410312E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.392884E+02    0.413252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.422418E+02    0.431066E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.437483E+02    0.458383E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.431196E+02    0.485718E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.407463E+02    0.506039E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.371430E+02    0.515280E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.373081E+02    0.374085E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.353410E+02    0.374871E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.368563E+02    0.357288E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.389649E+02    0.363061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.387341E+02    0.384172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.364886E+02    0.390949E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.346204E+02    0.401489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.335223E+02    0.387881E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.334733E+02    0.370145E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.344527E+02    0.352732E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.362246E+02    0.340650E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.382755E+02    0.337640E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.401503E+02    0.344262E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.412087E+02    0.359485E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.412403E+02    0.378510E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.401965E+02    0.395578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.383745E+02    0.406327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.363399E+02    0.408357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.343438E+02    0.429854E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.316260E+02    0.413120E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138816E+03   -0.304708E+02    0.386283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.310939E+02    0.354848E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.333107E+02    0.327733E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.368448E+02    0.311331E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.404190E+02    0.312670E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.433633E+02    0.330382E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.448191E+02    0.360481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.440669E+02    0.394377E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.413410E+02    0.420535E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.377912E+02    0.432973E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.387293E+02    0.257430E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.367117E+02    0.259512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.383083E+02    0.239334E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.404910E+02    0.244235E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.402216E+02    0.267610E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.377499E+02    0.277663E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.358594E+02    0.290194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.347900E+02    0.275437E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.347815E+02    0.255536E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.356523E+02    0.237362E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.375204E+02    0.222932E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.397974E+02    0.217181E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.417437E+02    0.223029E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.428807E+02    0.238417E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.428742E+02    0.259111E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.416514E+02    0.279666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.398104E+02    0.292806E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.376373E+02    0.296813E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.355479E+02    0.321837E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138715E+03   -0.327350E+02    0.305472E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138871E+03   -0.316534E+02    0.275565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138908E+03   -0.322969E+02    0.240831E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.346648E+02    0.209642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.383363E+02    0.188854E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.422055E+02    0.186834E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.451953E+02    0.204898E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.464838E+02    0.237232E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.455038E+02    0.275592E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.427835E+02    0.306745E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.390854E+02    0.323228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693843.849740240     
  ps_ts2 prof sum =   693420.588558293     
  trcom prof sum =    693420.588558293     
  ps_ts2 cur sum  =   12553.9876340983     
  trcom cur sum  =    12553.9876340983     
  
  antenna # iant =            2
  powecha_use(iant) =    669916.052454751     
  ps_ts2 prof sum =   669489.982103895     
  trcom prof sum =    669489.982103895     
  ps_ts2 cur sum  =   15058.6236463285     
  trcom cur sum  =    15058.6236463285     
  
  antenna # iant =            3
  powecha_use(iant) =    524840.571346788     
  ps_ts2 prof sum =   524501.136514607     
  trcom prof sum =    524501.136514608     
  ps_ts2 cur sum  =   7959.15397064655     
  trcom cur sum  =    7959.15397064656     
  
  antenna # iant =            4
  powecha_use(iant) =    547138.233205959     
  ps_ts2 prof sum =   546818.255985627     
  trcom prof sum =    546818.255985627     
  ps_ts2 cur sum  =   11062.6886393483     
  trcom cur sum  =    11062.6886393483     
  
  antenna # iant =            5
  powecha_use(iant) =    550597.414783599     
  ps_ts2 prof sum =   550301.195105958     
  trcom prof sum =    550301.195105958     
  ps_ts2 cur sum  =   13674.5146831713     
  trcom cur sum  =    13674.5146831713     
  
  Total ECH heating:      2984531.15826838     
  Total Current Drive:    60308.9685735929     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2120
 TA= 2.45000E+00 CPU TIME= 1.60414E-01 SECONDS.  DT= 2.37582E-05
  
 TEC1=    2.44999999999997     
 TEC2=    2.45499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.69338972222181     
  %check_save_state: izleft hours =    74.2980555555555     
 --> plasma_hash("gframe"): TA= 2.450000E+00 NSTEP=  2120 Hash code:   74469852
 ->PRGCHK: bdy curvature ratio at t= 2.4550E+00 seconds is:  5.5051E-02
% MHDEQ: TG1=     2.450000 ; TG2=     2.455000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0730E-03 SECONDS
   DATA R*BT AT EDGE:  2.7782E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5051E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.450000 TO TG2=    2.455000 @ NSTEP     2120
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746304510227D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4550E+00  2.4600E+00 total power(Watts):  2.9825E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.45500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.366727E+02    0.414609E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.347216E+02    0.414899E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.362256E+02    0.398985E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.383102E+02    0.404806E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.381719E+02    0.424118E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.359413E+02    0.430055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.339987E+02    0.439931E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.330014E+02    0.426552E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.329587E+02    0.409814E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.338495E+02    0.394169E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.355204E+02    0.383503E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.375485E+02    0.381056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.393963E+02    0.387890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.405320E+02    0.402117E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.405599E+02    0.419660E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.396186E+02    0.435255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.378086E+02    0.445009E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.357908E+02    0.446525E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.338122E+02    0.465912E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.311149E+02    0.450048E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.299753E+02    0.424394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138786E+03   -0.305263E+02    0.395333E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.327367E+02    0.369761E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.361638E+02    0.354595E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.397914E+02    0.356244E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.427861E+02    0.374571E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.441063E+02    0.404211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.434590E+02    0.435204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.407523E+02    0.458902E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.373318E+02    0.469266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.381226E+02    0.325773E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.360452E+02    0.327550E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.377347E+02    0.308691E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.398780E+02    0.313984E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.396720E+02    0.335315E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.374003E+02    0.343000E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.353363E+02    0.355539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.342197E+02    0.341395E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.341537E+02    0.323262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.352937E+02    0.304673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.370732E+02    0.292067E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.391463E+02    0.288507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.410521E+02    0.294838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.421445E+02    0.309890E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.422045E+02    0.328822E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.410644E+02    0.347228E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.392261E+02    0.359378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.371673E+02    0.362164E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.350645E+02    0.386060E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.323158E+02    0.368976E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138863E+03   -0.312147E+02    0.340075E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138934E+03   -0.318133E+02    0.308119E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.341094E+02    0.279418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.377637E+02    0.260375E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.414850E+02    0.260344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.443893E+02    0.279015E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.459050E+02    0.309273E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.448747E+02    0.344905E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.422317E+02    0.373896E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.386466E+02    0.388260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.363643E+02    0.465646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.345211E+02    0.465235E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.359248E+02    0.451373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.379915E+02    0.457241E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.378597E+02    0.474500E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.356491E+02    0.479174E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.338153E+02    0.487403E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.328161E+02    0.475256E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.326844E+02    0.460409E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.335685E+02    0.446289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.352280E+02    0.436835E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.372407E+02    0.435149E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.390727E+02    0.442028E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.401968E+02    0.455480E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.403271E+02    0.471130E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.394989E+02    0.484606E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.376084E+02    0.492857E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.356005E+02    0.493785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.337277E+02    0.511513E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.310327E+02    0.495936E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.298874E+02    0.472413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.302713E+02    0.446451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138259E+03   -0.323914E+02    0.423494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.357925E+02    0.410716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.392871E+02    0.413674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.422406E+02    0.431451E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.437488E+02    0.458676E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.431228E+02    0.485879E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.407519E+02    0.506136E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.371492E+02    0.515369E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.373065E+02    0.374585E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.353410E+02    0.375345E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.368546E+02    0.357813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.389623E+02    0.363594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.387325E+02    0.384651E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.364871E+02    0.391412E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.346197E+02    0.401900E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.335218E+02    0.388329E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.334723E+02    0.370621E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.344516E+02    0.353234E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.362235E+02    0.341165E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.382728E+02    0.338172E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.401478E+02    0.344819E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.412057E+02    0.360040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.412354E+02    0.379031E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.401945E+02    0.396056E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.383731E+02    0.406757E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.363390E+02    0.408776E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.343399E+02    0.430201E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.316261E+02    0.413491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.304704E+02    0.386707E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138790E+03   -0.310935E+02    0.355320E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.333107E+02    0.328235E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.368443E+02    0.311865E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.404166E+02    0.313227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.433608E+02    0.330961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.448157E+02    0.361054E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.440641E+02    0.394890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.413394E+02    0.420951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.377910E+02    0.433318E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.387300E+02    0.257930E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.367172E+02    0.259967E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.383100E+02    0.239818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.404923E+02    0.244746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.402216E+02    0.268135E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.377500E+02    0.278173E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.358602E+02    0.290707E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.347908E+02    0.275930E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.347831E+02    0.256017E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.356550E+02    0.237828E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.375219E+02    0.223413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.397988E+02    0.217674E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.417454E+02    0.223533E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.428817E+02    0.238928E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.428737E+02    0.259656E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.416518E+02    0.280203E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.398095E+02    0.293343E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.376374E+02    0.297332E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.355467E+02    0.322358E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138715E+03   -0.327361E+02    0.305965E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138871E+03   -0.316544E+02    0.276050E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138908E+03   -0.322993E+02    0.241279E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.346669E+02    0.210098E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.383395E+02    0.189320E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.422083E+02    0.187326E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.451975E+02    0.205415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.464844E+02    0.237778E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.455020E+02    0.276167E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.427817E+02    0.307316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.390841E+02    0.323774E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689494.851360972     
  ps_ts2 prof sum =   689063.623026339     
  trcom prof sum =    689063.622993147     
  ps_ts2 cur sum  =   12382.5010292516     
  trcom cur sum  =    12382.5010292515     
  
  antenna # iant =            2
  powecha_use(iant) =    670013.420846430     
  ps_ts2 prof sum =   669591.290592548     
  trcom prof sum =    669591.290592548     
  ps_ts2 cur sum  =   14947.4011933032     
  trcom cur sum  =    14947.4011933032     
  
  antenna # iant =            3
  powecha_use(iant) =    524555.029833666     
  ps_ts2 prof sum =   524202.477175150     
  trcom prof sum =    524202.477175151     
  ps_ts2 cur sum  =   7905.00226295446     
  trcom cur sum  =    7905.00226295447     
  
  antenna # iant =            4
  powecha_use(iant) =    548699.091067256     
  ps_ts2 prof sum =   548381.713408195     
  trcom prof sum =    548381.713408194     
  ps_ts2 cur sum  =   11008.8077885297     
  trcom cur sum  =    11008.8077885297     
  
  antenna # iant =            5
  powecha_use(iant) =    549689.386421959     
  ps_ts2 prof sum =   549395.279428587     
  trcom prof sum =    549395.279428588     
  ps_ts2 cur sum  =   13557.9177074093     
  trcom cur sum  =    13557.9177074093     
  
  Total ECH heating:      2980634.38359763     
  Total Current Drive:    59801.6299814483     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2138
 TA= 2.45500E+00 CPU TIME= 1.58945E-01 SECONDS.  DT= 1.09341E-03
  
 TEC1=    2.45499999999997     
 TEC2=    2.45999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.71196027777751     
  %check_save_state: izleft hours =    74.2797222222222     
 --> plasma_hash("gframe"): TA= 2.455000E+00 NSTEP=  2138 Hash code:    4503644
 ->PRGCHK: bdy curvature ratio at t= 2.4600E+00 seconds is:  5.5031E-02
% MHDEQ: TG1=     2.455000 ; TG2=     2.460000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7762E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5031E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.455000 TO TG2=    2.460000 @ NSTEP     2138
   GFRAME TG2 MOMENTS CHECKSUM:  2.4752169784490D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.95910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.26650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.38025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.87615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.29704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.74842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.62082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.01520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.66708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -2.38763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.65854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      15=  1.44125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.60700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.03798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.24911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.96926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.54787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.65231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.95373E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.76728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.76728E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4600E+00  2.4650E+00 total power(Watts):  2.9845E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.46000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.367667E+02    0.414178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.348158E+02    0.414452E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.362318E+02    0.398799E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.384090E+02    0.404367E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.382738E+02    0.423690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.360385E+02    0.429630E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.340927E+02    0.439502E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.330919E+02    0.426110E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.329641E+02    0.409625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.339404E+02    0.393691E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.356151E+02    0.383020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.376468E+02    0.380582E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.394986E+02    0.387431E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.406372E+02    0.401688E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.406660E+02    0.419241E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.396262E+02    0.435004E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.379105E+02    0.444600E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.358884E+02    0.446114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.339068E+02    0.465507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.312838E+02    0.449454E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.301380E+02    0.423693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.306103E+02    0.394853E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.329073E+02    0.368868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.362585E+02    0.354072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.397974E+02    0.356115E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.426918E+02    0.374709E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.442177E+02    0.403795E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.434675E+02    0.434940E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.409609E+02    0.458410E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.373396E+02    0.468975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.382201E+02    0.325235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.362277E+02    0.326525E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.377399E+02    0.308619E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.399782E+02    0.313431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.397725E+02    0.334798E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.374058E+02    0.342897E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.354294E+02    0.355013E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.343956E+02    0.340398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.342437E+02    0.322690E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.352111E+02    0.305166E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.369881E+02    0.292576E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.392443E+02    0.287893E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.411542E+02    0.294252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.422489E+02    0.309348E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.423098E+02    0.328309E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.411682E+02    0.346737E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.393270E+02    0.358876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.371739E+02    0.362020E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.351586E+02    0.385571E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.324029E+02    0.368456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.312990E+02    0.339509E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.318973E+02    0.307514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.341984E+02    0.278729E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.377682E+02    0.260314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.415869E+02    0.259662E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.444975E+02    0.278400E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.458063E+02    0.309672E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.449851E+02    0.344437E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.422383E+02    0.373739E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.386531E+02    0.388087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.364644E+02    0.465248E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.345284E+02    0.464957E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.359322E+02    0.451107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.380943E+02    0.456842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.379632E+02    0.474119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.357491E+02    0.478785E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.339106E+02    0.487026E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.328233E+02    0.474974E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.327761E+02    0.459995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.336606E+02    0.445873E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.353241E+02    0.436406E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.373410E+02    0.434731E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.391771E+02    0.441617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.403041E+02    0.455083E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.405350E+02    0.470668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.394139E+02    0.484353E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.377112E+02    0.492496E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.356083E+02    0.493489E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.337396E+02    0.511235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.311221E+02    0.495571E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.298143E+02    0.472282E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.304375E+02    0.445820E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.325646E+02    0.422812E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.357988E+02    0.410521E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.393898E+02    0.413254E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.424524E+02    0.430888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.438626E+02    0.458290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.432369E+02    0.485512E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.408622E+02    0.505791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.373482E+02    0.515012E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.373126E+02    0.374422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.354335E+02    0.374859E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.368605E+02    0.357676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.390635E+02    0.363078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.388336E+02    0.384188E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.365838E+02    0.390943E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.346257E+02    0.401722E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.336124E+02    0.387837E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.335621E+02    0.370103E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.343709E+02    0.353528E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.362287E+02    0.341067E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.383732E+02    0.337644E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.401537E+02    0.344714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.413105E+02    0.359553E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.413434E+02    0.378567E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.402989E+02    0.395610E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.384744E+02    0.406322E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.364362E+02    0.408331E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.344333E+02    0.429770E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.317952E+02    0.412769E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138598E+03   -0.305544E+02    0.386208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.310982E+02    0.355207E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.334821E+02    0.327171E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.368489E+02    0.311803E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.405199E+02    0.312666E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.434684E+02    0.330457E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.449265E+02    0.360595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.441747E+02    0.394463E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.415470E+02    0.420358E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.378924E+02    0.432904E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.388267E+02    0.257214E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.366302E+02    0.260575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.382244E+02    0.240444E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.405921E+02    0.244013E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.403217E+02    0.267457E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.379367E+02    0.276918E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.357775E+02    0.291236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.347106E+02    0.276484E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.347030E+02    0.256623E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.357457E+02    0.237042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.377050E+02    0.221870E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.398965E+02    0.216876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.418466E+02    0.222762E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.429854E+02    0.238207E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.428791E+02    0.259581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.417546E+02    0.279575E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.398147E+02    0.293291E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.377328E+02    0.296740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.354641E+02    0.322781E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.328213E+02    0.305354E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138880E+03   -0.316586E+02    0.275990E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.323830E+02    0.240484E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138259E+03   -0.347555E+02    0.209240E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.382546E+02    0.190087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.422132E+02    0.187267E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.453042E+02    0.204625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.465937E+02    0.237078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.456115E+02    0.275547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.428874E+02    0.306767E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.391834E+02    0.323236E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      19.75 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692634.570430259     
  ps_ts2 prof sum =   692249.563220230     
  trcom prof sum =    692249.563220230     
  ps_ts2 cur sum  =   12418.7863319482     
  trcom cur sum  =    12418.7863319482     
  
  antenna # iant =            2
  powecha_use(iant) =    667424.735293663     
  ps_ts2 prof sum =   667011.661888200     
  trcom prof sum =    667011.661888200     
  ps_ts2 cur sum  =   14834.7548204212     
  trcom cur sum  =    14834.7548204212     
  
  antenna # iant =            3
  powecha_use(iant) =    524643.400281751     
  ps_ts2 prof sum =   524320.935951280     
  trcom prof sum =    524320.935951281     
  ps_ts2 cur sum  =   7911.11639615513     
  trcom cur sum  =    7911.11639615513     
  
  antenna # iant =            4
  powecha_use(iant) =    550068.527978343     
  ps_ts2 prof sum =   549770.330115460     
  trcom prof sum =    549770.330115460     
  ps_ts2 cur sum  =   11004.9730045128     
  trcom cur sum  =    11004.9730045128     
  
  antenna # iant =            5
  powecha_use(iant) =    549729.993587270     
  ps_ts2 prof sum =   549384.629155045     
  trcom prof sum =    549384.629155045     
  ps_ts2 cur sum  =   13499.9122093411     
  trcom cur sum  =    13499.9122093411     
  
  Total ECH heating:      2982737.12033021     
  Total Current Drive:    59669.5427623786     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2142
 TA= 2.46000E+00 CPU TIME= 1.59733E-01 SECONDS.  DT= 1.03924E-03
  
 TEC1=    2.45999999999997     
 TEC2=    2.46499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.73241694444459     
  %check_save_state: izleft hours =    74.2591666666667     
 --> plasma_hash("gframe"): TA= 2.460000E+00 NSTEP=  2142 Hash code:   92334182
 ->PRGCHK: bdy curvature ratio at t= 2.4650E+00 seconds is:  5.5011E-02
% MHDEQ: TG1=     2.460000 ; TG2=     2.465000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7742E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5011E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.460000 TO TG2=    2.465000 @ NSTEP     2142
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758035058753D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4650E+00  2.4700E+00 total power(Watts):  2.9941E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.46500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.367737E+02    0.413981E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.349104E+02    0.414015E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.363290E+02    0.398334E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.385131E+02    0.403926E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.382812E+02    0.423475E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.360458E+02    0.429409E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.341869E+02    0.439080E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.330996E+02    0.425899E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.330547E+02    0.409171E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.339459E+02    0.393522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.357101E+02    0.382525E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.377455E+02    0.380087E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.396017E+02    0.386954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.406447E+02    0.401486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.407725E+02    0.418838E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.397308E+02    0.434615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.379185E+02    0.444346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.358956E+02    0.445862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.340018E+02    0.465096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.313735E+02    0.449015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138488E+03   -0.300673E+02    0.423731E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138581E+03   -0.306161E+02    0.394683E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.328307E+02    0.369088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.362652E+02    0.353922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.398994E+02    0.355604E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.428004E+02    0.374236E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.443299E+02    0.403369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.435799E+02    0.434556E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.410700E+02    0.458014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.374423E+02    0.468573E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.383180E+02    0.324673E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.363219E+02    0.325941E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.378364E+02    0.308006E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.400790E+02    0.312841E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.397788E+02    0.334700E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.375034E+02    0.342355E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.355237E+02    0.354458E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.343157E+02    0.340730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.344187E+02    0.321592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.353893E+02    0.303982E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.371723E+02    0.291333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.393432E+02    0.287213E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.411602E+02    0.294140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.423538E+02    0.308763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.423159E+02    0.328213E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.412726E+02    0.346226E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.394282E+02    0.358371E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.372711E+02    0.361502E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.352525E+02    0.385078E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.325731E+02    0.367535E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138654E+03   -0.313039E+02    0.339405E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.319815E+02    0.306863E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.343711E+02    0.277378E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.378634E+02    0.259554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.415924E+02    0.259540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.446052E+02    0.277725E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.459172E+02    0.309109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.451998E+02    0.343588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.423460E+02    0.373262E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.387546E+02    0.387606E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.364705E+02    0.464960E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.346249E+02    0.464548E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.360310E+02    0.450694E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.381979E+02    0.456437E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.380673E+02    0.473722E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.358487E+02    0.478394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.339185E+02    0.486735E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.329162E+02    0.474571E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.327834E+02    0.459724E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.336680E+02    0.445619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.353314E+02    0.436174E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.373486E+02    0.434498E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.391852E+02    0.441370E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.405110E+02    0.454573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.406439E+02    0.470275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.395181E+02    0.483976E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.377199E+02    0.492192E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.357083E+02    0.493123E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.338340E+02    0.510884E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.312121E+02    0.495202E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.299811E+02    0.471724E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.303641E+02    0.445774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.326546E+02    0.422372E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.358949E+02    0.410083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.394940E+02    0.412837E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.425619E+02    0.430514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.439771E+02    0.457902E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.433517E+02    0.485136E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.408718E+02    0.505460E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.372620E+02    0.514719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.374112E+02    0.373918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.354406E+02    0.374690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.369571E+02    0.357152E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.390700E+02    0.362929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.389352E+02    0.383709E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.366813E+02    0.390462E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.347194E+02    0.401263E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.335336E+02    0.387983E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.334843E+02    0.370312E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.345486E+02    0.352560E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.363232E+02    0.340520E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.383816E+02    0.337520E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.402571E+02    0.344189E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.413174E+02    0.359401E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.413539E+02    0.378386E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.403063E+02    0.395418E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.384815E+02    0.406130E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.364429E+02    0.408140E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.344404E+02    0.429551E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.317193E+02    0.412853E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138612E+03   -0.305600E+02    0.386042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.311827E+02    0.354645E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.334040E+02    0.327557E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.369435E+02    0.311196E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.406235E+02    0.312082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.435765E+02    0.329936E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.450377E+02    0.360127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.441830E+02    0.394260E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.414549E+02    0.420333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.379944E+02    0.432487E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.388316E+02    0.257101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.368115E+02    0.259165E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.384061E+02    0.238972E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.406917E+02    0.243228E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.404215E+02    0.266738E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.380327E+02    0.276200E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.359563E+02    0.289975E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.348002E+02    0.275748E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.347921E+02    0.255840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.359222E+02    0.235500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.376206E+02    0.222504E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.399939E+02    0.216032E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.418522E+02    0.222646E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.429907E+02    0.238091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.429836E+02    0.258858E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.418579E+02    0.278887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.399151E+02    0.292632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.378283E+02    0.296082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.356441E+02    0.321697E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.328261E+02    0.305259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138662E+03   -0.317422E+02    0.275240E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.323870E+02    0.240384E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.347586E+02    0.209147E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.384381E+02    0.188339E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.423130E+02    0.186361E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.453090E+02    0.204526E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.465992E+02    0.236961E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.457214E+02    0.274881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.428929E+02    0.306666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.392831E+02    0.322671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.42 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699345.260469664     
  ps_ts2 prof sum =   698926.157394835     
  trcom prof sum =    698926.157394835     
  ps_ts2 cur sum  =   12518.4611556809     
  trcom cur sum  =    12518.4611556808     
  
  antenna # iant =            2
  powecha_use(iant) =    669063.206447631     
  ps_ts2 prof sum =   668716.074984003     
  trcom prof sum =    668716.074984002     
  ps_ts2 cur sum  =   14817.6656378310     
  trcom cur sum  =    14817.6656378310     
  
  antenna # iant =            3
  powecha_use(iant) =    525020.661609714     
  ps_ts2 prof sum =   524698.924725823     
  trcom prof sum =    524698.924725824     
  ps_ts2 cur sum  =   7917.39488040009     
  trcom cur sum  =    7917.39488040010     
  
  antenna # iant =            4
  powecha_use(iant) =    551427.784299726     
  ps_ts2 prof sum =   551071.520946517     
  trcom prof sum =    551071.520946516     
  ps_ts2 cur sum  =   11001.7592117795     
  trcom cur sum  =    11001.7592117795     
  
  antenna # iant =            5
  powecha_use(iant) =    549199.331866939     
  ps_ts2 prof sum =   548896.123094484     
  trcom prof sum =    548896.123094484     
  ps_ts2 cur sum  =   13429.8570713576     
  trcom cur sum  =    13429.8570713576     
  
  Total ECH heating:      2992308.80114566     
  Total Current Drive:    59685.1379570491     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2146
 TA= 2.46500E+00 CPU TIME= 1.59243E-01 SECONDS.  DT= 1.29739E-03
  
 TEC1=    2.46499999999997     
 TEC2=    2.46999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.74857055555526     
  %check_save_state: izleft hours =    74.2430555555556     
 --> plasma_hash("gframe"): TA= 2.465000E+00 NSTEP=  2146 Hash code:  106716359
 ->PRGCHK: bdy curvature ratio at t= 2.4700E+00 seconds is:  5.4992E-02
% MHDEQ: TG1=     2.465000 ; TG2=     2.470000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7722E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4992E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.465000 TO TG2=    2.470000 @ NSTEP     2146
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763900333016D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.53441E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.14239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.70573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.24120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.75495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.35882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.05845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.84968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.07648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.31416E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.82738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      16= -4.98632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.22971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.27892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.25791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.54697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.62098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.01331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.72394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.41810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.41810E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4700E+00  2.4750E+00 total power(Watts):  2.9931E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.47000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.368721E+02    0.413547E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.349172E+02    0.413812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.364259E+02    0.397869E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.385244E+02    0.403719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.383833E+02    0.423057E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.361438E+02    0.428987E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.341942E+02    0.438840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.331906E+02    0.425457E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.329764E+02    0.409255E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.340390E+02    0.393025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.357163E+02    0.382349E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.377531E+02    0.379909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.396089E+02    0.386772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.407501E+02    0.401053E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.409778E+02    0.418228E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.398363E+02    0.434216E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.380205E+02    0.443947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.359936E+02    0.445453E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.340095E+02    0.464822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.313803E+02    0.448770E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.302301E+02    0.423037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.307012E+02    0.394180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.330026E+02    0.368172E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.363598E+02    0.353414E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.400016E+02    0.355103E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.429089E+02    0.373762E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.443384E+02    0.403160E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.436915E+02    0.434180E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.409790E+02    0.457829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.374507E+02    0.468285E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.383235E+02    0.324581E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.363271E+02    0.325865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.379327E+02    0.307399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.400848E+02    0.312753E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.398797E+02    0.334163E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.375093E+02    0.342254E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.355294E+02    0.354331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.344917E+02    0.339729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.343389E+02    0.322014E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.353078E+02    0.304444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.372671E+02    0.290682E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.393482E+02    0.287123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.412624E+02    0.293513E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.423601E+02    0.308663E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.424213E+02    0.327692E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.412792E+02    0.346116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.394349E+02    0.358233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.373682E+02    0.360986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.352589E+02    0.384904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.324968E+02    0.367764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.313881E+02    0.338837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.319869E+02    0.306775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.342922E+02    0.277908E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.377780E+02    0.260120E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.416941E+02    0.258836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.447128E+02    0.277081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.461321E+02    0.308106E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.453072E+02    0.343122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.424535E+02    0.372791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.388560E+02    0.387128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.365747E+02    0.464562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.346326E+02    0.464274E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.361293E+02    0.450292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.382039E+02    0.456165E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.380760E+02    0.473422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.358566E+02    0.478100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.340144E+02    0.486362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.329245E+02    0.474283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.328754E+02    0.459313E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.337621E+02    0.445196E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.354281E+02    0.435756E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.374497E+02    0.434084E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.392902E+02    0.440966E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.404208E+02    0.454409E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.405534E+02    0.470048E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.397238E+02    0.483543E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.378243E+02    0.491824E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.358085E+02    0.492755E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.338422E+02    0.510583E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.312195E+02    0.494921E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.299078E+02    0.471607E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.305308E+02    0.445146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.326613E+02    0.422164E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.359915E+02    0.409637E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.395017E+02    0.412625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.424689E+02    0.430423E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.439869E+02    0.457602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.433620E+02    0.484799E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.409828E+02    0.505113E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.373664E+02    0.514374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.374173E+02    0.373751E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.355348E+02    0.374171E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.370486E+02    0.356649E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.391706E+02    0.362437E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.389425E+02    0.383527E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.366879E+02    0.390275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.347252E+02    0.401080E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.337093E+02    0.387160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.336588E+02    0.369410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.346397E+02    0.352025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.364177E+02    0.339973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.384765E+02    0.337006E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.403591E+02    0.343684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.414225E+02    0.358913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.414568E+02    0.377909E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.404113E+02    0.394956E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.385802E+02    0.405690E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.365405E+02    0.407693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.345354E+02    0.429116E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.318889E+02    0.412130E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.306445E+02    0.385523E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.312683E+02    0.354090E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.334923E+02    0.326994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.370384E+02    0.310591E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.406271E+02    0.311988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.435827E+02    0.329849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.449412E+02    0.360314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.442946E+02    0.393814E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.415632E+02    0.419917E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.380020E+02    0.432261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.389279E+02    0.256368E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.369048E+02    0.258423E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.385026E+02    0.238186E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.406972E+02    0.243143E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.404265E+02    0.266650E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.380380E+02    0.276116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.358749E+02    0.290462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.349751E+02    0.274413E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.347974E+02    0.255746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.358405E+02    0.236135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.378030E+02    0.220945E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.399984E+02    0.215960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.419527E+02    0.221859E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.430943E+02    0.237342E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.430880E+02    0.258153E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.419603E+02    0.278231E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.400147E+02    0.291996E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.378333E+02    0.295996E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.357367E+02    0.321109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.329125E+02    0.304614E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.318255E+02    0.274510E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138484E+03   -0.324714E+02    0.239565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.348473E+02    0.208275E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.385315E+02    0.187439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.424137E+02    0.185485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.454152E+02    0.203711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.467090E+02    0.236226E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.459344E+02    0.273688E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.429991E+02    0.306083E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.392889E+02    0.322576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697060.693423403     
  ps_ts2 prof sum =   696655.665193732     
  trcom prof sum =    696655.665193732     
  ps_ts2 cur sum  =   12454.5263037236     
  trcom cur sum  =    12454.5263037236     
  
  antenna # iant =            2
  powecha_use(iant) =    670288.909008682     
  ps_ts2 prof sum =   669873.001678928     
  trcom prof sum =    669873.001678927     
  ps_ts2 cur sum  =   14790.6686162380     
  trcom cur sum  =    14790.6686162380     
  
  antenna # iant =            3
  powecha_use(iant) =    524582.072651731     
  ps_ts2 prof sum =   524241.476737703     
  trcom prof sum =    524241.476737704     
  ps_ts2 cur sum  =   7913.41144250606     
  trcom cur sum  =    7913.41144250606     
  
  antenna # iant =            4
  powecha_use(iant) =    551695.530570355     
  ps_ts2 prof sum =   551376.872330395     
  trcom prof sum =    551376.872330394     
  ps_ts2 cur sum  =   10976.3174941544     
  trcom cur sum  =    10976.3174941544     
  
  antenna # iant =            5
  powecha_use(iant) =    549469.441205800     
  ps_ts2 prof sum =   549178.362209318     
  trcom prof sum =    549178.362209318     
  ps_ts2 cur sum  =   13376.8274592685     
  trcom cur sum  =    13376.8274592685     
  
  Total ECH heating:      2991325.37815008     
  Total Current Drive:    59511.7513158906     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2150
 TA= 2.47000E+00 CPU TIME= 1.60696E-01 SECONDS.  DT= 6.71298E-05
  
 TEC1=    2.46999999999997     
 TEC2=    2.47499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.76140444444422     
  %check_save_state: izleft hours =    74.2302777777778     
 --> plasma_hash("gframe"): TA= 2.470000E+00 NSTEP=  2150 Hash code:   42315281
 ->PRGCHK: bdy curvature ratio at t= 2.4750E+00 seconds is:  5.4973E-02
% MHDEQ: TG1=     2.470000 ; TG2=     2.475000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7702E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4973E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.470000 TO TG2=    2.475000 @ NSTEP     2150
   GFRAME TG2 MOMENTS CHECKSUM:  2.4769765607279D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4750E+00  2.4800E+00 total power(Watts):  2.9887E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.47500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.368801E+02    0.413368E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.350113E+02    0.413405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.364340E+02    0.397710E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.386225E+02    0.403308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.383908E+02    0.422875E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.361522E+02    0.428784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.342898E+02    0.438436E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.331982E+02    0.425274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.331526E+02    0.408547E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.339609E+02    0.393175E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.358129E+02    0.381872E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.378535E+02    0.379436E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.397133E+02    0.386320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.408575E+02    0.400638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.408885E+02    0.418227E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.398460E+02    0.433996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.381241E+02    0.443559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.360023E+02    0.445218E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.341055E+02    0.464431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.314694E+02    0.448365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.301584E+02    0.423106E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.307081E+02    0.394037E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.329262E+02    0.368428E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.363673E+02    0.353290E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.400100E+02    0.354991E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.429179E+02    0.373612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.444521E+02    0.402759E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.437022E+02    0.433941E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.411895E+02    0.457350E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.375546E+02    0.467904E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.384227E+02    0.324034E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.364225E+02    0.325298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.379393E+02    0.307328E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.401875E+02    0.312186E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.399823E+02    0.333656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.376074E+02    0.341739E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.356244E+02    0.353820E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.345838E+02    0.339206E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.345152E+02    0.320930E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.354873E+02    0.303278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.372739E+02    0.290600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.394486E+02    0.286477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.413668E+02    0.292903E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.424664E+02    0.308119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.425284E+02    0.327186E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.413849E+02    0.345635E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.395377E+02    0.357741E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.373759E+02    0.360866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.353542E+02    0.384427E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.326678E+02    0.366869E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.313946E+02    0.338759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.320728E+02    0.306146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.343827E+02    0.277208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.379647E+02    0.258741E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.417017E+02    0.258743E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.447210E+02    0.277002E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.460365E+02    0.308491E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.452152E+02    0.343388E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.424599E+02    0.372648E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.388652E+02    0.386961E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.366747E+02    0.464174E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.347300E+02    0.463884E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.361381E+02    0.450045E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.383121E+02    0.455782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.381811E+02    0.473052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.359572E+02    0.477727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.340235E+02    0.486082E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.330183E+02    0.473901E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.328832E+02    0.459066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.337700E+02    0.444965E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.354365E+02    0.435540E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.374589E+02    0.433868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.392995E+02    0.440738E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.406291E+02    0.453913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.407632E+02    0.469598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.396354E+02    0.483306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.378340E+02    0.491532E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.358179E+02    0.492468E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.339395E+02    0.510252E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.313103E+02    0.494564E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.300743E+02    0.471072E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.304583E+02    0.445120E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.327525E+02    0.421742E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.359995E+02    0.409464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.396067E+02    0.412231E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.426828E+02    0.429890E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.441027E+02    0.457239E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.434779E+02    0.484443E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.409935E+02    0.504795E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.373762E+02    0.514079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.375175E+02    0.373271E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.355427E+02    0.374030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.370598E+02    0.356523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.392731E+02    0.361960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.390449E+02    0.383063E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.367864E+02    0.389822E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.348212E+02    0.400632E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.336297E+02    0.387347E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.335812E+02    0.369656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.345597E+02    0.352355E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.364248E+02    0.339899E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.384839E+02    0.336924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.403671E+02    0.343591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.415291E+02    0.358452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.415647E+02    0.377454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.405175E+02    0.394528E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.386859E+02    0.405270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.365486E+02    0.407521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.345434E+02    0.428917E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.318140E+02    0.412232E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.306510E+02    0.385379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.312750E+02    0.353975E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.334986E+02    0.326910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.370456E+02    0.310521E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.407304E+02    0.311430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.436921E+02    0.329354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.451579E+02    0.359549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.444076E+02    0.393404E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.417725E+02    0.419345E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.381056E+02    0.431860E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.389350E+02    0.256281E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.369112E+02    0.258333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.385112E+02    0.238079E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.407986E+02    0.242385E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.405282E+02    0.265953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.381354E+02    0.275425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.360556E+02    0.289229E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.348966E+02    0.274947E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.348881E+02    0.254982E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.359323E+02    0.235331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.378981E+02    0.220126E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.400976E+02    0.215138E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.420560E+02    0.221065E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.431996E+02    0.236589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.430956E+02    0.258060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.419683E+02    0.278147E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.400222E+02    0.291916E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.379314E+02    0.295372E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.357434E+02    0.321038E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.329192E+02    0.304539E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.318321E+02    0.274426E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.325562E+02    0.238754E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.348538E+02    0.208200E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.384487E+02    0.188194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.424203E+02    0.185415E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.455240E+02    0.202890E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.468204E+02    0.235504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.458392E+02    0.274144E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.431063E+02    0.305533E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.393898E+02    0.322042E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693373.985230447     
  ps_ts2 prof sum =   692931.572249156     
  trcom prof sum =    692931.572249156     
  ps_ts2 cur sum  =   12377.0746621953     
  trcom cur sum  =    12377.0746621953     
  
  antenna # iant =            2
  powecha_use(iant) =    668105.300179407     
  ps_ts2 prof sum =   667741.386100374     
  trcom prof sum =    667741.386100373     
  ps_ts2 cur sum  =   14696.5267911740     
  trcom cur sum  =    14696.5267911740     
  
  antenna # iant =            3
  powecha_use(iant) =    526350.704666320     
  ps_ts2 prof sum =   526018.262830657     
  trcom prof sum =    526018.262830657     
  ps_ts2 cur sum  =   7946.87728833321     
  trcom cur sum  =    7946.87728833321     
  
  antenna # iant =            4
  powecha_use(iant) =    551020.224247765     
  ps_ts2 prof sum =   550666.228512969     
  trcom prof sum =    550666.228512968     
  ps_ts2 cur sum  =   10940.0397577383     
  trcom cur sum  =    10940.0397577383     
  
  antenna # iant =            5
  powecha_use(iant) =    549800.897052027     
  ps_ts2 prof sum =   549493.002457670     
  trcom prof sum =    549493.002457670     
  ps_ts2 cur sum  =   13334.3931482848     
  trcom cur sum  =    13334.3931482848     
  
  Total ECH heating:      2986850.45215082     
  Total Current Drive:    59294.9116477256     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2164
 TA= 2.47500E+00 CPU TIME= 1.60318E-01 SECONDS.  DT= 4.80232E-04
  
 TEC1=    2.47499999999997     
 TEC2=    2.47999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.77473861111071     
  %check_save_state: izleft hours =    74.2169444444445     
 --> plasma_hash("gframe"): TA= 2.475000E+00 NSTEP=  2164 Hash code:   82346432
 ->PRGCHK: bdy curvature ratio at t= 2.4800E+00 seconds is:  5.4956E-02
% MHDEQ: TG1=     2.475000 ; TG2=     2.480000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4956E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.475000 TO TG2=    2.480000 @ NSTEP     2164
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775630881542D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.13825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.02663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.00936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.58607E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.18911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.76105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.09880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.59202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.47325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.76729E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.98488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      16= -3.66946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.10705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.26612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.15304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.68919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.35005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.50957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.76611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.76611E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.4800E+00  2.4850E+00 total power(Watts):  2.4669E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.48000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.369789E+02    0.412940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.350185E+02    0.413211E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.365325E+02    0.397240E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.386298E+02    0.403129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.384942E+02    0.422448E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.362508E+02    0.428354E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.342958E+02    0.438192E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.332900E+02    0.424825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.332429E+02    0.408100E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.341381E+02    0.392402E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.358197E+02    0.381718E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.379532E+02    0.378959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.398171E+02    0.385862E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.408653E+02    0.400456E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.409956E+02    0.417820E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.399519E+02    0.433583E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.381324E+02    0.443294E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.361013E+02    0.444789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.341136E+02    0.464135E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.313953E+02    0.448284E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.302435E+02    0.422650E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.307934E+02    0.393552E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.330981E+02    0.367541E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.364625E+02    0.352799E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.401132E+02    0.354524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.430271E+02    0.373172E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.445645E+02    0.402354E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.438161E+02    0.433529E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.412995E+02    0.456930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.376581E+02    0.467484E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.384288E+02    0.323991E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.365163E+02    0.324779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.380358E+02    0.306769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.401935E+02    0.312146E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.399885E+02    0.333602E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.377046E+02    0.341251E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.355429E+02    0.354140E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.345040E+02    0.339592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.344353E+02    0.321391E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.355790E+02    0.302694E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.373686E+02    0.289990E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.395469E+02    0.285865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.413728E+02    0.292857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.425712E+02    0.307591E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.425348E+02    0.327140E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.414893E+02    0.345173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.395436E+02    0.357666E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.374734E+02    0.360389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.353609E+02    0.384265E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.325918E+02    0.367126E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.314787E+02    0.338222E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.320778E+02    0.306109E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.343879E+02    0.277157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.380597E+02    0.258027E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.418043E+02    0.258060E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.448290E+02    0.276394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.461474E+02    0.307991E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.454321E+02    0.342588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.425707E+02    0.372184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.389658E+02    0.386521E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.366838E+02    0.463867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.348271E+02    0.463454E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.362376E+02    0.449616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.383197E+02    0.455484E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.381902E+02    0.472733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.359659E+02    0.477413E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.341200E+02    0.485681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.330266E+02    0.473595E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.329761E+02    0.458630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.338635E+02    0.444539E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.355336E+02    0.435115E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.375600E+02    0.433447E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.394045E+02    0.440323E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.407376E+02    0.453494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.406733E+02    0.469351E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.398424E+02    0.482837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.379393E+02    0.491137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.359188E+02    0.492081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.339486E+02    0.509941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.313186E+02    0.494268E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.300023E+02    0.470930E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.305443E+02    0.444683E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.326753E+02    0.421778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.360960E+02    0.409033E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.397109E+02    0.411811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.427898E+02    0.429485E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.442182E+02    0.456827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.435939E+02    0.484037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.411056E+02    0.504421E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.374814E+02    0.513724E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.376160E+02    0.372784E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.356373E+02    0.373534E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.371585E+02    0.356026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.392800E+02    0.361842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.391467E+02    0.382610E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.367943E+02    0.389646E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.349145E+02    0.400177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.338087E+02    0.386529E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.337560E+02    0.368778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.347383E+02    0.351428E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.365194E+02    0.339397E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.385824E+02    0.336433E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.404700E+02    0.343114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.415365E+02    0.358344E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.415724E+02    0.377306E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.405253E+02    0.394357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.386971E+02    0.405080E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.366463E+02    0.407094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.346382E+02    0.428482E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.319844E+02    0.411515E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.307361E+02    0.384882E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.313596E+02    0.353448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.335868E+02    0.326374E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.371394E+02    0.309964E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.408318E+02    0.310909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.438001E+02    0.328882E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.452692E+02    0.359120E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.443129E+02    0.393455E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.416813E+02    0.419315E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.381137E+02    0.431625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.390323E+02    0.255577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.370041E+02    0.257634E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.386081E+02    0.237317E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.408986E+02    0.241656E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.406284E+02    0.265287E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.382317E+02    0.274770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.361478E+02    0.288592E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.350715E+02    0.273653E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.350616E+02    0.253570E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.361094E+02    0.233821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.378147E+02    0.220801E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.401031E+02    0.215072E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.420619E+02    0.220997E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.432061E+02    0.236526E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.432003E+02    0.257391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.420715E+02    0.277525E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.401219E+02    0.291332E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.379366E+02    0.295323E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.358360E+02    0.320507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.330060E+02    0.303943E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.319154E+02    0.273721E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.325619E+02    0.238681E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.349422E+02    0.207340E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.386319E+02    0.186475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.425218E+02    0.184533E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.456307E+02    0.202093E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.470337E+02    0.234155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.459493E+02    0.273539E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.431128E+02    0.305491E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.394896E+02    0.321529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.94 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696420.208223903     
  ps_ts2 prof sum =   696004.288853720     
  trcom prof sum =    696004.288853720     
  ps_ts2 cur sum  =   12407.7764579149     
  trcom cur sum  =    12407.7764579149     
  
  antenna # iant =            2
  powecha_use(iant) =    667958.301150343     
  ps_ts2 prof sum =   667531.952476748     
  trcom prof sum =    667531.952476748     
  ps_ts2 cur sum  =   14639.3909445641     
  trcom cur sum  =    14639.3909445641     
  
  antenna # iant =            3
  powecha_use(iant) =    524546.856969297     
  ps_ts2 prof sum =   524200.602599999     
  trcom prof sum =    524200.602599999     
  ps_ts2 cur sum  =   7921.72922807488     
  trcom cur sum  =    7921.72922807488     
  
  antenna # iant =            4
  powecha_use(iant) =    27501.0856178695     
  ps_ts2 prof sum =   27485.0018275985     
  trcom prof sum =    27485.0018275985     
  ps_ts2 cur sum  =   544.361243354354     
  trcom cur sum  =    544.361243354354     
  
  antenna # iant =            5
  powecha_use(iant) =    550484.795803256     
  ps_ts2 prof sum =   550219.185414815     
  trcom prof sum =    550219.185414815     
  ps_ts2 cur sum  =   13295.3932040766     
  trcom cur sum  =    13295.3932040766     
  
  Total ECH heating:      2465441.03117288     
  Total Current Drive:    48808.6510779848     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2170
 TA= 2.48000E+00 CPU TIME= 1.59357E-01 SECONDS.  DT= 1.32340E-03
  
 TEC1=    2.47999999999997     
 TEC2=    2.48499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.79222111111108     
  %check_save_state: izleft hours =    74.1994444444444     
 --> plasma_hash("gframe"): TA= 2.480000E+00 NSTEP=  2170 Hash code:   49681685
 ->PRGCHK: bdy curvature ratio at t= 2.4850E+00 seconds is:  5.4938E-02
% MHDEQ: TG1=     2.480000 ; TG2=     2.485000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7662E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4938E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.480000 TO TG2=    2.485000 @ NSTEP     2170
   GFRAME TG2 MOMENTS CHECKSUM:  2.4781496155805D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.4850E+00  2.4900E+00 total power(Watts):  2.4525E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.48500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.370762E+02    0.412473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.351127E+02    0.412732E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.366275E+02    0.396771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.387301E+02    0.402659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.385954E+02    0.421990E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.363474E+02    0.427894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.343928E+02    0.437727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.333805E+02    0.424352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.332493E+02    0.407878E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.342287E+02    0.391894E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.359135E+02    0.381198E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.379585E+02    0.378769E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.398219E+02    0.385669E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.409695E+02    0.399990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.411997E+02    0.417171E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.400567E+02    0.433134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.382342E+02    0.442842E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.361991E+02    0.444326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.342085E+02    0.463675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.315651E+02    0.447622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.302484E+02    0.422421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.309564E+02    0.392705E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.331859E+02    0.366983E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.365556E+02    0.352283E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.402125E+02    0.354020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.431337E+02    0.372684E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.444677E+02    0.402336E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.439277E+02    0.433093E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.412073E+02    0.456702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.376662E+02    0.467137E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.385242E+02    0.323441E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.365198E+02    0.324702E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.381292E+02    0.306183E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.402914E+02    0.311588E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.400873E+02    0.333087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.377087E+02    0.341138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.357219E+02    0.353195E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.346780E+02    0.338593E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.345233E+02    0.320814E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.354958E+02    0.303165E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.374606E+02    0.289340E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.395501E+02    0.285788E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.414722E+02    0.292240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.426736E+02    0.307024E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.426382E+02    0.326618E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.415925E+02    0.344664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.396445E+02    0.357132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.375690E+02    0.359867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.354536E+02    0.383751E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.326776E+02    0.366582E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.315580E+02    0.337667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.321606E+02    0.305477E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.344742E+02    0.276452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.381518E+02    0.257302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.419033E+02    0.257356E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.449339E+02    0.275759E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.462553E+02    0.307447E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.455383E+02    0.342104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.426801E+02    0.371689E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.390658E+02    0.386023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.367832E+02    0.463421E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.348345E+02    0.463129E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.362448E+02    0.449313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.384229E+02    0.455028E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.382942E+02    0.472290E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.360660E+02    0.476967E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.342159E+02    0.485241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.331197E+02    0.473138E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.329830E+02    0.458315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.339570E+02    0.444066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.356296E+02    0.434651E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.376597E+02    0.432995E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.395087E+02    0.439875E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.406462E+02    0.453283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.407818E+02    0.468913E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.399509E+02    0.482384E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.380439E+02    0.490709E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.359272E+02    0.491731E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.340457E+02    0.509546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.314079E+02    0.493849E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.301685E+02    0.470315E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.307109E+02    0.444000E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.328483E+02    0.421057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.361017E+02    0.408809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.397171E+02    0.411581E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.429031E+02    0.429042E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133801E+03   -0.442272E+02    0.456478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133743E+03   -0.436038E+02    0.483641E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.412171E+02    0.504006E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.376819E+02    0.513299E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.376211E+02    0.372606E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.357256E+02    0.373030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.372560E+02    0.355487E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.393788E+02    0.361339E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.391521E+02    0.382409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.368903E+02    0.389144E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.349197E+02    0.399966E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.339013E+02    0.386004E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.338450E+02    0.368233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.348283E+02    0.350876E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.365233E+02    0.339300E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.386789E+02    0.335901E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.405696E+02    0.342611E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.416398E+02    0.357847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.416768E+02    0.376814E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.406284E+02    0.393877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.387939E+02    0.404621E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.367427E+02    0.406618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.347316E+02    0.428018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.320713E+02    0.411015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.307406E+02    0.384688E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.313633E+02    0.353324E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.336733E+02    0.325799E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.371424E+02    0.309893E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.409310E+02    0.310344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.439052E+02    0.328374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.453782E+02    0.358649E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134164E+03   -0.445263E+02    0.392757E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.417883E+02    0.418866E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.382145E+02    0.431175E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.391261E+02    0.254853E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.369195E+02    0.258194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.387019E+02    0.236536E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.409013E+02    0.241575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.406315E+02    0.265199E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.382347E+02    0.274687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.360636E+02    0.289093E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.351585E+02    0.272945E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.349803E+02    0.254168E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.360268E+02    0.234463E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.379947E+02    0.219229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.401982E+02    0.214248E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.421594E+02    0.220208E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.433067E+02    0.235766E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.433017E+02    0.256690E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.421717E+02    0.276879E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.402191E+02    0.290712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.380302E+02    0.294703E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.359262E+02    0.319934E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.330905E+02    0.303313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.319178E+02    0.273640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.326433E+02    0.237876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.350269E+02    0.206470E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.387230E+02    0.185572E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.426187E+02    0.183660E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.456327E+02    0.202014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.471403E+02    0.233414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.460555E+02    0.272906E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.432159E+02    0.304928E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.394932E+02    0.321447E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693114.719703057     
  ps_ts2 prof sum =   692718.351982585     
  trcom prof sum =    692718.351982585     
  ps_ts2 cur sum  =   12313.2649247277     
  trcom cur sum  =    12313.2649247277     
  
  antenna # iant =            2
  powecha_use(iant) =    667459.543456213     
  ps_ts2 prof sum =   667066.003872644     
  trcom prof sum =    667066.003872644     
  ps_ts2 cur sum  =   14557.1432353875     
  trcom cur sum  =    14557.1432353874     
  
  antenna # iant =            3
  powecha_use(iant) =    524315.096378985     
  ps_ts2 prof sum =   523997.542059467     
  trcom prof sum =    523997.542059467     
  ps_ts2 cur sum  =   7910.65203214228     
  trcom cur sum  =    7910.65203214229     
  
  antenna # iant =            4
  powecha_use(iant) =    15982.7772006871     
  ps_ts2 prof sum =   15973.5321370838     
  trcom prof sum =    15973.5321370838     
  ps_ts2 cur sum  =   315.089759545307     
  trcom cur sum  =    315.089759545307     
  
  antenna # iant =            5
  powecha_use(iant) =    551613.515870161     
  ps_ts2 prof sum =   551298.168589711     
  trcom prof sum =    551298.168589711     
  ps_ts2 cur sum  =   13250.4086780844     
  trcom cur sum  =    13250.4086780844     
  
  Total ECH heating:      2451053.59864149     
  Total Current Drive:    48346.5586298871     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2173
 TA= 2.48500E+00 CPU TIME= 1.59634E-01 SECONDS.  DT= 2.52794E-03
  
 TEC1=    2.48499999999997     
 TEC2=    2.48999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.80549222222203     
  %check_save_state: izleft hours =    74.1861111111111     
 --> plasma_hash("gframe"): TA= 2.485000E+00 NSTEP=  2173 Hash code:   30163623
 ->PRGCHK: bdy curvature ratio at t= 2.4900E+00 seconds is:  5.4922E-02
% MHDEQ: TG1=     2.485000 ; TG2=     2.490000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7642E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4922E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.485000 TO TG2=    2.490000 @ NSTEP     2173
   GFRAME TG2 MOMENTS CHECKSUM:  2.4787361430068D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.74421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.91147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.31136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.20818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.76711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.13893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.33575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.86256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.20197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.14153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      16= -2.35963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.07027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.72724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.27428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.76122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.75703E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.68500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.29636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.38144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.38144E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999999535153620E-006
 EC call, timestep(sec):  2.4900E+00  2.4950E+00 total power(Watts):  2.7909E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.49000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.370862E+02    0.412251E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.352100E+02    0.412262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.366359E+02    0.396591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.388345E+02    0.402202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.386059E+02    0.421726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.363590E+02    0.427606E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.344887E+02    0.437225E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.333899E+02    0.424097E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.333423E+02    0.407401E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.341517E+02    0.392042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.360101E+02    0.380745E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.380591E+02    0.378346E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.399272E+02    0.385240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.410780E+02    0.399548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.411115E+02    0.417134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.400687E+02    0.432821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.383403E+02    0.442350E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.362102E+02    0.443995E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.343075E+02    0.463171E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.314934E+02    0.447484E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.303357E+02    0.421925E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.308844E+02    0.392877E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.331101E+02    0.367303E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.365633E+02    0.352274E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.402217E+02    0.354017E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.433442E+02    0.372012E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.446864E+02    0.401697E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133740E+03   -0.440441E+02    0.432633E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.414214E+02    0.456084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.377733E+02    0.466642E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.386234E+02    0.323047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.366153E+02    0.324289E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.381373E+02    0.306269E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.403938E+02    0.311188E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.401896E+02    0.332714E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.378071E+02    0.340755E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.358166E+02    0.352790E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.347702E+02    0.338170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.346992E+02    0.319880E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.356751E+02    0.302156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.374681E+02    0.289422E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.396508E+02    0.285302E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.415758E+02    0.291809E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.426813E+02    0.307123E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.427448E+02    0.326269E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.416002E+02    0.344711E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.397472E+02    0.356762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.375771E+02    0.359835E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.355497E+02    0.383299E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.328500E+02    0.365738E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.315670E+02    0.337694E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.322465E+02    0.304992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.345655E+02    0.275883E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.381601E+02    0.257353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.420072E+02    0.256786E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.450437E+02    0.275278E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.464713E+02    0.306644E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.456500E+02    0.341803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.427855E+02    0.371331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.390752E+02    0.385880E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.368887E+02    0.462907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.349352E+02    0.462623E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.363479E+02    0.448800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.385308E+02    0.454522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.384030E+02    0.471797E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.361705E+02    0.476484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.342283E+02    0.484873E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.332167E+02    0.472659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.330792E+02    0.457806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.339671E+02    0.443744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.356407E+02    0.434345E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.376707E+02    0.432697E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.395211E+02    0.439545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.407587E+02    0.452785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.409956E+02    0.468318E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.398660E+02    0.482050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.380577E+02    0.490313E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.360323E+02    0.491271E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.341474E+02    0.509139E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.314243E+02    0.493496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.302587E+02    0.469827E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.306405E+02    0.443886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.329391E+02    0.420591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.362011E+02    0.408346E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.398241E+02    0.411128E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.428179E+02    0.428898E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.443467E+02    0.455973E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.437245E+02    0.483155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.412326E+02    0.503594E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.376004E+02    0.512964E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.377205E+02    0.372194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.357372E+02    0.372927E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.372604E+02    0.355503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.394821E+02    0.360949E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.392559E+02    0.381986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.369898E+02    0.388693E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.350158E+02    0.399504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.338207E+02    0.386198E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.337683E+02    0.368540E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.347494E+02    0.351299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.366190E+02    0.338896E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.386861E+02    0.335958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.405777E+02    0.342653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.417462E+02    0.357499E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.417848E+02    0.376419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.407325E+02    0.393440E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.388987E+02    0.404165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.367524E+02    0.406409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.347428E+02    0.427730E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.319975E+02    0.411085E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.308266E+02    0.384208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.314492E+02    0.352888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.336801E+02    0.325855E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.372391E+02    0.309456E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.409388E+02    0.310434E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.439132E+02    0.328460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.452836E+02    0.358964E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133957E+03   -0.446404E+02    0.392349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.418997E+02    0.418420E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.383206E+02    0.430687E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.392262E+02    0.254247E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.370153E+02    0.257585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.386217E+02    0.237249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.410039E+02    0.240946E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.407341E+02    0.264647E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.383324E+02    0.274151E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.362449E+02    0.288019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.350817E+02    0.273623E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.350722E+02    0.253525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.361201E+02    0.233771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.380915E+02    0.218501E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.402991E+02    0.213515E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.422642E+02    0.219515E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.434125E+02    0.235158E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.434087E+02    0.256133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.421796E+02    0.276955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.403206E+02    0.290251E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.381276E+02    0.294231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.359331E+02    0.320006E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.330970E+02    0.303385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.320031E+02    0.273046E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.326507E+02    0.237897E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.350355E+02    0.206462E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.386431E+02    0.186358E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.427230E+02    0.182832E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.457432E+02    0.201268E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.470464E+02    0.234105E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.461671E+02    0.272434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.433231E+02    0.304534E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.395943E+02    0.321061E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691798.142135811     
  ps_ts2 prof sum =   691347.092307038     
  trcom prof sum =    691347.092307039     
  ps_ts2 cur sum  =   12265.5287161212     
  trcom cur sum  =    12265.5287161211     
  
  antenna # iant =            2
  powecha_use(iant) =    666642.674273800     
  ps_ts2 prof sum =   666294.042369480     
  trcom prof sum =    666294.042369479     
  ps_ts2 cur sum  =   14477.8346224322     
  trcom cur sum  =    14477.8346224322     
  
  antenna # iant =            3
  powecha_use(iant) =    524903.666597217     
  ps_ts2 prof sum =   524559.822921801     
  trcom prof sum =    524559.822921802     
  ps_ts2 cur sum  =   7922.00806232970     
  trcom cur sum  =    7922.00806232971     
  
  antenna # iant =            4
  powecha_use(iant) =    357029.110698079     
  ps_ts2 prof sum =   356783.104730843     
  trcom prof sum =    356783.104730842     
  ps_ts2 cur sum  =   7015.99829562487     
  trcom cur sum  =    7015.99829562486     
  
  antenna # iant =            5
  powecha_use(iant) =    550491.606466779     
  ps_ts2 prof sum =   550146.208617998     
  trcom prof sum =    550146.208617998     
  ps_ts2 cur sum  =   13160.9571009616     
  trcom cur sum  =    13160.9571009616     
  
  Total ECH heating:      2789130.27094716     
  Total Current Drive:    54842.3267974695     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2175
 TA= 2.49000E+00 CPU TIME= 1.46728E-01 SECONDS.  DT= 3.09007E-03
  
 TEC1=    2.48999999999997     
 TEC2=    2.49499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.82090055555545     
  %check_save_state: izleft hours =    74.1705555555556     
 --> plasma_hash("gframe"): TA= 2.490000E+00 NSTEP=  2175 Hash code:   92340725
 ->PRGCHK: bdy curvature ratio at t= 2.4950E+00 seconds is:  5.4906E-02
% MHDEQ: TG1=     2.490000 ; TG2=     2.495000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7622E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4906E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.490000 TO TG2=    2.495000 @ NSTEP     2175
   GFRAME TG2 MOMENTS CHECKSUM:  2.4793226704331D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  2.4950E+00  2.5000E+00 total power(Watts):  2.8803E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.49500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.371865E+02    0.411772E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.353064E+02    0.411774E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.367341E+02    0.396118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.389374E+02    0.401737E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.387100E+02    0.421247E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.364577E+02    0.427109E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.344981E+02    0.436904E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.334833E+02    0.423587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.334331E+02    0.406916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.343303E+02    0.391253E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.361058E+02    0.380286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.381588E+02    0.377906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.400317E+02    0.384786E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.411851E+02    0.399098E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.412202E+02    0.416663E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.401772E+02    0.432328E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.383510E+02    0.441997E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.363119E+02    0.443470E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.343181E+02    0.462788E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.316665E+02    0.446763E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.305012E+02    0.421151E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.309702E+02    0.392382E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.332818E+02    0.366474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.366578E+02    0.351867E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.403232E+02    0.353651E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.434535E+02    0.371613E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.448000E+02    0.401262E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.440554E+02    0.432291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134294E+03   -0.415342E+02    0.455561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.378795E+02    0.466120E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.387208E+02    0.322655E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.367089E+02    0.323881E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.382331E+02    0.305836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.404941E+02    0.310788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.401955E+02    0.332780E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.379036E+02    0.340368E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.359099E+02    0.352376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.346901E+02    0.338661E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.347891E+02    0.319449E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.357666E+02    0.301685E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.375627E+02    0.288918E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.397491E+02    0.284807E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.416779E+02    0.291348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.427857E+02    0.306734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.428499E+02    0.325921E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.417044E+02    0.344356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.398484E+02    0.356378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.376744E+02    0.359424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.355568E+02    0.383164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.327735E+02    0.366067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.316529E+02    0.337237E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.322528E+02    0.305057E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.347383E+02    0.274692E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.382556E+02    0.256741E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.421093E+02    0.256211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.452517E+02    0.274250E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.465812E+02    0.306293E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.457602E+02    0.341497E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.429940E+02    0.370628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.391781E+02    0.385433E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.369001E+02    0.462511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.350347E+02    0.462101E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.364491E+02    0.448284E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.385423E+02    0.454132E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.384159E+02    0.471362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.361828E+02    0.476062E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.343286E+02    0.484371E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.332274E+02    0.472267E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.331742E+02    0.457274E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.340618E+02    0.443213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.357404E+02    0.433836E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.377744E+02    0.432189E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.396275E+02    0.439055E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.409694E+02    0.452138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134279E+03   -0.411094E+02    0.467772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.399782E+02    0.481536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.381668E+02    0.489816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.361370E+02    0.490778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.341600E+02    0.508754E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.315148E+02    0.493016E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.301886E+02    0.469608E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.308100E+02    0.443152E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.328658E+02    0.420561E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.362991E+02    0.407863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.399298E+02    0.410656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.430289E+02    0.428251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133397E+03   -0.444652E+02    0.455450E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133341E+03   -0.438444E+02    0.482629E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.413490E+02    0.503116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.377099E+02    0.512520E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.378187E+02    0.371770E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.358349E+02    0.372471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.373571E+02    0.355090E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.395829E+02    0.360550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.393588E+02    0.381539E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.369975E+02    0.388531E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.351116E+02    0.399012E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.339971E+02    0.385396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.339428E+02    0.367720E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.349249E+02    0.350479E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.367131E+02    0.338497E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.387843E+02    0.335580E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.406796E+02    0.342293E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.418511E+02    0.357134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.418910E+02    0.376015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.408410E+02    0.392994E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.390018E+02    0.403698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.368516E+02    0.405930E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.348380E+02    0.427242E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.321688E+02    0.410314E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.309115E+02    0.383723E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.315341E+02    0.352440E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.337682E+02    0.325424E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.373334E+02    0.309027E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.410402E+02    0.310036E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.440201E+02    0.328140E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.453948E+02    0.358639E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.447531E+02    0.391924E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.421093E+02    0.417772E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.384245E+02    0.430193E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.392329E+02    0.254269E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.371970E+02    0.256308E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.388099E+02    0.235868E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.411050E+02    0.240302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.408342E+02    0.264079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.384285E+02    0.273601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.363384E+02    0.287504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.351722E+02    0.273037E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.351629E+02    0.252870E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.362979E+02    0.232339E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.381861E+02    0.217759E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.403981E+02    0.212773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.423666E+02    0.218808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.435176E+02    0.234493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.435141E+02    0.255558E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.422827E+02    0.276435E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.403265E+02    0.290316E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.382236E+02    0.293765E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.360252E+02    0.319584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.331849E+02    0.302894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.320877E+02    0.272440E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.327358E+02    0.237178E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.351238E+02    0.205649E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.387377E+02    0.185516E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.427307E+02    0.182796E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.458510E+02    0.200530E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.471568E+02    0.233486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133906E+03   -0.463792E+02    0.271392E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.434284E+02    0.304141E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.396934E+02    0.320675E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693657.364325286     
  ps_ts2 prof sum =   693278.011433872     
  trcom prof sum =    693278.011433872     
  ps_ts2 cur sum  =   12260.6290677888     
  trcom cur sum  =    12260.6290677888     
  
  antenna # iant =            2
  powecha_use(iant) =    665478.934876803     
  ps_ts2 prof sum =   665134.136173222     
  trcom prof sum =    665134.136173222     
  ps_ts2 cur sum  =   14378.2845907065     
  trcom cur sum  =    14378.2845907064     
  
  antenna # iant =            3
  powecha_use(iant) =    524911.547555590     
  ps_ts2 prof sum =   524574.983700430     
  trcom prof sum =    524574.983700431     
  ps_ts2 cur sum  =   7916.08736738536     
  trcom cur sum  =    7916.08736738537     
  
  antenna # iant =            4
  powecha_use(iant) =    445135.371474731     
  ps_ts2 prof sum =   444888.923293632     
  trcom prof sum =    444888.923293632     
  ps_ts2 cur sum  =   8709.73847487970     
  trcom cur sum  =    8709.73847487969     
  
  antenna # iant =            5
  powecha_use(iant) =    551154.741374472     
  ps_ts2 prof sum =   550857.635842389     
  trcom prof sum =    550857.635842390     
  ps_ts2 cur sum  =   13105.0196388482     
  trcom cur sum  =    13105.0196388482     
  
  Total ECH heating:      2878733.69044355     
  Total Current Drive:    56369.7591396085     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2177
 TA= 2.49500E+00 CPU TIME= 1.68641E-01 SECONDS.  DT= 2.38741E-03
  
 TEC1=    2.49499999999997     
 TEC2=    2.49999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.83926222222203     
  %check_save_state: izleft hours =    74.1522222222222     
 --> plasma_hash("gframe"): TA= 2.495000E+00 NSTEP=  2177 Hash code:   54618115
 ->PRGCHK: bdy curvature ratio at t= 2.5000E+00 seconds is:  5.4891E-02
% MHDEQ: TG1=     2.495000 ; TG2=     2.500000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7602E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4891E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.495000 TO TG2=    2.500000 @ NSTEP     2177
   GFRAME TG2 MOMENTS CHECKSUM:  2.4799091978594D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.35017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.79632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.61336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.83030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.77318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.26015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.17907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.72618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.25188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.62582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.29819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      17=  4.60494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.65153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.95079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.28245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.36941E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.82486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.01995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.08314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.90516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.90516E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5000E+00  2.5050E+00 total power(Watts):  2.9814E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.50000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.372871E+02    0.411308E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.353149E+02    0.411553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.368337E+02    0.395657E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.389465E+02    0.401549E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.388144E+02    0.420781E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.365617E+02    0.426624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.345957E+02    0.436405E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.335768E+02    0.423101E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.334419E+02    0.406711E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.344234E+02    0.390791E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.361132E+02    0.380171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.382591E+02    0.377471E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.401363E+02    0.384368E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.411942E+02    0.398922E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.413293E+02    0.416217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.402851E+02    0.431855E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.384570E+02    0.441503E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.364131E+02    0.442976E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.344165E+02    0.462276E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.317578E+02    0.446255E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.304308E+02    0.421170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.311355E+02    0.391571E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.333714E+02    0.366021E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.367532E+02    0.351465E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.404264E+02    0.353270E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.433590E+02    0.371846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.449139E+02    0.400857E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.441710E+02    0.431824E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.416471E+02    0.455071E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.378914E+02    0.465723E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.387272E+02    0.322742E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.367142E+02    0.323966E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.383296E+02    0.305402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.405944E+02    0.310396E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.402971E+02    0.332413E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.380011E+02    0.339993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.359167E+02    0.352367E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.348671E+02    0.337808E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.347109E+02    0.320026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.358588E+02    0.301210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.376584E+02    0.288413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.398490E+02    0.284310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.417805E+02    0.290901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.428906E+02    0.306349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.429550E+02    0.325599E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.418088E+02    0.344007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.398556E+02    0.356362E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.377724E+02    0.359016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.356523E+02    0.382701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.328622E+02    0.365612E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.316605E+02    0.337264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.323377E+02    0.304565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.346607E+02    0.275366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.383522E+02    0.256152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.421170E+02    0.256275E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.451585E+02    0.274881E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133474E+03   -0.466921E+02    0.305949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.456644E+02    0.341923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.429027E+02    0.370863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.392811E+02    0.384993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.370042E+02    0.462001E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.350455E+02    0.461729E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.364600E+02    0.447942E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.386490E+02    0.453639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.385238E+02    0.470853E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.362866E+02    0.475548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.344287E+02    0.483869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.333242E+02    0.471752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.331849E+02    0.456920E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.341625E+02    0.442709E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.358358E+02    0.433347E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.378779E+02    0.431712E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.397360E+02    0.438565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.410810E+02    0.451641E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.410218E+02    0.467459E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.401898E+02    0.480935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.382759E+02    0.489317E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.361494E+02    0.490371E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.342613E+02    0.508295E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.316089E+02    0.492536E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.303572E+02    0.468947E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.307388E+02    0.443058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.330418E+02    0.419827E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.363975E+02    0.407401E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.399392E+02    0.410436E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.431422E+02    0.427791E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133195E+03   -0.445838E+02    0.454955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133141E+03   -0.439645E+02    0.482100E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133764E+03   -0.414657E+02    0.502627E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.379153E+02    0.512019E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.379182E+02    0.371330E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.359276E+02    0.372037E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.374544E+02    0.354680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.395902E+02    0.360516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.394619E+02    0.381108E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.370964E+02    0.388084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.351198E+02    0.398831E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.340897E+02    0.384928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.340338E+02    0.367271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.350189E+02    0.350049E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.368085E+02    0.338108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.388835E+02    0.335206E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.407824E+02    0.341949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.419568E+02    0.356761E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.419980E+02    0.375615E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.408543E+02    0.392823E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.390109E+02    0.403503E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.369509E+02    0.405477E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.349359E+02    0.426747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.322596E+02    0.409814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.309184E+02    0.383592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.315400E+02    0.352426E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.338571E+02    0.325008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.374282E+02    0.308599E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.411419E+02    0.309648E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.441278E+02    0.327814E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133616E+03   -0.456102E+02    0.357988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.448663E+02    0.391524E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.422200E+02    0.417325E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.384350E+02    0.429904E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.393304E+02    0.253686E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.372902E+02    0.255717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.389022E+02    0.235241E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.412055E+02    0.239681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.409347E+02    0.263546E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.385252E+02    0.273068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.364305E+02    0.286984E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.353469E+02    0.271854E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.353362E+02    0.251574E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.363891E+02    0.231661E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381048E+02    0.218530E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.404962E+02    0.212064E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.424695E+02    0.218116E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.436227E+02    0.233889E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.435213E+02    0.255629E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.423861E+02    0.275949E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.404275E+02    0.289842E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.382306E+02    0.293829E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.361179E+02    0.319170E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.332717E+02    0.302404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.320933E+02    0.272493E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.328212E+02    0.236484E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.352131E+02    0.204868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.389222E+02    0.183878E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.428330E+02    0.182001E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.459588E+02    0.199827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.472679E+02    0.232898E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133693E+03   -0.464885E+02    0.270942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.435343E+02    0.303758E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.397932E+02    0.320306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.47 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694944.084225703     
  ps_ts2 prof sum =   694552.034619250     
  trcom prof sum =    694552.034619250     
  ps_ts2 cur sum  =   12252.0890984090     
  trcom cur sum  =    12252.0890984090     
  
  antenna # iant =            2
  powecha_use(iant) =    665229.225654151     
  ps_ts2 prof sum =   664830.374652743     
  trcom prof sum =    664830.374652742     
  ps_ts2 cur sum  =   14305.7040421314     
  trcom cur sum  =    14305.7040421314     
  
  antenna # iant =            3
  powecha_use(iant) =    524638.900813742     
  ps_ts2 prof sum =   524320.462124664     
  trcom prof sum =    524320.462124664     
  ps_ts2 cur sum  =   7909.45280638807     
  trcom cur sum  =    7909.45280638807     
  
  antenna # iant =            4
  powecha_use(iant) =    544859.937663158     
  ps_ts2 prof sum =   544557.498922780     
  trcom prof sum =    544557.498922779     
  ps_ts2 cur sum  =   10619.8280037315     
  trcom cur sum  =    10619.8280037315     
  
  antenna # iant =            5
  powecha_use(iant) =    551717.639104405     
  ps_ts2 prof sum =   551445.341989170     
  trcom prof sum =    551445.341989170     
  ps_ts2 cur sum  =   13051.9678149332     
  trcom cur sum  =    13051.9678149332     
  
  Total ECH heating:      2979705.71230860     
  Total Current Drive:    58139.0417655931     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2179
 TA= 2.50000E+00 CPU TIME= 1.60020E-01 SECONDS.  DT= 3.26574E-03
  
 TEC1=    2.49999999999997     
 TEC2=    2.50499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.85355555555520     
  %check_save_state: izleft hours =    74.1380555555556     
 --> plasma_hash("gframe"): TA= 2.500000E+00 NSTEP=  2179 Hash code:   81315617
 ->PRGCHK: bdy curvature ratio at t= 2.5050E+00 seconds is:  5.4876E-02
% MHDEQ: TG1=     2.500000 ; TG2=     2.505000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7582E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4876E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.500000 TO TG2=    2.505000 @ NSTEP     2179
   GFRAME TG2 MOMENTS CHECKSUM:  2.4804957252857D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  2.5050E+00  2.5100E+00 total power(Watts):  3.0131E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.50500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.373881E+02    0.410841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.354124E+02    0.411079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.368419E+02    0.395491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.390497E+02    0.401116E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.389190E+02    0.420318E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.365690E+02    0.426348E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.346926E+02    0.435907E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.335857E+02    0.422841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.335346E+02    0.406229E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.345166E+02    0.390324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.362096E+02    0.379716E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.382672E+02    0.377356E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.401449E+02    0.384228E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.413022E+02    0.398488E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.415373E+02    0.415557E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.403940E+02    0.431377E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.385628E+02    0.441011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.364233E+02    0.442652E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.345154E+02    0.461747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.316850E+02    0.446129E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.305174E+02    0.420670E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.310632E+02    0.391748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.332953E+02    0.366320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.368488E+02    0.351049E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.405287E+02    0.352881E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.434717E+02    0.371452E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133302E+03   -0.450281E+02    0.400443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133354E+03   -0.442868E+02    0.431365E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.415599E+02    0.454781E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.379982E+02    0.465202E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.388250E+02    0.322334E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.368093E+02    0.323534E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.384274E+02    0.304952E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.406017E+02    0.310462E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.403983E+02    0.332047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.380075E+02    0.340015E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.360109E+02    0.351930E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.349577E+02    0.337379E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.348858E+02    0.319070E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.357794E+02    0.301811E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.377538E+02    0.287920E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.398555E+02    0.284388E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.417881E+02    0.290971E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.429952E+02    0.305940E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.429619E+02    0.325654E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.419132E+02    0.343645E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.399577E+02    0.355966E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.378673E+02    0.358611E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.357478E+02    0.382246E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.330336E+02    0.364754E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.317419E+02    0.336833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.324230E+02    0.304058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.347505E+02    0.274818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.384475E+02    0.255580E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.422197E+02    0.255729E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134246E+03   -0.452663E+02    0.274423E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133260E+03   -0.468025E+02    0.305585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.457755E+02    0.341594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.430113E+02    0.370467E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.393839E+02    0.384559E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.371090E+02    0.461471E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.351458E+02    0.461203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.365622E+02    0.447437E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.387563E+02    0.453129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.386324E+02    0.470327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.363907E+02    0.475018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.344374E+02    0.483459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.334212E+02    0.471215E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.332807E+02    0.456395E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.341706E+02    0.442389E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.358497E+02    0.433051E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.379815E+02    0.431224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.398441E+02    0.438081E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.409936E+02    0.451399E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.411354E+02    0.466928E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.401044E+02    0.480559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.382892E+02    0.488878E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.362543E+02    0.489862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.342740E+02    0.507900E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.316197E+02    0.492159E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.302868E+02    0.468727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.308278E+02    0.442547E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.331338E+02    0.419343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.364063E+02    0.407197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.400453E+02    0.409989E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.432553E+02    0.427338E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132993E+03   -0.447027E+02    0.454450E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133168E+03   -0.439793E+02    0.481611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.415826E+02    0.502130E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.378339E+02    0.511636E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.379259E+02    0.371233E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.360229E+02    0.371586E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.375516E+02    0.354259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.396918E+02    0.360115E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.394702E+02    0.380979E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.371949E+02    0.387634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.352152E+02    0.398372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.341819E+02    0.384459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.339565E+02    0.367558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.349395E+02    0.350449E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.368144E+02    0.338138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.389821E+02    0.334827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.408848E+02    0.341566E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.419645E+02    0.356735E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.420075E+02    0.375505E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.409573E+02    0.392406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.391155E+02    0.403045E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.370506E+02    0.405018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.349451E+02    0.426474E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.321854E+02    0.409896E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.310039E+02    0.383109E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.316254E+02    0.351964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.340292E+02    0.324061E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.374353E+02    0.308651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.412442E+02    0.309232E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.442355E+02    0.327465E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133406E+03   -0.457223E+02    0.357631E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.447729E+02    0.391601E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.421305E+02    0.417260E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.385398E+02    0.429423E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.394272E+02    0.253119E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.372093E+02    0.256429E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.389979E+02    0.234605E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.413053E+02    0.239083E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.410356E+02    0.263008E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.385319E+02    0.273139E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.363504E+02    0.287623E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.352689E+02    0.272542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.352590E+02    0.252303E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.363099E+02    0.232417E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.382876E+02    0.217081E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.404998E+02    0.212119E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.424757E+02    0.218176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.436296E+02    0.233945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.436261E+02    0.255094E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.424901E+02    0.275465E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.405278E+02    0.289375E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.383270E+02    0.293347E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.360375E+02    0.319715E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.334401E+02    0.301343E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.321773E+02    0.271903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.329054E+02    0.235793E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.353027E+02    0.204094E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.390173E+02    0.183062E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.429352E+02    0.181215E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.460662E+02    0.199127E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.473782E+02    0.232323E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.463930E+02    0.271572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.435408E+02    0.303829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.397994E+02    0.320367E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694418.424987695     
  ps_ts2 prof sum =   693986.486841638     
  trcom prof sum =    693986.486841638     
  ps_ts2 cur sum  =   12208.5867990737     
  trcom cur sum  =    12208.5867990737     
  
  antenna # iant =            2
  powecha_use(iant) =    665856.715693433     
  ps_ts2 prof sum =   665479.651813221     
  trcom prof sum =    665479.651813220     
  ps_ts2 cur sum  =   14249.5216974614     
  trcom cur sum  =    14249.5216974614     
  
  antenna # iant =            3
  powecha_use(iant) =    524942.391010648     
  ps_ts2 prof sum =   524593.184264042     
  trcom prof sum =    524593.184264043     
  ps_ts2 cur sum  =   7910.72625279191     
  trcom cur sum  =    7910.72625279191     
  
  antenna # iant =            4
  powecha_use(iant) =    575519.149535281     
  ps_ts2 prof sum =   575153.868841379     
  trcom prof sum =    575153.868841378     
  ps_ts2 cur sum  =   11172.7292224382     
  trcom cur sum  =    11172.7292224382     
  
  antenna # iant =            5
  powecha_use(iant) =    552332.400246432     
  ps_ts2 prof sum =   551989.908963595     
  trcom prof sum =    551989.908963595     
  ps_ts2 cur sum  =   12997.9097393268     
  trcom cur sum  =    12997.9097393268     
  
  Total ECH heating:      3011203.10072387     
  Total Current Drive:    58539.4737110919     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2181
 TA= 2.50500E+00 CPU TIME= 1.62641E-01 SECONDS.  DT= 2.16782E-03
  
 TEC1=    2.50499999999997     
 TEC2=    2.50999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.86630833333334     
  %check_save_state: izleft hours =    74.1252777777778     
 --> plasma_hash("gframe"): TA= 2.505000E+00 NSTEP=  2181 Hash code:   44654869
 ->PRGCHK: bdy curvature ratio at t= 2.5100E+00 seconds is:  5.4893E-02
% MHDEQ: TG1=     2.505000 ; TG2=     2.510000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7594E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4893E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.505000 TO TG2=    2.510000 @ NSTEP     2181
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807913472989D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.06327E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.35418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.23768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.78267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.28420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.31914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.52017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.26819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.08339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.29287E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      12=  4.96138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  2.05779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.16331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.26316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.13419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.88702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.26787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.85146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.10529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.10529E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5100E+00  2.5150E+00 total power(Watts):  3.0080E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.51000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.373219E+02    0.411394E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.353483E+02    0.411622E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.368662E+02    0.395884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.390763E+02    0.401480E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.388516E+02    0.420774E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.365952E+02    0.426546E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.346315E+02    0.436241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.336101E+02    0.423044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.333894E+02    0.407081E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.344543E+02    0.391025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.362328E+02    0.380178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.382911E+02    0.377843E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.401698E+02    0.384722E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.413280E+02    0.398924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.413674E+02    0.416278E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.403247E+02    0.431754E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.384966E+02    0.441318E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.364512E+02    0.442775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.344560E+02    0.461956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.317924E+02    0.446023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.304606E+02    0.421133E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.310847E+02    0.392109E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.334001E+02    0.366405E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.367839E+02    0.351965E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.404585E+02    0.353815E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134055E+03   -0.435976E+02    0.371728E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.449525E+02    0.401116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133321E+03   -0.443179E+02    0.431587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.416922E+02    0.454759E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.380290E+02    0.465258E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.388504E+02    0.322888E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.368334E+02    0.324070E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.383621E+02    0.306014E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.406278E+02    0.311042E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.404236E+02    0.332615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.380319E+02    0.340554E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.360340E+02    0.352459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.348106E+02    0.338788E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.347402E+02    0.320573E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.358898E+02    0.301804E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.376907E+02    0.289064E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.398823E+02    0.285002E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.418152E+02    0.291603E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.429242E+02    0.307044E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.429883E+02    0.326268E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.418409E+02    0.344622E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.399824E+02    0.356516E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.378023E+02    0.359504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.356833E+02    0.383012E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.328905E+02    0.365995E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.317638E+02    0.337306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.323663E+02    0.305101E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.346917E+02    0.275999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.383858E+02    0.256832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.422480E+02    0.256388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.452953E+02    0.275122E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133438E+03   -0.467272E+02    0.306721E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.459085E+02    0.341875E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.430393E+02    0.371022E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.393141E+02    0.385336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.370457E+02    0.461681E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.350854E+02    0.461412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.365904E+02    0.447544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.386909E+02    0.453358E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.385676E+02    0.470486E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.363291E+02    0.475163E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.344702E+02    0.483471E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.333635E+02    0.471391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.333074E+02    0.456468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.341962E+02    0.442509E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.358761E+02    0.433204E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.379158E+02    0.431593E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.397769E+02    0.438395E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.411246E+02    0.451368E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.412685E+02    0.466895E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.401379E+02    0.480582E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.383228E+02    0.488877E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.362866E+02    0.489854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.343069E+02    0.507834E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.316491E+02    0.492127E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.303934E+02    0.468605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.309325E+02    0.442433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.330749E+02    0.419791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.364314E+02    0.407517E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.400720E+02    0.410332E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.431859E+02    0.427747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133190E+03   -0.446310E+02    0.454657E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133139E+03   -0.440158E+02    0.481635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.415181E+02    0.502121E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.378698E+02    0.511567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.379498E+02    0.371747E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.359540E+02    0.372424E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.374867E+02    0.355178E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.397154E+02    0.360669E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.394948E+02    0.381476E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.371282E+02    0.388376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.352391E+02    0.398732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.341196E+02    0.385206E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.340628E+02    0.367659E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.350480E+02    0.350532E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.368384E+02    0.338670E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.389145E+02    0.335805E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.408143E+02    0.342547E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.419900E+02    0.357311E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.420327E+02    0.376050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.409834E+02    0.392862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.391398E+02    0.403444E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.369848E+02    0.405615E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.349703E+02    0.426667E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.322903E+02    0.409886E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.310249E+02    0.383508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.315672E+02    0.352859E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.338860E+02    0.325537E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.374602E+02    0.309195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.411752E+02    0.310302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.441614E+02    0.328507E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.455418E+02    0.358901E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.449034E+02    0.391877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.422595E+02    0.417368E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.385669E+02    0.429617E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.393641E+02    0.254377E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.373235E+02    0.256383E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.389374E+02    0.235878E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.412410E+02    0.240363E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.409696E+02    0.264261E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.385579E+02    0.273747E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.364620E+02    0.287617E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.352938E+02    0.273115E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.353686E+02    0.252201E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.364227E+02    0.232250E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.383165E+02    0.217627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.405335E+02    0.212661E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.425066E+02    0.218777E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.436600E+02    0.234592E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.436551E+02    0.255773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.424213E+02    0.276696E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.404610E+02    0.290533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.383530E+02    0.293931E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.361483E+02    0.319749E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.333009E+02    0.302956E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.322010E+02    0.272442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.328537E+02    0.237040E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.352485E+02    0.205369E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.388724E+02    0.185178E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.429682E+02    0.181737E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.459999E+02    0.200469E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133421E+03   -0.475121E+02    0.232391E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.464227E+02    0.272303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.435682E+02    0.304465E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.398254E+02    0.320928E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690067.989952500     
  ps_ts2 prof sum =   689655.917345812     
  trcom prof sum =    689655.917345812     
  ps_ts2 cur sum  =   12099.0194912594     
  trcom cur sum  =    12099.0194912594     
  
  antenna # iant =            2
  powecha_use(iant) =    662610.315354965     
  ps_ts2 prof sum =   662223.322699405     
  trcom prof sum =    662223.322699404     
  ps_ts2 cur sum  =   14119.4893983260     
  trcom cur sum  =    14119.4893983260     
  
  antenna # iant =            3
  powecha_use(iant) =    525446.690294985     
  ps_ts2 prof sum =   525131.526522299     
  trcom prof sum =    525131.526522300     
  ps_ts2 cur sum  =   7910.70488863886     
  trcom cur sum  =    7910.70488863887     
  
  antenna # iant =            4
  powecha_use(iant) =    576977.379237476     
  ps_ts2 prof sum =   576647.425241749     
  trcom prof sum =    576647.425241748     
  ps_ts2 cur sum  =   11159.7957239174     
  trcom cur sum  =    11159.7957239174     
  
  antenna # iant =            5
  powecha_use(iant) =    552894.695136786     
  ps_ts2 prof sum =   552610.843312833     
  trcom prof sum =    552610.843312833     
  ps_ts2 cur sum  =   12954.6704465565     
  trcom cur sum  =    12954.6704465565     
  
  Total ECH heating:      3006269.03512210     
  Total Current Drive:    58243.6799486981     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2184
 TA= 2.51000E+00 CPU TIME= 1.56154E-01 SECONDS.  DT= 1.52993E-04
  
 TEC1=    2.50999999999997     
 TEC2=    2.51499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.88623861111091     
  %check_save_state: izleft hours =    74.1052777777778     
 --> plasma_hash("gframe"): TA= 2.510000E+00 NSTEP=  2184 Hash code:  122968952
 ->PRGCHK: bdy curvature ratio at t= 2.5150E+00 seconds is:  5.4912E-02
% MHDEQ: TG1=     2.510000 ; TG2=     2.515000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7606E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4912E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.510000 TO TG2=    2.515000 @ NSTEP     2184
   GFRAME TG2 MOMENTS CHECKSUM:  2.4810869693120D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.5150E+00  2.5200E+00 total power(Watts):  3.0159E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.51500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.373474E+02    0.411645E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.353729E+02    0.411854E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.368900E+02    0.396233E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.390087E+02    0.402068E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.388782E+02    0.420993E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.366217E+02    0.426700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.346573E+02    0.436331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.335493E+02    0.423432E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.334962E+02    0.407065E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.344765E+02    0.391386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.361666E+02    0.380928E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.382218E+02    0.378620E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.400981E+02    0.385451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.412563E+02    0.399530E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.414937E+02    0.416341E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.403537E+02    0.431892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.385254E+02    0.441400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.364789E+02    0.442846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.344838E+02    0.461977E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.316529E+02    0.446466E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.304833E+02    0.421275E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.310260E+02    0.392758E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.332548E+02    0.367593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.368062E+02    0.352422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.404821E+02    0.354309E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.434205E+02    0.372847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133455E+03   -0.449797E+02    0.401528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.442442E+02    0.431915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.415225E+02    0.455053E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.379648E+02    0.465397E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.387823E+02    0.323821E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.367680E+02    0.324989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.383861E+02    0.306503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.405579E+02    0.312024E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.403528E+02    0.333526E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.379631E+02    0.341447E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.359685E+02    0.353305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.349174E+02    0.338768E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.348470E+02    0.320507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.357409E+02    0.303341E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.377142E+02    0.289583E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.398141E+02    0.286112E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.417442E+02    0.292688E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.429493E+02    0.307579E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.429148E+02    0.327207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.418651E+02    0.345128E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.399102E+02    0.357379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.378261E+02    0.359969E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.357055E+02    0.383422E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.329934E+02    0.366030E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.317050E+02    0.338180E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.323876E+02    0.305523E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.347138E+02    0.276504E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.384102E+02    0.257390E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.421783E+02    0.257604E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.452201E+02    0.276318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133394E+03   -0.467535E+02    0.307314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133875E+03   -0.457242E+02    0.343163E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.429612E+02    0.371863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.393381E+02    0.385765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.370755E+02    0.461703E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.351136E+02    0.461439E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.365269E+02    0.447769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.387213E+02    0.453411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.385995E+02    0.470481E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.363596E+02    0.475150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.344121E+02    0.483540E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.333919E+02    0.471384E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.332490E+02    0.456668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.341366E+02    0.442751E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.358127E+02    0.433512E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.379433E+02    0.431721E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.398060E+02    0.438495E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.409563E+02    0.451689E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.411006E+02    0.467108E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.400724E+02    0.480645E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.382603E+02    0.488900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.362267E+02    0.489885E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.343406E+02    0.507734E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.315950E+02    0.492171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.302594E+02    0.468926E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.307956E+02    0.442914E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.330989E+02    0.419956E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.363659E+02    0.408042E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.400015E+02    0.410850E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.432126E+02    0.427946E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.446646E+02    0.454703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133337E+03   -0.439472E+02    0.481653E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.415565E+02    0.502011E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.378099E+02    0.511509E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.378808E+02    0.372545E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.359799E+02    0.372863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.375073E+02    0.355654E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.396454E+02    0.361510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.394239E+02    0.382224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.371515E+02    0.388770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.351748E+02    0.399335E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.341416E+02    0.385587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.340841E+02    0.368087E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.348984E+02    0.351793E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.367721E+02    0.339545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.389360E+02    0.336292E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.408378E+02    0.343043E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.419154E+02    0.358179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.419593E+02    0.376836E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.409107E+02    0.393540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.390709E+02    0.404012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.370096E+02    0.405902E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.349956E+02    0.426803E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.321486E+02    0.410664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.309660E+02    0.384221E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.315867E+02    0.353276E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.339910E+02    0.325478E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.373947E+02    0.310168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.412000E+02    0.310815E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.441870E+02    0.329034E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.456704E+02    0.359141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133937E+03   -0.447224E+02    0.392822E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.420868E+02    0.418022E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.385002E+02    0.429954E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.393894E+02    0.254940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.371725E+02    0.258205E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.389626E+02    0.236416E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.412670E+02    0.240939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.409946E+02    0.264858E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.384920E+02    0.274895E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.363122E+02    0.289264E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.352324E+02    0.274252E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.352242E+02    0.254052E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.362773E+02    0.234180E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.382544E+02    0.218868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.404688E+02    0.213914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.424393E+02    0.220032E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.435900E+02    0.235834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.435834E+02    0.256999E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.424450E+02    0.277306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.404855E+02    0.291081E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.382868E+02    0.294983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.359971E+02    0.321163E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.334044E+02    0.302850E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.321443E+02    0.273566E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.328752E+02    0.237511E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.352738E+02    0.205826E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.389878E+02    0.184818E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.429029E+02    0.183023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.460293E+02    0.201038E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.473353E+02    0.234301E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.463467E+02    0.273506E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.434945E+02    0.305498E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.397561E+02    0.321874E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689337.759001092     
  ps_ts2 prof sum =   688916.145879745     
  trcom prof sum =    688916.145879745     
  ps_ts2 cur sum  =   12038.6200218626     
  trcom cur sum  =    12038.6200218626     
  
  antenna # iant =            2
  powecha_use(iant) =    662475.179661940     
  ps_ts2 prof sum =   662097.420836221     
  trcom prof sum =    662097.420836220     
  ps_ts2 cur sum  =   14038.3557291698     
  trcom cur sum  =    14038.3557291698     
  
  antenna # iant =            3
  powecha_use(iant) =    524665.076220322     
  ps_ts2 prof sum =   524315.480216864     
  trcom prof sum =    524315.480216865     
  ps_ts2 cur sum  =   7887.26657781243     
  trcom cur sum  =    7887.26657781244     
  
  antenna # iant =            4
  powecha_use(iant) =    585478.277186226     
  ps_ts2 prof sum =   585118.902001524     
  trcom prof sum =    585118.902001523     
  ps_ts2 cur sum  =   11265.8716808957     
  trcom cur sum  =    11265.8716808957     
  
  antenna # iant =            5
  powecha_use(iant) =    553933.969354265     
  ps_ts2 prof sum =   553593.616347859     
  trcom prof sum =    553593.616347859     
  ps_ts2 cur sum  =   12907.8339843703     
  trcom cur sum  =    12907.8339843703     
  
  Total ECH heating:      3014041.56528221     
  Total Current Drive:    58137.9479941108     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2194
 TA= 2.51500E+00 CPU TIME= 1.73366E-01 SECONDS.  DT= 1.31554E-03
  
 TEC1=    2.51499999999997     
 TEC2=    2.51999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.90155749999940     
  %check_save_state: izleft hours =    74.0900000000000     
 --> plasma_hash("gframe"): TA= 2.515000E+00 NSTEP=  2194 Hash code:   46570073
 ->PRGCHK: bdy curvature ratio at t= 2.5200E+00 seconds is:  5.4933E-02
% MHDEQ: TG1=     2.515000 ; TG2=     2.520000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7617E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4933E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.515000 TO TG2=    2.520000 @ NSTEP     2194
   GFRAME TG2 MOMENTS CHECKSUM:  2.4813825879960D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.87676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  8.63343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.14466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.20259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.79608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.09885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.56818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.92070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.86041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.53503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -7.11928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      11= -3.21076E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.84086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.37236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.21466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.05263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.94562E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.43481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.59190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -1.94772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -1.94772E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999998858082108E-006
 EC call, timestep(sec):  2.5200E+00  2.5250E+00 total power(Watts):  3.0183E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.52000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.372814E+02    0.412164E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.353980E+02    0.412111E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.368241E+02    0.396884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.390321E+02    0.402438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.388111E+02    0.421419E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.365571E+02    0.427083E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.345968E+02    0.436635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.335749E+02    0.423599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.335198E+02    0.407329E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.344144E+02    0.392056E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.361903E+02    0.381369E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.382462E+02    0.379087E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.401233E+02    0.385918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.412830E+02    0.399935E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.413239E+02    0.417029E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.402852E+02    0.432234E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.384597E+02    0.441672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.364161E+02    0.443115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.344245E+02    0.462179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.317611E+02    0.446348E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.305860E+02    0.421175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.310478E+02    0.393092E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.333598E+02    0.367660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.367417E+02    0.353302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.404109E+02    0.355202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.435476E+02    0.373100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.449043E+02    0.402165E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.440675E+02    0.432409E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.416560E+02    0.455006E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.379960E+02    0.465452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.388073E+02    0.324317E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.367922E+02    0.325464E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.383204E+02    0.307529E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.405838E+02    0.312559E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.403783E+02    0.334039E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.379854E+02    0.341932E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.359915E+02    0.353780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.347701E+02    0.340102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.347009E+02    0.321947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.358512E+02    0.303301E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.376504E+02    0.290692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.398400E+02    0.286709E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.417727E+02    0.293285E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.428780E+02    0.308630E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.429412E+02    0.327749E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.417935E+02    0.346048E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.399348E+02    0.357900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.377587E+02    0.360834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.356412E+02    0.384159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.328505E+02    0.367243E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.317261E+02    0.338605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.323313E+02    0.306529E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.346545E+02    0.277658E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.383470E+02    0.258618E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.422056E+02    0.258258E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.452479E+02    0.277013E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133574E+03   -0.466780E+02    0.308388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133610E+03   -0.458546E+02    0.343389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.429869E+02    0.372409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.392684E+02    0.386518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.370124E+02    0.461902E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.351429E+02    0.461490E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.365560E+02    0.447847E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.386552E+02    0.453632E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.385359E+02    0.470630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.362984E+02    0.475292E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.344431E+02    0.483534E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.333346E+02    0.471550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.332769E+02    0.456724E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.341634E+02    0.442844E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.358401E+02    0.433636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.378782E+02    0.432055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.397387E+02    0.438783E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.410880E+02    0.451643E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.412348E+02    0.467053E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.401076E+02    0.480647E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.382948E+02    0.488886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.362600E+02    0.489859E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.342848E+02    0.507742E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.316254E+02    0.492124E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.302862E+02    0.468954E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.309009E+02    0.442786E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.329547E+02    0.420643E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.363915E+02    0.408329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.400290E+02    0.411149E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.430387E+02    0.428481E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133358E+03   -0.445933E+02    0.454899E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.439839E+02    0.481679E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.414927E+02    0.501991E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.378466E+02    0.511439E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.379047E+02    0.373030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.359148E+02    0.373669E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.374406E+02    0.356527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.396700E+02    0.362021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.394487E+02    0.382705E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.371761E+02    0.389182E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.351991E+02    0.399661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.340793E+02    0.386312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.340219E+02    0.368911E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.350071E+02    0.351849E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.367962E+02    0.340015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.388703E+02    0.337195E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.407674E+02    0.343950E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.419413E+02    0.358708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.419839E+02    0.377364E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.409370E+02    0.393968E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.390972E+02    0.404353E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.369446E+02    0.406458E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.349340E+02    0.427179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.322540E+02    0.410621E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.309873E+02    0.384600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.316084E+02    0.353706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.338475E+02    0.326887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.374192E+02    0.310676E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.411308E+02    0.311839E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.441130E+02    0.330003E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.454896E+02    0.360361E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133674E+03   -0.448540E+02    0.393059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.421158E+02    0.418295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.385287E+02    0.430115E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.393250E+02    0.256188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.372854E+02    0.258145E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.389001E+02    0.237690E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.412016E+02    0.242218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.409273E+02    0.266091E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.385175E+02    0.275497E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.364228E+02    0.289236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.353440E+02    0.274170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.353333E+02    0.253950E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.363885E+02    0.234026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.381100E+02    0.220864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.404976E+02    0.214503E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.424690E+02    0.220650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.436190E+02    0.236491E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.436114E+02    0.257671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.423766E+02    0.278504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.404178E+02    0.292205E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.383114E+02    0.295532E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.361081E+02    0.321160E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.332654E+02    0.304404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.321670E+02    0.274095E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.328210E+02    0.238747E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.352187E+02    0.207109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.388417E+02    0.186942E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.429349E+02    0.183573E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.459613E+02    0.202393E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.472628E+02    0.235635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.463747E+02    0.274223E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.435215E+02    0.306087E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.397814E+02    0.322382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685864.009029053     
  ps_ts2 prof sum =   685484.396680756     
  trcom prof sum =    685484.396680757     
  ps_ts2 cur sum  =   11944.0009343345     
  trcom cur sum  =    11944.0009340784     
  
  antenna # iant =            2
  powecha_use(iant) =    664011.950735222     
  ps_ts2 prof sum =   663626.323638089     
  trcom prof sum =    663626.323638088     
  ps_ts2 cur sum  =   14011.6126256548     
  trcom cur sum  =    14011.6126256548     
  
  antenna # iant =            3
  powecha_use(iant) =    525718.976504847     
  ps_ts2 prof sum =   525388.161042276     
  trcom prof sum =    525388.161042276     
  ps_ts2 cur sum  =   7896.76253415655     
  trcom cur sum  =    7896.76253415656     
  
  antenna # iant =            4
  powecha_use(iant) =    590056.543086536     
  ps_ts2 prof sum =   589727.724590936     
  trcom prof sum =    589727.724590935     
  ps_ts2 cur sum  =   11312.1982032326     
  trcom cur sum  =    11312.1982032326     
  
  antenna # iant =            5
  powecha_use(iant) =    552600.221165610     
  ps_ts2 prof sum =   552307.239418501     
  trcom prof sum =    552307.239418501     
  ps_ts2 cur sum  =   12819.8308782109     
  trcom cur sum  =    12819.8308782109     
  
  Total ECH heating:      3016533.84537056     
  Total Current Drive:    57984.4051753332     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2197
 TA= 2.52000E+00 CPU TIME= 1.59891E-01 SECONDS.  DT= 2.55005E-03
  
 TEC1=    2.51999999999997     
 TEC2=    2.52499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.91666388888893     
  %check_save_state: izleft hours =    74.0750000000000     
 --> plasma_hash("gframe"): TA= 2.520000E+00 NSTEP=  2197 Hash code:   86879256
 ->PRGCHK: bdy curvature ratio at t= 2.5250E+00 seconds is:  5.4957E-02
% MHDEQ: TG1=     2.520000 ; TG2=     2.525000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1610E-03 SECONDS
   DATA R*BT AT EDGE:  2.7629E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4957E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.520000 TO TG2=    2.525000 @ NSTEP     2197
   GFRAME TG2 MOMENTS CHECKSUM:  2.4816782066800D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5250E+00  2.5300E+00 total power(Watts):  3.0121E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.52500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.373083E+02    0.412446E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.353356E+02    0.412630E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.368498E+02    0.397270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.389641E+02    0.403072E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.388399E+02    0.421642E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.365854E+02    0.427249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.346240E+02    0.436754E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.334295E+02    0.424256E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.334598E+02    0.407887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.344381E+02    0.392456E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.361256E+02    0.382162E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.381785E+02    0.379906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.400509E+02    0.386713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.412117E+02    0.400609E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.414529E+02    0.417114E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.403160E+02    0.432398E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.384900E+02    0.441785E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.364452E+02    0.443216E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.344538E+02    0.462239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.316221E+02    0.446840E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.304515E+02    0.421862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.309906E+02    0.393770E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.332160E+02    0.368887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.367651E+02    0.353821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.404369E+02    0.355763E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.433725E+02    0.374271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133611E+03   -0.449338E+02    0.402621E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133681E+03   -0.442043E+02    0.432461E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.414871E+02    0.455343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.379326E+02    0.465640E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.387441E+02    0.325291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.367297E+02    0.326431E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.383472E+02    0.308065E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.405167E+02    0.313608E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.403094E+02    0.335017E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.379224E+02    0.342867E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.359280E+02    0.354695E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.348793E+02    0.340150E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.348107E+02    0.321939E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.357046E+02    0.304877E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.376770E+02    0.291263E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.397751E+02    0.287864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.417030E+02    0.294429E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.429064E+02    0.309238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.428700E+02    0.328751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.418202E+02    0.346619E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.398662E+02    0.358809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.377835E+02    0.361366E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.356652E+02    0.384617E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.329555E+02    0.367333E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.316697E+02    0.339517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.323546E+02    0.306996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.346804E+02    0.278220E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.382857E+02    0.259863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.421396E+02    0.259531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.451766E+02    0.278267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.465002E+02    0.309936E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.456758E+02    0.344728E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.429135E+02    0.373285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.392945E+02    0.386990E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.370434E+02    0.461968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.350829E+02    0.461702E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.364937E+02    0.448107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.386867E+02    0.453711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.385690E+02    0.470677E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.363309E+02    0.475319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.343857E+02    0.483652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.333645E+02    0.471587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.332191E+02    0.456965E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.341039E+02    0.443135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.357783E+02    0.433967E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.379070E+02    0.432212E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.397687E+02    0.438921E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.409207E+02    0.452004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.410673E+02    0.467329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.400428E+02    0.480763E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.382281E+02    0.488969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.362008E+02    0.489935E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.343143E+02    0.507701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.315727E+02    0.492205E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.302328E+02    0.469162E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.307655E+02    0.443298E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.330641E+02    0.420586E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.363274E+02    0.408889E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.399604E+02    0.411698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.431729E+02    0.428529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133334E+03   -0.446263E+02    0.454996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133507E+03   -0.439166E+02    0.481755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133906E+03   -0.415320E+02    0.501934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.377876E+02    0.511434E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.378376E+02    0.373882E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.359387E+02    0.374161E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.374653E+02    0.357056E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.396013E+02    0.362919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.393798E+02    0.383496E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.371103E+02    0.389921E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.351365E+02    0.400296E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.341026E+02    0.386746E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.338757E+02    0.370129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.348586E+02    0.353166E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.367322E+02    0.340953E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.388955E+02    0.337734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.407945E+02    0.344506E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.418694E+02    0.359637E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.419115E+02    0.378210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.408661E+02    0.394692E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.390293E+02    0.404964E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.369701E+02    0.406789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.349614E+02    0.427329E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.321135E+02    0.411425E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.309301E+02    0.385347E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.315507E+02    0.354597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.339550E+02    0.326876E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.373566E+02    0.311697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.411583E+02    0.312417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.441411E+02    0.330604E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133695E+03   -0.456214E+02    0.360674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.446747E+02    0.394067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.420444E+02    0.418794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.384635E+02    0.430478E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.393534E+02    0.256815E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.371384E+02    0.260023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.389289E+02    0.238287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.411380E+02    0.243502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.408623E+02    0.267336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.384554E+02    0.276698E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.362759E+02    0.290916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.351977E+02    0.275984E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.351918E+02    0.255840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.362465E+02    0.235994E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.382241E+02    0.220716E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.404379E+02    0.215796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.424058E+02    0.221954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.435530E+02    0.237798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.435445E+02    0.258951E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.424041E+02    0.279178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.404456E+02    0.292809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.382488E+02    0.296627E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.359596E+02    0.322608E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.332075E+02    0.305434E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.321131E+02    0.275261E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.327683E+02    0.239989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.351647E+02    0.208389E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.389618E+02    0.186640E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.428736E+02    0.184911E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.459957E+02    0.203012E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.472953E+02    0.236345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.463021E+02    0.275499E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.434511E+02    0.307174E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.397148E+02    0.323376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684668.953364435     
  ps_ts2 prof sum =   684243.844755105     
  trcom prof sum =    684243.844755105     
  ps_ts2 cur sum  =   11895.4557243985     
  trcom cur sum  =    11895.4557240331     
  
  antenna # iant =            2
  powecha_use(iant) =    663389.616106064     
  ps_ts2 prof sum =   663013.433546219     
  trcom prof sum =    663013.433546218     
  ps_ts2 cur sum  =   13945.8213439447     
  trcom cur sum  =    13945.8213439447     
  
  antenna # iant =            3
  powecha_use(iant) =    525732.902489538     
  ps_ts2 prof sum =   525385.663949412     
  trcom prof sum =    525385.663949413     
  ps_ts2 cur sum  =   7893.37522619128     
  trcom cur sum  =    7893.37522619129     
  
  antenna # iant =            4
  powecha_use(iant) =    586319.816765439     
  ps_ts2 prof sum =   585954.028998177     
  trcom prof sum =    585954.028998176     
  ps_ts2 cur sum  =   11204.8138112923     
  trcom cur sum  =    11204.8138112923     
  
  antenna # iant =            5
  powecha_use(iant) =    552003.165013438     
  ps_ts2 prof sum =   551651.642814305     
  trcom prof sum =    551651.642814305     
  ps_ts2 cur sum  =   12756.0611042904     
  trcom cur sum  =    12756.0611042905     
  
  Total ECH heating:      3010248.61406322     
  Total Current Drive:    57695.5272097519     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2199
 TA= 2.52500E+00 CPU TIME= 1.65734E-01 SECONDS.  DT= 3.06243E-03
  
 TEC1=    2.52499999999997     
 TEC2=    2.52999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.92971027777753     
  %check_save_state: izleft hours =    74.0619444444444     
 --> plasma_hash("gframe"): TA= 2.525000E+00 NSTEP=  2199 Hash code:   37131843
 ->PRGCHK: bdy curvature ratio at t= 2.5300E+00 seconds is:  5.4984E-02
% MHDEQ: TG1=     2.525000 ; TG2=     2.530000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7641E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4984E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.525000 TO TG2=    2.530000 @ NSTEP     2199
   GFRAME TG2 MOMENTS CHECKSUM:  2.4819738253640D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.69250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2= -3.60683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.29792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.92785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.81421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.32848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.46964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.98121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.94778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      11= -5.35142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.62825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.57889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.38800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.97206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.00351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.59973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.33547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.93997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.93997E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5300E+00  2.5350E+00 total power(Watts):  3.0292E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.53000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.372444E+02    0.412941E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.353640E+02    0.412853E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.367857E+02    0.397901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.389922E+02    0.403410E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.387746E+02    0.422059E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.365234E+02    0.427604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.345654E+02    0.437045E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.335426E+02    0.424156E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.334858E+02    0.408135E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.343772E+02    0.393123E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.361513E+02    0.382583E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.382047E+02    0.380369E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.400808E+02    0.387152E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.412405E+02    0.400992E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.412846E+02    0.417780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.402545E+02    0.432708E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.384275E+02    0.442021E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.363844E+02    0.443465E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.343962E+02    0.462434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.317323E+02    0.446692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.305561E+02    0.421738E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.310144E+02    0.394092E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.333231E+02    0.368951E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.367016E+02    0.354687E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.403685E+02    0.356637E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.435021E+02    0.374517E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133803E+03   -0.448606E+02    0.403238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.440295E+02    0.432931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.416234E+02    0.455272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.379667E+02    0.465671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.387688E+02    0.325779E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.367557E+02    0.326894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.382846E+02    0.309063E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.405446E+02    0.314115E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.402420E+02    0.335926E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.379489E+02    0.343339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.359523E+02    0.355168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.347333E+02    0.341470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.346666E+02    0.323342E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.358171E+02    0.304823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.376153E+02    0.292349E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.398031E+02    0.288439E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.417317E+02    0.295009E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.428372E+02    0.310256E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.428988E+02    0.329280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.417506E+02    0.347497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.398931E+02    0.359320E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.377181E+02    0.362217E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.356026E+02    0.385341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.328137E+02    0.368527E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.316933E+02    0.339932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.322997E+02    0.307966E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.346224E+02    0.279359E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.383134E+02    0.260456E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.420732E+02    0.260775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.451058E+02    0.279482E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.466343E+02    0.310108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.458089E+02    0.344941E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.430422E+02    0.373522E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.392267E+02    0.387726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.369825E+02    0.462149E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.351144E+02    0.461741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.365247E+02    0.448170E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.387195E+02    0.453771E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.385063E+02    0.470830E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.362708E+02    0.475466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.344186E+02    0.483635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.333085E+02    0.471754E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.332488E+02    0.457004E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.341327E+02    0.443201E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.358082E+02    0.434066E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.378438E+02    0.432527E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.397034E+02    0.439190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.410553E+02    0.451926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.412044E+02    0.467255E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.400798E+02    0.480770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.382694E+02    0.488931E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.362359E+02    0.489890E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.342653E+02    0.507698E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.316038E+02    0.492157E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.302612E+02    0.469180E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.308729E+02    0.443142E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.329215E+02    0.421256E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.363549E+02    0.409158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.399901E+02    0.411982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.430008E+02    0.429051E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.445597E+02    0.455154E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133480E+03   -0.439562E+02    0.481758E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134107E+03   -0.414703E+02    0.501906E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.378266E+02    0.511364E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.378638E+02    0.374347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.358754E+02    0.374957E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.374004E+02    0.357919E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.396278E+02    0.363427E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.394067E+02    0.383957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.371364E+02    0.390328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.351628E+02    0.400612E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.340426E+02    0.387438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.339865E+02    0.370199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.349683E+02    0.353219E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.367576E+02    0.341423E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.388304E+02    0.338628E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.407258E+02    0.345399E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.418967E+02    0.360172E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.419393E+02    0.378719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.408950E+02    0.395102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.390577E+02    0.405289E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.369071E+02    0.407336E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.349014E+02    0.427692E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.322216E+02    0.411360E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.309531E+02    0.385709E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.315728E+02    0.355027E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.338134E+02    0.328254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.373835E+02    0.312173E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.410910E+02    0.313405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.440695E+02    0.331546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.454421E+02    0.361890E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.448089E+02    0.394293E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.420767E+02    0.419028E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.384943E+02    0.430609E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.392908E+02    0.258048E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.372527E+02    0.259976E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.388684E+02    0.239560E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.411673E+02    0.244135E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.408907E+02    0.267967E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.384820E+02    0.277291E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.363893E+02    0.290882E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.353093E+02    0.275924E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.353020E+02    0.255747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.361896E+02    0.237244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.380785E+02    0.222726E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.404683E+02    0.216383E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.424363E+02    0.222573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.435838E+02    0.238449E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.434757E+02    0.260211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.423374E+02    0.280360E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.403801E+02    0.293902E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.382761E+02    0.297154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.360727E+02    0.322570E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.332327E+02    0.305876E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.320595E+02    0.276401E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.327952E+02    0.240504E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.351934E+02    0.208896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.389047E+02    0.187974E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.428136E+02    0.186259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.459274E+02    0.204385E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.472250E+02    0.237671E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.464338E+02    0.275692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.434806E+02    0.307744E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.397422E+02    0.323865E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689978.965225308     
  ps_ts2 prof sum =   689600.713648518     
  trcom prof sum =    689600.713648518     
  ps_ts2 cur sum  =   11958.8276919590     
  trcom cur sum  =    11958.8276919590     
  
  antenna # iant =            2
  powecha_use(iant) =    667550.975610848     
  ps_ts2 prof sum =   667167.011784108     
  trcom prof sum =    667167.011784107     
  ps_ts2 cur sum  =   13977.0252458907     
  trcom cur sum  =    13977.0252458907     
  
  antenna # iant =            3
  powecha_use(iant) =    526133.594899784     
  ps_ts2 prof sum =   525808.267825850     
  trcom prof sum =    525808.267825851     
  ps_ts2 cur sum  =   7893.36873574487     
  trcom cur sum  =    7893.36873574488     
  
  antenna # iant =            4
  powecha_use(iant) =    594167.365309544     
  ps_ts2 prof sum =   593843.333704020     
  trcom prof sum =    593843.333704019     
  ps_ts2 cur sum  =   11315.7795121695     
  trcom cur sum  =    11315.7795121695     
  
  antenna # iant =            5
  powecha_use(iant) =    551390.538604183     
  ps_ts2 prof sum =   551103.740222839     
  trcom prof sum =    551103.740222840     
  ps_ts2 cur sum  =   12688.7616850454     
  trcom cur sum  =    12688.7616850454     
  
  Total ECH heating:      3027523.06718533     
  Total Current Drive:    57833.7628708095     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2201
 TA= 2.53000E+00 CPU TIME= 1.60547E-01 SECONDS.  DT= 2.42196E-03
  
 TEC1=    2.52999999999997     
 TEC2=    2.53499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.94195861111075     
  %check_save_state: izleft hours =    74.0497222222222     
 --> plasma_hash("gframe"): TA= 2.530000E+00 NSTEP=  2201 Hash code:   32826807
 ->PRGCHK: bdy curvature ratio at t= 2.5350E+00 seconds is:  5.5013E-02
% MHDEQ: TG1=     2.530000 ; TG2=     2.535000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7653E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5013E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.530000 TO TG2=    2.535000 @ NSTEP     2201
   GFRAME TG2 MOMENTS CHECKSUM:  2.4822694440480D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5350E+00  2.5400E+00 total power(Watts):  3.0354E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.53500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.372725E+02    0.413121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.353002E+02    0.413291E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.368111E+02    0.398193E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.389240E+02    0.403939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.388031E+02    0.422198E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.365516E+02    0.427700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.345937E+02    0.437077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.335687E+02    0.424246E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.334255E+02    0.408606E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.344009E+02    0.393422E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.360857E+02    0.383283E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.381366E+02    0.381081E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.400102E+02    0.387825E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.411691E+02    0.401552E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.413152E+02    0.417957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.402800E+02    0.432798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.384586E+02    0.442067E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.364141E+02    0.443494E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.344272E+02    0.462428E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.317598E+02    0.446706E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.304200E+02    0.422370E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.309561E+02    0.394688E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.331781E+02    0.370084E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.367246E+02    0.355108E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.403935E+02    0.357088E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.433258E+02    0.375567E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133769E+03   -0.448900E+02    0.403576E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133849E+03   -0.441673E+02    0.432872E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.414544E+02    0.455543E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.379040E+02    0.465805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.387014E+02    0.326654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.366909E+02    0.327755E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.383088E+02    0.309508E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.404756E+02    0.315035E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.402682E+02    0.336349E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.378814E+02    0.344171E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.358879E+02    0.355967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.348420E+02    0.341418E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.346891E+02    0.323729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.356684E+02    0.306293E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.376397E+02    0.292837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.397358E+02    0.289511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.416616E+02    0.296050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.428639E+02    0.310746E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.428257E+02    0.330156E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.417760E+02    0.347969E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.398227E+02    0.360122E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.377417E+02    0.362647E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.356262E+02    0.385702E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.328355E+02    0.368916E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.316354E+02    0.340744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.323217E+02    0.308349E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.346454E+02    0.279864E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.382487E+02    0.261655E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.420991E+02    0.261398E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.451324E+02    0.280119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.464543E+02    0.311521E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.456280E+02    0.346145E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.428671E+02    0.374584E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.392524E+02    0.388100E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.370144E+02    0.462155E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.350566E+02    0.461900E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.364627E+02    0.448363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.386550E+02    0.453937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.385401E+02    0.470821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.363050E+02    0.475432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.344511E+02    0.483579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.333356E+02    0.471748E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.331914E+02    0.457193E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.341616E+02    0.443215E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.358363E+02    0.434120E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.378739E+02    0.432584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.397346E+02    0.439234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.408879E+02    0.452221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.410410E+02    0.467463E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.400160E+02    0.480824E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.383055E+02    0.488866E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.361775E+02    0.489921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.343002E+02    0.507618E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.314677E+02    0.492319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.303692E+02    0.469008E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.307395E+02    0.443586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.330318E+02    0.421112E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.363777E+02    0.409368E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.399211E+02    0.412433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.431357E+02    0.428993E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133501E+03   -0.445957E+02    0.455167E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133454E+03   -0.439955E+02    0.481717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134087E+03   -0.415082E+02    0.501791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.377675E+02    0.511336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.377955E+02    0.375099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.358987E+02    0.375355E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.374241E+02    0.358345E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.395573E+02    0.364226E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.393351E+02    0.384669E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.370700E+02    0.390962E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.350997E+02    0.401154E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.340655E+02    0.387775E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.340069E+02    0.370596E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.348187E+02    0.354428E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.366925E+02    0.342246E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.388550E+02    0.339051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.407510E+02    0.345845E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.418232E+02    0.360982E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.418660E+02    0.379455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.408229E+02    0.395724E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.389895E+02    0.405799E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.369326E+02    0.407567E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.349287E+02    0.427766E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.320810E+02    0.412078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.308949E+02    0.386375E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.315146E+02    0.355823E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.339190E+02    0.328160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.373187E+02    0.313093E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.411169E+02    0.313870E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.440961E+02    0.332029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133844E+03   -0.455733E+02    0.362079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.446289E+02    0.395159E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.420006E+02    0.419433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.384286E+02    0.430889E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.393159E+02    0.258631E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.371025E+02    0.261786E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.388940E+02    0.240120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.411001E+02    0.245370E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.408224E+02    0.269156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.384166E+02    0.278422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.362397E+02    0.292470E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.351629E+02    0.277654E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.351584E+02    0.257584E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.362139E+02    0.237773E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.381915E+02    0.222537E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.404037E+02    0.217656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.423692E+02    0.223847E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.435171E+02    0.239698E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.435020E+02    0.260852E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.423635E+02    0.280955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.404034E+02    0.294430E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.382104E+02    0.298158E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.359215E+02    0.323925E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.332554E+02    0.306271E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.320812E+02    0.276887E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.327384E+02    0.241718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.351366E+02    0.210157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.389326E+02    0.188469E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.428420E+02    0.186802E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.459588E+02    0.204980E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.472532E+02    0.238350E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.462572E+02    0.277397E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.434080E+02    0.308715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.396735E+02    0.324749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.20 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691130.116721427     
  ps_ts2 prof sum =   690711.708751830     
  trcom prof sum =    690711.708751831     
  ps_ts2 cur sum  =   11940.7366316364     
  trcom cur sum  =    11940.7366316364     
  
  antenna # iant =            2
  powecha_use(iant) =    665416.078895809     
  ps_ts2 prof sum =   665010.143518612     
  trcom prof sum =    665010.143518610     
  ps_ts2 cur sum  =   13861.8162888963     
  trcom cur sum  =    13861.8162888963     
  
  antenna # iant =            3
  powecha_use(iant) =    525359.652030809     
  ps_ts2 prof sum =   525027.959311144     
  trcom prof sum =    525027.959311145     
  ps_ts2 cur sum  =   7872.86630873063     
  trcom cur sum  =    7872.86630873064     
  
  antenna # iant =            4
  powecha_use(iant) =    601171.626868426     
  ps_ts2 prof sum =   600798.389887132     
  trcom prof sum =    600798.389887131     
  ps_ts2 cur sum  =   11399.8775430551     
  trcom cur sum  =    11399.8775430551     
  
  antenna # iant =            5
  powecha_use(iant) =    552344.080687271     
  ps_ts2 prof sum =   552002.027671868     
  trcom prof sum =    552002.027671868     
  ps_ts2 cur sum  =   12642.8866130879     
  trcom cur sum  =    12642.8866130879     
  
  Total ECH heating:      3033550.22914058     
  Total Current Drive:    57718.1833854063     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2203
 TA= 2.53500E+00 CPU TIME= 1.47384E-01 SECONDS.  DT= 3.22255E-03
  
 TEC1=    2.53499999999997     
 TEC2=    2.53999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.95676305555571     
  %check_save_state: izleft hours =    74.0347222222222     
 --> plasma_hash("gframe"): TA= 2.535000E+00 NSTEP=  2203 Hash code:    8882200
 ->PRGCHK: bdy curvature ratio at t= 2.5400E+00 seconds is:  5.5045E-02
% MHDEQ: TG1=     2.535000 ; TG2=     2.540000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7665E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5045E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.535000 TO TG2=    2.540000 @ NSTEP     2203
   GFRAME TG2 MOMENTS CHECKSUM:  2.4825650627319D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.50825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       3=  2.68559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.39325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.82257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.75684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.06025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.73627E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.07888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.42739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.77628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      10=  1.53734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.41563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.78542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.08459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.89149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.06140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.76465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.07905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.55411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.55411E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.5400E+00  2.5450E+00 total power(Watts):  3.0249E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.54000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.372122E+02    0.413507E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.353330E+02    0.413405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.367508E+02    0.398706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.389569E+02    0.404151E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.388381E+02    0.422281E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.364941E+02    0.427948E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.346271E+02    0.437074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.335122E+02    0.424535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.334566E+02    0.408738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.343437E+02    0.393969E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.361149E+02    0.383586E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.381667E+02    0.381411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.400417E+02    0.388150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.412033E+02    0.401789E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.412514E+02    0.418289E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.402194E+02    0.432989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.384948E+02    0.442051E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.363575E+02    0.443660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.344642E+02    0.462399E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.316263E+02    0.447098E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.304494E+02    0.422409E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.309831E+02    0.394902E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.332010E+02    0.370410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.366639E+02    0.355823E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.403280E+02    0.357807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.433582E+02    0.375956E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.447164E+02    0.404277E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.442075E+02    0.432906E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.414953E+02    0.455511E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.379431E+02    0.465766E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.387311E+02    0.326974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.367198E+02    0.328066E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.382476E+02    0.310342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.405060E+02    0.315393E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.402989E+02    0.336680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.379108E+02    0.344494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.359162E+02    0.356292E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.346990E+02    0.342587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.348018E+02    0.323539E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.357818E+02    0.306111E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.375791E+02    0.293777E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.397651E+02    0.289948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.416918E+02    0.296493E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.427973E+02    0.311595E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.428581E+02    0.330510E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.417093E+02    0.348693E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.398528E+02    0.360483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.376795E+02    0.363353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.356551E+02    0.385996E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.327793E+02    0.369601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.316603E+02    0.341022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.322679E+02    0.309187E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.345892E+02    0.280879E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.382774E+02    0.262150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.421260E+02    0.261956E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.451643E+02    0.280662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.465918E+02    0.311522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.457658E+02    0.346175E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.428994E+02    0.374965E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.391884E+02    0.388700E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.369587E+02    0.462266E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.350920E+02    0.461865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.364986E+02    0.448339E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.386934E+02    0.453910E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.385801E+02    0.470777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.363430E+02    0.475391E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.344004E+02    0.483619E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.333754E+02    0.471691E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.332255E+02    0.457171E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.341081E+02    0.443396E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.357804E+02    0.434327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.378151E+02    0.432797E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.397734E+02    0.439210E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.409277E+02    0.452192E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.411808E+02    0.467309E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.400590E+02    0.480751E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.382510E+02    0.488863E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.362191E+02    0.489814E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.342517E+02    0.507596E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.315886E+02    0.492088E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.302416E+02    0.469310E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.307680E+02    0.443583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.330631E+02    0.421163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.363222E+02    0.409779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.399552E+02    0.412601E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.429678E+02    0.429408E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.445324E+02    0.455239E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.439352E+02    0.481716E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.414557E+02    0.501703E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.378128E+02    0.511227E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.378253E+02    0.375440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.358389E+02    0.376022E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.373617E+02    0.359063E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.395877E+02    0.364584E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.393678E+02    0.384986E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.371004E+02    0.391237E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.351298E+02    0.401355E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.339227E+02    0.388686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.338643E+02    0.371643E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.349289E+02    0.354354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.367211E+02    0.342559E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.387922E+02    0.339789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.406853E+02    0.346575E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.418550E+02    0.361354E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.418979E+02    0.379822E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.408559E+02    0.396006E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.390227E+02    0.405999E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.368731E+02    0.407992E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.348736E+02    0.428026E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.321101E+02    0.412196E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.309238E+02    0.386618E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.315409E+02    0.356114E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.337791E+02    0.329394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.373479E+02    0.313416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.410519E+02    0.314696E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.442264E+02    0.332010E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133811E+03   -0.456063E+02    0.362492E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.447656E+02    0.395256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.420422E+02    0.419540E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.384649E+02    0.430905E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.392544E+02    0.259756E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.372178E+02    0.261644E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.388340E+02    0.241297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.411305E+02    0.245897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.408521E+02    0.269670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.384458E+02    0.278885E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.363542E+02    0.292305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.351904E+02    0.278087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.352694E+02    0.257399E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.363273E+02    0.237554E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.380457E+02    0.224458E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.404346E+02    0.218164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.424007E+02    0.224379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.435452E+02    0.240272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.435330E+02    0.261414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.422975E+02    0.281998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.403412E+02    0.295370E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.382390E+02    0.298556E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.360372E+02    0.323754E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.331994E+02    0.307125E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.321061E+02    0.277295E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.327647E+02    0.242150E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.351660E+02    0.210600E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.387877E+02    0.190532E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.427809E+02    0.188085E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.458926E+02    0.206253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.471835E+02    0.239568E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.463917E+02    0.277447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.434401E+02    0.309119E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.397039E+02    0.325084E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691285.862306449     
  ps_ts2 prof sum =   690852.318407165     
  trcom prof sum =    690852.318407165     
  ps_ts2 cur sum  =   11902.6120611154     
  trcom cur sum  =    11902.6120611154     
  
  antenna # iant =            2
  powecha_use(iant) =    663395.538485533     
  ps_ts2 prof sum =   663013.536762361     
  trcom prof sum =    663013.536762360     
  ps_ts2 cur sum  =   13754.5067908365     
  trcom cur sum  =    13754.5067908365     
  
  antenna # iant =            3
  powecha_use(iant) =    525114.941197252     
  ps_ts2 prof sum =   524783.852112493     
  trcom prof sum =    524783.852112493     
  ps_ts2 cur sum  =   7857.70263720030     
  trcom cur sum  =    7857.70263720031     
  
  antenna # iant =            4
  powecha_use(iant) =    592469.893186046     
  ps_ts2 prof sum =   592109.172189056     
  trcom prof sum =    592109.172189055     
  ps_ts2 cur sum  =   11185.3061592880     
  trcom cur sum  =    11185.3061592880     
  
  antenna # iant =            5
  powecha_use(iant) =    552615.510695798     
  ps_ts2 prof sum =   552318.646053136     
  trcom prof sum =    552318.646053136     
  ps_ts2 cur sum  =   12588.4532664060     
  trcom cur sum  =    12588.4532664060     
  
  Total ECH heating:      3023077.52552421     
  Total Current Drive:    57288.5809148462     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2205
 TA= 2.54000E+00 CPU TIME= 1.47416E-01 SECONDS.  DT= 2.22181E-03
  
 TEC1=    2.53999999999997     
 TEC2=    2.54499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.97087944444434     
  %check_save_state: izleft hours =    74.0205555555556     
 --> plasma_hash("gframe"): TA= 2.540000E+00 NSTEP=  2205 Hash code:    9570878
 ->PRGCHK: bdy curvature ratio at t= 2.5450E+00 seconds is:  5.5080E-02
% MHDEQ: TG1=     2.540000 ; TG2=     2.545000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7677E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5080E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.540000 TO TG2=    2.545000 @ NSTEP     2205
   GFRAME TG2 MOMENTS CHECKSUM:  2.4828606814159D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5450E+00  2.5500E+00 total power(Watts):  3.0154E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.54500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.372469E+02    0.413599E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.352770E+02    0.413743E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.367787E+02    0.398911E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.389910E+02    0.404327E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.387784E+02    0.422550E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.365297E+02    0.427955E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.345735E+02    0.437252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.335476E+02    0.424543E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.333170E+02    0.409402E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.343739E+02    0.394175E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.360556E+02    0.384177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.381979E+02    0.381704E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.400745E+02    0.388428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.411388E+02    0.402249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.412881E+02    0.418392E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.402580E+02    0.432986E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.384365E+02    0.442203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.363945E+02    0.443629E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.344103E+02    0.462538E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.317428E+02    0.446862E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.304006E+02    0.422681E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.310111E+02    0.395085E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.333163E+02    0.370307E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.366933E+02    0.356115E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.403594E+02    0.358124E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.432901E+02    0.376588E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133937E+03   -0.448590E+02    0.404278E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.441448E+02    0.433052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.416394E+02    0.455337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.379831E+02    0.465734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.386695E+02    0.327700E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.365703E+02    0.329243E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.382739E+02    0.310676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.405375E+02    0.315707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.402347E+02    0.337391E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.379408E+02    0.344769E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.358569E+02    0.356972E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.348126E+02    0.342409E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.346601E+02    0.324753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.356378E+02    0.307451E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.376083E+02    0.294158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.397000E+02    0.290906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.416270E+02    0.297401E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.428297E+02    0.311950E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.428907E+02    0.330825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.417416E+02    0.349003E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.397882E+02    0.361157E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.377097E+02    0.363660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.355967E+02    0.386569E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.328066E+02    0.369879E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.316878E+02    0.341259E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.322937E+02    0.309451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.346169E+02    0.281278E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.381278E+02    0.263875E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.420645E+02    0.263070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.450952E+02    0.281712E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.466255E+02    0.311920E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.455918E+02    0.347217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.428316E+02    0.375602E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.392206E+02    0.388974E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.369981E+02    0.462231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.350391E+02    0.461995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.365349E+02    0.448302E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.386360E+02    0.454031E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.385245E+02    0.470855E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.362904E+02    0.475464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.344412E+02    0.483522E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.333245E+02    0.471804E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.332613E+02    0.457142E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.341418E+02    0.443379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.358157E+02    0.434313E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.378518E+02    0.432791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.397142E+02    0.439356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.410699E+02    0.452007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.410204E+02    0.467500E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.402035E+02    0.480590E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.382950E+02    0.488753E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.361675E+02    0.489819E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.342943E+02    0.507494E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.316270E+02    0.491978E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.303570E+02    0.469097E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.308820E+02    0.443332E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.330102E+02    0.421445E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.363563E+02    0.409887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.399915E+02    0.412717E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.431111E+02    0.429257E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133681E+03   -0.445770E+02    0.455188E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.439833E+02    0.481630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.415045E+02    0.501570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.377617E+02    0.511191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.378559E+02    0.375744E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.358682E+02    0.376318E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.373921E+02    0.359360E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.395238E+02    0.365243E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.393999E+02    0.385278E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.370402E+02    0.391777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.350724E+02    0.401803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.340377E+02    0.388600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.339774E+02    0.371562E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.349613E+02    0.354626E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.367516E+02    0.342828E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.388226E+02    0.340071E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.407169E+02    0.346879E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.418873E+02    0.361684E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.419310E+02    0.380148E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.407917E+02    0.396509E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.389613E+02    0.406412E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.369063E+02    0.408128E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.349078E+02    0.428025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.322238E+02    0.411994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.308684E+02    0.387201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.314865E+02    0.356802E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.338069E+02    0.329637E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.373773E+02    0.313715E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.410836E+02    0.315018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.440605E+02    0.333112E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.455367E+02    0.363148E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.448043E+02    0.395536E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.421819E+02    0.419430E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.384062E+02    0.431103E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.392835E+02    0.260272E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.370716E+02    0.263375E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.388635E+02    0.241809E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.410673E+02    0.247082E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.407921E+02    0.270743E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.383845E+02    0.279911E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.362088E+02    0.293782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.351336E+02    0.279097E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.351300E+02    0.259163E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.361861E+02    0.239411E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.381638E+02    0.224237E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.403743E+02    0.219394E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.423374E+02    0.225612E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.434796E+02    0.241475E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.434664E+02    0.262554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.423282E+02    0.282487E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.403720E+02    0.295765E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.381785E+02    0.299433E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.360664E+02    0.324015E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.332279E+02    0.307395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.320541E+02    0.278300E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.327913E+02    0.242605E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.351941E+02    0.211060E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.389062E+02    0.190223E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.428136E+02    0.188611E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.459259E+02    0.206840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.472164E+02    0.240183E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.462192E+02    0.279038E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.434727E+02    0.309487E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.397350E+02    0.325373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690198.105510418     
  ps_ts2 prof sum =   689804.322012878     
  trcom prof sum =    689804.322012879     
  ps_ts2 cur sum  =   11849.2287963690     
  trcom cur sum  =    11849.2287963690     
  
  antenna # iant =            2
  powecha_use(iant) =    665079.204731696     
  ps_ts2 prof sum =   664656.005209183     
  trcom prof sum =    664656.005209182     
  ps_ts2 cur sum  =   13729.0264789984     
  trcom cur sum  =    13729.0264789983     
  
  antenna # iant =            3
  powecha_use(iant) =    524761.901151842     
  ps_ts2 prof sum =   524471.488371937     
  trcom prof sum =    524471.488339127     
  ps_ts2 cur sum  =   7844.56826740436     
  trcom cur sum  =    7844.56826740437     
  
  antenna # iant =            4
  powecha_use(iant) =    582598.482284666     
  ps_ts2 prof sum =   582282.500319157     
  trcom prof sum =    582282.500319157     
  ps_ts2 cur sum  =   10957.6382391499     
  trcom cur sum  =    10957.6382391499     
  
  antenna # iant =            5
  powecha_use(iant) =    552802.497528608     
  ps_ts2 prof sum =   552480.432857760     
  trcom prof sum =    552480.432857759     
  ps_ts2 cur sum  =   12532.4263736203     
  trcom cur sum  =    12532.4263736203     
  
  Total ECH heating:      3013694.74873810     
  Total Current Drive:    56912.8881555419     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2207
 TA= 2.54500E+00 CPU TIME= 1.60606E-01 SECONDS.  DT= 3.47274E-03
  
 TEC1=    2.54499999999997     
 TEC2=    2.54999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    5.98598638888870     
  %check_save_state: izleft hours =    74.0055555555556     
 --> plasma_hash("gframe"): TA= 2.545000E+00 NSTEP=  2207 Hash code:   23610222
 ->PRGCHK: bdy curvature ratio at t= 2.5500E+00 seconds is:  5.5117E-02
% MHDEQ: TG1=     2.545000 ; TG2=     2.550000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7689E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5117E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.545000 TO TG2=    2.550000 @ NSTEP     2207
   GFRAME TG2 MOMENTS CHECKSUM:  2.4831563000999D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.35213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.68878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.47402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  6.60990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.26870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.23450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.70221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.80543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.63098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #      10=  1.90951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.23549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.96040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.82752E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.82322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.11045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.90438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.86179E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.55379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.55379E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5500E+00  2.5550E+00 total power(Watts):  3.0191E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.55000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.372821E+02    0.413644E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.353106E+02    0.413781E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.367249E+02    0.399305E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.389309E+02    0.404686E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.388155E+02    0.422556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.365657E+02    0.427942E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.346086E+02    0.437230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.334085E+02    0.425024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.334341E+02    0.409174E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.342318E+02    0.394920E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.360874E+02    0.384379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.381385E+02    0.382249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.400119E+02    0.388926E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.411753E+02    0.402385E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.412266E+02    0.418638E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.402973E+02    0.432964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.384751E+02    0.442175E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.364316E+02    0.443606E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.344479E+02    0.462519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.316085E+02    0.447282E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.304314E+02    0.422669E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.309602E+02    0.395516E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.331777E+02    0.371300E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.366339E+02    0.356841E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.402955E+02    0.358849E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.433253E+02    0.376905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.446879E+02    0.404854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134004E+03   -0.441871E+02    0.433040E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.414774E+02    0.455586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.379270E+02    0.465857E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.387001E+02    0.328118E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.366899E+02    0.329176E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.382164E+02    0.311582E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.404737E+02    0.316624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.402663E+02    0.337811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.378799E+02    0.345561E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.358872E+02    0.357297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.346699E+02    0.343643E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.347734E+02    0.324661E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.357541E+02    0.307332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.375489E+02    0.295145E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.397333E+02    0.291385E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.416587E+02    0.297890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.427635E+02    0.312887E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.428241E+02    0.331686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.416758E+02    0.349786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.398208E+02    0.361503E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.376492E+02    0.364340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.356286E+02    0.386752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.329185E+02    0.369757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.316347E+02    0.342062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.323220E+02    0.309817E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.347292E+02    0.281129E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.382475E+02    0.263773E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.420964E+02    0.263633E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.451284E+02    0.282283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.464515E+02    0.313301E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134068E+03   -0.457305E+02    0.347332E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.428665E+02    0.375916E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.391591E+02    0.389467E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.370372E+02    0.462215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.350764E+02    0.461985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.364806E+02    0.448470E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.386757E+02    0.454014E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.385654E+02    0.470837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.363306E+02    0.475423E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.343912E+02    0.483574E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.333620E+02    0.471768E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.332109E+02    0.457308E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.340898E+02    0.443556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.357606E+02    0.434502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.378892E+02    0.432770E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.397535E+02    0.439330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.409096E+02    0.452278E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.411661E+02    0.467349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.400467E+02    0.480734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.382415E+02    0.488760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.362099E+02    0.489720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.342464E+02    0.507503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.315814E+02    0.492010E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.302279E+02    0.469420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.307517E+02    0.443764E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.330429E+02    0.421438E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.362989E+02    0.410212E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.399306E+02    0.413009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.429451E+02    0.429604E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133659E+03   -0.446218E+02    0.455155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.439215E+02    0.481645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.413463E+02    0.501570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.378083E+02    0.511104E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.377954E+02    0.376340E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.358106E+02    0.376904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.373319E+02    0.360065E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.395561E+02    0.365578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.393381E+02    0.385796E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.370716E+02    0.391947E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.351046E+02    0.401907E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.338966E+02    0.389406E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.338365E+02    0.372539E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.348173E+02    0.355753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.366911E+02    0.343629E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.388537E+02    0.340470E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.407490E+02    0.347292E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.418215E+02    0.362389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.418662E+02    0.380716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.408276E+02    0.396675E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.389970E+02    0.406503E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.369414E+02    0.408192E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.349427E+02    0.428008E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.320892E+02    0.412581E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.308972E+02    0.387356E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.315137E+02    0.357098E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.337516E+02    0.330477E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.373170E+02    0.314622E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.410193E+02    0.315938E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.440941E+02    0.333577E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.455723E+02    0.363549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.447380E+02    0.395970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.420175E+02    0.419873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.384439E+02    0.431087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.392234E+02    0.261415E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.371889E+02    0.263254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.388053E+02    0.242996E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.410989E+02    0.247638E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.408203E+02    0.271292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.384155E+02    0.280392E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.363250E+02    0.293669E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.351627E+02    0.279548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.351579E+02    0.259646E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.363006E+02    0.239225E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.380179E+02    0.226182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.404061E+02    0.219944E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.423707E+02    0.226187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.435127E+02    0.242066E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.434989E+02    0.263136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.422635E+02    0.283551E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.404033E+02    0.296244E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.382097E+02    0.299864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.360078E+02    0.324886E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.331736E+02    0.308314E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.320795E+02    0.278740E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.327408E+02    0.243762E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.351409E+02    0.212311E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.387619E+02    0.192308E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.427530E+02    0.189930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.458612E+02    0.208153E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.471480E+02    0.241439E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.463555E+02    0.279115E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.434060E+02    0.310439E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.396721E+02    0.326241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689863.272989944     
  ps_ts2 prof sum =   689409.242469445     
  trcom prof sum =    689409.242469445     
  ps_ts2 cur sum  =   11816.6074282451     
  trcom cur sum  =    11816.6074282451     
  
  antenna # iant =            2
  powecha_use(iant) =    664375.053753140     
  ps_ts2 prof sum =   664019.133804449     
  trcom prof sum =    664019.133804448     
  ps_ts2 cur sum  =   13658.4043950925     
  trcom cur sum  =    13658.4043950925     
  
  antenna # iant =            3
  powecha_use(iant) =    525552.090501786     
  ps_ts2 prof sum =   525215.070510271     
  trcom prof sum =    525215.070510271     
  ps_ts2 cur sum  =   7851.63012170108     
  trcom cur sum  =    7851.63012170109     
  
  antenna # iant =            4
  powecha_use(iant) =    587614.315610433     
  ps_ts2 prof sum =   587242.606345987     
  trcom prof sum =    587242.606345987     
  ps_ts2 cur sum  =   11016.4933463652     
  trcom cur sum  =    11016.4933463652     
  
  antenna # iant =            5
  powecha_use(iant) =    551723.932674440     
  ps_ts2 prof sum =   551422.516184086     
  trcom prof sum =    551422.516184086     
  ps_ts2 cur sum  =   12452.1842852713     
  trcom cur sum  =    12452.1842852713     
  
  Total ECH heating:      3017308.56931424     
  Total Current Drive:    56795.3195766752     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2209
 TA= 2.55000E+00 CPU TIME= 1.45991E-01 SECONDS.  DT= 1.90908E-03
  
 TEC1=    2.54999999999997     
 TEC2=    2.55499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.00228694444399     
  %check_save_state: izleft hours =    73.9891666666667     
 --> plasma_hash("gframe"): TA= 2.550000E+00 NSTEP=  2209 Hash code:   12408137
 ->PRGCHK: bdy curvature ratio at t= 2.5550E+00 seconds is:  5.5069E-02
% MHDEQ: TG1=     2.550000 ; TG2=     2.555000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7700E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5069E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.550000 TO TG2=    2.555000 @ NSTEP     2209
   GFRAME TG2 MOMENTS CHECKSUM:  2.4834519187839D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5550E+00  2.5600E+00 total power(Watts):  3.0123E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.55500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.372239E+02    0.413885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.353436E+02    0.413773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.367570E+02    0.399373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.389659E+02    0.404722E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.387558E+02    0.422737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.365092E+02    0.428099E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.346428E+02    0.437181E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.335280E+02    0.424716E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.332945E+02    0.409731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.343498E+02    0.394686E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.361189E+02    0.384533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.381699E+02    0.382430E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.400461E+02    0.389082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.412116E+02    0.402455E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.412639E+02    0.418633E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.402363E+02    0.433101E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.384163E+02    0.442309E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.363752E+02    0.443754E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.343954E+02    0.462657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.316410E+02    0.447255E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.304608E+02    0.422634E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.309888E+02    0.395572E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.332898E+02    0.371153E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.366633E+02    0.357186E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.403218E+02    0.359234E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.434622E+02    0.376887E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.448320E+02    0.404716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.440173E+02    0.433307E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.416212E+02    0.455401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.379678E+02    0.465804E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.387298E+02    0.328583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.367183E+02    0.329620E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.382451E+02    0.312053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.405036E+02    0.317113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.402006E+02    0.338679E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.379093E+02    0.345976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.357393E+02    0.358404E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.346961E+02    0.344031E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.346303E+02    0.326042E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.357815E+02    0.307777E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.375781E+02    0.295593E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.397630E+02    0.291868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.416890E+02    0.298396E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.427942E+02    0.313406E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.428553E+02    0.332191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.417070E+02    0.350234E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.398535E+02    0.361853E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.376797E+02    0.364645E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.355708E+02    0.387201E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.327798E+02    0.370737E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.316595E+02    0.342423E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.322668E+02    0.310773E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.345890E+02    0.282744E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.382767E+02    0.264258E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.420316E+02    0.264744E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.450589E+02    0.283349E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.465882E+02    0.313443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.455545E+02    0.348523E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.430024E+02    0.375901E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.391927E+02    0.389610E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.369811E+02    0.462338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.351129E+02    0.461958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.365174E+02    0.448435E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.387150E+02    0.453978E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.385057E+02    0.470894E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.362768E+02    0.475491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.344303E+02    0.483472E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.333115E+02    0.471865E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.332454E+02    0.457284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.341239E+02    0.443519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.357956E+02    0.434457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.378307E+02    0.432921E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.396922E+02    0.439476E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.410515E+02    0.452076E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.410043E+02    0.467547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.400909E+02    0.480637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.382856E+02    0.488630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.362519E+02    0.489595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.342885E+02    0.507388E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.316192E+02    0.491881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.302612E+02    0.469383E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.307832E+02    0.443733E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.329050E+02    0.421907E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.363330E+02    0.410208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.399670E+02    0.413016E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.429860E+02    0.429535E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.445588E+02    0.455218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.439715E+02    0.481551E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.414986E+02    0.501343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.378541E+02    0.510995E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.378271E+02    0.376563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.358410E+02    0.377103E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.373621E+02    0.360394E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.395854E+02    0.365901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.393717E+02    0.385959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.371061E+02    0.392044E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.351383E+02    0.401935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.340131E+02    0.389191E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.339509E+02    0.372395E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.349327E+02    0.355680E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.367198E+02    0.344036E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.387900E+02    0.341323E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.406836E+02    0.348099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.418541E+02    0.362757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.419003E+02    0.380956E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.408633E+02    0.396776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.390324E+02    0.406538E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.368829E+02    0.408471E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.348876E+02    0.428190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.322030E+02    0.412290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.309259E+02    0.387450E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.315402E+02    0.357395E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.337786E+02    0.330887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.373455E+02    0.315085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.410495E+02    0.316432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.440241E+02    0.334488E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.453973E+02    0.364559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.447759E+02    0.396109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.420559E+02    0.419861E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.384808E+02    0.431034E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.392532E+02    0.261908E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.370423E+02    0.264966E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.388347E+02    0.243500E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.411331E+02    0.248154E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.408505E+02    0.271806E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.384446E+02    0.280866E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.363533E+02    0.294115E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.351054E+02    0.280582E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.351020E+02    0.260737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.361583E+02    0.241075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.381353E+02    0.225979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.403447E+02    0.221189E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.423067E+02    0.227418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.434469E+02    0.243253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.434322E+02    0.264260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.422943E+02    0.284067E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.403388E+02    0.297245E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.381477E+02    0.300856E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.360327E+02    0.325345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.331988E+02    0.308740E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.320293E+02    0.279748E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.327673E+02    0.244204E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.351690E+02    0.212793E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.388804E+02    0.192043E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.427850E+02    0.190498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.458937E+02    0.208769E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.471809E+02    0.242046E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.461825E+02    0.280713E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.434370E+02    0.310966E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.397016E+02    0.326722E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.47 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687987.060072858     
  ps_ts2 prof sum =   687590.534924924     
  trcom prof sum =    687590.534924924     
  ps_ts2 cur sum  =   11748.7151613502     
  trcom cur sum  =    11748.7151613502     
  
  antenna # iant =            2
  powecha_use(iant) =    660582.611309478     
  ps_ts2 prof sum =   660202.134721918     
  trcom prof sum =    660202.134721917     
  ps_ts2 cur sum  =   13512.3272637812     
  trcom cur sum  =    13512.3272637812     
  
  antenna # iant =            3
  powecha_use(iant) =    525642.912700294     
  ps_ts2 prof sum =   525316.715098571     
  trcom prof sum =    525316.715098572     
  ps_ts2 cur sum  =   7844.24284453449     
  trcom cur sum  =    7844.24284453450     
  
  antenna # iant =            4
  powecha_use(iant) =    586376.355096933     
  ps_ts2 prof sum =   586071.871304076     
  trcom prof sum =    586071.871304076     
  ps_ts2 cur sum  =   10946.3790485599     
  trcom cur sum  =    10946.3790485599     
  
  antenna # iant =            5
  powecha_use(iant) =    551688.600232177     
  ps_ts2 prof sum =   551380.962070492     
  trcom prof sum =    551380.962070492     
  ps_ts2 cur sum  =   12388.2878651648     
  trcom cur sum  =    12388.2878651648     
  
  Total ECH heating:      3010562.21811998     
  Total Current Drive:    56439.9521833907     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2212
 TA= 2.55500E+00 CPU TIME= 1.68243E-01 SECONDS.  DT= 8.80721E-04
  
 TEC1=    2.55499999999997     
 TEC2=    2.55999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.01517916666626     
  %check_save_state: izleft hours =    73.9763888888889     
 --> plasma_hash("gframe"): TA= 2.555000E+00 NSTEP=  2212 Hash code:   68766470
 ->PRGCHK: bdy curvature ratio at t= 2.5600E+00 seconds is:  5.5112E-02
% MHDEQ: TG1=     2.555000 ; TG2=     2.560000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7717E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5112E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.555000 TO TG2=    2.560000 @ NSTEP     2212
   GFRAME TG2 MOMENTS CHECKSUM:  2.4842665327366D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.76000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1=  1.70450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.44725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.27418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.51513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.85377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.39571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.37423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.20329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  6.16410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.59638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.37303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.44111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.19372E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.83011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.19337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.39363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.85097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.67919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.93026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.71558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.71558E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5600E+00  2.5650E+00 total power(Watts):  3.0151E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.56000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.372539E+02    0.414349E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.352829E+02    0.414479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.367873E+02    0.399891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.389004E+02    0.405503E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.387870E+02    0.423173E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.365394E+02    0.428494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.345835E+02    0.437731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.335565E+02    0.425104E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.333221E+02    0.410181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.343778E+02    0.395209E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.360579E+02    0.385418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.381059E+02    0.383341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.399796E+02    0.389959E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.411433E+02    0.403261E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.412962E+02    0.419113E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.402687E+02    0.433500E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.384483E+02    0.442646E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.364067E+02    0.444069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.344265E+02    0.462868E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.317535E+02    0.447310E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.304069E+02    0.423282E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.309343E+02    0.396383E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.331491E+02    0.372461E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.366932E+02    0.357797E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.403612E+02    0.359859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.432906E+02    0.378131E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.448659E+02    0.405308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134235E+03   -0.441581E+02    0.433570E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.414484E+02    0.455970E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.379036E+02    0.466179E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.386689E+02    0.329698E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.366605E+02    0.330715E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.382777E+02    0.312748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.404420E+02    0.318280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.402331E+02    0.339355E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.378484E+02    0.347011E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.358572E+02    0.358619E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.348121E+02    0.344212E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.346606E+02    0.326668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.356387E+02    0.309486E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.374318E+02    0.297367E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.397044E+02    0.293138E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.416277E+02    0.299652E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.428290E+02    0.314163E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.427906E+02    0.333312E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.417394E+02    0.350905E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.397880E+02    0.362840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.377098E+02    0.365264E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.355996E+02    0.387759E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.328075E+02    0.371295E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.316072E+02    0.343449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.322957E+02    0.311399E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.346206E+02    0.283418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.382223E+02    0.265572E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.420692E+02    0.265501E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.450970E+02    0.284162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.464163E+02    0.315101E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.455894E+02    0.349244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.428320E+02    0.377149E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.392236E+02    0.390191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.370136E+02    0.462567E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.350535E+02    0.462345E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.364554E+02    0.448912E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.386501E+02    0.454414E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.385455E+02    0.471114E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.363099E+02    0.475681E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.344623E+02    0.483661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.333419E+02    0.472059E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.331888E+02    0.457699E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.341544E+02    0.443817E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.358261E+02    0.434803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.378618E+02    0.433308E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.397248E+02    0.439838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.408828E+02    0.452680E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.410394E+02    0.467776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.400248E+02    0.480950E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.383201E+02    0.488819E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.361911E+02    0.489898E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.343218E+02    0.507573E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.314802E+02    0.492331E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.303714E+02    0.469392E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.307291E+02    0.444241E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.330179E+02    0.422052E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.363620E+02    0.410691E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.399005E+02    0.413734E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.431240E+02    0.429799E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.445957E+02    0.455520E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.440100E+02    0.481744E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.413285E+02    0.501666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.377921E+02    0.511248E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.378573E+02    0.377159E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.358701E+02    0.377682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.373923E+02    0.361008E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.395234E+02    0.366867E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.393063E+02    0.386851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.370436E+02    0.392892E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.350771E+02    0.402724E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.340410E+02    0.389724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.339788E+02    0.372969E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.347877E+02    0.357068E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.366607E+02    0.345079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.388217E+02    0.341981E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.407153E+02    0.348769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.417871E+02    0.363753E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.418323E+02    0.381879E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.407960E+02    0.397609E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.389665E+02    0.407302E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.369131E+02    0.408946E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.349174E+02    0.428553E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.320635E+02    0.413275E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.308717E+02    0.388306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.314866E+02    0.358373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.338909E+02    0.331032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.372883E+02    0.316239E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.410834E+02    0.317154E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.440590E+02    0.335211E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.455367E+02    0.364962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.445995E+02    0.397203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.419866E+02    0.420543E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.384135E+02    0.431645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.392891E+02    0.262626E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.371643E+02    0.265038E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.387813E+02    0.244844E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.410741E+02    0.249511E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.407926E+02    0.273121E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.383885E+02    0.282155E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.362114E+02    0.295885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.351375E+02    0.281260E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.351353E+02    0.261399E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.361936E+02    0.241721E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.381730E+02    0.226621E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.403842E+02    0.221846E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.423467E+02    0.228114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.434869E+02    0.243992E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.434709E+02    0.265030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.423311E+02    0.284837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.403732E+02    0.297988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.381803E+02    0.301573E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.358947E+02    0.326877E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.331462E+02    0.309907E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.320596E+02    0.280391E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.327214E+02    0.245511E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.351240E+02    0.214125E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.387446E+02    0.194204E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.428287E+02    0.191134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.458383E+02    0.210166E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.471205E+02    0.243436E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.462210E+02    0.281546E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.433723E+02    0.312187E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.396399E+02    0.327847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690358.677748648     
  ps_ts2 prof sum =   689937.802284031     
  trcom prof sum =    689937.802284032     
  ps_ts2 cur sum  =   11787.0443051570     
  trcom cur sum  =    11787.0443051570     
  
  antenna # iant =            2
  powecha_use(iant) =    660552.267632816     
  ps_ts2 prof sum =   660152.554427555     
  trcom prof sum =    660152.554427554     
  ps_ts2 cur sum  =   13501.5911916986     
  trcom cur sum  =    13501.5911916986     
  
  antenna # iant =            3
  powecha_use(iant) =    526665.501937788     
  ps_ts2 prof sum =   526335.805274925     
  trcom prof sum =    526335.805274925     
  ps_ts2 cur sum  =   7862.65690025021     
  trcom cur sum  =    7862.65690025022     
  
  antenna # iant =            4
  powecha_use(iant) =    584867.854682719     
  ps_ts2 prof sum =   584518.206495488     
  trcom prof sum =    584518.206495488     
  ps_ts2 cur sum  =   10911.9565714506     
  trcom cur sum  =    10911.9565714505     
  
  antenna # iant =            5
  powecha_use(iant) =    552636.192917947     
  ps_ts2 prof sum =   552299.107040284     
  trcom prof sum =    552299.107040284     
  ps_ts2 cur sum  =   12403.0442448055     
  trcom cur sum  =    12403.0442448055     
  
  Total ECH heating:      3013243.47552228     
  Total Current Drive:    56466.2932133619     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2216
 TA= 2.56000E+00 CPU TIME= 1.58989E-01 SECONDS.  DT= 2.05281E-03
  
 TEC1=    2.55999999999997     
 TEC2=    2.56499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.02696333333324     
  %check_save_state: izleft hours =    73.9647222222222     
 --> plasma_hash("gframe"): TA= 2.560000E+00 NSTEP=  2216 Hash code:   34100025
 ->PRGCHK: bdy curvature ratio at t= 2.5650E+00 seconds is:  5.5081E-02
% MHDEQ: TG1=     2.560000 ; TG2=     2.565000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7734E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5081E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.560000 TO TG2=    2.565000 @ NSTEP     2216
   GFRAME TG2 MOMENTS CHECKSUM:  2.4850811466894D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.5650E+00  2.5700E+00 total power(Watts):  3.0162E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.56500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.372843E+02    0.414801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.353123E+02    0.414921E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.367249E+02    0.400681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.389312E+02    0.406011E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.388180E+02    0.423615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.365699E+02    0.428892E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.346131E+02    0.438084E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.334980E+02    0.425750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.334362E+02    0.410345E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.342316E+02    0.396322E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.360873E+02    0.385962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.381373E+02    0.383905E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.400112E+02    0.390529E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.411756E+02    0.403790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.412281E+02    0.419792E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.402015E+02    0.434094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.384807E+02    0.442988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.363443E+02    0.444582E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.344573E+02    0.463091E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.316141E+02    0.448016E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.304336E+02    0.423661E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138383E+03   -0.309606E+02    0.396855E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.331771E+02    0.373002E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.366327E+02    0.358774E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.402937E+02    0.360853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.433238E+02    0.378768E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.446885E+02    0.406308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.441932E+02    0.434009E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.414898E+02    0.456263E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.379368E+02    0.466405E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.387008E+02    0.330350E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.366916E+02    0.331347E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.382196E+02    0.313904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.404755E+02    0.318986E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.402662E+02    0.340003E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.378796E+02    0.347628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.358865E+02    0.359212E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.346705E+02    0.345637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.347762E+02    0.326814E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.357576E+02    0.309620E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.375545E+02    0.297525E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.397391E+02    0.293841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.416635E+02    0.300384E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.427649E+02    0.315349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.428235E+02    0.334026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.416697E+02    0.351931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.398197E+02    0.363465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.376477E+02    0.366217E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.356286E+02    0.388291E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.327514E+02    0.372212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138380E+03   -0.316350E+02    0.344004E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138415E+03   -0.322450E+02    0.312532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.345684E+02    0.284660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.382580E+02    0.266254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.420107E+02    0.266801E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.450332E+02    0.285460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.465582E+02    0.315474E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.457301E+02    0.349618E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.428649E+02    0.377787E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.391584E+02    0.391041E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.370463E+02    0.462801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.350853E+02    0.462567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.364870E+02    0.449209E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.386833E+02    0.454694E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.385779E+02    0.471318E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.363428E+02    0.475883E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.344037E+02    0.484000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.333729E+02    0.472258E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.332190E+02    0.457935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.340957E+02    0.444333E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.357648E+02    0.435382E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.378935E+02    0.433691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.397580E+02    0.440204E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.409170E+02    0.452987E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.411779E+02    0.467879E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.400608E+02    0.481146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.382569E+02    0.489132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.362248E+02    0.490100E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.342640E+02    0.507873E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.315957E+02    0.492396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.302368E+02    0.469952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.307568E+02    0.444528E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.330464E+02    0.422448E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.363010E+02    0.411405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.399318E+02    0.414227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.429490E+02    0.430612E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.445251E+02    0.455955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.439357E+02    0.482042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.414705E+02    0.501802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.378278E+02    0.511452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.377944E+02    0.378069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.358099E+02    0.378582E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.373311E+02    0.361974E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.395548E+02    0.367481E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.393371E+02    0.387425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.370713E+02    0.393438E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.351059E+02    0.403207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.338964E+02    0.390882E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.338357E+02    0.374244E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.349037E+02    0.357261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.366914E+02    0.345688E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.387599E+02    0.343017E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.406509E+02    0.349791E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.418198E+02    0.364398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.418646E+02    0.382492E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.408278E+02    0.398165E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.389977E+02    0.407802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.369431E+02    0.409428E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.348568E+02    0.429187E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.320905E+02    0.413706E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.308978E+02    0.388798E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.315138E+02    0.358914E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.337527E+02    0.332562E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.373207E+02    0.316901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.410207E+02    0.318319E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.439918E+02    0.336310E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.453610E+02    0.366253E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.447389E+02    0.397569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.420197E+02    0.421018E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.384515E+02    0.432024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.392341E+02    0.263920E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.371995E+02    0.265707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.388186E+02    0.245501E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.411124E+02    0.250197E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.408287E+02    0.273843E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.384226E+02    0.282858E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.363306E+02    0.296019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.352547E+02    0.281337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.352529E+02    0.261405E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.361440E+02    0.243010E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.380348E+02    0.228630E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.404242E+02    0.222467E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.423879E+02    0.228766E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.435271E+02    0.244701E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.434110E+02    0.266339E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.422701E+02    0.286116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.403138E+02    0.299211E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.382139E+02    0.302262E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.360101E+02    0.327066E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.331768E+02    0.310522E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.320882E+02    0.281029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.327543E+02    0.246095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.351587E+02    0.214686E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.388735E+02    0.193961E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.427782E+02    0.192473E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.458830E+02    0.210819E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.471631E+02    0.244189E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.461567E+02    0.282857E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.434078E+02    0.312936E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.396725E+02    0.328519E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693942.380600633     
  ps_ts2 prof sum =   693515.027944397     
  trcom prof sum =    693515.027897603     
  ps_ts2 cur sum  =   11852.6899767729     
  trcom cur sum  =    11852.6899767729     
  
  antenna # iant =            2
  powecha_use(iant) =    661532.463809525     
  ps_ts2 prof sum =   661162.592659823     
  trcom prof sum =    661162.592659822     
  ps_ts2 cur sum  =   13516.0088192110     
  trcom cur sum  =    13516.0088192110     
  
  antenna # iant =            3
  powecha_use(iant) =    525158.122499205     
  ps_ts2 prof sum =   524844.781763177     
  trcom prof sum =    524844.781763178     
  ps_ts2 cur sum  =   7849.36741524205     
  trcom cur sum  =    7849.36741524206     
  
  antenna # iant =            4
  powecha_use(iant) =    583420.823293375     
  ps_ts2 prof sum =   583060.564979720     
  trcom prof sum =    583060.564979720     
  ps_ts2 cur sum  =   10883.4573027487     
  trcom cur sum  =    10883.4573027487     
  
  antenna # iant =            5
  powecha_use(iant) =    552156.795861424     
  ps_ts2 prof sum =   551877.153735668     
  trcom prof sum =    551877.153735668     
  ps_ts2 cur sum  =   12385.8752802730     
  trcom cur sum  =    12385.8752802730     
  
  Total ECH heating:      3014460.12103599     
  Total Current Drive:    56487.3987942476     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2219
 TA= 2.56500E+00 CPU TIME= 1.46114E-01 SECONDS.  DT= 4.76462E-04
  
 TEC1=    2.56499999999997     
 TEC2=    2.56999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.04209305555514     
  %check_save_state: izleft hours =    73.9494444444444     
 --> plasma_hash("gframe"): TA= 2.565000E+00 NSTEP=  2219 Hash code:   89507724
 ->PRGCHK: bdy curvature ratio at t= 2.5700E+00 seconds is:  5.5065E-02
% MHDEQ: TG1=     2.565000 ; TG2=     2.570000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7751E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5065E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.565000 TO TG2=    2.570000 @ NSTEP     2219
   GFRAME TG2 MOMENTS CHECKSUM:  2.4858957641068D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.81627E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.31601E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.47289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.18647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.26410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.91400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.84531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.59581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.08102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.29267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.83400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.29991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.31411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.63963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.25643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.01350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.40197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.58717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.58717E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.5700E+00  2.5750E+00 total power(Watts):  3.0119E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.57000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.372212E+02    0.415540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.352535E+02    0.415624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.367560E+02    0.401211E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.389633E+02    0.406546E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.387538E+02    0.424289E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.365078E+02    0.429540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.345547E+02    0.438638E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.335277E+02    0.426153E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.332925E+02    0.411371E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.343483E+02    0.396543E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.360271E+02    0.386853E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.381679E+02    0.384514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.400438E+02    0.391132E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.412090E+02    0.404356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.412620E+02    0.420284E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.402352E+02    0.434510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.384169E+02    0.443522E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.363772E+02    0.444901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.343991E+02    0.463486E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.317287E+02    0.448067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.303803E+02    0.424322E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.309879E+02    0.397357E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.332906E+02    0.373213E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.366640E+02    0.359394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.403272E+02    0.361506E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.432555E+02    0.379727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.448301E+02    0.406692E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.441234E+02    0.434613E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.416251E+02    0.456414E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.379719E+02    0.466618E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.386415E+02    0.331461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.366338E+02    0.332445E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.382538E+02    0.314607E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.404148E+02    0.320160E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.402043E+02    0.341083E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.379122E+02    0.348271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.358284E+02    0.360205E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.347858E+02    0.345832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.346360E+02    0.328387E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.356161E+02    0.311305E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.375889E+02    0.298232E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.396816E+02    0.295100E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.416028E+02    0.301635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.428016E+02    0.316103E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.427593E+02    0.335133E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.417114E+02    0.352600E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.397562E+02    0.364457E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.376795E+02    0.366845E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.355690E+02    0.389173E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.327799E+02    0.372781E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.316639E+02    0.344583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138429E+03   -0.322754E+02    0.313158E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.346011E+02    0.285329E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.382045E+02    0.267552E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.420500E+02    0.267544E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.450732E+02    0.286267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.463872E+02    0.317119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.455571E+02    0.351033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.427968E+02    0.378744E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.391904E+02    0.391631E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.369852E+02    0.463185E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.350264E+02    0.462962E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.365197E+02    0.449504E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.386195E+02    0.455138E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.385133E+02    0.471671E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.362824E+02    0.476224E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.344368E+02    0.484198E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.333164E+02    0.472621E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.332501E+02    0.458167E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.341267E+02    0.444637E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.357962E+02    0.435753E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.378304E+02    0.434286E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.396931E+02    0.440750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.408504E+02    0.453445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.410091E+02    0.468356E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.401994E+02    0.481236E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.382924E+02    0.489341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.362594E+02    0.490302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.342982E+02    0.508070E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.316272E+02    0.492598E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.302659E+02    0.470146E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.308677E+02    0.444589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.329048E+02    0.423369E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.363309E+02    0.411900E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.399648E+02    0.414733E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.430895E+02    0.430893E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.445634E+02    0.456268E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.439824E+02    0.482242E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.415098E+02    0.502013E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.378613E+02    0.511651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.378258E+02    0.378680E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.358401E+02    0.379170E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.373627E+02    0.362602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.394915E+02    0.368459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.393690E+02    0.388035E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.370116E+02    0.394285E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.349573E+02    0.404282E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.340120E+02    0.391097E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.339512E+02    0.374462E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.349340E+02    0.357865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.367237E+02    0.346310E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.387931E+02    0.343670E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.406848E+02    0.350460E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.418539E+02    0.365065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.418982E+02    0.383137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.407612E+02    0.399009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.389330E+02    0.408580E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.368805E+02    0.410189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.348873E+02    0.429584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.322030E+02    0.413865E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.309251E+02    0.389321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.314612E+02    0.359891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.337833E+02    0.333179E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.371733E+02    0.318541E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.410562E+02    0.319054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.440282E+02    0.337055E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.455025E+02    0.366674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.447742E+02    0.398199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.419517E+02    0.421711E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.383838E+02    0.432646E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.392715E+02    0.264626E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.370594E+02    0.267610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.386768E+02    0.247468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.410581E+02    0.251527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.407713E+02    0.275151E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.383672E+02    0.284132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.361890E+02    0.297785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.351178E+02    0.283179E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.351197E+02    0.263323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.361815E+02    0.243639E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.381632E+02    0.228546E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.403745E+02    0.223792E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.423351E+02    0.230115E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.434715E+02    0.246044E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.434512E+02    0.267100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.423082E+02    0.286884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.403499E+02    0.299951E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.381574E+02    0.303482E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.360423E+02    0.327717E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.332077E+02    0.311163E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.320423E+02    0.282264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.327087E+02    0.247393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.351141E+02    0.215992E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.389157E+02    0.194529E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.428239E+02    0.193071E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.459300E+02    0.211491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.473111E+02    0.244369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.461974E+02    0.283678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.433447E+02    0.314146E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.397070E+02    0.329210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691088.652982453     
  ps_ts2 prof sum =   690712.360491070     
  trcom prof sum =    690712.360491071     
  ps_ts2 cur sum  =   11808.3286169806     
  trcom cur sum  =    11808.3286169806     
  
  antenna # iant =            2
  powecha_use(iant) =    664077.646443505     
  ps_ts2 prof sum =   663686.441129555     
  trcom prof sum =    663686.441129554     
  ps_ts2 cur sum  =   13563.5621448316     
  trcom cur sum  =    13563.5621448316     
  
  antenna # iant =            3
  powecha_use(iant) =    524147.268737676     
  ps_ts2 prof sum =   523848.660113394     
  trcom prof sum =    523848.660113395     
  ps_ts2 cur sum  =   7845.67746999145     
  trcom cur sum  =    7845.67746999146     
  
  antenna # iant =            4
  powecha_use(iant) =    581386.142385134     
  ps_ts2 prof sum =   581059.409504764     
  trcom prof sum =    581059.409504764     
  ps_ts2 cur sum  =   10844.3327715230     
  trcom cur sum  =    10844.3327715230     
  
  antenna # iant =            5
  powecha_use(iant) =    551231.351079290     
  ps_ts2 prof sum =   550914.897493798     
  trcom prof sum =    550914.897493798     
  ps_ts2 cur sum  =   12361.7497889243     
  trcom cur sum  =    12361.7497889243     
  
  Total ECH heating:      3010221.76873258     
  Total Current Drive:    56423.6507922510     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2225
 TA= 2.57000E+00 CPU TIME= 1.62733E-01 SECONDS.  DT= 1.36208E-03
  
 TEC1=    2.56999999999997     
 TEC2=    2.57499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.05683499999941     
  %check_save_state: izleft hours =    73.9347222222222     
 --> plasma_hash("gframe"): TA= 2.570000E+00 NSTEP=  2225 Hash code:  110775318
 ->PRGCHK: bdy curvature ratio at t= 2.5750E+00 seconds is:  5.5064E-02
% MHDEQ: TG1=     2.570000 ; TG2=     2.575000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7767E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5064E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.570000 TO TG2=    2.575000 @ NSTEP     2225
   GFRAME TG2 MOMENTS CHECKSUM:  2.4867103815242D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5750E+00  2.5800E+00 total power(Watts):  3.0074E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.57500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.372532E+02    0.415992E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.352839E+02    0.416070E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.367821E+02    0.401732E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.388990E+02    0.407304E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.387866E+02    0.424732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.365392E+02    0.429938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.345854E+02    0.438983E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.333826E+02    0.427042E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.334085E+02    0.411534E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.342024E+02    0.397651E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.360578E+02    0.387397E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.381054E+02    0.385394E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.399782E+02    0.391985E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.411424E+02    0.405138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.411944E+02    0.420966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.402691E+02    0.434922E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.384507E+02    0.443860E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.364092E+02    0.445231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.344309E+02    0.463718E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.315888E+02    0.448782E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.304081E+02    0.424698E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.309344E+02    0.398139E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.331501E+02    0.374500E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.366047E+02    0.360412E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.402632E+02    0.362535E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.432900E+02    0.380389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.446534E+02    0.407673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.441593E+02    0.435066E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.414543E+02    0.456993E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.379086E+02    0.467006E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.386749E+02    0.332204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.366668E+02    0.333146E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.381941E+02    0.315848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.404498E+02    0.320938E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.402382E+02    0.341825E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.378525E+02    0.349348E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.358593E+02    0.360836E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.346434E+02    0.347325E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.347530E+02    0.328611E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.357362E+02    0.311530E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.375332E+02    0.299500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.397168E+02    0.295878E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.416393E+02    0.302436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.427383E+02    0.317368E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.427947E+02    0.335936E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.416438E+02    0.353689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.397895E+02    0.365123E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.376186E+02    0.367820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.355993E+02    0.389704E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.328927E+02    0.372982E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138643E+03   -0.316123E+02    0.345651E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138672E+03   -0.322250E+02    0.314364E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.345504E+02    0.286596E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.382421E+02    0.268262E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.419932E+02    0.268877E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.450110E+02    0.287603E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.465308E+02    0.317590E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.456992E+02    0.351496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.428314E+02    0.379401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.391258E+02    0.392479E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.370186E+02    0.463432E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.350588E+02    0.463196E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.364540E+02    0.449996E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.386533E+02    0.455430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.385491E+02    0.471894E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.363160E+02    0.476434E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.343783E+02    0.484546E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.333481E+02    0.472829E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.331924E+02    0.458610E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.340677E+02    0.445167E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.358269E+02    0.436142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.378621E+02    0.434689E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.397267E+02    0.441127E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.408854E+02    0.453762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.410457E+02    0.468595E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.400320E+02    0.481678E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.382291E+02    0.489662E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.361986E+02    0.490637E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.343319E+02    0.508287E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.314868E+02    0.493090E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.302131E+02    0.470543E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138486E+03   -0.307316E+02    0.445337E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.330195E+02    0.423518E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.362704E+02    0.412611E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.398991E+02    0.415442E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.429153E+02    0.431689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.446014E+02    0.456594E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.439119E+02    0.482540E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.413385E+02    0.502381E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.378054E+02    0.511942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.377642E+02    0.379595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.356910E+02    0.380401E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.373021E+02    0.363609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.395243E+02    0.369120E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.393050E+02    0.388901E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.370428E+02    0.394827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.350774E+02    0.404474E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.338673E+02    0.392250E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.338084E+02    0.375741E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.347900E+02    0.359261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.366652E+02    0.347395E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.388256E+02    0.344400E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.407192E+02    0.351184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.417882E+02    0.366083E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.418311E+02    0.384050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.407947E+02    0.399558E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.389653E+02    0.409079E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.369115E+02    0.410673E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.349179E+02    0.429974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.320626E+02    0.414853E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138669E+03   -0.308720E+02    0.390149E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.314892E+02    0.360485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.337290E+02    0.334307E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.372969E+02    0.318805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.409947E+02    0.320282E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.439614E+02    0.338252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.453275E+02    0.368002E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.447045E+02    0.399033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.419859E+02    0.422192E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.384162E+02    0.433050E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.392181E+02    0.265943E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.371841E+02    0.267695E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.388064E+02    0.247498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.410986E+02    0.252246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.408105E+02    0.275898E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.384033E+02    0.284874E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.363105E+02    0.297980E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.351521E+02    0.283871E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.352400E+02    0.263360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.361322E+02    0.244958E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.380259E+02    0.230580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.404169E+02    0.224448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.423786E+02    0.230802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.435140E+02    0.246786E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.434920E+02    0.267883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.422487E+02    0.288199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.402902E+02    0.301238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.381920E+02    0.304241E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.359860E+02    0.328884E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.331563E+02    0.312380E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.320743E+02    0.282929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.327431E+02    0.248005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.351530E+02    0.216566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.387821E+02    0.196651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.427761E+02    0.194435E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.458774E+02    0.212870E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.471496E+02    0.246344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.461346E+02    0.285026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.433814E+02    0.314980E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.396458E+02    0.330404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688722.441742933     
  ps_ts2 prof sum =   688282.922566635     
  trcom prof sum =    688282.922566635     
  ps_ts2 cur sum  =   11773.7318526900     
  trcom cur sum  =    11773.7318526900     
  
  antenna # iant =            2
  powecha_use(iant) =    664162.235606712     
  ps_ts2 prof sum =   663800.371035508     
  trcom prof sum =    663800.371035507     
  ps_ts2 cur sum  =   13564.4308112276     
  trcom cur sum  =    13564.4308112276     
  
  antenna # iant =            3
  powecha_use(iant) =    524512.379932548     
  ps_ts2 prof sum =   524173.990846606     
  trcom prof sum =    524173.990846607     
  ps_ts2 cur sum  =   7861.14906332291     
  trcom cur sum  =    7861.14906332291     
  
  antenna # iant =            4
  powecha_use(iant) =    577719.853088313     
  ps_ts2 prof sum =   577342.989186439     
  trcom prof sum =    577342.989186438     
  ps_ts2 cur sum  =   10777.7691851116     
  trcom cur sum  =    10777.7691851116     
  
  antenna # iant =            5
  powecha_use(iant) =    552237.938446534     
  ps_ts2 prof sum =   551940.971817161     
  trcom prof sum =    551940.971817161     
  ps_ts2 cur sum  =   12384.6827908446     
  trcom cur sum  =    12384.6827908446     
  
  Total ECH heating:      3005541.24545235     
  Total Current Drive:    56361.7637031967     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2228
 TA= 2.57500E+00 CPU TIME= 1.59213E-01 SECONDS.  DT= 2.41914E-03
  
 TEC1=    2.57499999999997     
 TEC2=    2.57999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.07150555555540     
  %check_save_state: izleft hours =    73.9200000000000     
 --> plasma_hash("gframe"): TA= 2.575000E+00 NSTEP=  2228 Hash code:   96992782
 ->PRGCHK: bdy curvature ratio at t= 2.5800E+00 seconds is:  5.5077E-02
% MHDEQ: TG1=     2.575000 ; TG2=     2.580000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7784E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5077E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.575000 TO TG2=    2.580000 @ NSTEP     2228
   GFRAME TG2 MOMENTS CHECKSUM:  2.4875249989417D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.87254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  4.51967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.35782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.43066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.89910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.15397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.48444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.56324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.59524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.78900E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.22790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.71824E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.76971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.49221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.88563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.66190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.34782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.87367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.53216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.53216E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.5800E+00  2.5850E+00 total power(Watts):  2.4442E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.58000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.371916E+02    0.416580E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.353149E+02    0.416411E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.367273E+02    0.402377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.389335E+02    0.407678E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.387226E+02    0.425292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.364782E+02    0.430484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.346166E+02    0.439284E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.334995E+02    0.427116E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.334383E+02    0.411880E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.343206E+02    0.397727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.360897E+02    0.387818E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.381383E+02    0.385836E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.400124E+02    0.392418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.411772E+02    0.405538E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.412278E+02    0.421334E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.402031E+02    0.435444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.384847E+02    0.444158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.363484E+02    0.445700E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.344641E+02    0.463918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.316188E+02    0.449022E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138636E+03   -0.304366E+02    0.425004E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.309631E+02    0.398488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.332650E+02    0.374580E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.366365E+02    0.360950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.402972E+02    0.363105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.432224E+02    0.381185E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.447972E+02    0.407883E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.439829E+02    0.435741E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.415949E+02    0.457108E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.379442E+02    0.467208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.387076E+02    0.332884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.365179E+02    0.334680E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.382282E+02    0.316536E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.404837E+02    0.321663E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.401749E+02    0.342887E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.378850E+02    0.349952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.357116E+02    0.362113E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.346737E+02    0.347899E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.346106E+02    0.330181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.355926E+02    0.313190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.375669E+02    0.300177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.396579E+02    0.297085E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.415777E+02    0.303648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.427738E+02    0.318116E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.428298E+02    0.336656E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.416781E+02    0.354318E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.398227E+02    0.365680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.376510E+02    0.368337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.355410E+02    0.390416E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.327556E+02    0.374143E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138659E+03   -0.316409E+02    0.346201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.322542E+02    0.314989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.345823E+02    0.287212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.380973E+02    0.270082E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.420315E+02    0.269552E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.450497E+02    0.288348E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.463577E+02    0.319214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.455249E+02    0.352848E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.427642E+02    0.380203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.391594E+02    0.392902E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.369572E+02    0.463804E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.350920E+02    0.463401E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.364939E+02    0.450250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.386884E+02    0.455677E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.385851E+02    0.472090E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.363506E+02    0.476626E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.344118E+02    0.484739E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.332030E+02    0.473350E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.332247E+02    0.458821E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.340998E+02    0.445426E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.357668E+02    0.436661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.377989E+02    0.435221E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.396615E+02    0.441616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.409218E+02    0.454027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.409795E+02    0.468936E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.400693E+02    0.481873E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.382655E+02    0.489861E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.362339E+02    0.490838E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.342742E+02    0.508604E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.316052E+02    0.493143E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.302447E+02    0.470717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.307609E+02    0.445589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.328769E+02    0.424347E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.363023E+02    0.412966E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.399331E+02    0.415812E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.429510E+02    0.432049E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.445321E+02    0.456987E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.439523E+02    0.482735E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.414833E+02    0.502517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.378408E+02    0.512158E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.377967E+02    0.380057E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.358125E+02    0.380511E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.373343E+02    0.364140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.395577E+02    0.369641E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.393385E+02    0.389342E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.370752E+02    0.395214E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.351083E+02    0.404840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.339852E+02    0.392315E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.339249E+02    0.375825E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.349080E+02    0.359404E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.366970E+02    0.347994E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.387650E+02    0.345418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.406552E+02    0.352177E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.418230E+02    0.366655E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.418660E+02    0.384537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.408291E+02    0.399974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.389990E+02    0.409455E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.368506E+02    0.411287E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.348590E+02    0.430517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.320918E+02    0.415182E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.308967E+02    0.390538E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138608E+03   -0.315179E+02    0.360972E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.337583E+02    0.334923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.373286E+02    0.319497E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.410289E+02    0.321020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.439972E+02    0.338973E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.453642E+02    0.368612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.447415E+02    0.399492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.420216E+02    0.422552E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.384498E+02    0.433376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.392549E+02    0.266582E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.370425E+02    0.269522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.388445E+02    0.248102E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.410430E+02    0.253507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.407525E+02    0.277125E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.383474E+02    0.286082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.361677E+02    0.299700E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.350991E+02    0.285068E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.351044E+02    0.265208E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.361683E+02    0.245536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.381529E+02    0.230463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.403647E+02    0.225737E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.423239E+02    0.232093E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.434566E+02    0.248065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.434317E+02    0.269139E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.422854E+02    0.288913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.403252E+02    0.301947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.381331E+02    0.305434E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.360169E+02    0.329540E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.331861E+02    0.313015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138802E+03   -0.320256E+02    0.284120E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.327766E+02    0.248556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.351900E+02    0.217102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.389121E+02    0.196414E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.428202E+02    0.195011E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.459226E+02    0.213511E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.471929E+02    0.247055E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.461741E+02    0.285785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.434174E+02    0.315739E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.396793E+02    0.331097E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    133341.854635641     
  ps_ts2 prof sum =   133268.933260449     
  trcom prof sum =    133268.933260449     
  ps_ts2 cur sum  =   2280.46868386118     
  trcom cur sum  =    2280.46868386118     
  
  antenna # iant =            2
  powecha_use(iant) =    661767.359955084     
  ps_ts2 prof sum =   661328.725391774     
  trcom prof sum =    661328.725391774     
  ps_ts2 cur sum  =   13517.5477630565     
  trcom cur sum  =    13517.5477630565     
  
  antenna # iant =            3
  powecha_use(iant) =    522248.175319084     
  ps_ts2 prof sum =   521917.547035813     
  trcom prof sum =    521917.547035813     
  ps_ts2 cur sum  =   7834.75313650088     
  trcom cur sum  =    7834.75313650088     
  
  antenna # iant =            4
  powecha_use(iant) =    574000.899417236     
  ps_ts2 prof sum =   573706.269898331     
  trcom prof sum =    573706.269898330     
  ps_ts2 cur sum  =   10711.6239819745     
  trcom cur sum  =    10711.6239819745     
  
  antenna # iant =            5
  powecha_use(iant) =    552814.227716418     
  ps_ts2 prof sum =   552508.575568655     
  trcom prof sum =    552508.575568655     
  ps_ts2 cur sum  =   12400.7028001215     
  trcom cur sum  =    12400.7028001215     
  
  Total ECH heating:      2442730.05115502     
  Total Current Drive:    46745.0963655145     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2230
 TA= 2.58000E+00 CPU TIME= 1.67805E-01 SECONDS.  DT= 3.22607E-03
  
 TEC1=    2.57999999999997     
 TEC2=    2.58499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.08418972222216     
  %check_save_state: izleft hours =    73.9075000000000     
 --> plasma_hash("gframe"): TA= 2.580000E+00 NSTEP=  2230 Hash code:   81436363
 ->PRGCHK: bdy curvature ratio at t= 2.5850E+00 seconds is:  5.5105E-02
% MHDEQ: TG1=     2.580000 ; TG2=     2.585000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7801E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5105E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.580000 TO TG2=    2.585000 @ NSTEP     2230
   GFRAME TG2 MOMENTS CHECKSUM:  2.4883396163591D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5850E+00  2.5900E+00 total power(Watts):  2.3396E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.58500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.372229E+02    0.416890E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.352534E+02    0.416980E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.367570E+02    0.402715E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.388681E+02    0.408268E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.387551E+02    0.425584E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.365092E+02    0.430758E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.345569E+02    0.439741E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.335270E+02    0.427384E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.332937E+02    0.412730E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.343504E+02    0.398051E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.360290E+02    0.388502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.381694E+02    0.386240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.400448E+02    0.392812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.411089E+02    0.406139E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.412631E+02    0.421649E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.402367E+02    0.435725E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.384197E+02    0.444584E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.363800E+02    0.445935E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.344025E+02    0.464246E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.317324E+02    0.449012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138894E+03   -0.303826E+02    0.425538E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.309900E+02    0.398811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.331198E+02    0.375712E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.366665E+02    0.361445E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.403286E+02    0.363632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.432562E+02    0.381655E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.448324E+02    0.408274E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.441262E+02    0.435873E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.414232E+02    0.457590E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.379788E+02    0.467362E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.386446E+02    0.333928E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.366379E+02    0.334839E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.382588E+02    0.317179E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.404192E+02    0.322764E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.402066E+02    0.343488E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.378220E+02    0.350895E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.358307E+02    0.362221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.347895E+02    0.348015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.346391E+02    0.330760E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.356212E+02    0.313809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.374157E+02    0.301840E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.396902E+02    0.297729E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.416106E+02    0.304317E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.428068E+02    0.318808E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.427615E+02    0.337703E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.417106E+02    0.354895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.397573E+02    0.366515E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.376809E+02    0.368820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.355708E+02    0.390781E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.327814E+02    0.374561E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138908E+03   -0.315866E+02    0.347148E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.322812E+02    0.315572E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.346122E+02    0.287792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.382207E+02    0.270072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.420695E+02    0.270165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.450856E+02    0.289033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.463926E+02    0.319949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.456648E+02    0.353156E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.427978E+02    0.380672E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.391913E+02    0.393289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.369907E+02    0.463969E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.350324E+02    0.463731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.365244E+02    0.450447E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.386237E+02    0.456034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.385211E+02    0.472376E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.362900E+02    0.476909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.344456E+02    0.484880E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.333249E+02    0.473314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.330783E+02    0.459376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.341305E+02    0.445641E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.357978E+02    0.436904E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.378317E+02    0.435484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.396951E+02    0.441875E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.408543E+02    0.454389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.410160E+02    0.469093E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.400039E+02    0.482125E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.383019E+02    0.490013E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.362687E+02    0.490991E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.343091E+02    0.508783E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.316368E+02    0.493317E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.302742E+02    0.470859E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.308723E+02    0.445566E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.329057E+02    0.424622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.363325E+02    0.413284E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.399654E+02    0.416142E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.430919E+02    0.432166E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.445701E+02    0.457195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.439924E+02    0.482871E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.413119E+02    0.502841E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.377787E+02    0.512423E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.378280E+02    0.380477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.358428E+02    0.380913E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.373646E+02    0.364627E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.394927E+02    0.370458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.392733E+02    0.390026E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.370129E+02    0.395863E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.350482E+02    0.405445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.340141E+02    0.392667E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.339539E+02    0.376232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.347602E+02    0.360651E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.366356E+02    0.348944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.387960E+02    0.345998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.406873E+02    0.352751E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.417551E+02    0.367500E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.417978E+02    0.385255E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.407618E+02    0.400604E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.389336E+02    0.410035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.368815E+02    0.411604E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.348893E+02    0.430791E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.322039E+02    0.415194E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138937E+03   -0.308484E+02    0.391188E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138859E+03   -0.314643E+02    0.361811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.338714E+02    0.335033E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.372680E+02    0.320586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.409637E+02    0.322126E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.440307E+02    0.339645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.455051E+02    0.368878E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.445616E+02    0.400334E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.419525E+02    0.423073E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.383845E+02    0.433865E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.391043E+02    0.268355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.371634E+02    0.269487E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.387883E+02    0.249313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.410787E+02    0.254096E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.407867E+02    0.277740E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.383795E+02    0.286688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.362851E+02    0.299790E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.351297E+02    0.285641E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.351359E+02    0.265754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.362019E+02    0.246063E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.381881E+02    0.231003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.404014E+02    0.226290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.423616E+02    0.232671E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.434919E+02    0.248686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.434679E+02    0.269776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.422213E+02    0.290086E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.403576E+02    0.302605E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.381643E+02    0.306072E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.358684E+02    0.331046E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138712E+03   -0.331306E+02    0.314121E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138817E+03   -0.320540E+02    0.284668E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138838E+03   -0.327275E+02    0.249741E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.351405E+02    0.218343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.387711E+02    0.198464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.428605E+02    0.195551E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.458630E+02    0.214786E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.471284E+02    0.248297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.462109E+02    0.286473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.433500E+02    0.316872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.396152E+02    0.332153E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    29538.4057274396     
  ps_ts2 prof sum =   29521.5818583945     
  trcom prof sum =    29521.5818583945     
  ps_ts2 cur sum  =   504.925560692578     
  trcom cur sum  =    504.925560692577     
  
  antenna # iant =            2
  powecha_use(iant) =    663827.468021694     
  ps_ts2 prof sum =   663455.501903730     
  trcom prof sum =    663455.501903730     
  ps_ts2 cur sum  =   13537.6486775459     
  trcom cur sum  =    13537.6486775459     
  
  antenna # iant =            3
  powecha_use(iant) =    521034.332980751     
  ps_ts2 prof sum =   520719.003630681     
  trcom prof sum =    520719.003630681     
  ps_ts2 cur sum  =   7819.97282463510     
  trcom cur sum  =    7819.97282463510     
  
  antenna # iant =            4
  powecha_use(iant) =    572778.774434465     
  ps_ts2 prof sum =   572455.304209804     
  trcom prof sum =    572455.304176220     
  ps_ts2 cur sum  =   10676.5081123293     
  trcom cur sum  =    10676.5081123293     
  
  antenna # iant =            5
  powecha_use(iant) =    552373.357090510     
  ps_ts2 prof sum =   552047.412103792     
  trcom prof sum =    552047.412103792     
  ps_ts2 cur sum  =   12373.5469733293     
  trcom cur sum  =    12373.5469733293     
  
  Total ECH heating:      2338198.80367282     
  Total Current Drive:    44912.6021485322     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2232
 TA= 2.58500E+00 CPU TIME= 1.45932E-01 SECONDS.  DT= 2.21741E-03
  
 TEC1=    2.58499999999997     
 TEC2=    2.58999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    6.09607472222183     
  %check_save_state: izleft hours =    73.8955555555556     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  2.5850000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 2.585000E+00 NSTEP=  2232 Hash code:   99089504
 ->PRGCHK: bdy curvature ratio at t= 2.5900E+00 seconds is:  5.5146E-02
% MHDEQ: TG1=     2.585000 ; TG2=     2.590000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7818E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5146E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.585000 TO TG2=    2.590000 @ NSTEP     2232
   GFRAME TG2 MOMENTS CHECKSUM:  2.4891542337765D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.92767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.28786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -5.01466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.59609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.38847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.92175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.45045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.04396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.86276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.27931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.26399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.49730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.71748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.60044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.24008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.67013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  5.90584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.06801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.68285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.34487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.34870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.34870E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999999196617864E-006
 EC call, timestep(sec):  2.5900E+00  2.5950E+00 total power(Watts):  2.9523E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.59000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.372582E+02    0.416933E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.352880E+02    0.417023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.367918E+02    0.402759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.389040E+02    0.408311E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.387920E+02    0.425629E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.365448E+02    0.430817E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.345927E+02    0.439795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.333903E+02    0.427922E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.334129E+02    0.412498E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.342065E+02    0.398707E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.360622E+02    0.388565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.381091E+02    0.386603E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.399823E+02    0.393134E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.411465E+02    0.406177E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.411992E+02    0.421893E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.402754E+02    0.435769E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.384580E+02    0.444644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.364174E+02    0.445988E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.344456E+02    0.464311E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138623E+03   -0.315962E+02    0.449513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138921E+03   -0.304139E+02    0.425595E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138959E+03   -0.309389E+02    0.399178E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.331564E+02    0.375787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.365157E+02    0.362327E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.402650E+02    0.364111E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.432940E+02    0.381725E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.446587E+02    0.408716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.441679E+02    0.435903E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.414646E+02    0.457645E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.379202E+02    0.467573E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.386763E+02    0.334200E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.366682E+02    0.335098E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.381974E+02    0.317945E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.404512E+02    0.323068E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.402394E+02    0.343734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.378541E+02    0.351096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.358626E+02    0.362358E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.346441E+02    0.349044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.347552E+02    0.330563E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.357381E+02    0.313610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.375363E+02    0.301646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.397215E+02    0.298052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.416428E+02    0.304650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.427397E+02    0.319562E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.427956E+02    0.337976E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.416450E+02    0.355439E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.397918E+02    0.366644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.377151E+02    0.368923E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.356041E+02    0.390842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.328971E+02    0.374274E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138931E+03   -0.316141E+02    0.347345E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138952E+03   -0.322262E+02    0.316374E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.345547E+02    0.288671E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.382501E+02    0.270402E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.420016E+02    0.271086E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.450168E+02    0.289881E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.465336E+02    0.319882E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.457017E+02    0.353374E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.428352E+02    0.380747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.391298E+02    0.393615E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.370292E+02    0.464030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.350697E+02    0.463797E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.364664E+02    0.450707E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.386628E+02    0.456095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.385608E+02    0.472452E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.363289E+02    0.476984E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.344837E+02    0.484993E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.333611E+02    0.473392E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.332025E+02    0.459245E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.339861E+02    0.446129E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.358334E+02    0.436966E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.378688E+02    0.435533E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.397335E+02    0.441933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.408949E+02    0.454449E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.410580E+02    0.469149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.400459E+02    0.482210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.382433E+02    0.490251E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.362129E+02    0.491249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.343481E+02    0.508985E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.315003E+02    0.493760E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.302252E+02    0.471125E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.307386E+02    0.446098E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.330251E+02    0.424428E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.362741E+02    0.413585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.399031E+02    0.416402E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.429211E+02    0.432564E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.446147E+02    0.457235E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.439287E+02    0.483026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.413560E+02    0.503020E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.378208E+02    0.512633E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.377675E+02    0.380876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.356945E+02    0.381638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.373046E+02    0.365114E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.395269E+02    0.370572E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.393090E+02    0.390079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.370473E+02    0.395912E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.350819E+02    0.405488E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.338712E+02    0.393352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.338111E+02    0.377026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.347919E+02    0.360800E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.366663E+02    0.349156E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.388283E+02    0.346223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.407210E+02    0.352949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.417857E+02    0.367644E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.418348E+02    0.385319E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.407987E+02    0.400651E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.389703E+02    0.410072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.369167E+02    0.411642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.349245E+02    0.430841E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138632E+03   -0.320667E+02    0.415800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138972E+03   -0.308762E+02    0.391260E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138885E+03   -0.314929E+02    0.361949E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.337299E+02    0.336191E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.372984E+02    0.320889E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.409959E+02    0.322433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.439621E+02    0.340293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.453304E+02    0.369586E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.447155E+02    0.400147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.419913E+02    0.423107E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.384219E+02    0.433917E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.392276E+02    0.268095E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.371921E+02    0.269816E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.388188E+02    0.249642E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.411104E+02    0.254439E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.408181E+02    0.278082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.384092E+02    0.287022E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.363144E+02    0.300100E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.351572E+02    0.285958E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.352492E+02    0.265439E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.361442E+02    0.247050E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.380398E+02    0.232724E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.404334E+02    0.226652E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.423942E+02    0.233040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.435269E+02    0.249039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.435013E+02    0.270128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.422537E+02    0.290424E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.402916E+02    0.303432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.381944E+02    0.306393E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.359873E+02    0.330863E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138734E+03   -0.331577E+02    0.314411E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138839E+03   -0.320806E+02    0.284963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.327552E+02    0.250045E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.351694E+02    0.218672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.388022E+02    0.198834E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.427982E+02    0.196694E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.458977E+02    0.215192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.471636E+02    0.248684E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.461412E+02    0.287325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.433834E+02    0.317198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.396471E+02    0.332435E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    645661.831984308     
  ps_ts2 prof sum =   645244.512950015     
  trcom prof sum =    645244.512950016     
  ps_ts2 cur sum  =   11040.1926145369     
  trcom cur sum  =    11040.1926145369     
  
  antenna # iant =            2
  powecha_use(iant) =    662147.425548439     
  ps_ts2 prof sum =   661802.703431187     
  trcom prof sum =    661802.703431186     
  ps_ts2 cur sum  =   13499.5350456328     
  trcom cur sum  =    13499.5350456327     
  
  antenna # iant =            3
  powecha_use(iant) =    522238.290071443     
  ps_ts2 prof sum =   521901.123465494     
  trcom prof sum =    521901.123465495     
  ps_ts2 cur sum  =   7842.69463694448     
  trcom cur sum  =    7842.69463694448     
  
  antenna # iant =            4
  powecha_use(iant) =    571045.277902309     
  ps_ts2 prof sum =   570679.243698708     
  trcom prof sum =    570679.243698708     
  ps_ts2 cur sum  =   10644.0894472876     
  trcom cur sum  =    10644.0894472876     
  
  antenna # iant =            5
  powecha_use(iant) =    551169.017395007     
  ps_ts2 prof sum =   550880.275601510     
  trcom prof sum =    550880.275601510     
  ps_ts2 cur sum  =   12341.5823215438     
  trcom cur sum  =    12341.5823215438     
  
  Total ECH heating:      2950507.85914691     
  Total Current Drive:    55368.0940659456     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2235
 TA= 2.59000E+00 CPU TIME= 1.48416E-01 SECONDS.  DT= 1.35248E-05
  
 TEC1=    2.58999999999997     
 TEC2=    2.59499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.11590388888862     
  %check_save_state: izleft hours =    73.8755555555556     
 --> plasma_hash("gframe"): TA= 2.590000E+00 NSTEP=  2235 Hash code:   61686601
 ->PRGCHK: bdy curvature ratio at t= 2.5950E+00 seconds is:  5.5201E-02
% MHDEQ: TG1=     2.590000 ; TG2=     2.595000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7834E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5201E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.590000 TO TG2=    2.595000 @ NSTEP     2235
   GFRAME TG2 MOMENTS CHECKSUM:  2.4899688511940D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.5950E+00  2.6000E+00 total power(Watts):  2.9659E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.59500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.372933E+02    0.417008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.353220E+02    0.417089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.367324E+02    0.403116E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.389401E+02    0.408380E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.388289E+02    0.425695E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.364863E+02    0.431113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.346271E+02    0.439882E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.335091E+02    0.427754E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.334446E+02    0.412578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.342381E+02    0.398802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.360954E+02    0.388657E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.381433E+02    0.386708E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.400179E+02    0.393237E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.411839E+02    0.406251E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.412372E+02    0.421958E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.402122E+02    0.436032E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.384934E+02    0.444724E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.363587E+02    0.446270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.344788E+02    0.464384E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.316292E+02    0.449593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138947E+03   -0.304443E+02    0.425680E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138986E+03   -0.309686E+02    0.399274E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.331842E+02    0.375918E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.366396E+02    0.362150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.402998E+02    0.364307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.434351E+02    0.381586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.448060E+02    0.408570E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.439934E+02    0.436297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.415059E+02    0.457711E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.379591E+02    0.467650E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.387083E+02    0.334536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.366991E+02    0.335419E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.382285E+02    0.318332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.404837E+02    0.323454E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.401746E+02    0.344434E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.378862E+02    0.351349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.357139E+02    0.363296E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.346749E+02    0.349294E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.346108E+02    0.331811E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.355917E+02    0.314978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.375672E+02    0.302037E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.397534E+02    0.298469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.416757E+02    0.305079E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.427731E+02    0.319969E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.428295E+02    0.338331E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.416793E+02    0.355698E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.398261E+02    0.366833E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.376547E+02    0.369426E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.356371E+02    0.390935E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138743E+03   -0.327582E+02    0.375138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138955E+03   -0.316427E+02    0.347587E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138973E+03   -0.322542E+02    0.316724E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.345836E+02    0.289059E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.380997E+02    0.271990E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.420355E+02    0.271521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.450515E+02    0.290342E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.465681E+02    0.320321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.455253E+02    0.354319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.428718E+02    0.380888E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.391648E+02    0.393717E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.370678E+02    0.464100E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.351020E+02    0.463879E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.365030E+02    0.450794E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.387014E+02    0.456172E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.386014E+02    0.472517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.363663E+02    0.477089E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.344289E+02    0.485264E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.333980E+02    0.473477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.332376E+02    0.459321E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.341103E+02    0.446002E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.357758E+02    0.437261E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.379056E+02    0.435598E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.397719E+02    0.441999E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.409355E+02    0.454513E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.412013E+02    0.469088E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.400873E+02    0.482306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.382836E+02    0.490387E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.362519E+02    0.491394E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.342940E+02    0.509294E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.316221E+02    0.493780E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138858E+03   -0.302577E+02    0.471221E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138828E+03   -0.307698E+02    0.446180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.328842E+02    0.425006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.363081E+02    0.413656E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.399399E+02    0.416479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.429614E+02    0.432614E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.445485E+02    0.457426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.439740E+02    0.483104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.415060E+02    0.503123E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.378622E+02    0.512847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.378012E+02    0.380996E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.358172E+02    0.381432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.373372E+02    0.365299E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.395612E+02    0.370737E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.393442E+02    0.390184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.370812E+02    0.396012E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.351153E+02    0.405570E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.339027E+02    0.393445E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.338421E+02    0.377150E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.349111E+02    0.360609E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.366944E+02    0.349417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.387655E+02    0.346901E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.406565E+02    0.353580E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.418286E+02    0.367820E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.418711E+02    0.385437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.408353E+02    0.400734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.390068E+02    0.410138E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.369512E+02    0.411719E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.348676E+02    0.431148E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.320980E+02    0.415876E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138998E+03   -0.309058E+02    0.391354E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138910E+03   -0.315219E+02    0.362123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.337588E+02    0.336494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.373291E+02    0.321253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.410287E+02    0.322824E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.439968E+02    0.340643E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.453678E+02    0.369789E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.447497E+02    0.400243E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.420300E+02    0.423170E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.384588E+02    0.433983E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.392594E+02    0.268519E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.370445E+02    0.271417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.388503E+02    0.250071E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.411434E+02    0.254881E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.408508E+02    0.278519E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.382563E+02    0.288525E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.361670E+02    0.301545E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.351001E+02    0.286917E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138518E+03   -0.351108E+02    0.267070E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.361779E+02    0.247440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.381615E+02    0.232457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.403740E+02    0.227781E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.423319E+02    0.234156E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.434628E+02    0.250109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.434363E+02    0.271134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.422870E+02    0.290860E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.403258E+02    0.303840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.381335E+02    0.307278E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.360178E+02    0.331193E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138755E+03   -0.331857E+02    0.314770E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139088E+03   -0.320271E+02    0.285933E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138879E+03   -0.327832E+02    0.250434E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.352001E+02    0.219080E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.389256E+02    0.198500E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.428341E+02    0.197165E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.459323E+02    0.215704E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.472005E+02    0.249178E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.461769E+02    0.287793E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.434171E+02    0.317619E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.396796E+02    0.332787E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659420.417823093     
  ps_ts2 prof sum =   659042.061946466     
  trcom prof sum =    659042.061946467     
  ps_ts2 cur sum  =   11280.7903134375     
  trcom cur sum  =    11280.7903134374     
  
  antenna # iant =            2
  powecha_use(iant) =    661006.489135733     
  ps_ts2 prof sum =   660600.089789276     
  trcom prof sum =    660600.089789275     
  ps_ts2 cur sum  =   13474.5820629272     
  trcom cur sum  =    13474.5820629272     
  
  antenna # iant =            3
  powecha_use(iant) =    521534.738405851     
  ps_ts2 prof sum =   521231.880153508     
  trcom prof sum =    521231.880153508     
  ps_ts2 cur sum  =   7837.37520465472     
  trcom cur sum  =    7837.37520465473     
  
  antenna # iant =            4
  powecha_use(iant) =    571839.086505729     
  ps_ts2 prof sum =   571519.628981980     
  trcom prof sum =    571519.628981980     
  ps_ts2 cur sum  =   10660.4549033708     
  trcom cur sum  =    10660.4549033708     
  
  antenna # iant =            5
  powecha_use(iant) =    552107.356531146     
  ps_ts2 prof sum =   551785.630392003     
  trcom prof sum =    551785.630392003     
  ps_ts2 cur sum  =   12360.2494751181     
  trcom cur sum  =    12360.2494751180     
  
  Total ECH heating:      2964179.29126323     
  Total Current Drive:    55613.4519595082     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2256
 TA= 2.59500E+00 CPU TIME= 1.60293E-01 SECONDS.  DT= 4.52181E-04
  
 TEC1=    2.59499999999997     
 TEC2=    2.59999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.13292249999949     
  %check_save_state: izleft hours =    73.8586111111111     
 --> plasma_hash("gframe"): TA= 2.595000E+00 NSTEP=  2256 Hash code:  116910196
 ->PRGCHK: bdy curvature ratio at t= 2.6000E+00 seconds is:  5.5269E-02
% MHDEQ: TG1=     2.595000 ; TG2=     2.600000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7851E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5269E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.595000 TO TG2=    2.600000 @ NSTEP     2256
   GFRAME TG2 MOMENTS CHECKSUM:  2.4907834686114D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.98509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.28676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       3= -9.38003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.55856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.34619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.94444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.86543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.93371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.24190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  1.37483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -2.90529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.20497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.20812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.45864E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.70930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.84842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.96942E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.47283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.55829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.81708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.73406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.73406E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6000E+00  2.6050E+00 total power(Watts):  2.9594E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.60000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.372344E+02    0.417333E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.351741E+02    0.417692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.367681E+02    0.403195E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.389773E+02    0.408458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.387689E+02    0.425991E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.365233E+02    0.431197E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.344815E+02    0.440401E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.335437E+02    0.427838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.333037E+02    0.413215E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.343607E+02    0.398578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.360379E+02    0.389081E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.381790E+02    0.386819E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.400552E+02    0.393333E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.412226E+02    0.406334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.412767E+02    0.422034E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.402465E+02    0.436132E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.384411E+02    0.444978E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.363965E+02    0.446345E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.344249E+02    0.464646E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.316636E+02    0.449670E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138975E+03   -0.304767E+02    0.425764E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139024E+03   -0.309960E+02    0.399371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138354E+03   -0.333024E+02    0.375688E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.366735E+02    0.362327E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.403357E+02    0.364492E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.432653E+02    0.382286E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.448475E+02    0.408651E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.441441E+02    0.436204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.414435E+02    0.457921E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.379996E+02    0.467727E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.386473E+02    0.335267E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.366406E+02    0.336143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.382611E+02    0.318701E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.404200E+02    0.324263E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.402094E+02    0.344708E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.379205E+02    0.351573E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.358375E+02    0.363089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.347940E+02    0.349109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.346417E+02    0.332113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.356224E+02    0.315334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.374169E+02    0.303459E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.396917E+02    0.299381E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.416115E+02    0.305969E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.428081E+02    0.320365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.427639E+02    0.339032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.417159E+02    0.355925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.397642E+02    0.367349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.376892E+02    0.369592E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.355803E+02    0.391345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138770E+03   -0.327894E+02    0.375278E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138979E+03   -0.316731E+02    0.347807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138995E+03   -0.322832E+02    0.317062E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.346138E+02    0.289422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.382242E+02    0.271785E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.420704E+02    0.271939E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.450878E+02    0.290776E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.463940E+02    0.321539E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.455635E+02    0.354583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.428066E+02    0.381317E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.392013E+02    0.393812E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.370106E+02    0.464342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.351464E+02    0.463954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.365414E+02    0.450864E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.387426E+02    0.456227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.385422E+02    0.472749E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.363110E+02    0.477327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.344679E+02    0.485392E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.333415E+02    0.473758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.332740E+02    0.459393E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.341466E+02    0.446078E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.358129E+02    0.437337E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.378465E+02    0.435893E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.397104E+02    0.442275E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.408735E+02    0.454737E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.410425E+02    0.469429E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.401302E+02    0.482409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.383256E+02    0.490521E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.362924E+02    0.491532E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.343337E+02    0.509478E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.316592E+02    0.493928E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138886E+03   -0.302923E+02    0.471315E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138838E+03   -0.308088E+02    0.446248E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.329178E+02    0.425098E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.363468E+02    0.413718E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.399786E+02    0.416544E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.431090E+02    0.432511E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.445935E+02    0.457481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.440201E+02    0.483206E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.415513E+02    0.503285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.379053E+02    0.513040E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.378365E+02    0.381123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.358511E+02    0.381559E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.373717E+02    0.365469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.395000E+02    0.371225E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.393806E+02    0.390289E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.370225E+02    0.396395E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.349683E+02    0.406215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.340239E+02    0.393224E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.339601E+02    0.376938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.349440E+02    0.360785E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.365510E+02    0.350436E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.387997E+02    0.347156E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.406920E+02    0.353810E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.418632E+02    0.368003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.419092E+02    0.385562E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.407723E+02    0.401076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.390443E+02    0.410213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.368934E+02    0.412050E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.349031E+02    0.431235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.322174E+02    0.415664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139025E+03   -0.309368E+02    0.391444E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139168E+03   -0.314704E+02    0.362699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.337894E+02    0.336760E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.372699E+02    0.322076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.410628E+02    0.323197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.440336E+02    0.340952E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.455142E+02    0.369689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.445760E+02    0.400785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.419666E+02    0.423455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.384973E+02    0.434066E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.392930E+02    0.268912E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.370775E+02    0.271791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.387005E+02    0.251756E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.410823E+02    0.255911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.407892E+02    0.279469E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.383807E+02    0.288367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.361982E+02    0.301925E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.351317E+02    0.287278E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.351377E+02    0.267456E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.362069E+02    0.247849E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.381937E+02    0.232868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.404080E+02    0.228209E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.423676E+02    0.234591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.434986E+02    0.250548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.434720E+02    0.271556E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.423218E+02    0.291278E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.403593E+02    0.304246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.381659E+02    0.307671E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.358702E+02    0.332398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138777E+03   -0.332151E+02    0.315119E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139110E+03   -0.320574E+02    0.286274E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139127E+03   -0.327329E+02    0.251472E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138697E+03   -0.351477E+02    0.220203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.387823E+02    0.200413E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.428709E+02    0.197593E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.458712E+02    0.216821E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.471339E+02    0.250230E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.462136E+02    0.288238E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.433506E+02    0.318457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.396173E+02    0.333528E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.20 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651907.525076925     
  ps_ts2 prof sum =   651527.502204203     
  trcom prof sum =    651527.502204203     
  ps_ts2 cur sum  =   11163.4842399847     
  trcom cur sum  =    11163.4842399847     
  
  antenna # iant =            2
  powecha_use(iant) =    662343.431229428     
  ps_ts2 prof sum =   661968.779729940     
  trcom prof sum =    661968.779684870     
  ps_ts2 cur sum  =   13502.0451436290     
  trcom cur sum  =    13502.0451436290     
  
  antenna # iant =            3
  powecha_use(iant) =    520874.141000388     
  ps_ts2 prof sum =   520583.164660727     
  trcom prof sum =    520583.164660727     
  ps_ts2 cur sum  =   7838.48636753796     
  trcom cur sum  =    7838.48636753797     
  
  antenna # iant =            4
  powecha_use(iant) =    572947.276459492     
  ps_ts2 prof sum =   572637.214138050     
  trcom prof sum =    572637.214138050     
  ps_ts2 cur sum  =   10686.2465841090     
  trcom cur sum  =    10686.2465841090     
  
  antenna # iant =            5
  powecha_use(iant) =    551309.105871213     
  ps_ts2 prof sum =   550975.966224978     
  trcom prof sum =    550975.966224978     
  ps_ts2 cur sum  =   12341.1922804666     
  trcom cur sum  =    12341.1922804666     
  
  Total ECH heating:      2957692.62691283     
  Total Current Drive:    55531.4546157273     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2262
 TA= 2.60000E+00 CPU TIME= 1.59751E-01 SECONDS.  DT= 1.61117E-03
  
 TEC1=    2.59999999999997     
 TEC2=    2.60499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.14618888888890     
  %check_save_state: izleft hours =    73.8452777777778     
 --> plasma_hash("gframe"): TA= 2.600000E+00 NSTEP=  2262 Hash code:   45844564
 ->PRGCHK: bdy curvature ratio at t= 2.6050E+00 seconds is:  5.5349E-02
% MHDEQ: TG1=     2.600000 ; TG2=     2.605000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7868E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5349E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.600000 TO TG2=    2.605000 @ NSTEP     2262
   GFRAME TG2 MOMENTS CHECKSUM:  2.4915980860289D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6050E+00  2.6100E+00 total power(Watts):  2.9436E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.60500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.372706E+02    0.417385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.353011E+02    0.417483E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.368033E+02    0.403258E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.389157E+02    0.408774E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.388069E+02    0.426040E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.365598E+02    0.431256E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.346073E+02    0.440258E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138591E+03   -0.334001E+02    0.428419E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.333367E+02    0.413276E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.342155E+02    0.399256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.360718E+02    0.389165E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.381183E+02    0.387219E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.399923E+02    0.393691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.411587E+02    0.406627E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.413156E+02    0.422087E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.402937E+02    0.436174E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.384752E+02    0.445046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.364337E+02    0.446419E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.344619E+02    0.464709E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.317838E+02    0.449513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139237E+03   -0.304260E+02    0.426114E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139268E+03   -0.309506E+02    0.399742E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138846E+03   -0.331615E+02    0.376530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.365222E+02    0.363243E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.402707E+02    0.365026E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.433039E+02    0.382392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.446724E+02    0.409129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.441870E+02    0.436250E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.414853E+02    0.457980E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.379407E+02    0.467954E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.386759E+02    0.335591E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.366718E+02    0.336432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.381992E+02    0.319533E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.404533E+02    0.324621E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.402433E+02    0.344979E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.378593E+02    0.352190E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.358680E+02    0.363266E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.346487E+02    0.350164E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.347587E+02    0.331950E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.357408E+02    0.315205E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.375389E+02    0.303327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.397240E+02    0.299781E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.416447E+02    0.306379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.427410E+02    0.321186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.427985E+02    0.339352E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.416503E+02    0.356502E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.397988E+02    0.367512E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.377227E+02    0.369742E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.356141E+02    0.391424E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.329064E+02    0.375023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139236E+03   -0.316201E+02    0.348462E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139018E+03   -0.323113E+02    0.317403E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.345560E+02    0.290359E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.382565E+02    0.272173E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.420063E+02    0.272913E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.450198E+02    0.291693E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.465367E+02    0.321556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.457081E+02    0.354508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.428447E+02    0.381426E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.392378E+02    0.393886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.370501E+02    0.464400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.350893E+02    0.464188E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.364847E+02    0.451106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.386825E+02    0.456461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.385836E+02    0.472814E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.363510E+02    0.477408E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.345063E+02    0.485496E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.333852E+02    0.473835E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138455E+03   -0.331326E+02    0.459848E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.340008E+02    0.446582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.358489E+02    0.437411E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.378841E+02    0.435960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.397504E+02    0.442330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.409147E+02    0.454801E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.410806E+02    0.469488E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.400695E+02    0.482621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.383677E+02    0.490638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.362361E+02    0.491790E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.343736E+02    0.509665E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138675E+03   -0.315222E+02    0.494369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.304107E+02    0.471206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139111E+03   -0.307540E+02    0.446565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.330391E+02    0.424901E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.363800E+02    0.413783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.399159E+02    0.416829E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.429374E+02    0.432927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.446381E+02    0.457531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.440666E+02    0.483277E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.413854E+02    0.503591E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.378478E+02    0.513311E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.377760E+02    0.381551E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.357024E+02    0.382320E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.373116E+02    0.365993E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.395347E+02    0.371380E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.393185E+02    0.390669E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.370577E+02    0.396461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.350932E+02    0.405992E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.338799E+02    0.393938E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138710E+03   -0.338195E+02    0.377747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.347982E+02    0.361730E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.366724E+02    0.350262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.388326E+02    0.347405E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.407269E+02    0.354036E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.417976E+02    0.368497E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.418442E+02    0.385950E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.408099E+02    0.401144E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.389824E+02    0.410527E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.369303E+02    0.412103E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.349385E+02    0.431300E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138951E+03   -0.320789E+02    0.416296E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139287E+03   -0.308852E+02    0.391862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139194E+03   -0.314995E+02    0.362856E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138871E+03   -0.337330E+02    0.337490E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.373010E+02    0.322426E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.409977E+02    0.324002E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.439655E+02    0.341634E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.453381E+02    0.370451E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.446161E+02    0.400851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.420058E+02    0.423496E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.384364E+02    0.434342E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.392315E+02    0.269904E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.371988E+02    0.271574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.388248E+02    0.251522E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.411162E+02    0.256329E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.408216E+02    0.279873E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.384132E+02    0.288749E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.363176E+02    0.301779E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138558E+03   -0.351610E+02    0.287648E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.352537E+02    0.267206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.361492E+02    0.248902E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.380462E+02    0.234658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.404419E+02    0.228640E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.424023E+02    0.235033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.435340E+02    0.250990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.435064E+02    0.271986E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.422525E+02    0.292208E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.402954E+02    0.305136E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.381971E+02    0.308052E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.359908E+02    0.332255E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.139029E+03   -0.331597E+02    0.315975E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139131E+03   -0.320848E+02    0.286628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139147E+03   -0.327602E+02    0.251840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.351790E+02    0.220602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.388134E+02    0.200868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.428107E+02    0.198801E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.459085E+02    0.217305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.471710E+02    0.250703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.461442E+02    0.289167E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.433849E+02    0.318860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.396499E+02    0.333846E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    642055.825214262     
  ps_ts2 prof sum =   641644.043580850     
  trcom prof sum =    641644.043580850     
  ps_ts2 cur sum  =   11000.5268626950     
  trcom cur sum  =    11000.5268626950     
  
  antenna # iant =            2
  powecha_use(iant) =    661687.792568734     
  ps_ts2 prof sum =   661357.271176231     
  trcom prof sum =    661357.271138697     
  ps_ts2 cur sum  =   13485.7378962550     
  trcom cur sum  =    13485.7378962550     
  
  antenna # iant =            3
  powecha_use(iant) =    521470.049049839     
  ps_ts2 prof sum =   521143.633384149     
  trcom prof sum =    521143.633384150     
  ps_ts2 cur sum  =   7853.23021908316     
  trcom cur sum  =    7853.23021908316     
  
  antenna # iant =            4
  powecha_use(iant) =    568183.151919615     
  ps_ts2 prof sum =   567806.001991009     
  trcom prof sum =    567806.001991008     
  ps_ts2 cur sum  =   10599.7453623503     
  trcom cur sum  =    10599.7453623503     
  
  antenna # iant =            5
  powecha_use(iant) =    550168.644192614     
  ps_ts2 prof sum =   549883.440376652     
  trcom prof sum =    549883.440376652     
  ps_ts2 cur sum  =   12310.9663827066     
  trcom cur sum  =    12310.9663827066     
  
  Total ECH heating:      2941834.39047136     
  Total Current Drive:    55250.2067230901     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2265
 TA= 2.60500E+00 CPU TIME= 1.59645E-01 SECONDS.  DT= 1.71859E-03
  
 TEC1=    2.60499999999997     
 TEC2=    2.60999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.16006416666642     
  %check_save_state: izleft hours =    73.8313888888889     
 --> plasma_hash("gframe"): TA= 2.605000E+00 NSTEP=  2265 Hash code:   17041388
 ->PRGCHK: bdy curvature ratio at t= 2.6100E+00 seconds is:  5.5302E-02
% MHDEQ: TG1=     2.605000 ; TG2=     2.610000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7839E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5302E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.605000 TO TG2=    2.610000 @ NSTEP     2265
   GFRAME TG2 MOMENTS CHECKSUM:  2.4901526361962D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.03442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.50711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  4.22915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.77569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.36444E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.94766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.86543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.02542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.23511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  1.37316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -3.09956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.22673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.40376E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.45974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.69956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.92442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.66289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.54689E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.77569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.76058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.37281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.37281E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6100E+00  2.6150E+00 total power(Watts):  2.9429E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.61000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.373220E+02    0.416478E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.354416E+02    0.416328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.368540E+02    0.402394E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.390659E+02    0.407622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.388598E+02    0.425118E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.366116E+02    0.430329E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.347493E+02    0.439135E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.336253E+02    0.427010E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.333831E+02    0.412413E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.344395E+02    0.397805E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.362104E+02    0.388010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.382628E+02    0.386056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.401433E+02    0.392543E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.413150E+02    0.405486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.413730E+02    0.421135E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.403474E+02    0.435218E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.386285E+02    0.443952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.364858E+02    0.445542E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.346049E+02    0.463807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138646E+03   -0.317441E+02    0.448948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138941E+03   -0.305522E+02    0.424969E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138979E+03   -0.310723E+02    0.398608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138554E+03   -0.332891E+02    0.375334E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.367521E+02    0.361536E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.404207E+02    0.363675E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.435673E+02    0.380904E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.448393E+02    0.407967E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.441401E+02    0.435416E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.416500E+02    0.456964E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.380951E+02    0.467058E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.388225E+02    0.333937E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.366264E+02    0.335691E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.383398E+02    0.317859E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.406010E+02    0.322941E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.402937E+02    0.343798E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.380006E+02    0.350713E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.358231E+02    0.362696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.347806E+02    0.348684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.347144E+02    0.331235E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.356959E+02    0.314548E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.376750E+02    0.301730E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.398657E+02    0.298214E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.417930E+02    0.304770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.428949E+02    0.319504E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.429545E+02    0.337705E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.418032E+02    0.355037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.399459E+02    0.366213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.377701E+02    0.368811E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.355684E+02    0.390911E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138727E+03   -0.328654E+02    0.374545E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138950E+03   -0.317415E+02    0.346982E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138964E+03   -0.323508E+02    0.316260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.346827E+02    0.288861E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.382049E+02    0.271939E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.421474E+02    0.271518E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.451737E+02    0.290220E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.467008E+02    0.319856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.456585E+02    0.353637E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.430018E+02    0.380221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.392882E+02    0.393027E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.371036E+02    0.463660E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.352339E+02    0.463281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.366366E+02    0.450067E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.388382E+02    0.455453E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.387399E+02    0.471953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.365009E+02    0.476564E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.345583E+02    0.484806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.333413E+02    0.473337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.333598E+02    0.458715E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.342316E+02    0.445299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.359006E+02    0.436494E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.379377E+02    0.435025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.399079E+02    0.441200E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.410775E+02    0.453755E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.411397E+02    0.468728E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.402327E+02    0.481776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.384253E+02    0.489913E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.363880E+02    0.490943E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.344270E+02    0.509000E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.317455E+02    0.493374E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138848E+03   -0.303711E+02    0.470756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138815E+03   -0.308830E+02    0.445522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.329971E+02    0.424289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.364294E+02    0.412897E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.400707E+02    0.415674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.431036E+02    0.431769E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.447017E+02    0.456608E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.441310E+02    0.482520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.416603E+02    0.502669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.380069E+02    0.512546E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.379188E+02    0.380361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.359299E+02    0.380812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.374519E+02    0.364679E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.396820E+02    0.370102E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.394671E+02    0.389512E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.372004E+02    0.395314E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.352314E+02    0.404838E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.340125E+02    0.392797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.340372E+02    0.376196E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.350191E+02    0.360005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.368097E+02    0.348774E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.388813E+02    0.346263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.407776E+02    0.352923E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.419514E+02    0.367172E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.419995E+02    0.384767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.409649E+02    0.399980E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.391333E+02    0.409371E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.369793E+02    0.411213E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.349883E+02    0.430388E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.322087E+02    0.415151E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138995E+03   -0.310062E+02    0.390729E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138903E+03   -0.316210E+02    0.361548E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.338613E+02    0.335897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.374392E+02    0.320755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.411469E+02    0.322324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.441198E+02    0.340016E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.455023E+02    0.369113E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.448891E+02    0.399462E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.421682E+02    0.422327E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.385897E+02    0.433182E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.393669E+02    0.268490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.371480E+02    0.271361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.389565E+02    0.250127E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.412545E+02    0.254946E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.409633E+02    0.278439E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.384561E+02    0.287812E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.362710E+02    0.301245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.352002E+02    0.286747E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.352072E+02    0.267028E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.362735E+02    0.247500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.382644E+02    0.232555E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.404815E+02    0.227906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.424444E+02    0.234294E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.435783E+02    0.250218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.435528E+02    0.271140E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.424036E+02    0.290706E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.404398E+02    0.303542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.382432E+02    0.306921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.361253E+02    0.330606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.332847E+02    0.314324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139069E+03   -0.321205E+02    0.285743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138854E+03   -0.328751E+02    0.250426E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.352978E+02    0.219151E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.390301E+02    0.198594E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.429472E+02    0.197307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.460541E+02    0.215895E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.473238E+02    0.249338E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.463009E+02    0.287712E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.435402E+02    0.317179E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.397962E+02    0.332197E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647003.399323499     
  ps_ts2 prof sum =   646630.674732477     
  trcom prof sum =    646630.674732477     
  ps_ts2 cur sum  =   11071.9526554662     
  trcom cur sum  =    11071.9526554662     
  
  antenna # iant =            2
  powecha_use(iant) =    659176.434615550     
  ps_ts2 prof sum =   658758.457808940     
  trcom prof sum =    658758.457808939     
  ps_ts2 cur sum  =   13406.9534672341     
  trcom cur sum  =    13406.9534672341     
  
  antenna # iant =            3
  powecha_use(iant) =    521490.729651435     
  ps_ts2 prof sum =   521178.951119339     
  trcom prof sum =    521178.951119340     
  ps_ts2 cur sum  =   7851.97064417204     
  trcom cur sum  =    7851.97064417204     
  
  antenna # iant =            4
  powecha_use(iant) =    563372.758029484     
  ps_ts2 prof sum =   563078.004762625     
  trcom prof sum =    563078.004762625     
  ps_ts2 cur sum  =   10492.7556552028     
  trcom cur sum  =    10492.7556552028     
  
  antenna # iant =            5
  powecha_use(iant) =    551862.838012670     
  ps_ts2 prof sum =   551569.022990313     
  trcom prof sum =    551569.022990312     
  ps_ts2 cur sum  =   12311.6355439041     
  trcom cur sum  =    12311.6355439041     
  
  Total ECH heating:      2941215.11141369     
  Total Current Drive:    55135.2679659792     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2268
 TA= 2.61000E+00 CPU TIME= 1.61079E-01 SECONDS.  DT= 1.41646E-03
  
 TEC1=    2.60999999999997     
 TEC2=    2.61499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.17648611111053     
  %check_save_state: izleft hours =    73.8150000000000     
 --> plasma_hash("gframe"): TA= 2.610000E+00 NSTEP=  2268 Hash code:   53750203
 ->PRGCHK: bdy curvature ratio at t= 2.6150E+00 seconds is:  5.5257E-02
% MHDEQ: TG1=     2.610000 ; TG2=     2.615000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7810E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5257E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.610000 TO TG2=    2.615000 @ NSTEP     2268
   GFRAME TG2 MOMENTS CHECKSUM:  2.4887071863636D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.6150E+00  2.6200E+00 total power(Watts):  2.9602E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.61500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.374692E+02    0.415161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.354900E+02    0.415294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.369962E+02    0.401048E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.392172E+02    0.406279E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.390130E+02    0.423824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.367581E+02    0.429079E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.347977E+02    0.438203E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.335838E+02    0.426277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.335168E+02    0.411113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.345749E+02    0.396481E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.362575E+02    0.387003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.384085E+02    0.384724E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.402957E+02    0.391202E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.414726E+02    0.404129E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.415322E+02    0.419815E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.405056E+02    0.433976E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.386822E+02    0.443004E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.366289E+02    0.444425E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.346541E+02    0.463107E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.319606E+02    0.447702E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138883E+03   -0.305951E+02    0.423999E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.311970E+02    0.397293E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.333315E+02    0.374391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.368895E+02    0.360218E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.405690E+02    0.362354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.435174E+02    0.380141E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.451162E+02    0.406377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.443102E+02    0.434123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.417077E+02    0.456108E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.382482E+02    0.466163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.388686E+02    0.332946E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.368532E+02    0.333838E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.384778E+02    0.316377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.406482E+02    0.321921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.404396E+02    0.342420E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.381402E+02    0.349376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.360499E+02    0.360990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.349993E+02    0.346920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.348430E+02    0.329816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.358262E+02    0.313067E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.376259E+02    0.301280E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.399101E+02    0.297240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.418404E+02    0.303759E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.430460E+02    0.318026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.431058E+02    0.336293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.419535E+02    0.353717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.399957E+02    0.365225E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.379115E+02    0.367499E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.357984E+02    0.389262E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.329893E+02    0.373248E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138889E+03   -0.317799E+02    0.346094E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.324713E+02    0.314785E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.348925E+02    0.286813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.384292E+02    0.269912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.422915E+02    0.270087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.453268E+02    0.288761E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.466480E+02    0.319176E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.458201E+02    0.352286E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.430563E+02    0.379181E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.394380E+02    0.391694E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.372535E+02    0.462746E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.352838E+02    0.462569E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.367788E+02    0.449026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.388924E+02    0.454628E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.387922E+02    0.471233E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.365538E+02    0.475861E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.347029E+02    0.483923E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.335708E+02    0.472293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.333173E+02    0.458207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.343704E+02    0.444213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.360453E+02    0.435289E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.380911E+02    0.433789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.399630E+02    0.440215E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.411344E+02    0.452871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.413026E+02    0.467832E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.402905E+02    0.481043E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.385832E+02    0.489020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.364422E+02    0.490188E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.345735E+02    0.508203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.317066E+02    0.492807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138785E+03   -0.304171E+02    0.470089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138754E+03   -0.309255E+02    0.444719E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.332190E+02    0.422743E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.365738E+02    0.411572E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.402267E+02    0.414340E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.432698E+02    0.430466E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.448741E+02    0.455540E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.443046E+02    0.481642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.416153E+02    0.501959E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.380645E+02    0.511847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.380629E+02    0.379033E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.360679E+02    0.379493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.375920E+02    0.363355E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.397323E+02    0.369122E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.396169E+02    0.388173E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.372493E+02    0.394284E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.352820E+02    0.403801E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.342348E+02    0.391145E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.339926E+02    0.375610E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.349738E+02    0.359477E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.367617E+02    0.348253E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.390238E+02    0.344898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.409248E+02    0.351596E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.421047E+02    0.365854E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.421561E+02    0.383428E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.410188E+02    0.398902E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.391859E+02    0.408293E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.371251E+02    0.409886E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.351293E+02    0.429145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138599E+03   -0.322538E+02    0.414144E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138932E+03   -0.310494E+02    0.389753E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138842E+03   -0.316598E+02    0.360650E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.340746E+02    0.334035E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.374824E+02    0.319749E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.412933E+02    0.320849E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.442807E+02    0.338596E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.456658E+02    0.367784E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.450560E+02    0.398096E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.422253E+02    0.421225E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.386427E+02    0.432172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.395019E+02    0.267060E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.373672E+02    0.269321E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.389955E+02    0.249338E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.412958E+02    0.254136E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.410064E+02    0.277562E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.385908E+02    0.286352E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.364013E+02    0.299767E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.353254E+02    0.285284E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.353299E+02    0.265596E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.364844E+02    0.245399E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.383914E+02    0.231121E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.406136E+02    0.226485E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.425824E+02    0.232877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.437209E+02    0.248809E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.436989E+02    0.269717E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.425493E+02    0.289243E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.405820E+02    0.302044E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.383780E+02    0.305441E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.360795E+02    0.330089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138689E+03   -0.333234E+02    0.313367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138778E+03   -0.322360E+02    0.284277E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.329091E+02    0.249663E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.353299E+02    0.218443E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.389764E+02    0.198640E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.430823E+02    0.195827E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.461985E+02    0.214473E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.474757E+02    0.247935E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.464562E+02    0.286269E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.435904E+02    0.316134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.399397E+02    0.330769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667734.886569288     
  ps_ts2 prof sum =   667349.117127219     
  trcom prof sum =    667349.117127219     
  ps_ts2 cur sum  =   11413.8812054032     
  trcom cur sum  =    11413.8812054032     
  
  antenna # iant =            2
  powecha_use(iant) =    661801.755414616     
  ps_ts2 prof sum =   661433.341534548     
  trcom prof sum =    661433.341534547     
  ps_ts2 cur sum  =   13427.0199560620     
  trcom cur sum  =    13427.0199560620     
  
  antenna # iant =            3
  powecha_use(iant) =    520394.912553547     
  ps_ts2 prof sum =   520060.723655041     
  trcom prof sum =    520060.723655041     
  ps_ts2 cur sum  =   7831.64609651686     
  trcom cur sum  =    7831.64609651687     
  
  antenna # iant =            4
  powecha_use(iant) =    559610.657738683     
  ps_ts2 prof sum =   559277.306086055     
  trcom prof sum =    559277.306086054     
  ps_ts2 cur sum  =   10405.2654761893     
  trcom cur sum  =    10405.2654761893     
  
  antenna # iant =            5
  powecha_use(iant) =    550638.545856977     
  ps_ts2 prof sum =   550342.139058137     
  trcom prof sum =    550342.139058137     
  ps_ts2 cur sum  =   12242.6875421038     
  trcom cur sum  =    12242.6875421038     
  
  Total ECH heating:      2958462.62746100     
  Total Current Drive:    55320.5002762751     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2271
 TA= 2.61500E+00 CPU TIME= 1.59426E-01 SECONDS.  DT= 2.26620E-03
  
 TEC1=    2.61499999999997     
 TEC2=    2.61999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.19076111111099     
  %check_save_state: izleft hours =    73.8008333333333     
 --> plasma_hash("gframe"): TA= 2.615000E+00 NSTEP=  2271 Hash code:   96363896
 ->PRGCHK: bdy curvature ratio at t= 2.6200E+00 seconds is:  5.5217E-02
% MHDEQ: TG1=     2.615000 ; TG2=     2.620000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7780E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5217E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.615000 TO TG2=    2.620000 @ NSTEP     2271
   GFRAME TG2 MOMENTS CHECKSUM:  2.4872617322203D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.07681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.94997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  5.24419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.25175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.44316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.93143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.45089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.31895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.84280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.25202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.67343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.56227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.30493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.62181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.21027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.89831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.53056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.28955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.80140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.17586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.42809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.42809E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6200E+00  2.6250E+00 total power(Watts):  2.9669E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.62000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.376195E+02    0.413734E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.356350E+02    0.413867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.370488E+02    0.399868E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.392748E+02    0.405055E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.391699E+02    0.422418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.368121E+02    0.428004E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.349404E+02    0.437032E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.338116E+02    0.424696E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.337434E+02    0.409380E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.346252E+02    0.395313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.364032E+02    0.385536E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.384622E+02    0.383582E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.403531E+02    0.390001E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.415287E+02    0.402893E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.415928E+02    0.418598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.406684E+02    0.432657E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.388389E+02    0.441840E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.366858E+02    0.443537E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.347965E+02    0.462240E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.319210E+02    0.447164E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.307230E+02    0.422690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.312422E+02    0.396174E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.334634E+02    0.372994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.369381E+02    0.359278E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.406223E+02    0.361392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.436821E+02    0.378709E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.452903E+02    0.404840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.445926E+02    0.432581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.418739E+02    0.455100E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.383050E+02    0.465456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.390113E+02    0.331671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.369897E+02    0.332576E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.385237E+02    0.315515E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.407944E+02    0.320593E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.405883E+02    0.341169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.381882E+02    0.348524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.360061E+02    0.360444E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.349539E+02    0.346526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.348833E+02    0.329019E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.358683E+02    0.312209E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.378537E+02    0.299328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.400520E+02    0.295797E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.419882E+02    0.302345E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.430967E+02    0.317130E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.431601E+02    0.335416E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.420074E+02    0.352817E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.401471E+02    0.363889E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.379619E+02    0.366495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.357577E+02    0.388444E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.330340E+02    0.372235E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.319013E+02    0.344847E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.325098E+02    0.313955E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138189E+03   -0.348464E+02    0.286503E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.385627E+02    0.268442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.423379E+02    0.269187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.453832E+02    0.287779E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.468102E+02    0.317835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.460926E+02    0.350693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.432194E+02    0.377755E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.394939E+02    0.390499E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.374056E+02    0.461865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.354299E+02    0.461688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.368331E+02    0.448191E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.390492E+02    0.453644E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.389538E+02    0.470382E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.367061E+02    0.474996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.347571E+02    0.483183E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.336219E+02    0.471611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.335455E+02    0.457092E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.344209E+02    0.443353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.360974E+02    0.434295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.382428E+02    0.432514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.401231E+02    0.438997E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.412983E+02    0.451826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.415737E+02    0.466808E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.404557E+02    0.480158E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.386430E+02    0.488253E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.365966E+02    0.489288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.346285E+02    0.507542E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.319322E+02    0.491766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.305444E+02    0.469233E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.310559E+02    0.443674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.331802E+02    0.421953E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.366269E+02    0.410398E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.402846E+02    0.413130E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.433338E+02    0.429267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.450496E+02    0.454478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.443708E+02    0.480869E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.417872E+02    0.501068E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.382252E+02    0.511087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.381152E+02    0.377940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.361181E+02    0.378402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.376416E+02    0.362390E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.398826E+02    0.367757E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.396726E+02    0.387000E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.373980E+02    0.392788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.354223E+02    0.402335E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.341953E+02    0.390335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.341275E+02    0.374201E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.351978E+02    0.357761E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.369916E+02    0.346593E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.390721E+02    0.344064E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.409772E+02    0.350711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.421602E+02    0.364847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.422144E+02    0.382269E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.411790E+02    0.397412E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.393423E+02    0.406814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.372747E+02    0.408427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.351812E+02    0.428099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.323869E+02    0.412749E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.311762E+02    0.388302E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.317855E+02    0.359321E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.340304E+02    0.333695E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.376194E+02    0.318417E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.413425E+02    0.319970E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.444389E+02    0.337343E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.459425E+02    0.366125E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.450119E+02    0.397064E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.423923E+02    0.419774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.387991E+02    0.430851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.395464E+02    0.266173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.373175E+02    0.269061E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.391296E+02    0.247852E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.414376E+02    0.252652E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.411492E+02    0.276090E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.387277E+02    0.284876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.364439E+02    0.298865E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.353658E+02    0.284391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.353681E+02    0.264742E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.364362E+02    0.245257E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.384315E+02    0.230345E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.406558E+02    0.225716E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.427226E+02    0.231424E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.438672E+02    0.247339E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.438477E+02    0.268245E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.425977E+02    0.288302E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.406294E+02    0.301122E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.383319E+02    0.305044E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.363026E+02    0.328356E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.334472E+02    0.312005E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.322746E+02    0.283393E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138500E+03   -0.330257E+02    0.248168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.354511E+02    0.216968E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.391940E+02    0.196382E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.431218E+02    0.195104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.462435E+02    0.213721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.475254E+02    0.247065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.466143E+02    0.284802E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.437440E+02    0.314784E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.399882E+02    0.329917E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.84 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672261.315807304     
  ps_ts2 prof sum =   671903.983353501     
  trcom prof sum =    671903.983353501     
  ps_ts2 cur sum  =   11492.0648903618     
  trcom cur sum  =    11492.0648903618     
  
  antenna # iant =            2
  powecha_use(iant) =    663909.731038258     
  ps_ts2 prof sum =   663498.928184247     
  trcom prof sum =    663498.928184246     
  ps_ts2 cur sum  =   13441.3560548529     
  trcom cur sum  =    13441.3560548528     
  
  antenna # iant =            3
  powecha_use(iant) =    520274.119783112     
  ps_ts2 prof sum =   519978.877670155     
  trcom prof sum =    519978.877670155     
  ps_ts2 cur sum  =   7838.92306522312     
  trcom cur sum  =    7838.92306522313     
  
  antenna # iant =            4
  powecha_use(iant) =    560595.932975766     
  ps_ts2 prof sum =   560286.141554747     
  trcom prof sum =    560286.141522713     
  ps_ts2 cur sum  =   10413.7410763302     
  trcom cur sum  =    10413.7410763302     
  
  antenna # iant =            5
  powecha_use(iant) =    549898.592302328     
  ps_ts2 prof sum =   549586.910362922     
  trcom prof sum =    549586.910362922     
  ps_ts2 cur sum  =   12186.0332256462     
  trcom cur sum  =    12186.0332256462     
  
  Total ECH heating:      2965254.84109354     
  Total Current Drive:    55372.1183124142     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2273
 TA= 2.62000E+00 CPU TIME= 1.59293E-01 SECONDS.  DT= 3.41725E-03
  
 TEC1=    2.61999999999997     
 TEC2=    2.62499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.20763777777756     
  %check_save_state: izleft hours =    73.7838888888889     
 --> plasma_hash("gframe"): TA= 2.620000E+00 NSTEP=  2273 Hash code:   11576655
 ->PRGCHK: bdy curvature ratio at t= 2.6250E+00 seconds is:  5.5178E-02
% MHDEQ: TG1=     2.620000 ; TG2=     2.625000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7751E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5178E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.620000 TO TG2=    2.625000 @ NSTEP     2273
   GFRAME TG2 MOMENTS CHECKSUM:  2.4858162780769D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6250E+00  2.6300E+00 total power(Watts):  2.9639E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.62500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.376743E+02    0.412550E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.356867E+02    0.412719E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.371972E+02    0.398393E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.394300E+02    0.403579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.392266E+02    0.421262E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.369609E+02    0.426684E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.349902E+02    0.436114E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.337713E+02    0.423920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.337038E+02    0.408547E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.347634E+02    0.393857E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.364529E+02    0.384419E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.386129E+02    0.382138E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.405097E+02    0.388537E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.416952E+02    0.401387E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.417569E+02    0.417138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.407263E+02    0.431573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.388943E+02    0.440914E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.368347E+02    0.442454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.348481E+02    0.461590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.319678E+02    0.446429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138536E+03   -0.307677E+02    0.421669E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.312874E+02    0.395066E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.335093E+02    0.371992E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.370787E+02    0.357986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.407743E+02    0.360098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.437412E+02    0.377606E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.452461E+02    0.403784E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.445474E+02    0.431603E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.421448E+02    0.453970E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.384597E+02    0.464630E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.390586E+02    0.330881E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.370351E+02    0.331800E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.386629E+02    0.314215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.408428E+02    0.319776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.406377E+02    0.340365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.382364E+02    0.347689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.362355E+02    0.358757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.351754E+02    0.344867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.351042E+02    0.327300E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.360007E+02    0.310890E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.378069E+02    0.298997E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.400996E+02    0.294908E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.420372E+02    0.301462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.432492E+02    0.315844E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.433142E+02    0.334216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.421617E+02    0.351582E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.401996E+02    0.362934E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.381072E+02    0.365152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.359923E+02    0.386660E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.332513E+02    0.370471E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.319413E+02    0.344070E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.326320E+02    0.312647E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.350604E+02    0.284473E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.386068E+02    0.267582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.424842E+02    0.267740E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.455342E+02    0.286381E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.470797E+02    0.316135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.460449E+02    0.350151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.432786E+02    0.376666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.396483E+02    0.389035E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.374601E+02    0.461189E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.354817E+02    0.461039E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.369822E+02    0.447181E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.391047E+02    0.452885E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.390099E+02    0.469711E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.367605E+02    0.474286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.349033E+02    0.482275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.337621E+02    0.470760E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.335953E+02    0.456433E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.343790E+02    0.442772E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.362437E+02    0.433083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.382969E+02    0.431484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.401809E+02    0.438002E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.413569E+02    0.450997E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.415276E+02    0.466273E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.405159E+02    0.479409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.388031E+02    0.487334E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.366525E+02    0.488522E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.347766E+02    0.506763E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.318941E+02    0.491201E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.305932E+02    0.468586E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.311007E+02    0.442907E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.334052E+02    0.420319E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.367752E+02    0.408943E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.404440E+02    0.411666E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.435026E+02    0.427891E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.451132E+02    0.453610E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.445473E+02    0.479970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.420664E+02    0.500061E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.382845E+02    0.510417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.382635E+02    0.376531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.362573E+02    0.376994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.377887E+02    0.361073E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.399353E+02    0.366766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.398272E+02    0.385543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.374497E+02    0.391643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.354730E+02    0.401176E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.344220E+02    0.388540E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.341740E+02    0.373192E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.351540E+02    0.357285E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.370387E+02    0.345773E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.392168E+02    0.342850E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.411281E+02    0.349484E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.423176E+02    0.363535E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.423756E+02    0.380836E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.413392E+02    0.395926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.394978E+02    0.405349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.373285E+02    0.407242E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.353246E+02    0.426805E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.324343E+02    0.411642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.312205E+02    0.387218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.318270E+02    0.358436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.340716E+02    0.332947E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.376646E+02    0.317620E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.414903E+02    0.318693E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.444929E+02    0.336514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.458933E+02    0.365421E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.452921E+02    0.395301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.425586E+02    0.418316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.389543E+02    0.429543E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.396829E+02    0.264727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.375405E+02    0.266993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.390797E+02    0.247700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.414823E+02    0.251827E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.411963E+02    0.275193E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.387728E+02    0.283993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.366668E+02    0.296935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.354948E+02    0.282943E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.354941E+02    0.263281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.366505E+02    0.243123E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.385620E+02    0.228913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.407911E+02    0.224306E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.427681E+02    0.230671E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.439147E+02    0.246511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.438966E+02    0.267368E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.427472E+02    0.286866E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.407744E+02    0.299746E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.385639E+02    0.303178E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.362561E+02    0.328054E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.334878E+02    0.311212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.323926E+02    0.281941E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.330620E+02    0.247384E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.354861E+02    0.216306E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.391409E+02    0.196519E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.432616E+02    0.193696E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.463920E+02    0.212342E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.476818E+02    0.245637E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.466674E+02    0.283870E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.438981E+02    0.313486E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.401333E+02    0.328684E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672863.921766438     
  ps_ts2 prof sum =   672454.757272386     
  trcom prof sum =    672454.757272386     
  ps_ts2 cur sum  =   11499.7022745780     
  trcom cur sum  =    11499.7022745780     
  
  antenna # iant =            2
  powecha_use(iant) =    659672.096373725     
  ps_ts2 prof sum =   659326.786374946     
  trcom prof sum =    659326.786374945     
  ps_ts2 cur sum  =   13326.0434016586     
  trcom cur sum  =    13326.0434016586     
  
  antenna # iant =            3
  powecha_use(iant) =    521719.819972907     
  ps_ts2 prof sum =   521396.987455979     
  trcom prof sum =    521396.987455979     
  ps_ts2 cur sum  =   7864.04016811102     
  trcom cur sum  =    7864.04016811103     
  
  antenna # iant =            4
  powecha_use(iant) =    558968.544637052     
  ps_ts2 prof sum =   558650.519052428     
  trcom prof sum =    558650.519013832     
  ps_ts2 cur sum  =   10371.1904286441     
  trcom cur sum  =    10371.1904286440     
  
  antenna # iant =            5
  powecha_use(iant) =    550722.536685549     
  ps_ts2 prof sum =   550424.058998687     
  trcom prof sum =    550424.058998686     
  ps_ts2 cur sum  =   12168.7248171249     
  trcom cur sum  =    12168.7248171249     
  
  Total ECH heating:      2962253.10911583     
  Total Current Drive:    55229.7010901165     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2275
 TA= 2.62500E+00 CPU TIME= 1.59741E-01 SECONDS.  DT= 1.97843E-03
  
 TEC1=    2.62499999999997     
 TEC2=    2.62999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.22354416666644     
  %check_save_state: izleft hours =    73.7680555555555     
 --> plasma_hash("gframe"): TA= 2.625000E+00 NSTEP=  2275 Hash code:  102592430
 ->PRGCHK: bdy curvature ratio at t= 2.6300E+00 seconds is:  5.5144E-02
% MHDEQ: TG1=     2.625000 ; TG2=     2.630000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7722E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5144E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.625000 TO TG2=    2.630000 @ NSTEP     2275
   GFRAME TG2 MOMENTS CHECKSUM:  2.4843708239335D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.17172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.42340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  6.20355E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -1.22474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.51757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.91609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.59639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.47201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.60995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.40762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.87940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.21153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.85311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.69297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.87363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.49457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.99148E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.50572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.62322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.92437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.92437E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6300E+00  2.6350E+00 total power(Watts):  2.9798E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.63000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.378227E+02    0.411254E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.358291E+02    0.411421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.372463E+02    0.397359E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.394839E+02    0.402504E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.393802E+02    0.420009E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.371076E+02    0.425480E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.351322E+02    0.434974E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.339974E+02    0.422438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.337508E+02    0.407561E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.348103E+02    0.392833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.365942E+02    0.383019E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.386635E+02    0.381057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.405673E+02    0.387428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.417508E+02    0.400300E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.419184E+02    0.415844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.408857E+02    0.430378E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.390486E+02    0.439793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.368865E+02    0.441583E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.348999E+02    0.460752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.321005E+02    0.445375E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.308937E+02    0.420468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.314128E+02    0.393733E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.336399E+02    0.370584E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.371214E+02    0.356993E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.408252E+02    0.359060E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.439033E+02    0.376163E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.455250E+02    0.402155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.448271E+02    0.430184E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.420985E+02    0.453247E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.385162E+02    0.463757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.391992E+02    0.329537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.371685E+02    0.330462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.387071E+02    0.313291E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.409873E+02    0.318402E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.407841E+02    0.339027E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.383777E+02    0.346328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.361898E+02    0.358156E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.351295E+02    0.344381E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.350567E+02    0.326907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.360409E+02    0.309994E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.380318E+02    0.296997E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.402390E+02    0.293412E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.421834E+02    0.299988E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.434000E+02    0.314430E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.433643E+02    0.333269E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.423148E+02    0.350200E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.403492E+02    0.361525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.381561E+02    0.364111E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.359476E+02    0.385950E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.332088E+02    0.369837E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.320639E+02    0.342714E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.326684E+02    0.311790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.350119E+02    0.284102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.387395E+02    0.266001E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.426264E+02    0.266167E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.456880E+02    0.284827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.470251E+02    0.315557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.462053E+02    0.348791E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.434385E+02    0.375220E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.397005E+02    0.387947E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.376117E+02    0.460165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.356273E+02    0.460005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.370348E+02    0.446313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.392608E+02    0.451832E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.391689E+02    0.468635E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.369128E+02    0.473203E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.349559E+02    0.481394E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.338136E+02    0.469867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.337330E+02    0.455415E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.346114E+02    0.441442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.362945E+02    0.432172E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.384489E+02    0.430296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.403391E+02    0.436853E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.415203E+02    0.449918E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.416938E+02    0.465221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.406749E+02    0.478337E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.388604E+02    0.486436E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.368047E+02    0.487508E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.348302E+02    0.506139E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.321186E+02    0.490088E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.307240E+02    0.467523E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.312304E+02    0.441839E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.333631E+02    0.419671E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.368252E+02    0.407925E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.404993E+02    0.410605E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.437785E+02    0.426419E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.452925E+02    0.452518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.447240E+02    0.478872E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.420212E+02    0.499328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.384437E+02    0.509663E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.383136E+02    0.375447E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.363073E+02    0.375929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.378327E+02    0.360055E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.400848E+02    0.365346E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.398796E+02    0.384452E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.375953E+02    0.390257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.356135E+02    0.399835E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.343783E+02    0.387858E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.343067E+02    0.371783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.353771E+02    0.355487E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.371757E+02    0.344422E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.392634E+02    0.341911E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.412778E+02    0.348115E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.423707E+02    0.362463E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.424306E+02    0.379718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.413952E+02    0.394816E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.395524E+02    0.404266E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.374756E+02    0.405914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.353754E+02    0.425872E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.325663E+02    0.410362E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.313449E+02    0.385858E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138425E+03   -0.318670E+02    0.357479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.341969E+02    0.331612E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.377999E+02    0.316230E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.415374E+02    0.317770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.446492E+02    0.335174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.461674E+02    0.363675E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.454609E+02    0.393878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.426171E+02    0.417255E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.390083E+02    0.428587E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.397246E+02    0.263736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.374897E+02    0.266638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.393045E+02    0.245380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.416208E+02    0.250190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.413362E+02    0.273640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.389078E+02    0.282445E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.367962E+02    0.295460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.355310E+02    0.281997E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.355311E+02    0.262335E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.366002E+02    0.242791E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.385105E+02    0.228521E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.409262E+02    0.222474E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.429083E+02    0.228872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.440592E+02    0.244828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.440425E+02    0.265794E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.427977E+02    0.285836E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.408194E+02    0.298778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.386999E+02    0.301718E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.364781E+02    0.326241E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.336059E+02    0.309828E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138369E+03   -0.324275E+02    0.281004E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.331767E+02    0.245718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.356067E+02    0.214429E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.393605E+02    0.193818E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.434005E+02    0.191768E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.464381E+02    0.211131E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.478355E+02    0.243945E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.468235E+02    0.282311E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.439475E+02    0.312509E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.401796E+02    0.327771E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688669.821154149     
  ps_ts2 prof sum =   688283.155286706     
  trcom prof sum =    688283.155286706     
  ps_ts2 cur sum  =   11765.5175991828     
  trcom cur sum  =    11765.5175991828     
  
  antenna # iant =            2
  powecha_use(iant) =    661032.176324930     
  ps_ts2 prof sum =   660623.637393947     
  trcom prof sum =    660623.637393946     
  ps_ts2 cur sum  =   13329.8490219560     
  trcom cur sum  =    13329.8490219560     
  
  antenna # iant =            3
  powecha_use(iant) =    521826.577264633     
  ps_ts2 prof sum =   521535.560874596     
  trcom prof sum =    521535.560874596     
  ps_ts2 cur sum  =   7869.41235223314     
  trcom cur sum  =    7869.41235223315     
  
  antenna # iant =            4
  powecha_use(iant) =    557611.988146537     
  ps_ts2 prof sum =   557299.428289311     
  trcom prof sum =    557299.428289310     
  ps_ts2 cur sum  =   10334.7723362947     
  trcom cur sum  =    10334.7723362946     
  
  antenna # iant =            5
  powecha_use(iant) =    550625.769289590     
  ps_ts2 prof sum =   550325.313814389     
  trcom prof sum =    550325.313814389     
  ps_ts2 cur sum  =   12137.8019375711     
  trcom cur sum  =    12137.8019373233     
  
  Total ECH heating:      2978067.09565895     
  Total Current Drive:    55437.3532469899     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2278
 TA= 2.63000E+00 CPU TIME= 1.63703E-01 SECONDS.  DT= 6.85656E-04
  
 TEC1=    2.62999999999997     
 TEC2=    2.63499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.23745972222196     
  %check_save_state: izleft hours =    73.7541666666667     
 --> plasma_hash("gframe"): TA= 2.630000E+00 NSTEP=  2278 Hash code:   19169354
 ->PRGCHK: bdy curvature ratio at t= 2.6350E+00 seconds is:  5.5113E-02
% MHDEQ: TG1=     2.630000 ; TG2=     2.635000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7693E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5113E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.630000 TO TG2=    2.635000 @ NSTEP     2278
   GFRAME TG2 MOMENTS CHECKSUM:  2.4829253697901D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6350E+00  2.6400E+00 total power(Watts):  2.9843E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.63500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.378728E+02    0.410319E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.358761E+02    0.410520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.373916E+02    0.396051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.396341E+02    0.401248E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.394329E+02    0.419080E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.371582E+02    0.424584E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.351813E+02    0.434091E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.339541E+02    0.421851E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.338841E+02    0.406354E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.349458E+02    0.391527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.366400E+02    0.381987E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.388096E+02    0.379648E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.407152E+02    0.386061E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.419083E+02    0.398998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.419739E+02    0.414868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.409411E+02    0.429449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.391031E+02    0.438873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.370352E+02    0.440442E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.350436E+02    0.459565E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.321473E+02    0.444500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.309359E+02    0.419624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.314542E+02    0.392810E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.336821E+02    0.369550E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.372636E+02    0.355532E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.409750E+02    0.357596E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.440643E+02    0.374690E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.456927E+02    0.400837E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134004E+03   -0.449973E+02    0.428993E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.422652E+02    0.452077E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.386723E+02    0.462553E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.392428E+02    0.328600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.372113E+02    0.329529E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.388426E+02    0.311875E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.411302E+02    0.316984E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.408310E+02    0.338032E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.385176E+02    0.344910E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.364165E+02    0.356310E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.353485E+02    0.342521E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.352719E+02    0.325047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.361688E+02    0.308575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.379803E+02    0.296583E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.402810E+02    0.292442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.423268E+02    0.298517E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.434465E+02    0.313466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.435163E+02    0.331867E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.423651E+02    0.349143E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.404977E+02    0.360056E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.382982E+02    0.362655E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.361782E+02    0.384249E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.334225E+02    0.368018E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.321013E+02    0.341776E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.327870E+02    0.310371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.352205E+02    0.281990E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.387779E+02    0.265041E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.426689E+02    0.265175E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.458387E+02    0.283291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.471831E+02    0.314129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133981E+03   -0.464752E+02    0.346995E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.435981E+02    0.373749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.398506E+02    0.386570E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.376674E+02    0.459160E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.356787E+02    0.459033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.371843E+02    0.445180E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.393178E+02    0.450871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.392273E+02    0.467571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.369682E+02    0.472156E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.351031E+02    0.480254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.339567E+02    0.468660E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.337838E+02    0.454471E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.345687E+02    0.440801E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.364394E+02    0.431032E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.385017E+02    0.429394E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.403948E+02    0.435928E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.416845E+02    0.448765E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.417549E+02    0.464157E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.408457E+02    0.477105E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.390207E+02    0.485316E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.368599E+02    0.486585E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.349757E+02    0.505361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.320785E+02    0.489455E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.307707E+02    0.466548E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.312753E+02    0.440976E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.335853E+02    0.418221E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.369664E+02    0.406700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.406548E+02    0.409368E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.437291E+02    0.425673E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.454628E+02    0.451327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133846E+03   -0.447904E+02    0.477738E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.422977E+02    0.498243E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.385005E+02    0.509016E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.384578E+02    0.374010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.364459E+02    0.374502E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.379739E+02    0.358597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.402330E+02    0.363881E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.400281E+02    0.383055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.376442E+02    0.389239E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.356603E+02    0.398883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.346018E+02    0.386162E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.343499E+02    0.370743E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.353303E+02    0.354875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.372191E+02    0.343434E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.394052E+02    0.340502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.413267E+02    0.347071E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.425220E+02    0.361005E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.425881E+02    0.378265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.415509E+02    0.393477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.397027E+02    0.403016E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.375243E+02    0.404974E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.355147E+02    0.424727E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.326093E+02    0.409492E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.313846E+02    0.384901E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.319889E+02    0.356043E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.342364E+02    0.330707E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.378405E+02    0.315323E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.416818E+02    0.316359E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.446993E+02    0.334176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.463322E+02    0.362187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.454107E+02    0.393017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.427746E+02    0.416055E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.391614E+02    0.427429E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.398576E+02    0.262165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.376174E+02    0.265078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.392495E+02    0.245055E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.417573E+02    0.248575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.414748E+02    0.272081E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.389478E+02    0.281473E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.367451E+02    0.295061E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.356565E+02    0.280459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.356525E+02    0.260763E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.367231E+02    0.241134E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.387280E+02    0.226065E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.409651E+02    0.221371E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.429496E+02    0.227795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.442019E+02    0.243184E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.440864E+02    0.264786E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.429373E+02    0.284322E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.409552E+02    0.297314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.387411E+02    0.300774E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.364287E+02    0.325806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.336461E+02    0.308925E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.325423E+02    0.279473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.332076E+02    0.244789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.356402E+02    0.213338E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.394871E+02    0.191879E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.434401E+02    0.190586E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.465840E+02    0.209245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.478812E+02    0.242880E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.469764E+02    0.280771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.440977E+02    0.311080E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.403211E+02    0.326382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691101.430813034     
  ps_ts2 prof sum =   690694.435179985     
  trcom prof sum =    690694.435179986     
  ps_ts2 cur sum  =   11794.4066634133     
  trcom cur sum  =    11794.4066634133     
  
  antenna # iant =            2
  powecha_use(iant) =    664022.094900064     
  ps_ts2 prof sum =   663689.305603609     
  trcom prof sum =    663689.305603608     
  ps_ts2 cur sum  =   13354.2140599503     
  trcom cur sum  =    13354.2140599503     
  
  antenna # iant =            3
  powecha_use(iant) =    521692.258691203     
  ps_ts2 prof sum =   521377.212434492     
  trcom prof sum =    521377.212434493     
  ps_ts2 cur sum  =   7868.85242504191     
  trcom cur sum  =    7868.85242504192     
  
  antenna # iant =            4
  powecha_use(iant) =    558315.354344263     
  ps_ts2 prof sum =   557991.517104323     
  trcom prof sum =    557991.517104323     
  ps_ts2 cur sum  =   10329.8264880051     
  trcom cur sum  =    10329.8264880050     
  
  antenna # iant =            5
  powecha_use(iant) =    549178.857718572     
  ps_ts2 prof sum =   548856.517739934     
  trcom prof sum =    548856.517739934     
  ps_ts2 cur sum  =   12063.8810219265     
  trcom cur sum  =    12063.8810219265     
  
  Total ECH heating:      2982608.98806234     
  Total Current Drive:    55411.1806583370     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2283
 TA= 2.63500E+00 CPU TIME= 1.66112E-01 SECONDS.  DT= 1.30845E-03
  
 TEC1=    2.63499999999997     
 TEC2=    2.63999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.24978611111101     
  %check_save_state: izleft hours =    73.7416666666667     
 --> plasma_hash("gframe"): TA= 2.635000E+00 NSTEP=  2283 Hash code:   37975321
 ->PRGCHK: bdy curvature ratio at t= 2.6400E+00 seconds is:  5.5085E-02
% MHDEQ: TG1=     2.635000 ; TG2=     2.640000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5085E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.635000 TO TG2=    2.640000 @ NSTEP     2283
   GFRAME TG2 MOMENTS CHECKSUM:  2.4814799156468D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.16268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  7.27310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.79207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.89899E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.19174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.90569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -7.57708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.77929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.40473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.23296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.10740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.88126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.23112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.84611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.56929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.77402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.29094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.00711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.34808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.34808E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6400E+00  2.6450E+00 total power(Watts):  2.9816E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.64000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.380142E+02    0.408968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.360112E+02    0.409196E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.375290E+02    0.394603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.396795E+02    0.400110E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.395797E+02    0.417780E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.372986E+02    0.423331E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.353174E+02    0.432896E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.341747E+02    0.420318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.341016E+02    0.404688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.348960E+02    0.390746E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.367739E+02    0.380449E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.388518E+02    0.378413E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.408621E+02    0.384505E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.420595E+02    0.397526E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.421277E+02    0.413512E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.410938E+02    0.428192E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.392519E+02    0.437664E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.370820E+02    0.439475E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.350906E+02    0.458550E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.322756E+02    0.443330E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.310565E+02    0.418392E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.315742E+02    0.391386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.338057E+02    0.367969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.373020E+02    0.354296E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.411174E+02    0.355934E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.443246E+02    0.372689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.456358E+02    0.399835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.449415E+02    0.428113E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.423193E+02    0.451052E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.387239E+02    0.461494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.393751E+02    0.326979E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.373383E+02    0.327920E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.388769E+02    0.310724E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.411666E+02    0.315812E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.409694E+02    0.336397E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.385561E+02    0.343685E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.365465E+02    0.354671E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.352949E+02    0.341806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.352162E+02    0.324410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.363790E+02    0.306408E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.381965E+02    0.294333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.404102E+02    0.290691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.423628E+02    0.297287E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.435869E+02    0.311793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.436600E+02    0.330231E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.425086E+02    0.347478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.405399E+02    0.358774E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.384347E+02    0.361005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.363104E+02    0.382733E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.333722E+02    0.367229E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.322158E+02    0.340181E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.328152E+02    0.309290E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.351622E+02    0.281422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.388993E+02    0.263228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.428000E+02    0.263338E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.458761E+02    0.281974E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.474403E+02    0.311989E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.466299E+02    0.345289E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.436455E+02    0.372406E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.399950E+02    0.385026E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.378141E+02    0.457955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.358212E+02    0.457800E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.372309E+02    0.444211E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.394688E+02    0.449686E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.393811E+02    0.466334E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.371144E+02    0.470969E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.351491E+02    0.479332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.340001E+02    0.467667E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.339177E+02    0.453270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.347965E+02    0.439364E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.364841E+02    0.430071E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.386474E+02    0.428150E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.405470E+02    0.434704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.417366E+02    0.447762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.419162E+02    0.462906E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.409004E+02    0.476045E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.390720E+02    0.484377E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.370074E+02    0.485531E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.350223E+02    0.504696E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.321216E+02    0.488672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.308968E+02    0.465354E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.314845E+02    0.439544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.335366E+02    0.417551E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.370112E+02    0.405633E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.408037E+02    0.407989E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.438889E+02    0.424373E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133610E+03   -0.455203E+02    0.450272E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133570E+03   -0.449612E+02    0.476488E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.422465E+02    0.497516E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.386530E+02    0.508215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.385001E+02    0.372756E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.364855E+02    0.373282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.380134E+02    0.357346E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.402760E+02    0.362591E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.400743E+02    0.381812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.377822E+02    0.387744E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.357930E+02    0.397480E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.345499E+02    0.385399E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.344759E+02    0.369155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.355465E+02    0.352829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.373492E+02    0.341804E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.395402E+02    0.338869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.414680E+02    0.345417E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.426727E+02    0.359319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.427380E+02    0.376641E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.415976E+02    0.392276E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.397485E+02    0.401890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.376632E+02    0.403595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.355569E+02    0.423761E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.327343E+02    0.408188E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.315039E+02    0.383427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.321055E+02    0.354438E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.343554E+02    0.329114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.379669E+02    0.313691E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.418183E+02    0.314698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.448470E+02    0.332518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.462727E+02    0.361119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133861E+03   -0.456796E+02    0.391180E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.430410E+02    0.414437E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.392084E+02    0.426426E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.398875E+02    0.260959E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.378262E+02    0.262649E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.394620E+02    0.242545E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.417872E+02    0.247345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.415072E+02    0.270837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.390722E+02    0.279694E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.369555E+02    0.292792E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.358598E+02    0.278101E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.356792E+02    0.259609E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.367488E+02    0.239963E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.386636E+02    0.225524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.410873E+02    0.219377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.430764E+02    0.225830E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.442327E+02    0.241928E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.442207E+02    0.262944E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.430721E+02    0.282519E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.410910E+02    0.295570E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.388671E+02    0.299079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.366435E+02    0.323728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.337598E+02    0.307297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.325703E+02    0.278317E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.333134E+02    0.242959E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.357484E+02    0.211317E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.394211E+02    0.191333E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.435653E+02    0.188430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.467175E+02    0.207143E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.480205E+02    0.240973E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133774E+03   -0.472266E+02    0.278400E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.442389E+02    0.309399E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.403586E+02    0.325212E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.58 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691338.792942041     
  ps_ts2 prof sum =   690950.191641417     
  trcom prof sum =    690950.191641417     
  ps_ts2 cur sum  =   11781.1858483478     
  trcom cur sum  =    11781.1858483478     
  
  antenna # iant =            2
  powecha_use(iant) =    662161.751749361     
  ps_ts2 prof sum =   661796.301400864     
  trcom prof sum =    661796.301400863     
  ps_ts2 cur sum  =   13288.7720400271     
  trcom cur sum  =    13288.7720400271     
  
  antenna # iant =            3
  powecha_use(iant) =    521787.183485404     
  ps_ts2 prof sum =   521474.143454764     
  trcom prof sum =    521474.143454764     
  ps_ts2 cur sum  =   7864.25278754411     
  trcom cur sum  =    7864.25278754412     
  
  antenna # iant =            4
  powecha_use(iant) =    556131.932951755     
  ps_ts2 prof sum =   555820.875017943     
  trcom prof sum =    555820.875017943     
  ps_ts2 cur sum  =   10271.7286249918     
  trcom cur sum  =    10271.7286249918     
  
  antenna # iant =            5
  powecha_use(iant) =    550143.189526424     
  ps_ts2 prof sum =   549840.819555687     
  trcom prof sum =    549840.819555687     
  ps_ts2 cur sum  =   12051.6063859546     
  trcom cur sum  =    12051.6063859546     
  
  Total ECH heating:      2979882.33107068     
  Total Current Drive:    55257.5456868654     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2287
 TA= 2.64000E+00 CPU TIME= 1.59686E-01 SECONDS.  DT= 1.44004E-05
  
 TEC1=    2.63999999999997     
 TEC2=    2.64499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.26403472222205     
  %check_save_state: izleft hours =    73.7275000000000     
 --> plasma_hash("gframe"): TA= 2.640000E+00 NSTEP=  2287 Hash code:   83533136
 ->PRGCHK: bdy curvature ratio at t= 2.6450E+00 seconds is:  5.5061E-02
% MHDEQ: TG1=     2.640000 ; TG2=     2.645000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7635E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5061E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.640000 TO TG2=    2.645000 @ NSTEP     2287
   GFRAME TG2 MOMENTS CHECKSUM:  2.4800344615034D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6450E+00  2.6500E+00 total power(Watts):  2.9762E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.64500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.380585E+02    0.407911E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.360534E+02    0.408166E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.375712E+02    0.393485E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.398250E+02    0.398678E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.396267E+02    0.416734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.373443E+02    0.422323E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.353615E+02    0.431928E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.341261E+02    0.419642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.340513E+02    0.404007E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.351167E+02    0.388946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.367219E+02    0.379614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.389928E+02    0.376827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.409082E+02    0.383260E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.421079E+02    0.396334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.422813E+02    0.412157E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.412475E+02    0.426910E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.394022E+02    0.436416E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.372254E+02    0.438251E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.352305E+02    0.457342E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.323160E+02    0.442405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.310945E+02    0.417453E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.316099E+02    0.390335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.338426E+02    0.366772E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.374348E+02    0.352638E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.411606E+02    0.354628E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.442662E+02    0.371672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.459071E+02    0.398063E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.452159E+02    0.426577E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.424788E+02    0.449835E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.388758E+02    0.460270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.395082E+02    0.325325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.372811E+02    0.327217E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.390054E+02    0.309051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.413026E+02    0.314142E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.411085E+02    0.334732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.386900E+02    0.342023E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.365850E+02    0.353431E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.355084E+02    0.339711E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.353369E+02    0.322798E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.363211E+02    0.305779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.383230E+02    0.292556E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.405395E+02    0.288902E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.424989E+02    0.295512E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.437279E+02    0.310078E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.437016E+02    0.328970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.426550E+02    0.345785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.406824E+02    0.357088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.384758E+02    0.359727E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.363520E+02    0.381558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.334949E+02    0.365624E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.322468E+02    0.339037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.329274E+02    0.307655E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.352773E+02    0.279614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.390213E+02    0.261373E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.429317E+02    0.261463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.460186E+02    0.280096E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133356E+03   -0.475908E+02    0.310246E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.465688E+02    0.344291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.437976E+02    0.370742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.400399E+02    0.383815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.378649E+02    0.456919E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.358687E+02    0.456794E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.373753E+02    0.443007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.396209E+02    0.448459E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.394335E+02    0.465314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.371648E+02    0.470001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.352914E+02    0.478273E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.341372E+02    0.466517E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.339630E+02    0.452279E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.347490E+02    0.438662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.366238E+02    0.428830E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.386944E+02    0.427143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.407002E+02    0.433449E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.418951E+02    0.446532E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.421841E+02    0.461491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.410601E+02    0.474903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.392271E+02    0.483343E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.370573E+02    0.484696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.351651E+02    0.503810E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.323429E+02    0.487549E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.309371E+02    0.464461E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.314396E+02    0.438890E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.337550E+02    0.415978E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.371496E+02    0.404264E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.408516E+02    0.406866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133979E+03   -0.441579E+02    0.422823E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133333E+03   -0.456900E+02    0.449004E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133294E+03   -0.451322E+02    0.475303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.425195E+02    0.496467E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.387056E+02    0.507450E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.386398E+02    0.371130E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.366176E+02    0.371691E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.381484E+02    0.355682E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.404182E+02    0.360909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.402188E+02    0.380232E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.379208E+02    0.386235E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.357416E+02    0.396730E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.347690E+02    0.383538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.346896E+02    0.367168E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.354935E+02    0.352038E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.374794E+02    0.340146E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.395792E+02    0.337639E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.416077E+02    0.343750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.427179E+02    0.357978E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.427854E+02    0.375320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.417474E+02    0.390764E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.398946E+02    0.400464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.377073E+02    0.402509E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.356937E+02    0.422499E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.327712E+02    0.407210E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.315394E+02    0.382337E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.321393E+02    0.353258E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.345618E+02    0.327006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.380935E+02    0.312031E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.418558E+02    0.313498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.449952E+02    0.330827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133817E+03   -0.464306E+02    0.359383E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.458406E+02    0.389613E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.429854E+02    0.413577E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.393561E+02    0.425156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.400116E+02    0.259101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.377648E+02    0.262059E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.395825E+02    0.240706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.419139E+02    0.245491E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.416370E+02    0.268965E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.391975E+02    0.277853E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.368955E+02    0.292153E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.358008E+02    0.277481E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.357924E+02    0.257779E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.368620E+02    0.238141E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.387784E+02    0.223667E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.412079E+02    0.217463E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.432023E+02    0.223939E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.443639E+02    0.240071E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.443558E+02    0.261061E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.431069E+02    0.281219E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.411260E+02    0.294319E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.389004E+02    0.297872E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.365869E+02    0.323058E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.337896E+02    0.306193E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.326753E+02    0.276534E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.333321E+02    0.241877E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.357714E+02    0.210139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.396274E+02    0.188455E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.436914E+02    0.186309E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.468498E+02    0.205122E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.481599E+02    0.239089E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.471597E+02    0.277533E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.442778E+02    0.308141E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.404940E+02    0.323553E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689505.849418453     
  ps_ts2 prof sum =   689072.152292884     
  trcom prof sum =    689072.152292884     
  ps_ts2 cur sum  =   11740.2689635149     
  trcom cur sum  =    11740.2689635149     
  
  antenna # iant =            2
  powecha_use(iant) =    658256.874635114     
  ps_ts2 prof sum =   657893.613081310     
  trcom prof sum =    657893.613081309     
  ps_ts2 cur sum  =   13179.4626610018     
  trcom cur sum  =    13179.4626610018     
  
  antenna # iant =            3
  powecha_use(iant) =    521993.493664723     
  ps_ts2 prof sum =   521701.011160197     
  trcom prof sum =    521701.011160198     
  ps_ts2 cur sum  =   7866.30411341677     
  trcom cur sum  =    7866.30411341678     
  
  antenna # iant =            4
  powecha_use(iant) =    556317.827150342     
  ps_ts2 prof sum =   556004.079209508     
  trcom prof sum =    556004.079209507     
  ps_ts2 cur sum  =   10259.8661687750     
  trcom cur sum  =    10259.8661687750     
  
  antenna # iant =            5
  powecha_use(iant) =    550160.285515837     
  ps_ts2 prof sum =   549814.171288505     
  trcom prof sum =    549814.171288505     
  ps_ts2 cur sum  =   12012.0350765133     
  trcom cur sum  =    12012.0350765133     
  
  Total ECH heating:      2974485.02703240     
  Total Current Drive:    55057.9369832218     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2308
 TA= 2.64500E+00 CPU TIME= 1.59762E-01 SECONDS.  DT= 7.68032E-05
  
 TEC1=    2.64499999999997     
 TEC2=    2.64999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.27815027777774     
  %check_save_state: izleft hours =    73.7133333333333     
 --> plasma_hash("gframe"): TA= 2.645000E+00 NSTEP=  2308 Hash code:  112932881
 ->PRGCHK: bdy curvature ratio at t= 2.6500E+00 seconds is:  5.5041E-02
% MHDEQ: TG1=     2.645000 ; TG2=     2.650000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7606E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5041E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.645000 TO TG2=    2.650000 @ NSTEP     2308
   GFRAME TG2 MOMENTS CHECKSUM:  2.4785890130167D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.20397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  4.32466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  8.28931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.32006E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.67934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.39538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.19956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.76594E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  5.68614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.35211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.56889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.00846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.51077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.74242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.59041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.51754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  4.03700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.42172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.42838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.42838E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6500E+00  2.6550E+00 total power(Watts):  2.9842E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.65000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.382006E+02    0.406543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.361892E+02    0.406822E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.377102E+02    0.392026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.399710E+02    0.397233E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.397749E+02    0.415403E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.374863E+02    0.421028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.355004E+02    0.430673E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.343473E+02    0.418069E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.342697E+02    0.402323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.350694E+02    0.388180E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.369503E+02    0.377707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.391334E+02    0.375241E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.410544E+02    0.381710E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.422602E+02    0.394841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.423315E+02    0.411044E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.412979E+02    0.425864E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.394510E+02    0.435415E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.373697E+02    0.437019E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.352761E+02    0.456393E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.325327E+02    0.440923E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.311350E+02    0.416505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.317295E+02    0.388912E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.339656E+02    0.365187E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.375669E+02    0.350981E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.413038E+02    0.352950E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.444257E+02    0.369990E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133303E+03   -0.460699E+02    0.396542E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133395E+03   -0.453809E+02    0.425241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.427479E+02    0.448367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.389285E+02    0.459289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.395458E+02    0.324115E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.375016E+02    0.325082E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.391355E+02    0.307324E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.414392E+02    0.312423E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.411479E+02    0.333487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.387289E+02    0.340793E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.367151E+02    0.351783E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.354544E+02    0.338993E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.353704E+02    0.321655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.365325E+02    0.303539E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.382621E+02    0.291841E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.405760E+02    0.287554E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.426357E+02    0.293655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.437678E+02    0.308798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.438466E+02    0.327271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.426982E+02    0.344491E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.408248E+02    0.355411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.386148E+02    0.358071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.364812E+02    0.380049E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.335300E+02    0.364456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.323620E+02    0.337420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.329548E+02    0.306515E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.353071E+02    0.278328E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.390514E+02    0.260044E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.429663E+02    0.260078E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.461626E+02    0.278105E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133531E+03   -0.475261E+02    0.309327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.467241E+02    0.342568E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.439512E+02    0.369066E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.401840E+02    0.382271E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.380134E+02    0.455714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.360109E+02    0.455613E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.374236E+02    0.442009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.396723E+02    0.447429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.395876E+02    0.464163E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.373103E+02    0.468919E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.353383E+02    0.477476E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.341837E+02    0.465633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.340987E+02    0.451084E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.349767E+02    0.437192E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.366693E+02    0.427843E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.388422E+02    0.425863E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.407513E+02    0.432418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.419487E+02    0.445485E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.421326E+02    0.460645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.411143E+02    0.473997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.392788E+02    0.482532E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.372052E+02    0.483742E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.352140E+02    0.503002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.322986E+02    0.487007E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.310617E+02    0.463376E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.314809E+02    0.437954E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.337067E+02    0.415312E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.371930E+02    0.403199E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.410012E+02    0.405480E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.441030E+02    0.421942E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133057E+03   -0.458603E+02    0.447725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.451915E+02    0.474334E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.426852E+02    0.495532E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.388611E+02    0.506493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.387773E+02    0.369530E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.365650E+02    0.370867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.382832E+02    0.354027E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.404612E+02    0.359624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.403628E+02    0.378670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.379630E+02    0.385070E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.359672E+02    0.394980E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.347182E+02    0.382788E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.346396E+02    0.366373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.356205E+02    0.350410E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.375170E+02    0.338933E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.397153E+02    0.335961E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.416520E+02    0.342464E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.428660E+02    0.356288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.429369E+02    0.373689E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.418979E+02    0.389245E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.399408E+02    0.399332E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.378473E+02    0.401117E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.357374E+02    0.421511E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.328966E+02    0.405889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.316582E+02    0.380860E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.322568E+02    0.351642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.345076E+02    0.326351E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.381287E+02    0.310840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.419938E+02    0.311769E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.452492E+02    0.328694E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.466968E+02    0.357323E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133763E+03   -0.457837E+02    0.388584E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.431427E+02    0.412186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.394041E+02    0.424127E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.401370E+02    0.257143E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.379754E+02    0.259491E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.395188E+02    0.240139E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.420419E+02    0.243554E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.417685E+02    0.266987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.392307E+02    0.276502E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.371106E+02    0.289749E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.359179E+02    0.275578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.359946E+02    0.255196E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.370644E+02    0.235565E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.389872E+02    0.221075E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.412331E+02    0.216319E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.433290E+02    0.222063E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.444966E+02    0.238134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.444930E+02    0.259068E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.432449E+02    0.279250E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.412593E+02    0.292466E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.390286E+02    0.296065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.368033E+02    0.320908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.339044E+02    0.304492E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.327024E+02    0.275276E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.334422E+02    0.239969E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.358788E+02    0.208261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.397419E+02    0.186494E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.437156E+02    0.185101E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.469824E+02    0.203184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.483011E+02    0.237132E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.473063E+02    0.275521E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.444209E+02    0.306368E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.406299E+02    0.321867E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692974.828851477     
  ps_ts2 prof sum =   692616.902774106     
  trcom prof sum =    692616.902774106     
  ps_ts2 cur sum  =   11788.0051595310     
  trcom cur sum  =    11788.0051595310     
  
  antenna # iant =            2
  powecha_use(iant) =    662195.597598993     
  ps_ts2 prof sum =   661797.038217751     
  trcom prof sum =    661797.038217750     
  ps_ts2 cur sum  =   13227.4238103152     
  trcom cur sum  =    13227.4238103152     
  
  antenna # iant =            3
  powecha_use(iant) =    521076.768788291     
  ps_ts2 prof sum =   520751.701985437     
  trcom prof sum =    520751.701985438     
  ps_ts2 cur sum  =   7849.76327019498     
  trcom cur sum  =    7849.76327019499     
  
  antenna # iant =            4
  powecha_use(iant) =    558067.150410785     
  ps_ts2 prof sum =   557738.468038123     
  trcom prof sum =    557738.468038122     
  ps_ts2 cur sum  =   10275.2029465929     
  trcom cur sum  =    10275.2029465929     
  
  antenna # iant =            5
  powecha_use(iant) =    549892.010297887     
  ps_ts2 prof sum =   549623.746252976     
  trcom prof sum =    549623.746252976     
  ps_ts2 cur sum  =   11968.8842812973     
  trcom cur sum  =    11968.8842812973     
  
  Total ECH heating:      2982527.85726839     
  Total Current Drive:    55109.2794679314     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2321
 TA= 2.65000E+00 CPU TIME= 1.60131E-01 SECONDS.  DT= 1.04585E-03
  
 TEC1=    2.64999999999997     
 TEC2=    2.65499999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.28997222222188     
  %check_save_state: izleft hours =    73.7016666666667     
 --> plasma_hash("gframe"): TA= 2.650000E+00 NSTEP=  2321 Hash code:   90795540
 ->PRGCHK: bdy curvature ratio at t= 2.6550E+00 seconds is:  5.5025E-02
% MHDEQ: TG1=     2.650000 ; TG2=     2.655000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5025E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.650000 TO TG2=    2.655000 @ NSTEP     2321
   GFRAME TG2 MOMENTS CHECKSUM:  2.4771435645300D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.6550E+00  2.6600E+00 total power(Watts):  2.9783E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.65500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.382445E+02    0.405506E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.361380E+02    0.406122E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.377525E+02    0.390926E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.400165E+02    0.396120E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.399226E+02    0.414077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.375318E+02    0.420028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.355435E+02    0.429704E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.342992E+02    0.417401E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.342198E+02    0.401655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.352864E+02    0.386386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.370836E+02    0.376185E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.391756E+02    0.374040E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.411001E+02    0.380498E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.423072E+02    0.393696E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.424854E+02    0.409683E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.414521E+02    0.424551E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.396009E+02    0.434151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.374157E+02    0.436017E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.354166E+02    0.455218E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.324875E+02    0.440224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.312540E+02    0.415238E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.317654E+02    0.387885E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.340023E+02    0.364027E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.376055E+02    0.349765E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.414470E+02    0.351279E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133748E+03   -0.446820E+02    0.368000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133477E+03   -0.460122E+02    0.395578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133567E+03   -0.453258E+02    0.424338E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.426952E+02    0.447476E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.390776E+02    0.458121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.396784E+02    0.322460E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.374443E+02    0.324409E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.391703E+02    0.306161E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.414764E+02    0.311229E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.412878E+02    0.331819E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.388627E+02    0.339144E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.366605E+02    0.351009E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.356685E+02    0.336901E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.354911E+02    0.320021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.364751E+02    0.302929E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.384801E+02    0.289490E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.407068E+02    0.285717E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.426726E+02    0.292364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.439093E+02    0.307076E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.439915E+02    0.325578E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.428434E+02    0.342809E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.408670E+02    0.354148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.386519E+02    0.356845E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.365256E+02    0.378887E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.336531E+02    0.362878E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.323945E+02    0.336293E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.330685E+02    0.304861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.354229E+02    0.276459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.391767E+02    0.258088E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.431002E+02    0.258100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133745E+03   -0.463067E+02    0.276150E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.476769E+02    0.307577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.469872E+02    0.340479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.442101E+02    0.367064E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.403286E+02    0.380734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.380621E+02    0.454740E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.360575E+02    0.454658E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.375685E+02    0.440738E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.398251E+02    0.446149E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.397412E+02    0.463043E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.373602E+02    0.468098E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.354796E+02    0.476574E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.343201E+02    0.464601E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.341419E+02    0.450127E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.349286E+02    0.436471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.368105E+02    0.426571E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.388881E+02    0.424854E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.409039E+02    0.431145E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.421084E+02    0.444188E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.422938E+02    0.459446E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.412727E+02    0.473009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.394326E+02    0.481658E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.372539E+02    0.483068E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.353567E+02    0.502128E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.325223E+02    0.486002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.311055E+02    0.462567E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.316052E+02    0.436730E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.339250E+02    0.413715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.373315E+02    0.401829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.410484E+02    0.404388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.442637E+02    0.420613E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133006E+03   -0.459184E+02    0.446584E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132963E+03   -0.453617E+02    0.473273E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.426322E+02    0.494961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.390158E+02    0.505615E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.388191E+02    0.368299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.367909E+02    0.368904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.383230E+02    0.352795E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.406025E+02    0.357984E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.404067E+02    0.377463E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.381014E+02    0.383580E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.359158E+02    0.394255E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.349341E+02    0.380942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.348547E+02    0.364377E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.358373E+02    0.348340E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.376468E+02    0.337290E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.398487E+02    0.334323E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.417941E+02    0.340792E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.430131E+02    0.354621E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.430877E+02    0.372063E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.419447E+02    0.388060E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.400839E+02    0.397927E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.378910E+02    0.400050E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.358736E+02    0.420237E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.329361E+02    0.404901E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.316931E+02    0.379792E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.322895E+02    0.350498E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.347141E+02    0.324218E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.382557E+02    0.309175E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.421309E+02    0.310077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.451866E+02    0.327844E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133057E+03   -0.468547E+02    0.355601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133267E+03   -0.460529E+02    0.386750E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.431929E+02    0.411086E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.395519E+02    0.422839E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.401696E+02    0.255809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.380966E+02    0.257544E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.397330E+02    0.237537E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.420735E+02    0.242255E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.418032E+02    0.265626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.393568E+02    0.274599E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.372314E+02    0.287961E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.359481E+02    0.274312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.359350E+02    0.254596E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.370034E+02    0.235068E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.389225E+02    0.220655E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.413561E+02    0.214430E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.433595E+02    0.220854E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.445297E+02    0.236830E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.445289E+02    0.257670E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.433820E+02    0.277324E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.413931E+02    0.290655E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.391564E+02    0.294306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.369282E+02    0.319269E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.340181E+02    0.302816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.328105E+02    0.273405E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.334666E+02    0.238794E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.359871E+02    0.206394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.396758E+02    0.186127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.438387E+02    0.183130E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.470127E+02    0.201964E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132936E+03   -0.485498E+02    0.234530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133427E+03   -0.474524E+02    0.273545E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.445643E+02    0.304619E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.406673E+02    0.320680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690230.269217917     
  ps_ts2 prof sum =   689783.476751802     
  trcom prof sum =    689783.476751802     
  ps_ts2 cur sum  =   11725.8149666145     
  trcom cur sum  =    11725.8149666145     
  
  antenna # iant =            2
  powecha_use(iant) =    662822.850606244     
  ps_ts2 prof sum =   662433.884563412     
  trcom prof sum =    662433.884563411     
  ps_ts2 cur sum  =   13210.5756947766     
  trcom cur sum  =    13210.5756947766     
  
  antenna # iant =            3
  powecha_use(iant) =    521095.867434267     
  ps_ts2 prof sum =   520785.007721507     
  trcom prof sum =    520785.007721507     
  ps_ts2 cur sum  =   7844.63698573554     
  trcom cur sum  =    7844.63698573554     
  
  antenna # iant =            4
  powecha_use(iant) =    554617.858587403     
  ps_ts2 prof sum =   554320.053958461     
  trcom prof sum =    554320.053958461     
  ps_ts2 cur sum  =   10194.5526422288     
  trcom cur sum  =    10194.5526422288     
  
  antenna # iant =            5
  powecha_use(iant) =    549566.822678846     
  ps_ts2 prof sum =   549252.901704130     
  trcom prof sum =    549252.901704130     
  ps_ts2 cur sum  =   11927.4909327727     
  trcom cur sum  =    11927.4909327727     
  
  Total ECH heating:      2976575.32469931     
  Total Current Drive:    54903.0712221281     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2325
 TA= 2.65500E+00 CPU TIME= 1.59868E-01 SECONDS.  DT= 1.26587E-03
  
 TEC1=    2.65499999999997     
 TEC2=    2.65999999999997     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.30477027777738     
  %check_save_state: izleft hours =    73.6866666666667     
 --> plasma_hash("gframe"): TA= 2.655000E+00 NSTEP=  2325 Hash code:   60180811
 ->PRGCHK: bdy curvature ratio at t= 2.6600E+00 seconds is:  5.5006E-02
% MHDEQ: TG1=     2.655000 ; TG2=     2.660000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7575E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5006E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.655000 TO TG2=    2.660000 @ NSTEP     2325
   GFRAME TG2 MOMENTS CHECKSUM:  2.4776752564124D+04
 %MFRCHK - LABEL "RMC12", #       1= -1.97856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  2.59087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  8.44293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.68815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.34073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -4.05988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.20806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.58041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.75619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.16387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -1.83524E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.85826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.87817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.89469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.65057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  4.29313E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.37370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.04691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.04691E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6600E+00  2.6650E+00 total power(Watts):  2.9823E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.66000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.383570E+02    0.404766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.363390E+02    0.405069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.378622E+02    0.390167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.400311E+02    0.395671E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.399383E+02    0.413644E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.376438E+02    0.419351E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.354651E+02    0.429659E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.344943E+02    0.416411E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.342338E+02    0.401258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.352991E+02    0.386003E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.370964E+02    0.375808E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.391874E+02    0.373664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.412148E+02    0.379739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.424263E+02    0.392924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.425020E+02    0.409200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.414698E+02    0.424125E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.396195E+02    0.433772E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.374325E+02    0.435695E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.354338E+02    0.454994E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.325018E+02    0.439980E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.312665E+02    0.414901E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.318610E+02    0.387148E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.341890E+02    0.362871E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.375212E+02    0.349896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.414576E+02    0.350942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.445885E+02    0.367918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133091E+03   -0.462488E+02    0.394516E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133179E+03   -0.455650E+02    0.423408E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.429289E+02    0.446742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.390967E+02    0.457868E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.396865E+02    0.322217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.376371E+02    0.323197E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.391768E+02    0.305977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.414835E+02    0.311015E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.412963E+02    0.331537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.388718E+02    0.338856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.368551E+02    0.349844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.355866E+02    0.337105E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.354988E+02    0.319816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.366612E+02    0.301687E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.384852E+02    0.289406E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.407116E+02    0.285656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.427791E+02    0.291726E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.439165E+02    0.306871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.440004E+02    0.325297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.428534E+02    0.342486E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.409779E+02    0.353401E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.387594E+02    0.356099E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.366306E+02    0.378148E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.336640E+02    0.362569E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.324860E+02    0.335564E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.330741E+02    0.304713E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.354264E+02    0.276483E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.391794E+02    0.258183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.431034E+02    0.258192E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.463114E+02    0.276138E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132875E+03   -0.479017E+02    0.306441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.468887E+02    0.340502E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.441188E+02    0.366999E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.403417E+02    0.380324E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.381798E+02    0.454261E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.361700E+02    0.454197E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.375852E+02    0.440452E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.398430E+02    0.445871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.397601E+02    0.462796E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.374775E+02    0.467648E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.354985E+02    0.476342E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.343377E+02    0.464377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.340676E+02    0.450160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.351323E+02    0.435638E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.368268E+02    0.426208E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.390042E+02    0.424191E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.409223E+02    0.430740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.421267E+02    0.443870E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.423137E+02    0.459165E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.412935E+02    0.472741E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.394531E+02    0.481417E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.373713E+02    0.482678E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.353764E+02    0.502040E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.324482E+02    0.486015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.311209E+02    0.462371E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.316205E+02    0.436476E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.338497E+02    0.413664E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.373460E+02    0.401411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.411665E+02    0.403632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.442864E+02    0.420132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132841E+03   -0.460511E+02    0.446025E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133021E+03   -0.453843E+02    0.472979E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.426548E+02    0.494740E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.390371E+02    0.505518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.388305E+02    0.367942E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.368036E+02    0.368550E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.384284E+02    0.352058E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.406133E+02    0.357638E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.405203E+02    0.376698E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.381144E+02    0.383183E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.361147E+02    0.393161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.348580E+02    0.380953E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.347762E+02    0.364480E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.358468E+02    0.348052E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.376556E+02    0.337018E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.398599E+02    0.334037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.418037E+02    0.340482E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.430242E+02    0.354263E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.431004E+02    0.371665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.420623E+02    0.387293E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.401007E+02    0.397480E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.380020E+02    0.399300E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.358899E+02    0.419851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.331240E+02    0.403839E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.317878E+02    0.379058E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.322981E+02    0.350235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.346342E+02    0.324496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.382626E+02    0.308984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.421384E+02    0.309863E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.453015E+02    0.327120E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133114E+03   -0.468675E+02    0.355194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.459588E+02    0.386557E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.433162E+02    0.410339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.395695E+02    0.422415E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.402666E+02    0.255279E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.381005E+02    0.257634E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.396426E+02    0.238371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.421730E+02    0.241753E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.419043E+02    0.265087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.393608E+02    0.274606E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.372365E+02    0.287900E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.361277E+02    0.273098E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.359370E+02    0.254705E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.371816E+02    0.233823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.391070E+02    0.219396E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.413582E+02    0.214635E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.433615E+02    0.221049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.446326E+02    0.236345E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134268E+03   -0.446336E+02    0.257165E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.433865E+02    0.277318E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.413984E+02    0.290566E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.391625E+02    0.294184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.369359E+02    0.319042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.340244E+02    0.302683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.328141E+02    0.273439E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.335504E+02    0.238233E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.359889E+02    0.206624E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.398583E+02    0.184834E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.438403E+02    0.183452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133635E+03   -0.471169E+02    0.201514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133195E+03   -0.484464E+02    0.235313E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133473E+03   -0.474569E+02    0.273550E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.445715E+02    0.304421E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.407733E+02    0.319951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696632.999601618     
  ps_ts2 prof sum =   696223.042257337     
  trcom prof sum =    696223.042257337     
  ps_ts2 cur sum  =   11813.5356898300     
  trcom cur sum  =    11813.5356898300     
  
  antenna # iant =            2
  powecha_use(iant) =    661293.308105038     
  ps_ts2 prof sum =   660918.884396856     
  trcom prof sum =    660918.884396855     
  ps_ts2 cur sum  =   13159.3777352024     
  trcom cur sum  =    13159.3777352024     
  
  antenna # iant =            3
  powecha_use(iant) =    521582.794835007     
  ps_ts2 prof sum =   521247.674733396     
  trcom prof sum =    521247.674733397     
  ps_ts2 cur sum  =   7834.56509410595     
  trcom cur sum  =    7834.56509410596     
  
  antenna # iant =            4
  powecha_use(iant) =    552527.880975132     
  ps_ts2 prof sum =   552222.100911082     
  trcom prof sum =    552222.100911081     
  ps_ts2 cur sum  =   10140.3000966728     
  trcom cur sum  =    10140.3000966728     
  
  antenna # iant =            5
  powecha_use(iant) =    550234.004549500     
  ps_ts2 prof sum =   549961.542280278     
  trcom prof sum =    549961.542280277     
  ps_ts2 cur sum  =   11922.2056142561     
  trcom cur sum  =    11922.2056142561     
  
  Total ECH heating:      2980573.24457895     
  Total Current Drive:    54869.9842300672     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2329
 TA= 2.66000E+00 CPU TIME= 1.61623E-01 SECONDS.  DT= 2.17318E-04
  
 TEC1=    2.65999999999997     
 TEC2=    2.66499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.31942833333324     
  %check_save_state: izleft hours =    73.6722222222222     
 --> plasma_hash("gframe"): TA= 2.660000E+00 NSTEP=  2329 Hash code:   84647033
 ->PRGCHK: bdy curvature ratio at t= 2.6650E+00 seconds is:  5.4993E-02
% MHDEQ: TG1=     2.660000 ; TG2=     2.665000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7574E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4993E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.660000 TO TG2=    2.665000 @ NSTEP     2329
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782069482948D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6650E+00  2.6700E+00 total power(Watts):  2.9912E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.66500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.383719E+02    0.404339E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.363539E+02    0.404669E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.378758E+02    0.389760E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.401455E+02    0.394921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.399543E+02    0.413212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.376593E+02    0.418950E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.356690E+02    0.428740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.345087E+02    0.416049E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.344271E+02    0.400180E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.352209E+02    0.386008E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.371075E+02    0.375449E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.392980E+02    0.372915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.412277E+02    0.379335E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.424413E+02    0.392468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.425184E+02    0.408732E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.414862E+02    0.423710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.396356E+02    0.433418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.375465E+02    0.435100E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.355449E+02    0.454516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.326928E+02    0.439176E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.312808E+02    0.414564E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.318725E+02    0.386806E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.341097E+02    0.362999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.377195E+02    0.348722E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.414678E+02    0.350611E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.446019E+02    0.367520E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133151E+03   -0.462654E+02    0.394005E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133239E+03   -0.455839E+02    0.422913E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.428406E+02    0.446622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.391166E+02    0.457599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.396945E+02    0.321968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.376445E+02    0.322966E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.392785E+02    0.305270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.415901E+02    0.310297E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.414007E+02    0.330808E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.389767E+02    0.338121E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.368647E+02    0.349549E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.355949E+02    0.336858E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.356838E+02    0.318573E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.365774E+02    0.302087E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.385839E+02    0.288761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.408135E+02    0.285029E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.427848E+02    0.291609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.440266E+02    0.306185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.440090E+02    0.325017E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.428632E+02    0.342164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.409884E+02    0.353066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.387709E+02    0.355771E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.366426E+02    0.377782E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.336722E+02    0.362282E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.324934E+02    0.335328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.330803E+02    0.304566E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.356056E+02    0.275246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.390900E+02    0.258892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.432061E+02    0.257656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.463159E+02    0.276116E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132929E+03   -0.479099E+02    0.306198E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133015E+03   -0.471183E+02    0.339367E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.441297E+02    0.366596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.403543E+02    0.379926E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.381979E+02    0.454000E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.361877E+02    0.453947E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.376026E+02    0.440142E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.398607E+02    0.445570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.397796E+02    0.462524E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.374950E+02    0.467391E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.355176E+02    0.476107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.343554E+02    0.464146E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.342672E+02    0.449403E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.351456E+02    0.435333E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.369378E+02    0.425559E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.390216E+02    0.423784E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.409394E+02    0.430346E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.422517E+02    0.443304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.423334E+02    0.458876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.414197E+02    0.472288E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.395769E+02    0.480985E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.373917E+02    0.482437E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.353963E+02    0.501990E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.324665E+02    0.485837E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.312199E+02    0.461917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.316349E+02    0.436217E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.338636E+02    0.413301E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.374552E+02    0.400677E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.411821E+02    0.403177E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133544E+03   -0.445182E+02    0.419147E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132900E+03   -0.460718E+02    0.445641E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132857E+03   -0.455198E+02    0.472493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.428957E+02    0.494254E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.390584E+02    0.505468E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.389390E+02    0.367206E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.369068E+02    0.367817E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.384385E+02    0.351745E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.407246E+02    0.356893E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.405331E+02    0.376303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.381266E+02    0.382800E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.361282E+02    0.392766E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.348700E+02    0.380593E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.347860E+02    0.364170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.357655E+02    0.348215E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.376646E+02    0.336743E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.398687E+02    0.333743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.418133E+02    0.340183E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.430347E+02    0.353915E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.431130E+02    0.371259E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.420768E+02    0.386847E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.402163E+02    0.396719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.380163E+02    0.398884E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.358100E+02    0.419788E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.330476E+02    0.403815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.317987E+02    0.378731E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.323909E+02    0.349509E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.346418E+02    0.324293E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.382694E+02    0.308786E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.421458E+02    0.309644E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.453108E+02    0.326815E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133393E+03   -0.467701E+02    0.355159E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133163E+03   -0.461938E+02    0.385478E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.433328E+02    0.409863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.396866E+02    0.421735E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.402700E+02    0.255358E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.380121E+02    0.258354E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.398307E+02    0.237151E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.421757E+02    0.241867E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.419085E+02    0.265125E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.393661E+02    0.274606E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.371479E+02    0.288410E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.360434E+02    0.273735E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.360272E+02    0.254129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.371835E+02    0.233955E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.391094E+02    0.219552E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.413611E+02    0.214804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.434618E+02    0.220512E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.446351E+02    0.236470E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.446368E+02    0.257238E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.433909E+02    0.277295E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.414044E+02    0.290449E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.391684E+02    0.294061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.368518E+02    0.319331E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.340301E+02    0.302534E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.328177E+02    0.273466E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.335533E+02    0.238357E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.359906E+02    0.206813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.398598E+02    0.185096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.439387E+02    0.182951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.471183E+02    0.201733E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133237E+03   -0.484483E+02    0.235449E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133081E+03   -0.476751E+02    0.272451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.445779E+02    0.304236E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.407816E+02    0.319706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.66 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    703027.850008585     
  ps_ts2 prof sum =   702628.971100673     
  trcom prof sum =    702628.971100673     
  ps_ts2 cur sum  =   11899.7568756274     
  trcom cur sum  =    11899.7568756274     
  
  antenna # iant =            2
  powecha_use(iant) =    662840.905069667     
  ps_ts2 prof sum =   662480.112135410     
  trcom prof sum =    662480.112135409     
  ps_ts2 cur sum  =   13163.8225691187     
  trcom cur sum  =    13163.8225691187     
  
  antenna # iant =            3
  powecha_use(iant) =    520810.579253253     
  ps_ts2 prof sum =   520500.683569496     
  trcom prof sum =    520500.683569496     
  ps_ts2 cur sum  =   7808.34530332619     
  trcom cur sum  =    7808.34530332619     
  
  antenna # iant =            4
  powecha_use(iant) =    554355.940641765     
  ps_ts2 prof sum =   554013.013847730     
  trcom prof sum =    554013.013847730     
  ps_ts2 cur sum  =   10154.0614577620     
  trcom cur sum  =    10154.0614577620     
  
  antenna # iant =            5
  powecha_use(iant) =    550140.295981042     
  ps_ts2 prof sum =   549835.504662439     
  trcom prof sum =    549835.504662438     
  ps_ts2 cur sum  =   11895.5365486649     
  trcom cur sum  =    11895.5365486649     
  
  Total ECH heating:      2989458.28531575     
  Total Current Drive:    54921.5227544991     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2338
 TA= 2.66500E+00 CPU TIME= 1.59567E-01 SECONDS.  DT= 8.60002E-04
  
 TEC1=    2.66499999999996     
 TEC2=    2.66999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.33420000000001     
  %check_save_state: izleft hours =    73.6575000000000     
 --> plasma_hash("gframe"): TA= 2.665000E+00 NSTEP=  2338 Hash code:  102217114
 ->PRGCHK: bdy curvature ratio at t= 2.6700E+00 seconds is:  5.4987E-02
% MHDEQ: TG1=     2.665000 ; TG2=     2.670000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7573E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4987E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.665000 TO TG2=    2.670000 @ NSTEP     2338
   GFRAME TG2 MOMENTS CHECKSUM:  2.4787386401772D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.51056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       2=  8.03038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.43905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  7.10116E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.86630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.23246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.32896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -5.52507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.04845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.06635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.79720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.59387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -1.37302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.56535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.02778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.46282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.15028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  4.04860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  3.88668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.97353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.97353E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6700E+00  2.6750E+00 total power(Watts):  2.9887E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.67000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.383871E+02    0.403943E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.363683E+02    0.404292E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.378896E+02    0.389384E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.401604E+02    0.394520E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.400719E+02    0.412512E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.376751E+02    0.418581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.356850E+02    0.428423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.344327E+02    0.416020E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.344408E+02    0.399823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.354156E+02    0.384911E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.370286E+02    0.375487E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.393108E+02    0.372563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.412413E+02    0.378956E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.425572E+02    0.391735E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.426407E+02    0.408012E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.416087E+02    0.423035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.397555E+02    0.432804E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.375642E+02    0.434778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.355626E+02    0.454315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.326198E+02    0.439222E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.313779E+02    0.413901E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.318843E+02    0.386489E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.341200E+02    0.362722E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.377295E+02    0.348450E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.415801E+02    0.349893E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133695E+03   -0.448287E+02    0.366433E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132988E+03   -0.463929E+02    0.393245E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133076E+03   -0.457144E+02    0.422207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.428594E+02    0.446323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.392352E+02    0.457168E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.398002E+02    0.321263E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.375598E+02    0.323249E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.392860E+02    0.305115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.415985E+02    0.310118E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.414149E+02    0.330543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.389865E+02    0.337875E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.368750E+02    0.349275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.357842E+02    0.335667E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.356021E+02    0.318911E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.365854E+02    0.301942E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.385903E+02    0.288708E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.408199E+02    0.284989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.427910E+02    0.291527E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.440306E+02    0.306027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.441228E+02    0.324315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.429769E+02    0.341448E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.409996E+02    0.352753E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.387808E+02    0.355476E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.366548E+02    0.377444E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.338574E+02    0.361139E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.325018E+02    0.335119E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.331711E+02    0.303876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.355225E+02    0.275901E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.392804E+02    0.257730E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.432107E+02    0.257755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.463214E+02    0.276126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133202E+03   -0.478098E+02    0.306456E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133071E+03   -0.471301E+02    0.339043E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.442489E+02    0.365874E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.404683E+02    0.379196E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.382157E+02    0.453786E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.362049E+02    0.453747E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.377177E+02    0.439608E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.399813E+02    0.445061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.399017E+02    0.462104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.375154E+02    0.467207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.355363E+02    0.475951E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.342806E+02    0.464203E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.342798E+02    0.449206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.350693E+02    0.435316E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.369538E+02    0.425224E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.390381E+02    0.423414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.410608E+02    0.429722E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.422688E+02    0.442987E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.424605E+02    0.458444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.414407E+02    0.472077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.395968E+02    0.480820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.374114E+02    0.482289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.354157E+02    0.501991E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.326630E+02    0.485334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.312390E+02    0.461755E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.317355E+02    0.435673E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.340576E+02    0.412294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.374703E+02    0.400286E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.411979E+02    0.402757E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.444270E+02    0.418953E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132959E+03   -0.460924E+02    0.445289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132914E+03   -0.455422E+02    0.472262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.428091E+02    0.494257E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.390792E+02    0.505474E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.389504E+02    0.366877E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.369185E+02    0.367506E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.384494E+02    0.351453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.407362E+02    0.356571E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.405464E+02    0.375940E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.382366E+02    0.382071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.360483E+02    0.392760E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.350627E+02    0.379494E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.347954E+02    0.363889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.357751E+02    0.347957E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.377676E+02    0.336034E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.398780E+02    0.333496E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.419252E+02    0.339441E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.431511E+02    0.353183E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.432314E+02    0.370530E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.420914E+02    0.386440E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.402315E+02    0.396317E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.380303E+02    0.398501E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.360132E+02    0.418819E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.330635E+02    0.403467E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.318100E+02    0.378425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.323997E+02    0.349268E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.346523E+02    0.324075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.383707E+02    0.308101E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.421540E+02    0.309467E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.453205E+02    0.326557E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133007E+03   -0.470025E+02    0.354065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.460995E+02    0.385335E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133891E+03   -0.435641E+02    0.408857E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.397032E+02    0.421358E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.402742E+02    0.255473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.380156E+02    0.258463E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.398341E+02    0.237314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.421795E+02    0.242019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.419134E+02    0.265201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.394650E+02    0.274038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.371567E+02    0.288348E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.360482E+02    0.273772E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.360311E+02    0.254246E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.370989E+02    0.234835E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.390217E+02    0.220477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.414595E+02    0.214302E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.434651E+02    0.220716E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.446392E+02    0.236634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.446417E+02    0.257339E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.434976E+02    0.276744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.415087E+02    0.289838E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.392699E+02    0.293429E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.370427E+02    0.318125E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.340373E+02    0.302415E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.329049E+02    0.272868E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.335573E+02    0.238519E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.359932E+02    0.207062E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.398627E+02    0.185430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.439411E+02    0.183301E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.471214E+02    0.202015E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132849E+03   -0.486632E+02    0.234389E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.475741E+02    0.273014E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.446902E+02    0.303581E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.407902E+02    0.319480E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    701261.500610978     
  ps_ts2 prof sum =   700863.476022912     
  trcom prof sum =    700863.476022913     
  ps_ts2 cur sum  =   11849.0342239261     
  trcom cur sum  =    11849.0342239261     
  
  antenna # iant =            2
  powecha_use(iant) =    665452.496694862     
  ps_ts2 prof sum =   665090.430608161     
  trcom prof sum =    665090.430608159     
  ps_ts2 cur sum  =   13198.7573065622     
  trcom cur sum  =    13198.7573065622     
  
  antenna # iant =            3
  powecha_use(iant) =    521416.114800626     
  ps_ts2 prof sum =   521094.549621648     
  trcom prof sum =    521094.549621649     
  ps_ts2 cur sum  =   7800.91294609348     
  trcom cur sum  =    7800.91294609348     
  
  antenna # iant =            4
  powecha_use(iant) =    551740.238502813     
  ps_ts2 prof sum =   551408.239640768     
  trcom prof sum =    551408.239640768     
  ps_ts2 cur sum  =   10091.1143840266     
  trcom cur sum  =    10091.1143840266     
  
  antenna # iant =            5
  powecha_use(iant) =    548835.926408655     
  ps_ts2 prof sum =   548520.537292428     
  trcom prof sum =    548520.537292428     
  ps_ts2 cur sum  =   11853.7461051384     
  trcom cur sum  =    11853.7461051384     
  
  Total ECH heating:      2986977.23318592     
  Total Current Drive:    54793.5649657468     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2343
 TA= 2.67000E+00 CPU TIME= 1.59366E-01 SECONDS.  DT= 5.19380E-05
  
 TEC1=    2.66999999999996     
 TEC2=    2.67499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.35001611111102     
  %check_save_state: izleft hours =    73.6416666666667     
 --> plasma_hash("gframe"): TA= 2.670000E+00 NSTEP=  2343 Hash code:   61100862
 ->PRGCHK: bdy curvature ratio at t= 2.6750E+00 seconds is:  5.4988E-02
% MHDEQ: TG1=     2.670000 ; TG2=     2.675000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7571E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4988E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.670000 TO TG2=    2.675000 @ NSTEP     2343
   GFRAME TG2 MOMENTS CHECKSUM:  2.4792703320596D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6750E+00  2.6800E+00 total power(Watts):  2.9811E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.67500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.385020E+02    0.403239E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.364791E+02    0.403590E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.379048E+02    0.389030E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.401770E+02    0.394131E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.400901E+02    0.412116E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.376932E+02    0.418222E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.357022E+02    0.428095E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.344481E+02    0.415686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.343657E+02    0.399830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.354299E+02    0.384577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.372294E+02    0.374392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.393249E+02    0.372231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.413593E+02    0.378224E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134504E+03   -0.425784E+02    0.391319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.426594E+02    0.407586E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.416281E+02    0.422640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.397742E+02    0.432464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.375825E+02    0.434472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.355812E+02    0.454127E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.326371E+02    0.438983E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.313931E+02    0.413590E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.318973E+02    0.386180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.341322E+02    0.362446E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.377416E+02    0.348171E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.415933E+02    0.349587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133976E+03   -0.447369E+02    0.366415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133048E+03   -0.464121E+02    0.392783E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133137E+03   -0.457357E+02    0.421757E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.428808E+02    0.446015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.392556E+02    0.456956E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.398108E+02    0.321040E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.377571E+02    0.322030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.392951E+02    0.304958E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.416085E+02    0.309923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.414265E+02    0.330272E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.389982E+02    0.337591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.367938E+02    0.349446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.357950E+02    0.335424E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.356116E+02    0.318716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.365926E+02    0.301823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.385984E+02    0.288635E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.408278E+02    0.284953E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.427996E+02    0.291444E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.440448E+02    0.305820E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.441345E+02    0.324046E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.429898E+02    0.341142E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.410127E+02    0.352442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.387938E+02    0.355180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.365753E+02    0.377501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.337821E+02    0.361300E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.325119E+02    0.334902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.331798E+02    0.303743E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.355290E+02    0.275923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.392864E+02    0.257823E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.432177E+02    0.257853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.464349E+02    0.275596E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133257E+03   -0.478208E+02    0.306252E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133350E+03   -0.470344E+02    0.339103E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.442642E+02    0.365507E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.404842E+02    0.378818E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.382356E+02    0.453569E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.362236E+02    0.453552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.377365E+02    0.439318E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.400008E+02    0.444794E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.399228E+02    0.461907E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.375358E+02    0.467039E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.356510E+02    0.475617E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.344843E+02    0.463583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.343012E+02    0.449002E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.352730E+02    0.434473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.369720E+02    0.424874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.391567E+02    0.422767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.410803E+02    0.429347E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.422910E+02    0.442667E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.424822E+02    0.458205E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.414627E+02    0.471894E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.396186E+02    0.480682E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.375319E+02    0.481987E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.355321E+02    0.501864E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.326819E+02    0.485266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.312566E+02    0.461615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.317529E+02    0.435415E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.340735E+02    0.411953E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.374862E+02    0.399919E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.413188E+02    0.402038E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.444472E+02    0.418516E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132797E+03   -0.462281E+02    0.444715E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132972E+03   -0.455665E+02    0.472038E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.428329E+02    0.494165E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.392049E+02    0.505369E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.389605E+02    0.366563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.369314E+02    0.367194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.384619E+02    0.351164E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.407495E+02    0.356257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.405612E+02    0.375587E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.382518E+02    0.381714E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.362503E+02    0.391697E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.350768E+02    0.379170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.349881E+02    0.362749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.359688E+02    0.346783E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.377791E+02    0.335771E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.399873E+02    0.332775E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.419377E+02    0.339150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.431644E+02    0.352857E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.432465E+02    0.370159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.422115E+02    0.385720E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.402483E+02    0.395923E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.381438E+02    0.397791E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.360305E+02    0.418476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.330782E+02    0.403134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.318228E+02    0.378130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.324111E+02    0.349023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.347465E+02    0.323377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.383803E+02    0.307927E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.422648E+02    0.308775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.455458E+02    0.325388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133066E+03   -0.470180E+02    0.353685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133504E+03   -0.461172E+02    0.384900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.434761E+02    0.408702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.397217E+02    0.420977E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.402832E+02    0.255562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.382044E+02    0.257269E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.398404E+02    0.237462E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.421855E+02    0.242161E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.419195E+02    0.265270E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.394687E+02    0.274086E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.373468E+02    0.287142E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.360554E+02    0.273806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.360375E+02    0.254366E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.371046E+02    0.234989E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.390261E+02    0.220680E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.414642E+02    0.214511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.434711E+02    0.220906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.446451E+02    0.236793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.446480E+02    0.257439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.435051E+02    0.276755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.415177E+02    0.289762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.392781E+02    0.293343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.370527E+02    0.317919E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.341304E+02    0.301728E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.329123E+02    0.272912E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.335620E+02    0.238666E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.360846E+02    0.206520E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.397758E+02    0.186547E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.439460E+02    0.183635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133748E+03   -0.471260E+02    0.202290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132887E+03   -0.486717E+02    0.234545E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133394E+03   -0.475817E+02    0.273041E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.446998E+02    0.303404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.408008E+02    0.319256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697347.145667444     
  ps_ts2 prof sum =   696924.636867670     
  trcom prof sum =    696924.636867670     
  ps_ts2 cur sum  =   11774.8733784718     
  trcom cur sum  =    11774.8733784718     
  
  antenna # iant =            2
  powecha_use(iant) =    661933.140417420     
  ps_ts2 prof sum =   661521.407424795     
  trcom prof sum =    661521.407424794     
  ps_ts2 cur sum  =   13118.9458957467     
  trcom cur sum  =    13118.9458957467     
  
  antenna # iant =            3
  powecha_use(iant) =    521486.303730889     
  ps_ts2 prof sum =   521188.563174770     
  trcom prof sum =    521188.563174771     
  ps_ts2 cur sum  =   7793.07903346844     
  trcom cur sum  =    7793.07903346845     
  
  antenna # iant =            4
  powecha_use(iant) =    551209.257898255     
  ps_ts2 prof sum =   550920.786383000     
  trcom prof sum =    550920.786382999     
  ps_ts2 cur sum  =   10074.3235583709     
  trcom cur sum  =    10074.3235583709     
  
  antenna # iant =            5
  powecha_use(iant) =    549172.895879242     
  ps_ts2 prof sum =   548869.052717340     
  trcom prof sum =    548869.052717339     
  ps_ts2 cur sum  =   11851.9787432213     
  trcom cur sum  =    11851.9787432214     
  
  Total ECH heating:      2979424.44656757     
  Total Current Drive:    54613.2006092792     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2358
 TA= 2.67500E+00 CPU TIME= 1.61964E-01 SECONDS.  DT= 6.05025E-04
  
 TEC1=    2.67499999999996     
 TEC2=    2.67999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.36297194444433     
  %check_save_state: izleft hours =    73.6286111111111     
 --> plasma_hash("gframe"): TA= 2.675000E+00 NSTEP=  2358 Hash code:  103534491
 ->PRGCHK: bdy curvature ratio at t= 2.6800E+00 seconds is:  5.4995E-02
% MHDEQ: TG1=     2.675000 ; TG2=     2.680000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7570E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4995E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.675000 TO TG2=    2.680000 @ NSTEP     2358
   GFRAME TG2 MOMENTS CHECKSUM:  2.4798020239420D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.03598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.02268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  5.77599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.59493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.86072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.73293E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.31735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       5= -6.97214E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  5.09093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.55866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.83770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.01856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  4.60360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.27606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.17553E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.03630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.65617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.80709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.39331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.93045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.93045E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.6800E+00  2.6850E+00 total power(Watts):  2.9883E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.68000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.385158E+02    0.402867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.364925E+02    0.403235E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.380140E+02    0.388315E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.402915E+02    0.393416E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.401049E+02    0.411733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.378046E+02    0.417568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.358105E+02    0.427503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.346448E+02    0.414707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.343780E+02    0.399502E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.354412E+02    0.384254E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.372406E+02    0.374065E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.394352E+02    0.371508E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.413718E+02    0.377862E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.425922E+02    0.390921E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.426745E+02    0.407175E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.416439E+02    0.422261E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.397898E+02    0.432149E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.375999E+02    0.434191E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.355967E+02    0.453952E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.326508E+02    0.438755E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.314054E+02    0.413288E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.319929E+02    0.385479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.342312E+02    0.361737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.378456E+02    0.347453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.416033E+02    0.349280E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134032E+03   -0.447486E+02    0.366055E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133107E+03   -0.464274E+02    0.392335E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133196E+03   -0.457532E+02    0.421328E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.430050E+02    0.445504E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.392724E+02    0.456768E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.398184E+02    0.320798E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.377646E+02    0.321805E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.393016E+02    0.304786E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.417151E+02    0.309222E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.414350E+02    0.330018E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.390068E+02    0.337330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.369893E+02    0.348289E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.357126E+02    0.335669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.356185E+02    0.318520E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.367804E+02    0.300582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.386038E+02    0.288565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.408330E+02    0.284893E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.429069E+02    0.290806E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.440519E+02    0.305629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.441430E+02    0.323777E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.429993E+02    0.340843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.411190E+02    0.351742E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.389007E+02    0.354470E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.367747E+02    0.376393E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.337925E+02    0.361031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.326034E+02    0.334182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.331850E+02    0.303614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.355334E+02    0.275937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.392902E+02    0.257893E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.432208E+02    0.257910E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133759E+03   -0.464399E+02    0.275573E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132870E+03   -0.480476E+02    0.305112E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133406E+03   -0.470445E+02    0.338774E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.442754E+02    0.365159E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.404965E+02    0.378462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.383518E+02    0.453137E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.363355E+02    0.453121E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.377527E+02    0.439041E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.400177E+02    0.444518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.399401E+02    0.461730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.376517E+02    0.466675E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.356681E+02    0.475507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.345001E+02    0.463446E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.342237E+02    0.449093E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.352875E+02    0.434204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.369869E+02    0.424549E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.391719E+02    0.422414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.410963E+02    0.428996E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.424153E+02    0.442125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.425000E+02    0.457994E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.414812E+02    0.471732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.396369E+02    0.480565E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.375492E+02    0.481881E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.355497E+02    0.501899E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.326075E+02    0.485412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.312709E+02    0.461498E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.317667E+02    0.435180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.339967E+02    0.411963E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.374999E+02    0.399552E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.413330E+02    0.401642E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.446830E+02    0.417566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132855E+03   -0.462469E+02    0.444374E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132806E+03   -0.456998E+02    0.471682E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133606E+03   -0.430719E+02    0.493789E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.392198E+02    0.505404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.390729E+02    0.365839E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.368476E+02    0.367298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.385677E+02    0.350446E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.408603E+02    0.355546E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.406740E+02    0.374866E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.382636E+02    0.381372E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.362653E+02    0.391338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.349965E+02    0.379251E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.349076E+02    0.362902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.359777E+02    0.346524E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.377875E+02    0.335518E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.399960E+02    0.332504E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.419466E+02    0.338872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.431748E+02    0.352539E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.432584E+02    0.369801E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.422246E+02    0.385334E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.403639E+02    0.395200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.381573E+02    0.397421E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.360449E+02    0.418140E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.332667E+02    0.402087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.319174E+02    0.377423E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.324191E+02    0.348789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.347538E+02    0.323177E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.383870E+02    0.307743E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.422717E+02    0.308570E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.454481E+02    0.325547E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133344E+03   -0.469193E+02    0.353695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.463528E+02    0.383843E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.434914E+02    0.408282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.397332E+02    0.420625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.403794E+02    0.255018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.382083E+02    0.257348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.398441E+02    0.237571E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.421885E+02    0.242263E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.419234E+02    0.265303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.394768E+02    0.274072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.373523E+02    0.287085E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.362362E+02    0.272590E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.360407E+02    0.254446E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.371073E+02    0.235109E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.390286E+02    0.220820E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.414671E+02    0.214687E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.434729E+02    0.221056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.447494E+02    0.236259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.447542E+02    0.256892E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.435099E+02    0.276737E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.415234E+02    0.289678E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.392839E+02    0.293239E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.370601E+02    0.317711E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.341374E+02    0.301599E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.329148E+02    0.272938E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.335665E+02    0.238770E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.360860E+02    0.206716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.397772E+02    0.186830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.439475E+02    0.183935E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.471273E+02    0.202525E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133148E+03   -0.485677E+02    0.235280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.475816E+02    0.273060E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.447074E+02    0.303221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.409075E+02    0.318539E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696262.996653139     
  ps_ts2 prof sum =   695864.882582039     
  trcom prof sum =    695864.882582040     
  ps_ts2 cur sum  =   11745.9611795581     
  trcom cur sum  =    11745.9611795581     
  
  antenna # iant =            2
  powecha_use(iant) =    665245.387980873     
  ps_ts2 prof sum =   664868.587638114     
  trcom prof sum =    664868.587638113     
  ps_ts2 cur sum  =   13176.3906334628     
  trcom cur sum  =    13176.3906334628     
  
  antenna # iant =            3
  powecha_use(iant) =    520714.970117747     
  ps_ts2 prof sum =   520394.017834905     
  trcom prof sum =    520394.017834906     
  ps_ts2 cur sum  =   7768.95913264508     
  trcom cur sum  =    7768.95913264509     
  
  antenna # iant =            4
  powecha_use(iant) =    555370.839083226     
  ps_ts2 prof sum =   555059.027712900     
  trcom prof sum =    555059.027712901     
  ps_ts2 cur sum  =   10142.5687486698     
  trcom cur sum  =    10142.5687486697     
  
  antenna # iant =            5
  powecha_use(iant) =    550736.644829875     
  ps_ts2 prof sum =   550426.750986554     
  trcom prof sum =    550426.750986553     
  ps_ts2 cur sum  =   11879.8956270784     
  trcom cur sum  =    11879.8956270784     
  
  Total ECH heating:      2986613.26675451     
  Total Current Drive:    54713.7753214141     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2364
 TA= 2.68000E+00 CPU TIME= 1.59444E-01 SECONDS.  DT= 4.31794E-05
  
 TEC1=    2.67999999999996     
 TEC2=    2.68499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.37767611111076     
  %check_save_state: izleft hours =    73.6138888888889     
 --> plasma_hash("gframe"): TA= 2.680000E+00 NSTEP=  2364 Hash code:   72133328
 ->PRGCHK: bdy curvature ratio at t= 2.6850E+00 seconds is:  5.5009E-02
% MHDEQ: TG1=     2.680000 ; TG2=     2.685000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7568E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5009E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.680000 TO TG2=    2.685000 @ NSTEP     2364
   GFRAME TG2 MOMENTS CHECKSUM:  2.4803337158244D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6850E+00  2.6900E+00 total power(Watts):  2.9838E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.68500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.385295E+02    0.402473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.365055E+02    0.402859E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.380262E+02    0.387927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.403046E+02    0.393008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.401192E+02    0.411327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.378193E+02    0.417195E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.358249E+02    0.427188E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.346579E+02    0.414357E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.345712E+02    0.398417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.353603E+02    0.384289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.372512E+02    0.373718E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.394455E+02    0.371142E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.413835E+02    0.377466E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.426051E+02    0.390497E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.427959E+02    0.406423E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.417643E+02    0.421589E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.398056E+02    0.431804E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.377103E+02    0.433601E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.357064E+02    0.453535E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.327540E+02    0.438220E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.315026E+02    0.412616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.320041E+02    0.385142E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.342401E+02    0.361441E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.378543E+02    0.347148E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.416163E+02    0.348930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.447599E+02    0.365657E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.463309E+02    0.392154E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.458821E+02    0.420617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.430234E+02    0.445199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.393912E+02    0.456339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.398254E+02    0.320531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.377716E+02    0.321546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.394040E+02    0.304036E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.417214E+02    0.308974E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.415437E+02    0.329256E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.391117E+02    0.336571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.369980E+02    0.347987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.357167E+02    0.335422E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.358045E+02    0.317227E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.367854E+02    0.300413E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.385136E+02    0.289026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.409353E+02    0.284217E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.429121E+02    0.290655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.441620E+02    0.304892E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.441499E+02    0.323482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.431120E+02    0.340079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.411332E+02    0.351394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.389100E+02    0.354147E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.367855E+02    0.376038E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.338013E+02    0.360743E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.326103E+02    0.333934E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.331909E+02    0.303432E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.355379E+02    0.275885E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.392935E+02    0.257899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.432237E+02    0.257923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.464437E+02    0.275489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132925E+03   -0.480547E+02    0.304834E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133022E+03   -0.472744E+02    0.337588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.442868E+02    0.364762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.405081E+02    0.378075E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.383672E+02    0.452938E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.363509E+02    0.452937E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.377665E+02    0.438775E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.401367E+02    0.443999E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.399570E+02    0.461547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.376685E+02    0.466526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.356847E+02    0.475390E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.345152E+02    0.463316E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.344234E+02    0.448354E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.353025E+02    0.433909E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.370978E+02    0.423911E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.391868E+02    0.422042E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.412168E+02    0.428360E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.424322E+02    0.441806E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.426257E+02    0.457563E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.416060E+02    0.471389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.397585E+02    0.480256E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.375663E+02    0.481778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.355670E+02    0.501912E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.326240E+02    0.485324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.312855E+02    0.461368E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.317792E+02    0.434935E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.340126E+02    0.411599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.376092E+02    0.398825E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.413471E+02    0.401219E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.445898E+02    0.417382E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132913E+03   -0.462656E+02    0.444024E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132863E+03   -0.457198E+02    0.471483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.429822E+02    0.493833E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.392421E+02    0.505430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.390835E+02    0.365486E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.370458E+02    0.366150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.385766E+02    0.350135E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.408701E+02    0.355202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.406854E+02    0.374485E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.382737E+02    0.381003E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.362742E+02    0.390982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.350074E+02    0.378908E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.349177E+02    0.362593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.358942E+02    0.346706E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.377952E+02    0.335234E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.400039E+02    0.332210E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.420575E+02    0.338106E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.431849E+02    0.352177E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.432697E+02    0.369407E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.422374E+02    0.384911E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.403764E+02    0.394800E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.381701E+02    0.397030E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.361530E+02    0.417473E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.331905E+02    0.402104E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.319264E+02    0.377117E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.325121E+02    0.348047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.347601E+02    0.322936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.383925E+02    0.307523E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.422778E+02    0.308334E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.454557E+02    0.325235E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132959E+03   -0.471513E+02    0.352545E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133178E+03   -0.463674E+02    0.383374E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.435066E+02    0.407837E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.398531E+02    0.419943E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.403823E+02    0.255034E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.382117E+02    0.257362E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.397519E+02    0.238337E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.422931E+02    0.241651E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.420258E+02    0.264682E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.394804E+02    0.274016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.373562E+02    0.286962E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.361516E+02    0.273166E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.362195E+02    0.253148E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.372873E+02    0.233787E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.392140E+02    0.219524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.414681E+02    0.214866E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.435716E+02    0.220523E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.447513E+02    0.236347E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134268E+03   -0.447569E+02    0.256913E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.435138E+02    0.276655E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.415282E+02    0.289540E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.392883E+02    0.293086E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.369740E+02    0.317974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.341418E+02    0.301436E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.329196E+02    0.272909E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.336495E+02    0.238148E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.360868E+02    0.206938E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.397770E+02    0.187148E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.439473E+02    0.184274E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133607E+03   -0.472319E+02    0.202061E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133191E+03   -0.485694E+02    0.235363E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133051E+03   -0.478052E+02    0.271886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134301E+03   -0.447133E+02    0.302987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.409145E+02    0.318263E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693109.089915655     
  ps_ts2 prof sum =   692712.297440266     
  trcom prof sum =    692712.297440266     
  ps_ts2 cur sum  =   11679.6458669267     
  trcom cur sum  =    11679.6458669267     
  
  antenna # iant =            2
  powecha_use(iant) =    666355.201704639     
  ps_ts2 prof sum =   665978.552478116     
  trcom prof sum =    665978.552478115     
  ps_ts2 cur sum  =   13186.6161779560     
  trcom cur sum  =    13186.6161779560     
  
  antenna # iant =            3
  powecha_use(iant) =    520735.665627233     
  ps_ts2 prof sum =   520409.058469951     
  trcom prof sum =    520409.058469951     
  ps_ts2 cur sum  =   7755.70589121794     
  trcom cur sum  =    7755.70589121794     
  
  antenna # iant =            4
  powecha_use(iant) =    555880.954629036     
  ps_ts2 prof sum =   555553.766534095     
  trcom prof sum =    555553.766534095     
  ps_ts2 cur sum  =   10142.2669129522     
  trcom cur sum  =    10142.2669129522     
  
  antenna # iant =            5
  powecha_use(iant) =    547728.035673368     
  ps_ts2 prof sum =   547438.716552871     
  trcom prof sum =    547438.716552870     
  ps_ts2 cur sum  =   11804.8815609480     
  trcom cur sum  =    11804.8815609480     
  
  Total ECH heating:      2982092.39147530     
  Total Current Drive:    54569.1164100008     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2380
 TA= 2.68500E+00 CPU TIME= 1.69432E-01 SECONDS.  DT= 3.29739E-04
  
 TEC1=    2.68499999999996     
 TEC2=    2.68999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.39538388888832     
  %check_save_state: izleft hours =    73.5958333333333     
 --> plasma_hash("gframe"): TA= 2.685000E+00 NSTEP=  2380 Hash code:  106164305
 ->PRGCHK: bdy curvature ratio at t= 2.6900E+00 seconds is:  5.5028E-02
% MHDEQ: TG1=     2.685000 ; TG2=     2.690000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7567E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5028E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.685000 TO TG2=    2.690000 @ NSTEP     2380
   GFRAME TG2 MOMENTS CHECKSUM:  2.4808654077069D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.56129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.20927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.60619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  4.45110E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.54533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.85515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.17625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  7.13298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.05108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.87819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.44315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  2.31103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.98683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.32325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.60987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.16217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.56563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.89983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.45974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.45974E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.6900E+00  2.6950E+00 total power(Watts):  2.9777E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.69000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.385355E+02    0.402066E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.365117E+02    0.402477E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.380289E+02    0.387548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.403095E+02    0.392587E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.402281E+02    0.410608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.378260E+02    0.416834E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.358315E+02    0.426882E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.345718E+02    0.414360E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.345766E+02    0.398050E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.355490E+02    0.383126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.373499E+02    0.372930E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.394486E+02    0.370746E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.413863E+02    0.377048E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.427160E+02    0.389724E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.427995E+02    0.406002E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.417717E+02    0.421198E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.399153E+02    0.431211E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.377183E+02    0.433306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.357145E+02    0.453414E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.327588E+02    0.438009E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.315083E+02    0.412305E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.320081E+02    0.384808E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.342424E+02    0.361100E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.378555E+02    0.346767E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.417160E+02    0.348105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.448709E+02    0.364832E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133001E+03   -0.465599E+02    0.391054E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133088E+03   -0.458906E+02    0.420159E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.430322E+02    0.444915E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.393987E+02    0.456218E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.399223E+02    0.319651E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.376768E+02    0.321683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.394019E+02    0.303686E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.417200E+02    0.308583E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.415434E+02    0.328834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.391121E+02    0.336174E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.369992E+02    0.347619E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.359019E+02    0.334067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.358037E+02    0.316873E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.366918E+02    0.300647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.386994E+02    0.287578E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.409315E+02    0.283933E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.429086E+02    0.290330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.441599E+02    0.304491E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.442552E+02    0.322568E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.431162E+02    0.339640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.411346E+02    0.350980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.389117E+02    0.353758E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.367890E+02    0.375663E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.339796E+02    0.359504E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.326105E+02    0.333606E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.331892E+02    0.303135E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.357103E+02    0.274431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.391938E+02    0.258378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.433181E+02    0.257126E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.464386E+02    0.275214E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133198E+03   -0.479423E+02    0.304868E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133298E+03   -0.471653E+02    0.337505E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134064E+03   -0.443969E+02    0.363940E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.406133E+02    0.377294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.383754E+02    0.452787E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.363580E+02    0.452814E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.378744E+02    0.438214E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.401452E+02    0.443744E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.400691E+02    0.461223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.376769E+02    0.466459E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.356931E+02    0.475354E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.344299E+02    0.463493E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.344305E+02    0.448203E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.352146E+02    0.433955E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.371044E+02    0.423581E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.391931E+02    0.421687E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.412244E+02    0.428002E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.424405E+02    0.441514E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134219E+03   -0.426343E+02    0.457406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.416152E+02    0.471313E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.397676E+02    0.480210E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.375779E+02    0.481733E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.356729E+02    0.501757E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.328123E+02    0.484887E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.313790E+02    0.461054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.318730E+02    0.434392E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.341961E+02    0.410590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.376149E+02    0.398430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.413534E+02    0.400794E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.445975E+02    0.416943E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132745E+03   -0.463886E+02    0.443471E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132913E+03   -0.457304E+02    0.471365E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.429928E+02    0.493793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.393560E+02    0.505290E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.390868E+02    0.365094E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.370498E+02    0.365768E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.385782E+02    0.349750E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.408719E+02    0.354796E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.406890E+02    0.374065E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.383770E+02    0.380212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.361850E+02    0.390975E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.351937E+02    0.377738E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.349199E+02    0.362250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.358950E+02    0.346348E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.378902E+02    0.334379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.400038E+02    0.331811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.420578E+02    0.337693E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.432920E+02    0.351330E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.433784E+02    0.368608E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.422419E+02    0.384476E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.403817E+02    0.394381E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.381758E+02    0.396632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.361594E+02    0.417135E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.331957E+02    0.401766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.319304E+02    0.376777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.325126E+02    0.347721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.347594E+02    0.322595E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.384865E+02    0.306630E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.422759E+02    0.307946E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.454555E+02    0.324774E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133015E+03   -0.471538E+02    0.352060E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133454E+03   -0.462612E+02    0.383209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134121E+03   -0.436216E+02    0.407078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.398602E+02    0.419567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.403767E+02    0.254878E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.381142E+02    0.257842E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.399336E+02    0.236876E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.422822E+02    0.241552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.420203E+02    0.264470E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.395710E+02    0.273187E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.372615E+02    0.287282E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.361473E+02    0.272966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.361261E+02    0.253685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.371917E+02    0.234437E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.392061E+02    0.219523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.414595E+02    0.214890E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.435653E+02    0.220496E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.447433E+02    0.236230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134315E+03   -0.447504E+02    0.256719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.436109E+02    0.275824E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.416242E+02    0.288675E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.392864E+02    0.292775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.369731E+02    0.317621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.341403E+02    0.301131E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.329201E+02    0.272689E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.336437E+02    0.238077E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.360790E+02    0.207036E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.399509E+02    0.185731E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.440343E+02    0.183682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133643E+03   -0.472205E+02    0.202162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133235E+03   -0.485609E+02    0.235240E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133320E+03   -0.476924E+02    0.272146E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.448161E+02    0.302088E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.409137E+02    0.317867E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690629.619340646     
  ps_ts2 prof sum =   690241.276750528     
  trcom prof sum =    690241.276750529     
  ps_ts2 cur sum  =   11622.6745423551     
  trcom cur sum  =    11622.6745423551     
  
  antenna # iant =            2
  powecha_use(iant) =    664848.291582335     
  ps_ts2 prof sum =   664479.760791284     
  trcom prof sum =    664479.760791283     
  ps_ts2 cur sum  =   13144.6319838900     
  trcom cur sum  =    13144.6319838900     
  
  antenna # iant =            3
  powecha_use(iant) =    520597.156644178     
  ps_ts2 prof sum =   520280.269029920     
  trcom prof sum =    520280.269029920     
  ps_ts2 cur sum  =   7738.61653149739     
  trcom cur sum  =    7738.61653149740     
  
  antenna # iant =            4
  powecha_use(iant) =    552066.235348111     
  ps_ts2 prof sum =   551726.253712852     
  trcom prof sum =    551726.253712852     
  ps_ts2 cur sum  =   10062.6749197880     
  trcom cur sum  =    10062.6749197880     
  
  antenna # iant =            5
  powecha_use(iant) =    549598.303575194     
  ps_ts2 prof sum =   549283.547779691     
  trcom prof sum =    549283.547779690     
  ps_ts2 cur sum  =   11834.5778426737     
  trcom cur sum  =    11834.5778426737     
  
  Total ECH heating:      2976011.10806427     
  Total Current Drive:    54403.1758202042     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2388
 TA= 2.69000E+00 CPU TIME= 1.59309E-01 SECONDS.  DT= 3.71051E-05
  
 TEC1=    2.68999999999996     
 TEC2=    2.69499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.40902111111109     
  %check_save_state: izleft hours =    73.5825000000000     
 --> plasma_hash("gframe"): TA= 2.690000E+00 NSTEP=  2388 Hash code:     692672
 ->PRGCHK: bdy curvature ratio at t= 2.6950E+00 seconds is:  5.5054E-02
% MHDEQ: TG1=     2.690000 ; TG2=     2.695000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7566E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5054E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.690000 TO TG2=    2.695000 @ NSTEP     2388
   GFRAME TG2 MOMENTS CHECKSUM:  2.4813970995893D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.6950E+00  2.7000E+00 total power(Watts):  2.9805E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.69500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.386404E+02    0.401344E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.366146E+02    0.401762E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.380355E+02    0.387154E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.403154E+02    0.392185E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.402347E+02    0.410235E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.378327E+02    0.416494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.358382E+02    0.426607E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.347622E+02    0.413363E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.344908E+02    0.398082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.355535E+02    0.382771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.373528E+02    0.372568E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.394520E+02    0.370364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.414945E+02    0.376262E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.427215E+02    0.389287E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.428091E+02    0.405582E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.417791E+02    0.420835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.399222E+02    0.430900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.377249E+02    0.433043E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.357219E+02    0.453314E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.327671E+02    0.437809E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.315138E+02    0.412005E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.320118E+02    0.384482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.344200E+02    0.359894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.378571E+02    0.346405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.417178E+02    0.347704E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.448743E+02    0.364395E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133056E+03   -0.465663E+02    0.390577E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133143E+03   -0.458989E+02    0.419741E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134067E+03   -0.431493E+02    0.444433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.394071E+02    0.456111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.399225E+02    0.319266E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.378654E+02    0.320308E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.394004E+02    0.303356E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.417191E+02    0.308206E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.415438E+02    0.328429E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.391130E+02    0.335803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.369066E+02    0.347726E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.359030E+02    0.333711E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.357132E+02    0.317068E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.366904E+02    0.300344E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.386971E+02    0.287315E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.409325E+02    0.283644E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.429059E+02    0.290011E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.441586E+02    0.304110E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.442554E+02    0.322141E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.431138E+02    0.339226E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.411365E+02    0.350587E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.390115E+02    0.352952E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.366980E+02    0.375703E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.338938E+02    0.359634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.326118E+02    0.333287E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.332728E+02    0.302268E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.356185E+02    0.274863E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.393777E+02    0.256945E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.433128E+02    0.256960E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.465408E+02    0.274397E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132815E+03   -0.481613E+02    0.303492E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133354E+03   -0.471666E+02    0.337036E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.444001E+02    0.363509E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.406176E+02    0.376881E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.383832E+02    0.452668E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.363675E+02    0.452710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.378815E+02    0.437986E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.401522E+02    0.443533E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.400766E+02    0.461174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.377835E+02    0.466227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.357966E+02    0.475140E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.346231E+02    0.462985E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.344376E+02    0.448086E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.354088E+02    0.433117E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.371110E+02    0.423270E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.393013E+02    0.421047E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.412321E+02    0.427672E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134256E+03   -0.425563E+02    0.441007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.426435E+02    0.457297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.416241E+02    0.471280E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.397770E+02    0.480210E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.376844E+02    0.481541E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.356824E+02    0.501763E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.328210E+02    0.484887E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.313858E+02    0.461048E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.318819E+02    0.434190E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.342021E+02    0.410263E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.376208E+02    0.398053E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.414634E+02    0.400059E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133443E+03   -0.448258E+02    0.415965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132799E+03   -0.463983E+02    0.443160E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132741E+03   -0.458540E+02    0.471137E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.432218E+02    0.493478E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.393662E+02    0.505298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.390897E+02    0.364720E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.370528E+02    0.365412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.385800E+02    0.349383E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.408742E+02    0.354403E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.407946E+02    0.373285E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.383813E+02    0.379837E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.363781E+02    0.389862E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.351974E+02    0.377380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.351037E+02    0.361031E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.360761E+02    0.345083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.378914E+02    0.334014E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.401031E+02    0.330949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.420587E+02    0.337284E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.432941E+02    0.350912E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.433821E+02    0.368180E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.423521E+02    0.383698E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.403872E+02    0.393980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.382788E+02    0.395904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.361662E+02    0.416798E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.332009E+02    0.401437E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.319339E+02    0.376458E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.325147E+02    0.347408E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.348481E+02    0.321730E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.384854E+02    0.306284E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.423765E+02    0.307052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.455635E+02    0.323876E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133291E+03   -0.470454E+02    0.351976E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133073E+03   -0.464865E+02    0.382076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.436286E+02    0.406664E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.398674E+02    0.419213E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.403719E+02    0.254728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.381096E+02    0.257719E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.399274E+02    0.236815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.422761E+02    0.241456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.420156E+02    0.264283E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.395673E+02    0.272974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.372587E+02    0.287029E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.361437E+02    0.272780E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.361225E+02    0.253567E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.371857E+02    0.234402E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.391991E+02    0.219554E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.415477E+02    0.214216E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.435578E+02    0.220505E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.447360E+02    0.236153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.447446E+02    0.256548E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.436068E+02    0.275574E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.416216E+02    0.288377E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.393801E+02    0.291910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.371583E+02    0.316223E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.342255E+02    0.300266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.329962E+02    0.271903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.336387E+02    0.238035E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.360722E+02    0.207143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.399423E+02    0.185916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.440239E+02    0.183878E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.472108E+02    0.202255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132846E+03   -0.487689E+02    0.233893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133370E+03   -0.476882E+02    0.271876E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.448146E+02    0.301707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.409130E+02    0.317479E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.69 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694947.135334920     
  ps_ts2 prof sum =   694550.104814419     
  trcom prof sum =    694550.104814420     
  ps_ts2 cur sum  =   11683.0510768424     
  trcom cur sum  =    11683.0510768424     
  
  antenna # iant =            2
  powecha_use(iant) =    663920.035197165     
  ps_ts2 prof sum =   663514.652005841     
  trcom prof sum =    663514.652005840     
  ps_ts2 cur sum  =   13121.5549544098     
  trcom cur sum  =    13121.5549544098     
  
  antenna # iant =            3
  powecha_use(iant) =    520995.665635996     
  ps_ts2 prof sum =   520715.483202879     
  trcom prof sum =    520715.483202880     
  ps_ts2 cur sum  =   7729.22055884495     
  trcom cur sum  =    7729.22055884496     
  
  antenna # iant =            4
  powecha_use(iant) =    550426.171568255     
  ps_ts2 prof sum =   550128.756211000     
  trcom prof sum =    550128.756211000     
  ps_ts2 cur sum  =   10026.3716012928     
  trcom cur sum  =    10026.3716012928     
  
  antenna # iant =            5
  powecha_use(iant) =    550181.010669835     
  ps_ts2 prof sum =   549874.976983317     
  trcom prof sum =    549874.976983317     
  ps_ts2 cur sum  =   11844.0464062871     
  trcom cur sum  =    11844.0464062871     
  
  Total ECH heating:      2978783.97321746     
  Total Current Drive:    54404.2445976770     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2404
 TA= 2.69500E+00 CPU TIME= 1.46304E-01 SECONDS.  DT= 1.16257E-03
  
 TEC1=    2.69499999999996     
 TEC2=    2.69999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.42429527777745     
  %check_save_state: izleft hours =    73.5672222222222     
 --> plasma_hash("gframe"): TA= 2.695000E+00 NSTEP=  2404 Hash code:   15890527
 ->PRGCHK: bdy curvature ratio at t= 2.7000E+00 seconds is:  5.5086E-02
% MHDEQ: TG1=     2.695000 ; TG2=     2.700000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7564E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5086E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.695000 TO TG2=    2.700000 @ NSTEP     2404
   GFRAME TG2 MOMENTS CHECKSUM:  2.4819287859610D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.05809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.53647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.15803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.19811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.49842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.36742E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       4= -1.26641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.57104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.91649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.84471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      12=  3.32387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.71330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.46296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.20658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.69497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.33728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.37886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.60683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.60683E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7000E+00  2.7050E+00 total power(Watts):  2.9862E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.70000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.386466E+02    0.400987E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.366186E+02    0.401424E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.381387E+02    0.386404E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.404233E+02    0.391443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.402435E+02    0.409847E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.379382E+02    0.415837E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.359402E+02    0.426011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.347690E+02    0.413043E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.344963E+02    0.397751E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.354653E+02    0.382838E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.373571E+02    0.372214E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.395561E+02    0.369595E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.414992E+02    0.375863E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.427281E+02    0.388863E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.429244E+02    0.404846E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.417885E+02    0.420460E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.399313E+02    0.430615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.378315E+02    0.432496E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.357301E+02    0.453239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.327745E+02    0.437616E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.315200E+02    0.411711E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.320989E+02    0.383768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.343369E+02    0.360007E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.379550E+02    0.345588E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.417202E+02    0.347304E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.448783E+02    0.363970E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133334E+03   -0.464611E+02    0.390429E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133421E+03   -0.457958E+02    0.419585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134119E+03   -0.431585E+02    0.444195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.394156E+02    0.456026E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.399232E+02    0.318878E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.378658E+02    0.319944E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.394970E+02    0.302459E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.418195E+02    0.307325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.415450E+02    0.328038E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.391146E+02    0.335435E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.370971E+02    0.346456E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.358125E+02    0.333874E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.357132E+02    0.316731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.368727E+02    0.298907E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.386951E+02    0.287052E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.409264E+02    0.283408E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.430057E+02    0.289177E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.441578E+02    0.303734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.442561E+02    0.321721E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.431157E+02    0.338812E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.412409E+02    0.349773E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.390143E+02    0.352587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.368912E+02    0.374544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.338967E+02    0.359320E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.326968E+02    0.332456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.332731E+02    0.301978E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.356157E+02    0.274684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.393738E+02    0.256821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.433110E+02    0.256802E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.465373E+02    0.274155E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132870E+03   -0.481619E+02    0.303074E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132970E+03   -0.473905E+02    0.335733E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.444039E+02    0.363091E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.406177E+02    0.376510E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.384921E+02    0.452313E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.364709E+02    0.452360E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.378894E+02    0.437761E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.401618E+02    0.443307E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.400852E+02    0.461124E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.377930E+02    0.466207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.358057E+02    0.475162E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.346318E+02    0.462988E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.343526E+02    0.448248E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.354168E+02    0.432879E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.371185E+02    0.422967E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.393092E+02    0.420706E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.412401E+02    0.427345E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.425650E+02    0.440748E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133869E+03   -0.428686E+02    0.456755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.417408E+02    0.471076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.398916E+02    0.480016E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.376938E+02    0.481561E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.356924E+02    0.501760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.327396E+02    0.485122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.313944E+02    0.461038E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.318855E+02    0.433990E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.341179E+02    0.410304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.376305E+02    0.397683E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.414698E+02    0.399660E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.448345E+02    0.415551E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132853E+03   -0.464083E+02    0.442877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132791E+03   -0.458646E+02    0.471103E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.432351E+02    0.493476E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.393765E+02    0.505310E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.391920E+02    0.363939E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.369614E+02    0.365494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.386796E+02    0.348570E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.409785E+02    0.353601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.408015E+02    0.372888E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.383862E+02    0.379461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.363837E+02    0.389504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.351098E+02    0.377458E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.350160E+02    0.361151E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.360827E+02    0.344725E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.378924E+02    0.333642E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.401047E+02    0.330567E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.420605E+02    0.336879E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.432956E+02    0.350510E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.433863E+02    0.367773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.423576E+02    0.383284E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.404959E+02    0.393237E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.382856E+02    0.395524E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.361735E+02    0.416485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.333841E+02    0.400364E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.320229E+02    0.375714E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.325167E+02    0.347102E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.348492E+02    0.321403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.384848E+02    0.305950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.423761E+02    0.306678E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.455646E+02    0.323431E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.470487E+02    0.351513E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.464960E+02    0.381601E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.436388E+02    0.406234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.399775E+02    0.418558E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.403675E+02    0.254610E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.382906E+02    0.256299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.399221E+02    0.236777E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.422708E+02    0.241391E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.420117E+02    0.264120E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.395644E+02    0.272779E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.374410E+02    0.285602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.361406E+02    0.272617E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.361171E+02    0.253486E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.371801E+02    0.234386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.390996E+02    0.220345E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.415405E+02    0.214291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.435507E+02    0.220543E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.447305E+02    0.236100E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.447397E+02    0.256404E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.436036E+02    0.275353E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.416192E+02    0.288087E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.393789E+02    0.291614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.371584E+02    0.315871E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.342248E+02    0.299981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.329937E+02    0.271756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.336346E+02    0.238023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.360644E+02    0.207289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.399331E+02    0.186139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.440149E+02    0.184088E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133716E+03   -0.472019E+02    0.202397E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133107E+03   -0.486546E+02    0.234459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133419E+03   -0.476842E+02    0.271645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.448138E+02    0.301335E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.410138E+02    0.316581E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699130.715863321     
  ps_ts2 prof sum =   698701.224850463     
  trcom prof sum =    698701.224850464     
  ps_ts2 cur sum  =   11743.3009582742     
  trcom cur sum  =    11743.3009582742     
  
  antenna # iant =            2
  powecha_use(iant) =    665373.304741326     
  ps_ts2 prof sum =   665007.362398055     
  trcom prof sum =    665007.362398055     
  ps_ts2 cur sum  =   13146.7114744612     
  trcom cur sum  =    13146.7114744612     
  
  antenna # iant =            3
  powecha_use(iant) =    520524.438377655     
  ps_ts2 prof sum =   520214.893070431     
  trcom prof sum =    520214.893070431     
  ps_ts2 cur sum  =   7709.27514933456     
  trcom cur sum  =    7709.27514933457     
  
  antenna # iant =            4
  powecha_use(iant) =    553089.077506638     
  ps_ts2 prof sum =   552773.011862912     
  trcom prof sum =    552773.011862912     
  ps_ts2 cur sum  =   10069.7294583577     
  trcom cur sum  =    10069.7294583577     
  
  antenna # iant =            5
  powecha_use(iant) =    548128.449833719     
  ps_ts2 prof sum =   547812.531916817     
  trcom prof sum =    547812.531916817     
  ps_ts2 cur sum  =   11797.2534478314     
  trcom cur sum  =    11797.2534478313     
  
  Total ECH heating:      2984509.02409868     
  Total Current Drive:    54466.2704882591     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2408
 TA= 2.70000E+00 CPU TIME= 1.59105E-01 SECONDS.  DT= 7.09639E-04
  
 TEC1=    2.69999999999996     
 TEC2=    2.70499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.43818722222181     
  %check_save_state: izleft hours =    73.5533333333333     
 --> plasma_hash("gframe"): TA= 2.700000E+00 NSTEP=  2408 Hash code:   82077738
 ->PRGCHK: bdy curvature ratio at t= 2.7050E+00 seconds is:  5.5103E-02
% MHDEQ: TG1=     2.700000 ; TG2=     2.705000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7563E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5103E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.700000 TO TG2=    2.705000 @ NSTEP     2408
   GFRAME TG2 MOMENTS CHECKSUM:  2.4824604723328D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7050E+00  2.7100E+00 total power(Watts):  2.9828E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.70500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.386525E+02    0.400613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.366248E+02    0.401054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.381434E+02    0.386039E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.404288E+02    0.391049E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.403523E+02    0.409146E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.379456E+02    0.415489E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.359475E+02    0.425725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.347753E+02    0.412724E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.346842E+02    0.396651E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.354698E+02    0.382491E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.373617E+02    0.371852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.395601E+02    0.369217E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.415033E+02    0.375469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.427333E+02    0.388450E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.429301E+02    0.404448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.419006E+02    0.419814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.400418E+02    0.430027E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.378386E+02    0.432235E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.358328E+02    0.452893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.328679E+02    0.437132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.315261E+02    0.411417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.321064E+02    0.383426E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.343392E+02    0.359695E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.379568E+02    0.345235E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.417219E+02    0.346925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.450992E+02    0.362782E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132955E+03   -0.466895E+02    0.389317E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.460291E+02    0.418623E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.431668E+02    0.443952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.395263E+02    0.455697E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.400209E+02    0.318010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.378658E+02    0.319589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.394957E+02    0.302146E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.418185E+02    0.306960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.416470E+02    0.327170E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.392128E+02    0.334582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.370955E+02    0.346133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.358132E+02    0.333541E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.358925E+02    0.315333E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.368718E+02    0.298614E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.385980E+02    0.287380E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.410218E+02    0.282566E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.430033E+02    0.288871E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.442616E+02    0.302850E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.442561E+02    0.321306E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.432217E+02    0.337962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.412428E+02    0.349387E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.390165E+02    0.352229E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.368950E+02    0.374188E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.338987E+02    0.359012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.326974E+02    0.332143E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.332720E+02    0.301701E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.356129E+02    0.274507E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.393692E+02    0.256680E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.433032E+02    0.256656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.465331E+02    0.273905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133139E+03   -0.480532E+02    0.303123E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.473922E+02    0.335265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133783E+03   -0.446231E+02    0.361898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.406263E+02    0.376110E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.385001E+02    0.452194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.364783E+02    0.452261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.379960E+02    0.437249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.402736E+02    0.442829E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.400938E+02    0.461066E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.378007E+02    0.466210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.358144E+02    0.475183E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.346399E+02    0.462975E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.345450E+02    0.447572E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.354238E+02    0.432644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.372230E+02    0.422343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.393164E+02    0.420372E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.413530E+02    0.426728E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134361E+03   -0.425738E+02    0.440475E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.427686E+02    0.456853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.417501E+02    0.471064E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.398972E+02    0.480041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.377041E+02    0.481565E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.357051E+02    0.501734E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.327480E+02    0.485140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.314007E+02    0.461047E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.318921E+02    0.433786E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.341240E+02    0.409990E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.377298E+02    0.396961E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.414758E+02    0.399255E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.447322E+02    0.415410E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132695E+03   -0.465280E+02    0.442337E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132841E+03   -0.458748E+02    0.471059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.431357E+02    0.493610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.393872E+02    0.505297E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.391950E+02    0.363580E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.371543E+02    0.364293E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.386814E+02    0.348217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.409807E+02    0.353220E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.408026E+02    0.372520E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.383902E+02    0.379107E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.363885E+02    0.389148E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.351125E+02    0.377138E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.350184E+02    0.360834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.359917E+02    0.344871E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.377981E+02    0.333787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.401051E+02    0.330183E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.421644E+02    0.336038E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.434045E+02    0.349679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.434963E+02    0.366981E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.423615E+02    0.382884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.405015E+02    0.392839E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.382911E+02    0.395152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.362755E+02    0.415822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.333001E+02    0.400415E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.320253E+02    0.375404E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.326037E+02    0.346309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.348488E+02    0.321075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.384839E+02    0.305624E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.423750E+02    0.306316E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.455647E+02    0.323000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132962E+03   -0.472743E+02    0.350281E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133400E+03   -0.463895E+02    0.381484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133839E+03   -0.438607E+02    0.405195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.399849E+02    0.418197E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.404590E+02    0.253837E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.382862E+02    0.256165E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.399159E+02    0.236716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.423637E+02    0.240637E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.421070E+02    0.263321E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.395613E+02    0.272579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.374391E+02    0.285357E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.363165E+02    0.271171E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.361155E+02    0.253360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.371759E+02    0.234347E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.390923E+02    0.220383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.415329E+02    0.214353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.435423E+02    0.220566E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.448259E+02    0.235369E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.448381E+02    0.255627E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.435997E+02    0.275110E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.416171E+02    0.287794E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.393760E+02    0.291341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.370654E+02    0.316065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.342241E+02    0.299697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.329907E+02    0.271597E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.337129E+02    0.237255E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.361446E+02    0.206609E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.398316E+02    0.187121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.440047E+02    0.184268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.471920E+02    0.202501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133151E+03   -0.486467E+02    0.234368E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.478972E+02    0.270290E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.448123E+02    0.300967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.410135E+02    0.316216E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693172.553237236     
  ps_ts2 prof sum =   692792.852145092     
  trcom prof sum =    692792.852145092     
  ps_ts2 cur sum  =   11629.6438797006     
  trcom cur sum  =    11629.6438797006     
  
  antenna # iant =            2
  powecha_use(iant) =    665486.905088852     
  ps_ts2 prof sum =   665117.900609739     
  trcom prof sum =    665117.900609738     
  ps_ts2 cur sum  =   13141.2898266138     
  trcom cur sum  =    13141.2898266138     
  
  antenna # iant =            3
  powecha_use(iant) =    520721.838455049     
  ps_ts2 prof sum =   520396.641747272     
  trcom prof sum =    520396.641747273     
  ps_ts2 cur sum  =   7696.34228487808     
  trcom cur sum  =    7696.34228487809     
  
  antenna # iant =            4
  powecha_use(iant) =    553708.997251868     
  ps_ts2 prof sum =   553381.151900070     
  trcom prof sum =    553381.151900069     
  ps_ts2 cur sum  =   10072.8741515711     
  trcom cur sum  =    10072.8741515711     
  
  antenna # iant =            5
  powecha_use(iant) =    549749.283962825     
  ps_ts2 prof sum =   549441.258089879     
  trcom prof sum =    549441.258089879     
  ps_ts2 cur sum  =   11826.5571043776     
  trcom cur sum  =    11826.5571043776     
  
  Total ECH heating:      2981129.80449205     
  Total Current Drive:    54366.7072471413     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2413
 TA= 2.70500E+00 CPU TIME= 1.60359E-01 SECONDS.  DT= 1.13561E-03
  
 TEC1=    2.70499999999996     
 TEC2=    2.70999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.45458972222218     
  %check_save_state: izleft hours =    73.5369444444444     
 --> plasma_hash("gframe"): TA= 2.705000E+00 NSTEP=  2413 Hash code:  108092759
 ->PRGCHK: bdy curvature ratio at t= 2.7100E+00 seconds is:  5.5185E-02
% MHDEQ: TG1=     2.705000 ; TG2=     2.710000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7586E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5185E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.705000 TO TG2=    2.710000 @ NSTEP     2413
   GFRAME TG2 MOMENTS CHECKSUM:  2.4822698725922D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.48319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.74212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -3.17914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  1.80265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.49062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84552E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.52704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.56588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       4= -1.30098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.21954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.87701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.97200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.10705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.50350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.53309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.71216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.50702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.11487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67235E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.51530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.51530E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7100E+00  2.7150E+00 total power(Watts):  2.9836E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.71000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.386833E+02    0.400396E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.364617E+02    0.401607E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.380740E+02    0.386184E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.403566E+02    0.391173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.402811E+02    0.409288E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.378774E+02    0.415662E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.358833E+02    0.425897E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.346194E+02    0.413268E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.345282E+02    0.397234E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.355887E+02    0.381864E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.373872E+02    0.371607E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.394869E+02    0.369364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.415323E+02    0.375206E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.427641E+02    0.388198E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.428567E+02    0.404534E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.418288E+02    0.419931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.399728E+02    0.430159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.377729E+02    0.432384E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.357710E+02    0.453035E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.328092E+02    0.437335E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.315519E+02    0.411276E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.320471E+02    0.383637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.342730E+02    0.359906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.378851E+02    0.345446E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.417481E+02    0.346644E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.449112E+02    0.363236E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.466136E+02    0.389357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133245E+03   -0.459537E+02    0.418685E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.433147E+02    0.443539E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.394601E+02    0.455809E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.399448E+02    0.318334E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.376979E+02    0.320444E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.394191E+02    0.302545E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.417388E+02    0.307321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.415691E+02    0.327427E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.391391E+02    0.334827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.369337E+02    0.346804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.359272E+02    0.332816E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.357326E+02    0.316252E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.367065E+02    0.299640E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.387113E+02    0.286699E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.409421E+02    0.283074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.429210E+02    0.289327E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.441784E+02    0.303213E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.442804E+02    0.321097E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.431426E+02    0.338147E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.411669E+02    0.349547E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.389437E+02    0.352405E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.368262E+02    0.374363E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.339221E+02    0.358764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.326334E+02    0.332472E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.332897E+02    0.301576E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.356296E+02    0.274452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.391962E+02    0.257991E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.433210E+02    0.256674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133995E+03   -0.464459E+02    0.274407E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.479630E+02    0.303467E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133460E+03   -0.471973E+02    0.335843E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.444364E+02    0.362367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.406567E+02    0.375848E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.384346E+02    0.452317E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.364154E+02    0.452404E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.379306E+02    0.437381E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.402052E+02    0.442951E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.401314E+02    0.460940E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.377376E+02    0.466333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.358497E+02    0.475144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.344859E+02    0.463379E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.344845E+02    0.447732E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.352667E+02    0.433119E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.371572E+02    0.422501E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.393493E+02    0.420199E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.412778E+02    0.426856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.425025E+02    0.440589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.426992E+02    0.456932E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.416820E+02    0.471184E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.398354E+02    0.480190E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.377403E+02    0.481568E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.357385E+02    0.501930E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.328722E+02    0.484963E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.314323E+02    0.460941E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.319211E+02    0.433664E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.342431E+02    0.409464E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.376611E+02    0.397130E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.415076E+02    0.399036E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133987E+03   -0.446566E+02    0.415503E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.464585E+02    0.442394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.458036E+02    0.471126E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133616E+03   -0.432887E+02    0.493531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.394264E+02    0.505503E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.391226E+02    0.363727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.370850E+02    0.364462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.386089E+02    0.348405E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.409054E+02    0.353376E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.407289E+02    0.372636E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.384172E+02    0.378856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.362266E+02    0.389712E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.352313E+02    0.376479E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.351337E+02    0.360125E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.361075E+02    0.344142E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.379157E+02    0.333072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.401288E+02    0.329953E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.420865E+02    0.336240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.433260E+02    0.349812E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.434188E+02    0.367075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.423928E+02    0.382607E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.404287E+02    0.392970E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.383212E+02    0.394938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.362102E+02    0.416000E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.332378E+02    0.400627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.319644E+02    0.375630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.325395E+02    0.346570E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.347793E+02    0.321443E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.385042E+02    0.305470E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.423968E+02    0.306154E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.456981E+02    0.322316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133177E+03   -0.471925E+02    0.350357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133172E+03   -0.465343E+02    0.380852E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.436769E+02    0.405599E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.399149E+02    0.418348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.403794E+02    0.254506E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.381164E+02    0.257486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.399316E+02    0.236811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.422811E+02    0.241385E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.420250E+02    0.263921E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.395789E+02    0.272530E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.372715E+02    0.286473E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.361538E+02    0.272400E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.361256E+02    0.253420E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.371849E+02    0.234486E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.391999E+02    0.219816E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.414511E+02    0.215256E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.435582E+02    0.220730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.447441E+02    0.236122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.447523E+02    0.256260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.436192E+02    0.275053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.416391E+02    0.287694E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.392031E+02    0.292374E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.371788E+02    0.315359E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.341547E+02    0.300168E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.330065E+02    0.271554E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.336434E+02    0.238067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.360706E+02    0.207587E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.397521E+02    0.188189E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.439198E+02    0.185345E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.472075E+02    0.202753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133351E+03   -0.485559E+02    0.235136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.477001E+02    0.271349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.448345E+02    0.300817E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.409352E+02    0.316539E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692989.392298061     
  ps_ts2 prof sum =   692576.919316484     
  trcom prof sum =    692576.919316484     
  ps_ts2 cur sum  =   11624.4681839874     
  trcom cur sum  =    11624.4681839874     
  
  antenna # iant =            2
  powecha_use(iant) =    664903.317792731     
  ps_ts2 prof sum =   664485.918294451     
  trcom prof sum =    664485.918294450     
  ps_ts2 cur sum  =   13141.3246255975     
  trcom cur sum  =    13141.3246255975     
  
  antenna # iant =            3
  powecha_use(iant) =    522732.211325269     
  ps_ts2 prof sum =   522423.502699498     
  trcom prof sum =    522423.502699498     
  ps_ts2 cur sum  =   7716.95385307827     
  trcom cur sum  =    7716.95385307828     
  
  antenna # iant =            4
  powecha_use(iant) =    552033.554150256     
  ps_ts2 prof sum =   551741.200477818     
  trcom prof sum =    551741.200477818     
  ps_ts2 cur sum  =   10046.6263432354     
  trcom cur sum  =    10046.6263432354     
  
  antenna # iant =            5
  powecha_use(iant) =    550927.076527668     
  ps_ts2 prof sum =   550608.746262146     
  trcom prof sum =    550608.746262146     
  ps_ts2 cur sum  =   11867.9861949892     
  trcom cur sum  =    11867.9861949892     
  
  Total ECH heating:      2981836.28705040     
  Total Current Drive:    54397.3592008877     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2417
 TA= 2.71000E+00 CPU TIME= 1.65484E-01 SECONDS.  DT= 8.38099E-04
  
 TEC1=    2.70999999999996     
 TEC2=    2.71499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.46816749999994     
  %check_save_state: izleft hours =    73.5233333333333     
 --> plasma_hash("gframe"): TA= 2.710000E+00 NSTEP=  2417 Hash code:   86503686
 ->PRGCHK: bdy curvature ratio at t= 2.7150E+00 seconds is:  5.5250E-02
% MHDEQ: TG1=     2.710000 ; TG2=     2.715000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7609E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5250E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.710000 TO TG2=    2.715000 @ NSTEP     2417
   GFRAME TG2 MOMENTS CHECKSUM:  2.4820792728517D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7150E+00  2.7200E+00 total power(Watts):  2.9844E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.71500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.386148E+02    0.400581E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.365882E+02    0.401059E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.381036E+02    0.385972E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.403873E+02    0.390968E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.402110E+02    0.409459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.379101E+02    0.415515E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.359152E+02    0.425784E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.347416E+02    0.412786E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.344651E+02    0.397452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.354305E+02    0.382461E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.373190E+02    0.371782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.395158E+02    0.369102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.414591E+02    0.375323E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.426899E+02    0.388318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.427828E+02    0.404674E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.417545E+02    0.420077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.399047E+02    0.430337E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.378068E+02    0.432271E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.357094E+02    0.453222E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.327517E+02    0.437543E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.314936E+02    0.411524E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.320703E+02    0.383466E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.342977E+02    0.359662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.377180E+02    0.346135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.416724E+02    0.346811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.448332E+02    0.363319E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.464233E+02    0.389753E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133677E+03   -0.457659E+02    0.419063E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.431347E+02    0.443928E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.393938E+02    0.455975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.398696E+02    0.318654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.378150E+02    0.319740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.393432E+02    0.302948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.417624E+02    0.307148E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.414924E+02    0.327680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.390658E+02    0.335074E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.370535E+02    0.346072E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.357662E+02    0.333613E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.356634E+02    0.316609E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.368186E+02    0.298920E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.386362E+02    0.287174E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.408640E+02    0.283537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.429431E+02    0.289196E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.440969E+02    0.303554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.442000E+02    0.321353E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.430648E+02    0.338332E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.411944E+02    0.349270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.389705E+02    0.352133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.368539E+02    0.374122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.338574E+02    0.358989E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.326541E+02    0.332255E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.332232E+02    0.302039E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.355584E+02    0.275009E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.393096E+02    0.257331E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.432385E+02    0.257277E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.464680E+02    0.274318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133131E+03   -0.481001E+02    0.302784E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133235E+03   -0.473383E+02    0.335129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.443588E+02    0.362457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.405828E+02    0.375984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.384707E+02    0.452238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.364500E+02    0.452322E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.378650E+02    0.437578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.401378E+02    0.443120E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.400656E+02    0.461083E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.377742E+02    0.466289E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.357894E+02    0.475369E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.346135E+02    0.463076E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.343311E+02    0.448212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.353933E+02    0.432714E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.370918E+02    0.422703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.392810E+02    0.420384E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.412122E+02    0.427018E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.425407E+02    0.440471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.426302E+02    0.457059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.417219E+02    0.471155E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.398742E+02    0.480232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.376772E+02    0.481818E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.356780E+02    0.502319E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.327246E+02    0.485483E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.313763E+02    0.461157E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.318632E+02    0.433904E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.340894E+02    0.410062E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.375939E+02    0.397321E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.414355E+02    0.399184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.448046E+02    0.415039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133106E+03   -0.463850E+02    0.442507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133038E+03   -0.458470E+02    0.471081E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.432202E+02    0.493820E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.393616E+02    0.505886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.391506E+02    0.363460E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.369207E+02    0.365088E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.386352E+02    0.348141E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.409331E+02    0.353092E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.407587E+02    0.372372E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.383489E+02    0.379012E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.363502E+02    0.389127E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.350723E+02    0.377113E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.349764E+02    0.360790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.360393E+02    0.344380E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.378447E+02    0.333334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.400544E+02    0.330220E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.420097E+02    0.336445E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.432465E+02    0.349955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.433428E+02    0.367171E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.423190E+02    0.382727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.404604E+02    0.392765E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.382516E+02    0.395120E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.361456E+02    0.416208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.333557E+02    0.400078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.319896E+02    0.375413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.324759E+02    0.346837E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.348013E+02    0.321246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.384299E+02    0.305863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.423180E+02    0.306508E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.455082E+02    0.323009E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133613E+03   -0.469997E+02    0.350830E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133387E+03   -0.464569E+02    0.380896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.436011E+02    0.405737E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.398459E+02    0.418519E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.403009E+02    0.255144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.382276E+02    0.256815E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.398536E+02    0.237569E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.421997E+02    0.242098E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.419445E+02    0.264497E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.395022E+02    0.273058E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.373846E+02    0.285752E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.360817E+02    0.272971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.360553E+02    0.254088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.371139E+02    0.235249E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.391226E+02    0.220667E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.414673E+02    0.215406E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.434747E+02    0.221562E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.446538E+02    0.236881E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.446679E+02    0.256868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.435377E+02    0.275529E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.415581E+02    0.288147E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.393208E+02    0.291661E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.371073E+02    0.315723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.341739E+02    0.300034E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.329396E+02    0.272143E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.335746E+02    0.238852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.359975E+02    0.208513E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.398606E+02    0.187586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.438361E+02    0.186345E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.471195E+02    0.203658E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133554E+03   -0.484665E+02    0.235856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133667E+03   -0.476132E+02    0.271830E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.447519E+02    0.301174E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.409592E+02    0.316346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.33 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693471.529499433     
  ps_ts2 prof sum =   693032.171606644     
  trcom prof sum =    693032.171606645     
  ps_ts2 cur sum  =   11638.5764639222     
  trcom cur sum  =    11638.5764639222     
  
  antenna # iant =            2
  powecha_use(iant) =    665533.249901770     
  ps_ts2 prof sum =   665179.140865586     
  trcom prof sum =    665179.140865585     
  ps_ts2 cur sum  =   13181.2491075988     
  trcom cur sum  =    13181.2491075988     
  
  antenna # iant =            3
  powecha_use(iant) =    523156.443554771     
  ps_ts2 prof sum =   522844.260936104     
  trcom prof sum =    522844.260936104     
  ps_ts2 cur sum  =   7717.31841075325     
  trcom cur sum  =    7717.31841075325     
  
  antenna # iant =            4
  powecha_use(iant) =    552896.083995893     
  ps_ts2 prof sum =   552583.891779308     
  trcom prof sum =    552583.891779307     
  ps_ts2 cur sum  =   10075.7015120136     
  trcom cur sum  =    10075.7015120136     
  
  antenna # iant =            5
  powecha_use(iant) =    549329.764885490     
  ps_ts2 prof sum =   549043.159466364     
  trcom prof sum =    549043.159466364     
  ps_ts2 cur sum  =   11862.5284176643     
  trcom cur sum  =    11862.5284176643     
  
  Total ECH heating:      2982682.62465401     
  Total Current Drive:    54475.3739119522     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2422
 TA= 2.71500E+00 CPU TIME= 1.68771E-01 SECONDS.  DT= 2.09793E-04
  
 TEC1=    2.71499999999996     
 TEC2=    2.71999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.48286111111088     
  %check_save_state: izleft hours =    73.5086111111111     
 --> plasma_hash("gframe"): TA= 2.715000E+00 NSTEP=  2422 Hash code:   20668050
 ->PRGCHK: bdy curvature ratio at t= 2.7200E+00 seconds is:  5.5314E-02
% MHDEQ: TG1=     2.715000 ; TG2=     2.720000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7632E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5314E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.715000 TO TG2=    2.720000 @ NSTEP     2422
   GFRAME TG2 MOMENTS CHECKSUM:  2.4818886731111D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.81041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.77448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -2.43089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -2.80332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.53945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.56072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.77777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  7.12074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.51118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.72420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.70337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.98799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.38311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.50331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.07849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.72135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.89789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.70096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -3.06776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -3.06776E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7200E+00  2.7250E+00 total power(Watts):  2.9805E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.72000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.385462E+02    0.400822E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.365272E+02    0.401300E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.380356E+02    0.386200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.403171E+02    0.391173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.401413E+02    0.409686E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.378445E+02    0.415754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.358529E+02    0.426031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.345870E+02    0.413397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.345864E+02    0.396939E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.353652E+02    0.382727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.372517E+02    0.372010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.394463E+02    0.369300E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.413868E+02    0.375507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.426168E+02    0.388496E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.428178E+02    0.404549E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.417941E+02    0.419976E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.399401E+02    0.430244E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.377422E+02    0.432499E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.357447E+02    0.453160E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.327830E+02    0.437488E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.315223E+02    0.411440E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.320106E+02    0.383748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.342354E+02    0.359928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.378417E+02    0.345455E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.415983E+02    0.347036E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.447563E+02    0.363474E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133368E+03   -0.465734E+02    0.389214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133446E+03   -0.459184E+02    0.418665E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.430643E+02    0.444123E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.394328E+02    0.455901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.397965E+02    0.319010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.377446E+02    0.320115E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.393674E+02    0.302824E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.416866E+02    0.307546E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.415194E+02    0.327504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.390930E+02    0.334882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.369854E+02    0.346345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.356990E+02    0.333945E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.357783E+02    0.315926E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.367486E+02    0.299394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.384676E+02    0.288268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.407878E+02    0.284050E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.428646E+02    0.289653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.441230E+02    0.303431E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.441212E+02    0.321665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.430938E+02    0.338122E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.411213E+02    0.349490E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.389001E+02    0.352368E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.367873E+02    0.374359E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.337939E+02    0.359264E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.325919E+02    0.332626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.331582E+02    0.302529E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.354889E+02    0.275594E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.392352E+02    0.257973E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.431576E+02    0.257910E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.463847E+02    0.274824E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133342E+03   -0.480164E+02    0.303138E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.472580E+02    0.335334E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.442826E+02    0.362619E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.405103E+02    0.376194E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.384065E+02    0.452431E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.363887E+02    0.452523E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.379006E+02    0.437503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.401754E+02    0.443050E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.399998E+02    0.461267E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.377116E+02    0.466497E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.357292E+02    0.475629E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.344575E+02    0.463557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.344581E+02    0.447872E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.353316E+02    0.432954E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.371254E+02    0.422618E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.392137E+02    0.420607E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.412492E+02    0.426918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.424710E+02    0.440662E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.426700E+02    0.456996E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.416551E+02    0.471348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.398093E+02    0.480481E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.376147E+02    0.482097E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.356196E+02    0.502697E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.326677E+02    0.485804E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.313210E+02    0.461394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.318081E+02    0.434167E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.340277E+02    0.410330E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.376257E+02    0.397175E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.413649E+02    0.399375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.446202E+02    0.415504E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133095E+03   -0.464274E+02    0.442431E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133247E+03   -0.457769E+02    0.471250E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.430408E+02    0.494305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.392976E+02    0.506286E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.390805E+02    0.363670E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.370450E+02    0.364440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.385652E+02    0.348389E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.408606E+02    0.353302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.406873E+02    0.372563E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.382800E+02    0.379247E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.362852E+02    0.389367E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.350096E+02    0.377353E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.349113E+02    0.361052E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.358800E+02    0.345155E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.376785E+02    0.334153E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.399810E+02    0.330531E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.420384E+02    0.336236E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.431727E+02    0.350152E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.432678E+02    0.367339E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.422461E+02    0.382917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.403903E+02    0.392971E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.381843E+02    0.395353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.361780E+02    0.416122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.332052E+02    0.400745E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.319296E+02    0.375690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.325004E+02    0.346646E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.347345E+02    0.321645E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.383592E+02    0.306288E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.422408E+02    0.306898E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.454277E+02    0.323304E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.471452E+02    0.350171E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133598E+03   -0.463816E+02    0.381014E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.435295E+02    0.405916E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.398810E+02    0.418417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.403222E+02    0.255146E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.381550E+02    0.257466E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.397778E+02    0.238352E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.421204E+02    0.242839E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.418663E+02    0.265085E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.394278E+02    0.273623E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.373132E+02    0.286275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.361924E+02    0.272283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.359850E+02    0.254785E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.370422E+02    0.236056E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.389540E+02    0.222280E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.413900E+02    0.216298E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.433937E+02    0.222427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.445726E+02    0.237643E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.445862E+02    0.257484E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.434572E+02    0.276064E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.414813E+02    0.288620E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.392468E+02    0.292150E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.369441E+02    0.316657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.341074E+02    0.300527E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.328743E+02    0.272759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.335080E+02    0.239663E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.359269E+02    0.209479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.397855E+02    0.188633E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.438555E+02    0.186618E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.470339E+02    0.204621E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133324E+03   -0.485975E+02    0.235354E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133877E+03   -0.475285E+02    0.272347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.446717E+02    0.301567E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.408849E+02    0.316702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.52 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689327.944717976     
  ps_ts2 prof sum =   688937.550957449     
  trcom prof sum =    688937.550957449     
  ps_ts2 cur sum  =   11575.7186424437     
  trcom cur sum  =    11575.7186424437     
  
  antenna # iant =            2
  powecha_use(iant) =    667210.975832541     
  ps_ts2 prof sum =   666843.921747555     
  trcom prof sum =    666843.921747554     
  ps_ts2 cur sum  =   13244.5963737679     
  trcom cur sum  =    13244.5963737679     
  
  antenna # iant =            3
  powecha_use(iant) =    521957.717759128     
  ps_ts2 prof sum =   521627.063736321     
  trcom prof sum =    521627.063736322     
  ps_ts2 cur sum  =   7694.00992130858     
  trcom cur sum  =    7694.00992130859     
  
  antenna # iant =            4
  powecha_use(iant) =    553120.330228489     
  ps_ts2 prof sum =   552785.203359986     
  trcom prof sum =    552785.203359986     
  ps_ts2 cur sum  =   10094.7928627883     
  trcom cur sum  =    10094.7928627883     
  
  antenna # iant =            5
  powecha_use(iant) =    548907.364026386     
  ps_ts2 prof sum =   548604.573629556     
  trcom prof sum =    548604.573629556     
  ps_ts2 cur sum  =   11889.2571062639     
  trcom cur sum  =    11889.2571062639     
  
  Total ECH heating:      2978798.31343087     
  Total Current Drive:    54498.3749065724     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2431
 TA= 2.72000E+00 CPU TIME= 1.47384E-01 SECONDS.  DT= 1.04664E-03
  
 TEC1=    2.71999999999996     
 TEC2=    2.72499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.49862305555530     
  %check_save_state: izleft hours =    73.4930555555556     
 --> plasma_hash("gframe"): TA= 2.720000E+00 NSTEP=  2431 Hash code:   97566352
 ->PRGCHK: bdy curvature ratio at t= 2.7250E+00 seconds is:  5.5379E-02
% MHDEQ: TG1=     2.720000 ; TG2=     2.725000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5379E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.720000 TO TG2=    2.725000 @ NSTEP     2431
   GFRAME TG2 MOMENTS CHECKSUM:  2.4816980733705D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.7250E+00  2.7300E+00 total power(Watts):  2.9761E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.72500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.385781E+02    0.400641E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.363608E+02    0.401897E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.379671E+02    0.386377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.402459E+02    0.391325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.401749E+02    0.409528E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.377776E+02    0.415952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.357898E+02    0.426240E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.345243E+02    0.413642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.344298E+02    0.397565E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.354868E+02    0.382099E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.372806E+02    0.371764E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.393748E+02    0.369462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.414177E+02    0.375246E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.426499E+02    0.388260E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.427493E+02    0.404678E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.417233E+02    0.420131E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.398730E+02    0.430422E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.376776E+02    0.432685E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.356869E+02    0.453347E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.327223E+02    0.437736E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.314637E+02    0.411692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.319497E+02    0.383988E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.341682E+02    0.360165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.377708E+02    0.345687E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.416265E+02    0.346772E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.447880E+02    0.363178E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.464961E+02    0.389287E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133657E+03   -0.458440E+02    0.418772E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.429938E+02    0.444281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.393673E+02    0.456072E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.398202E+02    0.318830E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.375763E+02    0.320995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.392919E+02    0.303242E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.416076E+02    0.307922E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.414429E+02    0.327773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.390199E+02    0.335143E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.368204E+02    0.347067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.358148E+02    0.333223E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.356164E+02    0.316870E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.365843E+02    0.300432E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.385840E+02    0.287585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.408089E+02    0.283960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.427838E+02    0.290103E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.440412E+02    0.303805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.441474E+02    0.321459E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.430161E+02    0.338325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.410466E+02    0.349672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.388283E+02    0.352569E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.367204E+02    0.374545E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.338188E+02    0.359029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.325282E+02    0.332964E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.331774E+02    0.302411E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.355969E+02    0.274901E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.391574E+02    0.258645E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.430760E+02    0.258554E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.462987E+02    0.275333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.478188E+02    0.303960E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.471761E+02    0.335494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.443137E+02    0.362325E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.405418E+02    0.375934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.383422E+02    0.452603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.363264E+02    0.452717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.378356E+02    0.437699E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.401072E+02    0.443238E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.400388E+02    0.461204E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.376481E+02    0.466712E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.357653E+02    0.475668E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.344011E+02    0.463767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.343980E+02    0.448083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.351746E+02    0.433482E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.370603E+02    0.422813E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.392480E+02    0.420469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.411796E+02    0.427079E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.424007E+02    0.440821E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.426019E+02    0.457145E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.415874E+02    0.471554E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.397440E+02    0.480737E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.376545E+02    0.482169E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.356566E+02    0.502920E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.327926E+02    0.485700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.313528E+02    0.461361E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.318363E+02    0.434080E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.341492E+02    0.409826E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.375583E+02    0.397366E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.413988E+02    0.399168E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.445461E+02    0.415627E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133305E+03   -0.463547E+02    0.442530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133455E+03   -0.457062E+02    0.471406E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.429728E+02    0.494614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.393381E+02    0.506527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.390091E+02    0.363842E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.369763E+02    0.364629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.384934E+02    0.348604E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.407865E+02    0.353476E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.406144E+02    0.372710E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.383104E+02    0.378998E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.361229E+02    0.389967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.351290E+02    0.376707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.350292E+02    0.360345E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.359973E+02    0.344434E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.378002E+02    0.333425E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.399061E+02    0.330811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.419613E+02    0.336467E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.432018E+02    0.349877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.432987E+02    0.367052E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.421717E+02    0.383040E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.403191E+02    0.393124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.381155E+02    0.395544E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.361138E+02    0.416333E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.331437E+02    0.400987E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.318708E+02    0.375929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.324372E+02    0.346932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.346654E+02    0.322032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.383807E+02    0.306151E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.421620E+02    0.307258E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.453460E+02    0.323556E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133603E+03   -0.470644E+02    0.350275E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.461889E+02    0.381445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.435653E+02    0.405722E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.398121E+02    0.418599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.402432E+02    0.255836E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.380792E+02    0.258141E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.396993E+02    0.239155E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.420389E+02    0.243597E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.418865E+02    0.265076E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.393505E+02    0.274188E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.371460E+02    0.287397E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.360294E+02    0.273518E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.360018E+02    0.254818E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.369660E+02    0.236907E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.388764E+02    0.223193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.413092E+02    0.217236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.433099E+02    0.223322E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.445915E+02    0.237772E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.446063E+02    0.257515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.433754E+02    0.276577E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.414013E+02    0.289108E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.391707E+02    0.292622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.368716E+02    0.317048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.340388E+02    0.301013E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.328915E+02    0.272716E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.335240E+02    0.239754E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.359416E+02    0.209689E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.397067E+02    0.189735E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.437716E+02    0.187709E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.469454E+02    0.205615E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133524E+03   -0.485085E+02    0.236136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.474410E+02    0.272858E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.446958E+02    0.301419E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.408077E+02    0.317045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685382.936309499     
  ps_ts2 prof sum =   684974.969819344     
  trcom prof sum =    684974.969819345     
  ps_ts2 cur sum  =   11512.6715337941     
  trcom cur sum  =    11512.6715337941     
  
  antenna # iant =            2
  powecha_use(iant) =    665760.612327768     
  ps_ts2 prof sum =   665394.611987714     
  trcom prof sum =    665394.611987713     
  ps_ts2 cur sum  =   13233.5189692308     
  trcom cur sum  =    13233.5189692308     
  
  antenna # iant =            3
  powecha_use(iant) =    522558.407662065     
  ps_ts2 prof sum =   522249.650977456     
  trcom prof sum =    522249.650977457     
  ps_ts2 cur sum  =   7693.62469980203     
  trcom cur sum  =    7693.62469980204     
  
  antenna # iant =            4
  powecha_use(iant) =    551887.372383579     
  ps_ts2 prof sum =   551571.219354959     
  trcom prof sum =    551571.219354959     
  ps_ts2 cur sum  =   10082.0383145334     
  trcom cur sum  =    10082.0383145334     
  
  antenna # iant =            5
  powecha_use(iant) =    550488.057031772     
  ps_ts2 prof sum =   550177.788718635     
  trcom prof sum =    550177.788718635     
  ps_ts2 cur sum  =   11944.3647725036     
  trcom cur sum  =    11944.3647725036     
  
  Total ECH heating:      2974368.24085811     
  Total Current Drive:    54466.2182898640     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2435
 TA= 2.72500E+00 CPU TIME= 1.61331E-01 SECONDS.  DT= 1.26209E-03
  
 TEC1=    2.72499999999996     
 TEC2=    2.72999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.51705666666635     
  %check_save_state: izleft hours =    73.4744444444444     
 --> plasma_hash("gframe"): TA= 2.725000E+00 NSTEP=  2435 Hash code:   40696011
 ->PRGCHK: bdy curvature ratio at t= 2.7300E+00 seconds is:  5.5444E-02
% MHDEQ: TG1=     2.725000 ; TG2=     2.730000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7677E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5444E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.725000 TO TG2=    2.730000 @ NSTEP     2435
   GFRAME TG2 MOMENTS CHECKSUM:  2.4815074736300D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.11129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.80423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1= -1.74285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.31097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.58435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.59170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.97261E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  5.10617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.39159E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.58368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.45636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.29353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.27242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.47593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.49582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.91842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.69838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.72726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      11= -2.29623E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      11= -2.29623E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7300E+00  2.7350E+00 total power(Watts):  2.9892E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.73000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.385090E+02    0.400924E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.364874E+02    0.401449E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.379965E+02    0.386259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.402776E+02    0.391213E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.401043E+02    0.409798E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.378104E+02    0.415893E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.356295E+02    0.426875E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.346469E+02    0.413233E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.343657E+02    0.397884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.354211E+02    0.382392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.372110E+02    0.372040E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.393030E+02    0.369710E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.413442E+02    0.375479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.425754E+02    0.388493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.426713E+02    0.404931E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.416514E+02    0.420395E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.398037E+02    0.430705E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.376111E+02    0.432984E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.356212E+02    0.453635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.326642E+02    0.438043E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.314046E+02    0.412038E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.319750E+02    0.383888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.342847E+02    0.359523E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.377002E+02    0.345985E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.415511E+02    0.347031E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.447101E+02    0.363371E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.464185E+02    0.389462E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133866E+03   -0.457685E+02    0.418993E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.430326E+02    0.444264E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.392996E+02    0.456343E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.397461E+02    0.319197E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.376981E+02    0.320303E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.392175E+02    0.303674E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.415307E+02    0.308305E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.413669E+02    0.328101E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.389469E+02    0.335476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.369419E+02    0.346404E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.356533E+02    0.334107E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.355472E+02    0.317298E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.365127E+02    0.300904E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.385102E+02    0.288072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.407319E+02    0.284442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.427045E+02    0.290546E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.439610E+02    0.304188E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.440681E+02    0.321776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.429387E+02    0.338589E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.409717E+02    0.349934E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.388561E+02    0.352380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.367482E+02    0.374398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.337518E+02    0.359352E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.325502E+02    0.332807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.331111E+02    0.302899E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.354364E+02    0.276106E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.389865E+02    0.259899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.430979E+02    0.258515E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.462146E+02    0.275798E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.477344E+02    0.304312E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.469813E+02    0.336170E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.442362E+02    0.362525E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.404693E+02    0.376173E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.383774E+02    0.452616E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.363609E+02    0.452721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.377735E+02    0.437980E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.400390E+02    0.443504E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.399709E+02    0.461481E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.376838E+02    0.466780E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.357028E+02    0.476005E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.345284E+02    0.463567E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.342431E+02    0.448668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.353010E+02    0.433164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.369941E+02    0.423123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.391793E+02    0.420752E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.411086E+02    0.427356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.424385E+02    0.440806E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.425313E+02    0.457392E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.415183E+02    0.471836E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.396770E+02    0.481070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.375888E+02    0.482514E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.355950E+02    0.503346E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.326435E+02    0.486302E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.312958E+02    0.461677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.317777E+02    0.434406E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.339943E+02    0.410525E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.374892E+02    0.397671E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.413253E+02    0.399444E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.446948E+02    0.415260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.462803E+02    0.442763E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133441E+03   -0.457489E+02    0.471484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.431253E+02    0.494694E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.392721E+02    0.506951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.389375E+02    0.364106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.369072E+02    0.364916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.384224E+02    0.348895E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.407122E+02    0.353732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.406446E+02    0.372543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.382407E+02    0.379268E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.362477E+02    0.389461E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.349707E+02    0.377439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.348707E+02    0.361111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.359295E+02    0.344751E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.377293E+02    0.333760E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.399329E+02    0.330629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.418854E+02    0.336750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.431248E+02    0.350115E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.432226E+02    0.367260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.422033E+02    0.382896E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.402471E+02    0.393391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.381475E+02    0.395429E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.360486E+02    0.416637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.330814E+02    0.401318E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.318939E+02    0.375810E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.323738E+02    0.347282E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.346880E+02    0.321890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.383078E+02    0.306582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.421871E+02    0.307135E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.452652E+02    0.323850E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133817E+03   -0.469841E+02    0.350455E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.463372E+02    0.380915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.434907E+02    0.405965E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.397423E+02    0.418876E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.401671E+02    0.256442E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.379117E+02    0.259422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.395263E+02    0.240569E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.420598E+02    0.243607E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.418078E+02    0.265626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.393729E+02    0.274102E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.370740E+02    0.287896E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.359577E+02    0.274082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.359304E+02    0.255474E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.370768E+02    0.236217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.389885E+02    0.222547E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.412298E+02    0.218073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.432282E+02    0.224112E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.445085E+02    0.238471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.445238E+02    0.258088E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.433984E+02    0.276485E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.414252E+02    0.288979E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.391935E+02    0.292505E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.369896E+02    0.316364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.340592E+02    0.300898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.328257E+02    0.273300E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.334561E+02    0.240518E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.358713E+02    0.210581E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.395370E+02    0.191486E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.436896E+02    0.188664E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.468587E+02    0.206474E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.483114E+02    0.237455E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.475762E+02    0.272201E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.446146E+02    0.301812E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.407320E+02    0.317412E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693723.388198842     
  ps_ts2 prof sum =   693329.904020960     
  trcom prof sum =    693329.904020960     
  ps_ts2 cur sum  =   11657.1487697337     
  trcom cur sum  =    11657.1487697337     
  
  antenna # iant =            2
  powecha_use(iant) =    665981.864800541     
  ps_ts2 prof sum =   665585.552894153     
  trcom prof sum =    665585.552894153     
  ps_ts2 cur sum  =   13268.5040257392     
  trcom cur sum  =    13268.5040257392     
  
  antenna # iant =            3
  powecha_use(iant) =    524731.416859616     
  ps_ts2 prof sum =   524424.673848815     
  trcom prof sum =    524424.673848815     
  ps_ts2 cur sum  =   7718.12859212665     
  trcom cur sum  =    7718.12859212666     
  
  antenna # iant =            4
  powecha_use(iant) =    554622.883908942     
  ps_ts2 prof sum =   554310.658014259     
  trcom prof sum =    554310.658014259     
  ps_ts2 cur sum  =   10145.8001594451     
  trcom cur sum  =    10145.8001594450     
  
  antenna # iant =            5
  powecha_use(iant) =    550161.345107524     
  ps_ts2 prof sum =   549866.514673004     
  trcom prof sum =    549866.514673004     
  ps_ts2 cur sum  =   11972.6331683879     
  trcom cur sum  =    11972.6331683879     
  
  Total ECH heating:      2987517.30345119     
  Total Current Drive:    54762.2147154325     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2439
 TA= 2.73000E+00 CPU TIME= 1.54728E-01 SECONDS.  DT= 2.35339E-04
  
 TEC1=    2.72999999999996     
 TEC2=    2.73499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.53499805555521     
  %check_save_state: izleft hours =    73.4566666666667     
 --> plasma_hash("gframe"): TA= 2.730000E+00 NSTEP=  2439 Hash code:   68748194
 ->PRGCHK: bdy curvature ratio at t= 2.7350E+00 seconds is:  5.5510E-02
% MHDEQ: TG1=     2.730000 ; TG2=     2.735000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7700E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5510E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.730000 TO TG2=    2.735000 @ NSTEP     2439
   GFRAME TG2 MOMENTS CHECKSUM:  2.4813168738894D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7350E+00  2.7400E+00 total power(Watts):  2.9880E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.73500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.384394E+02    0.401167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.364204E+02    0.401707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.379273E+02    0.386493E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.402054E+02    0.391420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.400334E+02    0.410030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.377423E+02    0.416160E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.357574E+02    0.426495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.345832E+02    0.413516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.344861E+02    0.397367E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.352602E+02    0.383064E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.371424E+02    0.372255E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.393318E+02    0.369484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.412697E+02    0.375655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.425001E+02    0.388665E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.427053E+02    0.404795E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.415789E+02    0.420628E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.397342E+02    0.430953E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.376435E+02    0.432948E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.356545E+02    0.453640E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.326949E+02    0.438009E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.314320E+02    0.411961E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.319129E+02    0.384168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.341277E+02    0.360258E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.377260E+02    0.345749E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.414743E+02    0.347234E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.446309E+02    0.363503E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.462255E+02    0.389939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.455781E+02    0.419473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.429596E+02    0.444510E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.393359E+02    0.456355E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.396698E+02    0.319510E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.376241E+02    0.320632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.392402E+02    0.303489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.415539E+02    0.308114E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.412889E+02    0.328362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.389726E+02    0.335229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.368714E+02    0.346652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.355841E+02    0.334403E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.354761E+02    0.317668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.366266E+02    0.300157E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.384344E+02    0.288518E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.406528E+02    0.284872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.427265E+02    0.290379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.438784E+02    0.304513E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.439864E+02    0.322032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.428604E+02    0.338797E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.409992E+02    0.349680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.387834E+02    0.352597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.366804E+02    0.374622E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.336885E+02    0.359607E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.324850E+02    0.333146E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.330441E+02    0.303345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.353646E+02    0.276620E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.391002E+02    0.259182E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.430152E+02    0.259052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.461278E+02    0.276217E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.476476E+02    0.304586E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.468977E+02    0.336334E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.441575E+02    0.362664E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.403960E+02    0.376357E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.383110E+02    0.452879E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.362966E+02    0.452996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.377029E+02    0.438250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.399698E+02    0.443756E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.399026E+02    0.461754E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.376186E+02    0.467084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.356407E+02    0.476350E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.344671E+02    0.463878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.343694E+02    0.448361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.352385E+02    0.433430E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.370263E+02    0.423048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.391100E+02    0.420994E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.411438E+02    0.427285E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.423664E+02    0.441049E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.426800E+02    0.457171E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.415572E+02    0.471932E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.397150E+02    0.481214E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.375241E+02    0.482873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.355333E+02    0.503745E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.325847E+02    0.486690E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.313261E+02    0.461723E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.318072E+02    0.434368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.339308E+02    0.410813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.375195E+02    0.397529E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.412521E+02    0.399646E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.446195E+02    0.415446E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.462048E+02    0.442969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133644E+03   -0.456775E+02    0.471747E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.429438E+02    0.495223E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.392059E+02    0.507347E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.389653E+02    0.363871E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.369338E+02    0.364691E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.384486E+02    0.348651E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.407398E+02    0.353477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.405708E+02    0.372728E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.381692E+02    0.379490E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.361805E+02    0.389714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.349039E+02    0.377690E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.348036E+02    0.361363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.357662E+02    0.345515E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.376566E+02    0.334040E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.398574E+02    0.330902E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.418075E+02    0.336977E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.430459E+02    0.350296E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.431447E+02    0.367419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.421280E+02    0.383075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.402784E+02    0.393232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.380768E+02    0.395689E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.358862E+02    0.417260E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.331074E+02    0.401224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.318320E+02    0.376089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.323967E+02    0.347065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.346189E+02    0.322253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.382329E+02    0.306951E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.421068E+02    0.307464E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.452919E+02    0.323604E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.467886E+02    0.350993E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.462584E+02    0.381013E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.434148E+02    0.406171E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.397755E+02    0.418799E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.400877E+02    0.257030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.380227E+02    0.258701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.396388E+02    0.239887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.419771E+02    0.244271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.417256E+02    0.266148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.392959E+02    0.274579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.371866E+02    0.287144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.358843E+02    0.274613E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.358560E+02    0.256097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.369095E+02    0.237675E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.389097E+02    0.223355E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.411475E+02    0.218891E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.432447E+02    0.224187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.444222E+02    0.239148E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.444382E+02    0.258630E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.433155E+02    0.276925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.413452E+02    0.289392E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.391169E+02    0.292928E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.369171E+02    0.316716E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.339901E+02    0.301345E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.327567E+02    0.273853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.333857E+02    0.241260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.357968E+02    0.211469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.394567E+02    0.192450E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.436039E+02    0.189622E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.467683E+02    0.207333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.482202E+02    0.238116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.473777E+02    0.273189E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.445303E+02    0.302147E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.407559E+02    0.317201E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695525.154735472     
  ps_ts2 prof sum =   695127.885759163     
  trcom prof sum =    695127.885759164     
  ps_ts2 cur sum  =   11687.6322834623     
  trcom cur sum  =    11687.6322834623     
  
  antenna # iant =            2
  powecha_use(iant) =    666425.419004581     
  ps_ts2 prof sum =   666036.531940223     
  trcom prof sum =    666036.531940222     
  ps_ts2 cur sum  =   13296.6110637263     
  trcom cur sum  =    13296.6110637263     
  
  antenna # iant =            3
  powecha_use(iant) =    522743.208060265     
  ps_ts2 prof sum =   522450.280855767     
  trcom prof sum =    522450.280855768     
  ps_ts2 cur sum  =   7680.82652281484     
  trcom cur sum  =    7680.82652281485     
  
  antenna # iant =            4
  powecha_use(iant) =    554125.956108008     
  ps_ts2 prof sum =   553792.520314115     
  trcom prof sum =    553792.520314115     
  ps_ts2 cur sum  =   10144.5644982177     
  trcom cur sum  =    10144.5644982177     
  
  antenna # iant =            5
  powecha_use(iant) =    549173.544744150     
  ps_ts2 prof sum =   548878.972199123     
  trcom prof sum =    548878.972199123     
  ps_ts2 cur sum  =   11973.3677155741     
  trcom cur sum  =    11973.3677155741     
  
  Total ECH heating:      2986286.19106839     
  Total Current Drive:    54783.0020837953     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2448
 TA= 2.73500E+00 CPU TIME= 1.67613E-01 SECONDS.  DT= 4.13040E-04
  
 TEC1=    2.73499999999996     
 TEC2=    2.73999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.55014027777725     
  %check_save_state: izleft hours =    73.4413888888889     
 --> plasma_hash("gframe"): TA= 2.735000E+00 NSTEP=  2448 Hash code:    2464394
 ->PRGCHK: bdy curvature ratio at t= 2.7400E+00 seconds is:  5.5577E-02
% MHDEQ: TG1=     2.735000 ; TG2=     2.740000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7723E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5577E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.735000 TO TG2=    2.740000 @ NSTEP     2448
   GFRAME TG2 MOMENTS CHECKSUM:  2.4811262741488D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.41299E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.83406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.80659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.62937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.62275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.16799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.08609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.26893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.44277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.20867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.60265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.16142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.44848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.75383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.11603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.49832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.75364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.49724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.49724E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7400E+00  2.7450E+00 total power(Watts):  2.9772E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.74000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.383653E+02    0.401583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.363481E+02    0.402149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.378537E+02    0.386897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.401288E+02    0.391816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.400614E+02    0.410102E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.376694E+02    0.416591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.356882E+02    0.426909E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.344215E+02    0.414314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.343247E+02    0.398200E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.353786E+02    0.382642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.369721E+02    0.373101E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.392544E+02    0.369872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.411911E+02    0.376026E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.424202E+02    0.389040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.426254E+02    0.405203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.416089E+02    0.420699E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.397643E+02    0.431036E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.375726E+02    0.433334E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.355864E+02    0.454029E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.326291E+02    0.438432E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.313687E+02    0.412408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.318482E+02    0.384615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.340587E+02    0.360680E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.376517E+02    0.346155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.413946E+02    0.347610E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.445479E+02    0.363840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.461419E+02    0.390266E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.457250E+02    0.419241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.428832E+02    0.444873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.392630E+02    0.456734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.396920E+02    0.319424E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.375493E+02    0.321086E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.391622E+02    0.303960E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.414731E+02    0.308553E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.413127E+02    0.328268E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.388964E+02    0.335642E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.367984E+02    0.347069E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.356997E+02    0.333797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.355887E+02    0.317026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.364592E+02    0.301238E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.382604E+02    0.289617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.406735E+02    0.284764E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.426441E+02    0.290831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.439015E+02    0.304414E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.439030E+02    0.322420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.428847E+02    0.338709E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.409204E+02    0.350061E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.387078E+02    0.352990E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.366081E+02    0.375032E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.337104E+02    0.359551E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.324183E+02    0.333615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.329755E+02    0.303860E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.352917E+02    0.277172E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.390222E+02    0.259754E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.429316E+02    0.259594E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.461497E+02    0.276100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.477848E+02    0.303979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134081E+03   -0.470378E+02    0.335781E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.440750E+02    0.363005E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.403184E+02    0.376740E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.382391E+02    0.453263E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.362275E+02    0.453382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.377321E+02    0.438342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.400007E+02    0.443859E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.399344E+02    0.461900E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.375480E+02    0.467493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.355726E+02    0.476790E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.343059E+02    0.464558E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.343033E+02    0.448755E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.350747E+02    0.434154E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.369552E+02    0.423467E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.390357E+02    0.421403E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.410667E+02    0.427684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.422894E+02    0.441405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.424931E+02    0.457765E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.414816E+02    0.472345E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.396420E+02    0.481654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.374538E+02    0.483320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.355623E+02    0.504024E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.327040E+02    0.486715E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.312644E+02    0.462148E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.317440E+02    0.434789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.340436E+02    0.410519E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.374468E+02    0.397946E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.411742E+02    0.400045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.444265E+02    0.416126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.462401E+02    0.443056E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133848E+03   -0.455965E+02    0.472142E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.428674E+02    0.495673E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.392395E+02    0.507629E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.388899E+02    0.364260E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.368612E+02    0.365090E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.383735E+02    0.349049E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.406615E+02    0.353855E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.404933E+02    0.373100E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.381919E+02    0.379482E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.360132E+02    0.390543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.350208E+02    0.377235E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.347336E+02    0.361784E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.356944E+02    0.345942E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.376791E+02    0.333957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.397796E+02    0.331317E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.418320E+02    0.336881E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.429647E+02    0.350649E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.431729E+02    0.367347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.420486E+02    0.383445E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.402018E+02    0.393628E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.380034E+02    0.396088E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.360096E+02    0.416983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.330411E+02    0.401671E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.317677E+02    0.376529E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.323305E+02    0.347509E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.345484E+02    0.322726E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.380612E+02    0.307983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.420253E+02    0.307902E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.452070E+02    0.323981E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.469302E+02    0.350482E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.461740E+02    0.381363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.433343E+02    0.406561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.397047E+02    0.419185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.401055E+02    0.256959E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.379465E+02    0.259283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.395594E+02    0.240551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.418946E+02    0.244888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.416442E+02    0.266669E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.392178E+02    0.275100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.370177E+02    0.288266E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.359028E+02    0.274506E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.357827E+02    0.256716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.368324E+02    0.238376E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.387365E+02    0.224824E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.411640E+02    0.218908E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.431601E+02    0.224897E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.443364E+02    0.239777E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.443528E+02    0.259160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.432316E+02    0.277407E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.412647E+02    0.289860E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.390392E+02    0.293415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.367479E+02    0.317726E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.339201E+02    0.301863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.326914E+02    0.274417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.334015E+02    0.241219E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.358117E+02    0.211489E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.395664E+02    0.191702E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.435182E+02    0.190464E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.466797E+02    0.208068E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.481305E+02    0.238695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.472892E+02    0.273631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.444454E+02    0.302569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.406765E+02    0.317632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688798.401720198     
  ps_ts2 prof sum =   688366.159756628     
  trcom prof sum =    688366.159756628     
  ps_ts2 cur sum  =   11570.7816950127     
  trcom cur sum  =    11570.7816950127     
  
  antenna # iant =            2
  powecha_use(iant) =    665602.227056236     
  ps_ts2 prof sum =   665243.979713850     
  trcom prof sum =    665243.979713849     
  ps_ts2 cur sum  =   13290.8204713030     
  trcom cur sum  =    13290.8204713030     
  
  antenna # iant =            3
  powecha_use(iant) =    523254.603285973     
  ps_ts2 prof sum =   522948.292097787     
  trcom prof sum =    522948.292097788     
  ps_ts2 cur sum  =   7676.38668126204     
  trcom cur sum  =    7676.38668126205     
  
  antenna # iant =            4
  powecha_use(iant) =    550690.790066900     
  ps_ts2 prof sum =   550349.909853707     
  trcom prof sum =    550349.909853706     
  ps_ts2 cur sum  =   10083.8273606167     
  trcom cur sum  =    10083.8273606166     
  
  antenna # iant =            5
  powecha_use(iant) =    548896.586726158     
  ps_ts2 prof sum =   548573.630735458     
  trcom prof sum =    548573.630735458     
  ps_ts2 cur sum  =   11987.8589255525     
  trcom cur sum  =    11987.8589255525     
  
  Total ECH heating:      2975481.97215743     
  Total Current Drive:    54609.6751337469     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2455
 TA= 2.74000E+00 CPU TIME= 1.45892E-01 SECONDS.  DT= 4.37091E-04
  
 TEC1=    2.73999999999996     
 TEC2=    2.74499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.56135416666621     
  %check_save_state: izleft hours =    73.4302777777778     
 --> plasma_hash("gframe"): TA= 2.740000E+00 NSTEP=  2455 Hash code:   78891078
 ->PRGCHK: bdy curvature ratio at t= 2.7450E+00 seconds is:  5.5644E-02
% MHDEQ: TG1=     2.740000 ; TG2=     2.745000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7746E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5644E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.740000 TO TG2=    2.745000 @ NSTEP     2455
   GFRAME TG2 MOMENTS CHECKSUM:  2.4809356744083D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.7450E+00  2.7500E+00 total power(Watts):  2.9806E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.74500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.383913E+02    0.401628E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.363734E+02    0.402200E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.378779E+02    0.386899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.400508E+02    0.392204E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.399843E+02    0.410506E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.376961E+02    0.416663E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.355213E+02    0.427662E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.345397E+02    0.414015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.342552E+02    0.398646E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.353075E+02    0.383059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.370931E+02    0.372631E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.391777E+02    0.370261E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.412173E+02    0.375986E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.424474E+02    0.389036E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.425447E+02    0.405590E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.415301E+02    0.421101E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.396884E+02    0.431436E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.374961E+02    0.433740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.355172E+02    0.454439E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.325642E+02    0.438854E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.313042E+02    0.412867E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.318697E+02    0.384617E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.340800E+02    0.360627E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.375762E+02    0.346569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.414172E+02    0.347531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.445740E+02    0.363777E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134197E+03   -0.462857E+02    0.389914E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.456420E+02    0.419614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.430241E+02    0.444729E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.391886E+02    0.457133E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.396129E+02    0.319863E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.375697E+02    0.321008E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.390835E+02    0.304431E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.413915E+02    0.309000E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.412313E+02    0.328678E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.388186E+02    0.336060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.368204E+02    0.346995E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.355318E+02    0.334778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.354231E+02    0.318064E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.363840E+02    0.301737E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.383765E+02    0.288908E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.405924E+02    0.285247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.425603E+02    0.291272E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.438158E+02    0.304835E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.439242E+02    0.322341E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.428018E+02    0.339084E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.408402E+02    0.350440E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.387312E+02    0.352914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.366317E+02    0.375002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.336409E+02    0.359979E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.324375E+02    0.333542E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.329931E+02    0.303782E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.353089E+02    0.277070E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.388462E+02    0.260978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.428460E+02    0.260138E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.460611E+02    0.276545E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.476962E+02    0.304345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.469506E+02    0.336111E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.441013E+02    0.362930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.403443E+02    0.376696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.382684E+02    0.453390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.362556E+02    0.453514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.376588E+02    0.438752E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.399251E+02    0.444246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.398592E+02    0.462313E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.375773E+02    0.467682E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.356011E+02    0.477011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.344280E+02    0.464468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.341415E+02    0.449457E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.351952E+02    0.433948E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.368831E+02    0.423888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.390654E+02    0.421497E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.409897E+02    0.428070E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.422103E+02    0.441794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.424148E+02    0.458150E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.414048E+02    0.472766E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.395676E+02    0.482095E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.374838E+02    0.483561E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.354941E+02    0.504441E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.325481E+02    0.487381E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138354E+03   -0.312015E+02    0.462582E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.316800E+02    0.435218E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.338874E+02    0.411322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.373731E+02    0.398371E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.412015E+02    0.400082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.443446E+02    0.416499E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.461577E+02    0.443428E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.455156E+02    0.472547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.427900E+02    0.496110E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.391665E+02    0.508038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.388137E+02    0.364634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.367874E+02    0.365494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.382969E+02    0.349456E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.405835E+02    0.354227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.405185E+02    0.373056E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.381195E+02    0.379872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.361329E+02    0.390151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.348563E+02    0.378093E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.347553E+02    0.361727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.358100E+02    0.345370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.376034E+02    0.334390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.398015E+02    0.331227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.417505E+02    0.337273E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.429895E+02    0.350567E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.430905E+02    0.367700E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.420753E+02    0.383427E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.401239E+02    0.394020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.380290E+02    0.396115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.359384E+02    0.417417E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.331548E+02    0.401325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.317882E+02    0.376507E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.322632E+02    0.347968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.345678E+02    0.322651E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.381766E+02    0.307341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.420464E+02    0.307807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.451205E+02    0.324361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.468435E+02    0.350802E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.459750E+02    0.382056E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.433631E+02    0.406611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.396243E+02    0.419608E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.400248E+02    0.257527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.377736E+02    0.260524E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.393820E+02    0.241896E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.419115E+02    0.244838E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.416629E+02    0.266566E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.392352E+02    0.275005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.369415E+02    0.288780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.358279E+02    0.275055E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.357987E+02    0.256640E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.369400E+02    0.237620E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.386575E+02    0.225555E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.410812E+02    0.219646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.430751E+02    0.225582E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.442491E+02    0.240397E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.443719E+02    0.259071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.431467E+02    0.277879E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.412845E+02    0.289753E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.388645E+02    0.294473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.368637E+02    0.317088E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.339381E+02    0.301775E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.327013E+02    0.274358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.333289E+02    0.241922E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.357367E+02    0.212291E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.394840E+02    0.192569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.435331E+02    0.190528E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.466959E+02    0.208099E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.480381E+02    0.239301E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.471995E+02    0.274067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.444673E+02    0.302461E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.405959E+02    0.318067E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.17 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691056.943307802     
  ps_ts2 prof sum =   690667.371128468     
  trcom prof sum =    690667.371128468     
  ps_ts2 cur sum  =   11598.4911327533     
  trcom cur sum  =    11598.4911327533     
  
  antenna # iant =            2
  powecha_use(iant) =    665095.704942373     
  ps_ts2 prof sum =   664721.425317017     
  trcom prof sum =    664721.425317016     
  ps_ts2 cur sum  =   13292.0698735608     
  trcom cur sum  =    13292.0698735608     
  
  antenna # iant =            3
  powecha_use(iant) =    523482.524664885     
  ps_ts2 prof sum =   523158.757880494     
  trcom prof sum =    523158.757880495     
  ps_ts2 cur sum  =   7662.44908733664     
  trcom cur sum  =    7662.44908733665     
  
  antenna # iant =            4
  powecha_use(iant) =    551895.276195447     
  ps_ts2 prof sum =   551599.001699243     
  trcom prof sum =    551599.001699241     
  ps_ts2 cur sum  =   10106.6180162184     
  trcom cur sum  =    10106.6180162183     
  
  antenna # iant =            5
  powecha_use(iant) =    549114.376358141     
  ps_ts2 prof sum =   548791.921110121     
  trcom prof sum =    548791.921110121     
  ps_ts2 cur sum  =   12010.4839287632     
  trcom cur sum  =    12010.4839287632     
  
  Total ECH heating:      2978938.47713534     
  Total Current Drive:    54670.1120386323     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2462
 TA= 2.74500E+00 CPU TIME= 1.60609E-01 SECONDS.  DT= 9.86022E-05
  
 TEC1=    2.74499999999996     
 TEC2=    2.74999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.57712083333286     
  %check_save_state: izleft hours =    73.4144444444444     
 --> plasma_hash("gframe"): TA= 2.745000E+00 NSTEP=  2462 Hash code:   83181008
 ->PRGCHK: bdy curvature ratio at t= 2.7500E+00 seconds is:  5.5712E-02
% MHDEQ: TG1=     2.745000 ; TG2=     2.750000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7769E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5712E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.745000 TO TG2=    2.750000 @ NSTEP     2462
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807450746677D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.73037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.86545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  5.07928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.37990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.67673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.65543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.37351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.08564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.08796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.29455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.94811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.97976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.04465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.41960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.54854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.32391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.28786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.78138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.88321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.88321E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.7500E+00  2.7550E+00 total power(Watts):  2.9878E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.75000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.383161E+02    0.402071E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.363009E+02    0.402652E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.378034E+02    0.387315E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.400773E+02    0.392233E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.399072E+02    0.410936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.376228E+02    0.417101E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.356440E+02    0.427433E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.343766E+02    0.414847E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.343722E+02    0.398296E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.351415E+02    0.383934E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.370188E+02    0.373053E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.392035E+02    0.370227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.411372E+02    0.376380E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.423665E+02    0.389426E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.424639E+02    0.406006E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.414516E+02    0.421519E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.396119E+02    0.431865E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.375266E+02    0.433872E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.355448E+02    0.454581E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.325897E+02    0.438956E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.313266E+02    0.412947E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.318038E+02    0.385081E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.340102E+02    0.361076E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.375986E+02    0.346527E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.413377E+02    0.347939E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.444901E+02    0.364136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.462007E+02    0.390288E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.454441E+02    0.420305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.428340E+02    0.445377E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.392186E+02    0.457291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.395339E+02    0.320341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.374938E+02    0.321494E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.391044E+02    0.304380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.414129E+02    0.308947E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.411503E+02    0.329124E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.388405E+02    0.336020E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.367461E+02    0.347445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.354594E+02    0.335252E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.355357E+02    0.317452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.364973E+02    0.301098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.382989E+02    0.289460E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.405116E+02    0.285789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.425814E+02    0.291225E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.437306E+02    0.305317E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.438413E+02    0.322761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.427183E+02    0.339504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.408608E+02    0.350409E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.386540E+02    0.353341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.365585E+02    0.375432E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.335716E+02    0.360434E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.323701E+02    0.334043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138576E+03   -0.329236E+02    0.304344E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.352353E+02    0.277675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.389612E+02    0.260298E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.428656E+02    0.260114E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.459730E+02    0.277070E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.474936E+02    0.305300E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.467496E+02    0.336939E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.440170E+02    0.363316E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.402656E+02    0.377098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.381954E+02    0.453792E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.361853E+02    0.453929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.375862E+02    0.439170E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.398492E+02    0.444648E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.397838E+02    0.462731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.375051E+02    0.468132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.355319E+02    0.477476E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.342650E+02    0.465169E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.342625E+02    0.449284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.351268E+02    0.434373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.369102E+02    0.423990E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.389880E+02    0.421919E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.410189E+02    0.428186E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.422412E+02    0.441925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.423362E+02    0.458548E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.414368E+02    0.472997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.395988E+02    0.482359E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.374121E+02    0.484035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.354258E+02    0.504872E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.324841E+02    0.487847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.312266E+02    0.462752E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.317040E+02    0.435330E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.338186E+02    0.411786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.373984E+02    0.398430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.411225E+02    0.400502E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.444875E+02    0.416283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134107E+03   -0.460752E+02    0.443803E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.455502E+02    0.472784E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.429361E+02    0.496262E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.390933E+02    0.508469E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.388378E+02    0.364601E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.368107E+02    0.365463E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.383198E+02    0.349410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.406061E+02    0.354185E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.404398E+02    0.373454E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.380440E+02    0.380291E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.360576E+02    0.390594E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.347855E+02    0.378536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.346830E+02    0.362182E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.356427E+02    0.346332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.375276E+02    0.334852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.397228E+02    0.331675E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.416689E+02    0.337697E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.429068E+02    0.350960E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.430081E+02    0.368078E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.419945E+02    0.383821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.401505E+02    0.394059E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.379538E+02    0.396564E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.359644E+02    0.417511E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.329967E+02    0.402189E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.317222E+02    0.376977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.322827E+02    0.347929E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.344962E+02    0.323161E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.380998E+02    0.307858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.419645E+02    0.308294E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.451447E+02    0.324298E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.466428E+02    0.351581E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.461180E+02    0.381680E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.432813E+02    0.407027E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.396522E+02    0.419707E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.399446E+02    0.258169E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.378864E+02    0.259843E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.394963E+02    0.241229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.418285E+02    0.245530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.415806E+02    0.267148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.391563E+02    0.275582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.370550E+02    0.288116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.359378E+02    0.274362E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.357246E+02    0.257322E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.367718E+02    0.239102E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.387686E+02    0.224882E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.409993E+02    0.220454E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.429896E+02    0.226362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.442678E+02    0.240432E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.442858E+02    0.259677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.431674E+02    0.277833E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.412031E+02    0.290278E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.389804E+02    0.293846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.366905E+02    0.318162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.338653E+02    0.302349E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138661E+03   -0.326361E+02    0.274968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.333445E+02    0.241944E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.356647E+02    0.213137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.393102E+02    0.194287E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.434481E+02    0.191451E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.466066E+02    0.208920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.480577E+02    0.239343E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.473327E+02    0.273449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.443825E+02    0.302930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.406177E+02    0.318016E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694466.003010868     
  ps_ts2 prof sum =   694058.842780965     
  trcom prof sum =    694058.842780965     
  ps_ts2 cur sum  =   11641.7460864402     
  trcom cur sum  =    11641.7460864402     
  
  antenna # iant =            2
  powecha_use(iant) =    665800.394682352     
  ps_ts2 prof sum =   665426.143798712     
  trcom prof sum =    665426.143798711     
  ps_ts2 cur sum  =   13320.1876364409     
  trcom cur sum  =    13320.1876364409     
  
  antenna # iant =            3
  powecha_use(iant) =    524390.266489954     
  ps_ts2 prof sum =   524085.600221353     
  trcom prof sum =    524085.600221354     
  ps_ts2 cur sum  =   7657.09935850042     
  trcom cur sum  =    7657.09935850043     
  
  antenna # iant =            4
  powecha_use(iant) =    554194.106750778     
  ps_ts2 prof sum =   553871.110999336     
  trcom prof sum =    553871.110999335     
  ps_ts2 cur sum  =   10147.9162628171     
  trcom cur sum  =    10147.9162628171     
  
  antenna # iant =            5
  powecha_use(iant) =    548983.873122651     
  ps_ts2 prof sum =   548703.096391834     
  trcom prof sum =    548703.096391833     
  ps_ts2 cur sum  =   12030.1238151847     
  trcom cur sum  =    12030.1238151847     
  
  Total ECH heating:      2986144.79419220     
  Total Current Drive:    54797.0731593834     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2474
 TA= 2.75000E+00 CPU TIME= 1.63520E-01 SECONDS.  DT= 1.00361E-03
  
 TEC1=    2.74999999999996     
 TEC2=    2.75499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.59617416666629     
  %check_save_state: izleft hours =    73.3952777777778     
 --> plasma_hash("gframe"): TA= 2.750000E+00 NSTEP=  2474 Hash code:   38491514
 ->PRGCHK: bdy curvature ratio at t= 2.7550E+00 seconds is:  5.5781E-02
% MHDEQ: TG1=     2.750000 ; TG2=     2.755000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7791E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5781E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.750000 TO TG2=    2.755000 @ NSTEP     2474
   GFRAME TG2 MOMENTS CHECKSUM:  2.4805544749271D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7550E+00  2.7600E+00 total power(Watts):  2.9848E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.75500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.382417E+02    0.402505E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.361320E+02    0.403481E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.377294E+02    0.387737E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.400002E+02    0.392647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.399337E+02    0.411023E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.375499E+02    0.417541E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.355733E+02    0.427893E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.343079E+02    0.415302E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.342121E+02    0.399149E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.352607E+02    0.383507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.370437E+02    0.373026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.391268E+02    0.370630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.410583E+02    0.376766E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.422862E+02    0.389821E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.424942E+02    0.406058E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.414817E+02    0.421624E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.396422E+02    0.431979E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.374559E+02    0.434289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.354760E+02    0.455022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.325247E+02    0.439395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138710E+03   -0.312631E+02    0.413419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138793E+03   -0.317385E+02    0.385537E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.339394E+02    0.361522E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.375242E+02    0.346944E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.413632E+02    0.347859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.444068E+02    0.364487E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.460020E+02    0.390995E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.455892E+02    0.420114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.427555E+02    0.445777E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.391448E+02    0.457729E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.395566E+02    0.320254E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.373215E+02    0.322497E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.390264E+02    0.304853E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.413321E+02    0.309390E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.411740E+02    0.329032E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.387644E+02    0.336430E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.365766E+02    0.348363E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.355745E+02    0.334647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.353709E+02    0.318497E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.363272E+02    0.302204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.383191E+02    0.289353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.405323E+02    0.285672E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.424985E+02    0.291681E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.436466E+02    0.305741E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.437576E+02    0.323150E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.427435E+02    0.339432E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.407851E+02    0.350783E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.385782E+02    0.353748E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.364857E+02    0.375847E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.335940E+02    0.360384E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138778E+03   -0.323033E+02    0.334522E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.329421E+02    0.304262E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.352539E+02    0.277575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.388829E+02    0.260863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.427814E+02    0.260654E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.459953E+02    0.276944E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.476322E+02    0.304667E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.468906E+02    0.336386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.439342E+02    0.363670E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.402916E+02    0.377089E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.381228E+02    0.454218E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.361154E+02    0.454364E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.376152E+02    0.439297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.398798E+02    0.444786E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.398151E+02    0.462951E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.374336E+02    0.468614E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.355609E+02    0.477777E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.343881E+02    0.465138E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.341953E+02    0.449721E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.349622E+02    0.435134E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.368391E+02    0.424429E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.389139E+02    0.422349E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.409420E+02    0.428607E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.421631E+02    0.442331E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.423690E+02    0.458742E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.413602E+02    0.473490E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.395247E+02    0.482897E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.374425E+02    0.484372E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.354573E+02    0.505177E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.326016E+02    0.487969E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138534E+03   -0.311640E+02    0.463241E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.316407E+02    0.435776E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.339366E+02    0.411486E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.373254E+02    0.398867E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.410492E+02    0.400900E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.442934E+02    0.416997E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.459935E+02    0.444196E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.454694E+02    0.473267E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.427457E+02    0.496985E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.391265E+02    0.508811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.387616E+02    0.365004E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.367383E+02    0.365881E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.382445E+02    0.349813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.405275E+02    0.354574E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.403621E+02    0.373833E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.380698E+02    0.380285E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.358925E+02    0.391439E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.349033E+02    0.378082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.347992E+02    0.361656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.357597E+02    0.345758E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.375495E+02    0.334787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.396445E+02    0.332101E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.416950E+02    0.337604E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.428250E+02    0.351326E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.430352E+02    0.368034E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.419149E+02    0.384205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.400737E+02    0.394467E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.378799E+02    0.396994E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.358940E+02    0.417959E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.329301E+02    0.402655E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138813E+03   -0.316570E+02    0.377429E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138741E+03   -0.322164E+02    0.348385E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.346083E+02    0.322516E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.379249E+02    0.308903E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.418826E+02    0.308735E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.450594E+02    0.324684E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.465568E+02    0.351915E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.460340E+02    0.382027E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.432014E+02    0.407409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.395775E+02    0.420126E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.399642E+02    0.258071E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.378098E+02    0.260417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.394168E+02    0.241876E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.417478E+02    0.246126E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.414981E+02    0.267676E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.390784E+02    0.276089E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.368850E+02    0.289242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.357721E+02    0.275560E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.357419E+02    0.257233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.366960E+02    0.239787E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.385943E+02    0.226355E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.410162E+02    0.220455E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.430073E+02    0.226357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.441816E+02    0.241046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.441999E+02    0.260200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.430835E+02    0.278305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.411220E+02    0.290748E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.389024E+02    0.294333E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.366188E+02    0.318626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.337966E+02    0.302862E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138649E+03   -0.326531E+02    0.274866E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.332745E+02    0.242633E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.356737E+02    0.213208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.394199E+02    0.193559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.433626E+02    0.192300E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.465168E+02    0.209674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.479670E+02    0.239934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.471369E+02    0.274441E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.442971E+02    0.303355E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.405382E+02    0.318455E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694985.244612595     
  ps_ts2 prof sum =   694549.765032086     
  trcom prof sum =    694549.765032086     
  ps_ts2 cur sum  =   11646.4462233518     
  trcom cur sum  =    11646.4462233518     
  
  antenna # iant =            2
  powecha_use(iant) =    668547.245887071     
  ps_ts2 prof sum =   668182.642155006     
  trcom prof sum =    668182.642155005     
  ps_ts2 cur sum  =   13388.5698269971     
  trcom cur sum  =    13388.5698269971     
  
  antenna # iant =            3
  powecha_use(iant) =    523299.736231556     
  ps_ts2 prof sum =   523007.613398617     
  trcom prof sum =    523007.613398617     
  ps_ts2 cur sum  =   7627.55969701523     
  trcom cur sum  =    7627.55969701523     
  
  antenna # iant =            4
  powecha_use(iant) =    549974.092388851     
  ps_ts2 prof sum =   549660.746288093     
  trcom prof sum =    549660.746251134     
  ps_ts2 cur sum  =   10074.2858373197     
  trcom cur sum  =    10074.2858373197     
  
  antenna # iant =            5
  powecha_use(iant) =    547973.586776481     
  ps_ts2 prof sum =   547665.291726100     
  trcom prof sum =    547665.291726100     
  ps_ts2 cur sum  =   12031.5825671626     
  trcom cur sum  =    12031.5825671626     
  
  Total ECH heating:      2983066.05856294     
  Total Current Drive:    54768.4441518464     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2478
 TA= 2.75500E+00 CPU TIME= 1.59654E-01 SECONDS.  DT= 1.46719E-03
  
 TEC1=    2.75499999999996     
 TEC2=    2.75999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.60842111111106     
  %check_save_state: izleft hours =    73.3830555555556     
 --> plasma_hash("gframe"): TA= 2.755000E+00 NSTEP=  2478 Hash code:   26665777
 ->PRGCHK: bdy curvature ratio at t= 2.7600E+00 seconds is:  5.5762E-02
% MHDEQ: TG1=     2.755000 ; TG2=     2.760000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1510E-03 SECONDS
   DATA R*BT AT EDGE:  2.7785E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5762E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.755000 TO TG2=    2.760000 @ NSTEP     2478
   GFRAME TG2 MOMENTS CHECKSUM:  2.4801587468316D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.86468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.96963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       3= -4.13730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.97362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83489E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.71281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.23544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.48019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.44542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.15887E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.22084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.74433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.20994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.37948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17=  4.44554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.44383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.12856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.85182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.36934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.36934E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7600E+00  2.7650E+00 total power(Watts):  2.9872E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.76000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.383582E+02    0.401689E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.363414E+02    0.402287E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.377434E+02    0.387256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.400156E+02    0.392163E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.399493E+02    0.410591E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.375648E+02    0.417155E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.354910E+02    0.427883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.345101E+02    0.414183E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.342249E+02    0.398725E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.352741E+02    0.383024E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.370572E+02    0.372513E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.391411E+02    0.370090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.411788E+02    0.375822E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.424112E+02    0.388922E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.425101E+02    0.405613E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.414985E+02    0.421220E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.396585E+02    0.431616E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.374712E+02    0.433946E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.354912E+02    0.454743E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.325384E+02    0.439089E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.312754E+02    0.413063E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138574E+03   -0.318384E+02    0.384640E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.341346E+02    0.360033E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.375366E+02    0.346362E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.413766E+02    0.347251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.445343E+02    0.363457E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.462496E+02    0.389731E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.456065E+02    0.419672E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.427734E+02    0.445423E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.391614E+02    0.457437E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.395679E+02    0.319595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.375264E+02    0.320775E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.390365E+02    0.304168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.413433E+02    0.308697E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.411864E+02    0.328379E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.387764E+02    0.335819E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.365881E+02    0.347805E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.354917E+02    0.334597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.353803E+02    0.317885E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.363378E+02    0.301535E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.383279E+02    0.288643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.405417E+02    0.284949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.425088E+02    0.290937E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.437659E+02    0.304465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.437703E+02    0.322464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.427578E+02    0.338764E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.407987E+02    0.350184E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.386920E+02    0.352699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.364017E+02    0.375785E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.336053E+02    0.359872E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138564E+03   -0.324000E+02    0.333412E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138578E+03   -0.329494E+02    0.303651E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.352610E+02    0.276896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.387924E+02    0.260807E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.427894E+02    0.259884E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.460056E+02    0.276132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.476453E+02    0.303881E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.469058E+02    0.335678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.440607E+02    0.362638E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.403065E+02    0.376550E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.381389E+02    0.453923E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.362295E+02    0.453800E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.376308E+02    0.438966E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.398965E+02    0.444447E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.398320E+02    0.462673E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.375513E+02    0.468128E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.355763E+02    0.477565E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.344034E+02    0.464890E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.341152E+02    0.449727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.351679E+02    0.434165E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.368537E+02    0.424071E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.390332E+02    0.421634E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.409588E+02    0.428226E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.421797E+02    0.441980E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.423870E+02    0.458434E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.413778E+02    0.473239E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.395414E+02    0.482684E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.374585E+02    0.484169E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.354726E+02    0.505024E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.325242E+02    0.488002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.311815E+02    0.462982E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.316540E+02    0.435465E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.338568E+02    0.411482E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.373398E+02    0.398422E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.411706E+02    0.400073E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.443112E+02    0.416555E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.461293E+02    0.443573E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.454888E+02    0.472992E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.427639E+02    0.496786E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.391430E+02    0.508660E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.387729E+02    0.364468E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.367501E+02    0.365348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.382571E+02    0.349238E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.405412E+02    0.353988E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.403770E+02    0.373289E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.380840E+02    0.379772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.361004E+02    0.390143E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.348222E+02    0.378036E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.348111E+02    0.361133E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.357712E+02    0.345195E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.375612E+02    0.334173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.397583E+02    0.330959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.417053E+02    0.336994E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.429475E+02    0.350259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.430512E+02    0.367440E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.419306E+02    0.383671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.400888E+02    0.393988E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.379952E+02    0.396147E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.359083E+02    0.417585E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.329426E+02    0.402259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.317560E+02    0.376498E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.322263E+02    0.347869E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.345265E+02    0.322479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.381304E+02    0.307100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.418935E+02    0.308029E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.450729E+02    0.323975E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.468014E+02    0.350401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.459370E+02    0.381812E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.433294E+02    0.406611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.395934E+02    0.419731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.399706E+02    0.257339E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.377212E+02    0.260374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.393247E+02    0.241859E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.417521E+02    0.245378E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.416086E+02    0.266285E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.389878E+02    0.276009E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.368933E+02    0.288562E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.357790E+02    0.274877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.357478E+02    0.256548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.368857E+02    0.237645E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.385979E+02    0.225663E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.410208E+02    0.219721E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.430083E+02    0.225627E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.441877E+02    0.240276E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.443145E+02    0.258775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.430928E+02    0.277538E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.411316E+02    0.290022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.388130E+02    0.294231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.368203E+02    0.316876E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.338943E+02    0.301619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138666E+03   -0.326591E+02    0.274208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.332783E+02    0.241982E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.356787E+02    0.212515E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.394221E+02    0.192877E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.433651E+02    0.191577E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.466289E+02    0.208178E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.479742E+02    0.239110E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.471444E+02    0.273634E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.443085E+02    0.302613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.405496E+02    0.317786E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.73 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696213.549068131     
  ps_ts2 prof sum =   695830.577625940     
  trcom prof sum =    695830.577625940     
  ps_ts2 cur sum  =   11674.0364511253     
  trcom cur sum  =    11674.0364511253     
  
  antenna # iant =            2
  powecha_use(iant) =    668398.525508504     
  ps_ts2 prof sum =   667999.430546706     
  trcom prof sum =    667999.430546705     
  ps_ts2 cur sum  =   13393.3171595183     
  trcom cur sum  =    13393.3171595183     
  
  antenna # iant =            3
  powecha_use(iant) =    524281.604541205     
  ps_ts2 prof sum =   523973.477359205     
  trcom prof sum =    523973.477349076     
  ps_ts2 cur sum  =   7647.20591978053     
  trcom cur sum  =    7647.20591978053     
  
  antenna # iant =            4
  powecha_use(iant) =    549876.736139323     
  ps_ts2 prof sum =   549575.465319506     
  trcom prof sum =    549575.465283380     
  ps_ts2 cur sum  =   10078.4824254209     
  trcom cur sum  =    10078.4824254209     
  
  antenna # iant =            5
  powecha_use(iant) =    548452.976641212     
  ps_ts2 prof sum =   548117.459461072     
  trcom prof sum =    548117.459461073     
  ps_ts2 cur sum  =   12046.1865756700     
  trcom cur sum  =    12046.1865756700     
  
  Total ECH heating:      2985496.41026617     
  Total Current Drive:    54839.2285315151     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2481
 TA= 2.76000E+00 CPU TIME= 1.60796E-01 SECONDS.  DT= 2.12352E-03
  
 TEC1=    2.75999999999996     
 TEC2=    2.76499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.62199388888848     
  %check_save_state: izleft hours =    73.3694444444444     
 --> plasma_hash("gframe"): TA= 2.760000E+00 NSTEP=  2481 Hash code:   89965077
 ->PRGCHK: bdy curvature ratio at t= 2.7650E+00 seconds is:  5.5744E-02
% MHDEQ: TG1=     2.760000 ; TG2=     2.765000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7780E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5744E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.760000 TO TG2=    2.765000 @ NSTEP     2481
   GFRAME TG2 MOMENTS CHECKSUM:  2.4797630187360D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.7650E+00  2.7700E+00 total power(Watts):  2.9943E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.76500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.383723E+02    0.401229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.363549E+02    0.401840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.378578E+02    0.386328E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.401349E+02    0.391257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.399630E+02    0.410156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.376798E+02    0.416402E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.356999E+02    0.426832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.345232E+02    0.413801E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.342352E+02    0.398302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.351913E+02    0.382962E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.370701E+02    0.371963E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.392563E+02    0.369079E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.411932E+02    0.375242E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.424264E+02    0.388373E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.425260E+02    0.405124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.415145E+02    0.420800E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.396741E+02    0.431239E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.375869E+02    0.433277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.355058E+02    0.454452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.327332E+02    0.438118E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138726E+03   -0.312873E+02    0.412693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.318495E+02    0.384172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.340531E+02    0.359988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.376459E+02    0.345267E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.413898E+02    0.346606E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.445490E+02    0.362816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.462666E+02    0.389145E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.456229E+02    0.419211E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.429022E+02    0.444801E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.391773E+02    0.457134E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.395780E+02    0.318924E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.375363E+02    0.320118E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.390451E+02    0.303490E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.413531E+02    0.307990E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.411971E+02    0.327713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.387869E+02    0.335188E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.367925E+02    0.346206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.355013E+02    0.333996E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.353892E+02    0.317257E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.365343E+02    0.299679E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.383352E+02    0.287965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.405491E+02    0.284223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.425176E+02    0.290199E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.437763E+02    0.303733E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.438905E+02    0.321241E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.427704E+02    0.338089E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.409161E+02    0.349084E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.387040E+02    0.352096E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.366090E+02    0.374363E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.336138E+02    0.359349E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138578E+03   -0.324094E+02    0.332830E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.329563E+02    0.303030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.352666E+02    0.276237E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.389926E+02    0.258779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.428998E+02    0.258506E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.460139E+02    0.275352E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.475432E+02    0.303599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.468060E+02    0.335400E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.440753E+02    0.362001E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.403205E+02    0.375984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.382573E+02    0.453346E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.362445E+02    0.453504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.376458E+02    0.438621E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.399124E+02    0.444104E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.398483E+02    0.462379E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.375669E+02    0.467862E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.355908E+02    0.477336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.344175E+02    0.464631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.341289E+02    0.449432E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.351834E+02    0.433806E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.368679E+02    0.423692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.390476E+02    0.421240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.409751E+02    0.427831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.423057E+02    0.441340E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.424042E+02    0.458115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.413947E+02    0.472974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.395575E+02    0.482462E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.374739E+02    0.483954E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.354871E+02    0.504866E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.325378E+02    0.487814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.311938E+02    0.462736E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.316661E+02    0.435149E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.338695E+02    0.411094E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.373536E+02    0.397955E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.411844E+02    0.399577E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.443281E+02    0.416102E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.461479E+02    0.443187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.456238E+02    0.472506E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.430059E+02    0.496280E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.391589E+02    0.508493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.388853E+02    0.363441E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.366649E+02    0.365268E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.383682E+02    0.348152E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.406584E+02    0.352903E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.404954E+02    0.372291E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.380973E+02    0.379236E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.361135E+02    0.389658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.348345E+02    0.377528E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.347286E+02    0.361077E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.356867E+02    0.345126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.375720E+02    0.333543E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.397690E+02    0.330307E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.417159E+02    0.336310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.429610E+02    0.349602E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.430655E+02    0.366827E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.420534E+02    0.382713E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.402087E+02    0.393088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.380093E+02    0.395666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.359219E+02    0.417198E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.330463E+02    0.401423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138606E+03   -0.317673E+02    0.375998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.323235E+02    0.346790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.345351E+02    0.321865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.381391E+02    0.306431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.420083E+02    0.306765E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.450849E+02    0.323243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.468165E+02    0.349690E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.461826E+02    0.380451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.433450E+02    0.406138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.396078E+02    0.419336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.399760E+02    0.256634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.377258E+02    0.259698E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.395243E+02    0.239769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.418546E+02    0.244021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.416146E+02    0.265561E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.391913E+02    0.274034E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.370907E+02    0.286635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.357845E+02    0.274219E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.357519E+02    0.255899E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.367956E+02    0.237731E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.387915E+02    0.223523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.410231E+02    0.219054E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.430159E+02    0.224908E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.442972E+02    0.238883E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.443210E+02    0.258024E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.432064E+02    0.276182E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.412428E+02    0.288711E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.390186E+02    0.292341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.368291E+02    0.316228E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.339015E+02    0.300988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138682E+03   -0.326640E+02    0.273575E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138628E+03   -0.332823E+02    0.241356E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.356808E+02    0.211905E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.393274E+02    0.193052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.434678E+02    0.190134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.466315E+02    0.207453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.482030E+02    0.237045E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.473743E+02    0.271677E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.444279E+02    0.301307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.405598E+02    0.317097E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698432.182070844     
  ps_ts2 prof sum =   698053.699558317     
  trcom prof sum =    698053.699558317     
  ps_ts2 cur sum  =   11716.9094244754     
  trcom cur sum  =    11716.9094241301     
  
  antenna # iant =            2
  powecha_use(iant) =    668307.264211649     
  ps_ts2 prof sum =   667928.549033754     
  trcom prof sum =    667928.549033753     
  ps_ts2 cur sum  =   13394.6305972647     
  trcom cur sum  =    13394.6305972647     
  
  antenna # iant =            3
  powecha_use(iant) =    523588.385819106     
  ps_ts2 prof sum =   523269.976798482     
  trcom prof sum =    523269.976785001     
  ps_ts2 cur sum  =   7640.95150650643     
  trcom cur sum  =    7640.95150650644     
  
  antenna # iant =            4
  powecha_use(iant) =    554257.112993434     
  ps_ts2 prof sum =   553944.774204424     
  trcom prof sum =    553944.774169440     
  ps_ts2 cur sum  =   10163.1434038884     
  trcom cur sum  =    10163.1434038884     
  
  antenna # iant =            5
  powecha_use(iant) =    549763.421289591     
  ps_ts2 prof sum =   549482.436938297     
  trcom prof sum =    549482.436938297     
  ps_ts2 cur sum  =   12072.8440186615     
  trcom cur sum  =    12072.8440186615     
  
  Total ECH heating:      2992679.43648481     
  Total Current Drive:    54988.4789504511     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2484
 TA= 2.76500E+00 CPU TIME= 1.61275E-01 SECONDS.  DT= 2.77609E-04
  
 TEC1=    2.76499999999996     
 TEC2=    2.76999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.63402777777742     
  %check_save_state: izleft hours =    73.3575000000000     
 --> plasma_hash("gframe"): TA= 2.765000E+00 NSTEP=  2484 Hash code:  119843553
 ->PRGCHK: bdy curvature ratio at t= 2.7700E+00 seconds is:  5.5725E-02
% MHDEQ: TG1=     2.765000 ; TG2=     2.770000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7774E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5725E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.765000 TO TG2=    2.770000 @ NSTEP     2484
   GFRAME TG2 MOMENTS CHECKSUM:  2.4793672882929D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.82664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.14768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  1.80208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.64090E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.66510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.79602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.08600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.49496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -2.70072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.44178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.58850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.34562E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.90633E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.32715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18= -1.90042E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.48283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.01331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.96587E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.95724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.95724E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.7700E+00  2.7750E+00 total power(Watts):  2.9898E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.77000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.383869E+02    0.400786E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.363687E+02    0.401421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.378718E+02    0.385854E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.401497E+02    0.390775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.399821E+02    0.409727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.376943E+02    0.416013E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.357146E+02    0.426477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.344422E+02    0.413806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.344351E+02    0.397062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.352041E+02    0.382500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.370829E+02    0.371461E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.392699E+02    0.368558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.412079E+02    0.374713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.424418E+02    0.387873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.426523E+02    0.404312E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.415304E+02    0.420397E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.396904E+02    0.430867E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.376022E+02    0.432924E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.354229E+02    0.454446E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.326553E+02    0.438132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.313877E+02    0.411937E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.318613E+02    0.383739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.340645E+02    0.359496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.376575E+02    0.344730E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.414028E+02    0.346032E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.445641E+02    0.362238E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.461685E+02    0.388962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.455308E+02    0.419061E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.429198E+02    0.444441E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.391937E+02    0.456824E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.395889E+02    0.318326E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.375465E+02    0.319547E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.391547E+02    0.302286E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.414678E+02    0.306804E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.412092E+02    0.327111E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.388992E+02    0.334101E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.368040E+02    0.345681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.355116E+02    0.333466E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.355852E+02    0.315545E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.365436E+02    0.299083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.382467E+02    0.287950E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.405583E+02    0.283569E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.426330E+02    0.288948E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.437876E+02    0.303061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.439024E+02    0.320608E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.427834E+02    0.337493E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.409298E+02    0.348514E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.387165E+02    0.351556E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.366224E+02    0.373868E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.336248E+02    0.358862E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.324181E+02    0.332321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138607E+03   -0.329643E+02    0.302466E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.352735E+02    0.275635E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.389998E+02    0.258125E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.429083E+02    0.257807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.461345E+02    0.274036E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.477839E+02    0.301845E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.468202E+02    0.334755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.440904E+02    0.361426E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.403348E+02    0.375465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.382732E+02    0.453034E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.362596E+02    0.453203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.376611E+02    0.438280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.399288E+02    0.443762E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.398650E+02    0.462085E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.375827E+02    0.467598E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.356059E+02    0.477106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.344321E+02    0.464368E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.341430E+02    0.449134E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.351977E+02    0.433471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.369822E+02    0.422972E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.390629E+02    0.420856E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.410991E+02    0.427131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.423220E+02    0.440978E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.424217E+02    0.457793E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.415217E+02    0.472489E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.396803E+02    0.482028E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.374893E+02    0.483740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.355020E+02    0.504705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.325516E+02    0.487624E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.312067E+02    0.462485E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.317681E+02    0.434483E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.338828E+02    0.410715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.374674E+02    0.397121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.411981E+02    0.399132E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.445715E+02    0.415033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.461671E+02    0.442796E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134041E+03   -0.456429E+02    0.472214E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.430240E+02    0.496079E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.391761E+02    0.508317E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.389018E+02    0.362907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.368723E+02    0.363827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.383804E+02    0.347610E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.406719E+02    0.352344E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.405095E+02    0.371766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.381111E+02    0.378740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.361270E+02    0.389206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.348466E+02    0.377064E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.347397E+02    0.360587E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.356979E+02    0.344600E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.374854E+02    0.333515E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.397807E+02    0.329725E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.417266E+02    0.335733E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.429749E+02    0.349011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.430802E+02    0.366272E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.420684E+02    0.382203E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.402236E+02    0.392616E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.380234E+02    0.395217E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.358384E+02    0.417185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.330590E+02    0.401026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138616E+03   -0.317783E+02    0.375549E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.323340E+02    0.346294E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.345446E+02    0.321324E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.381495E+02    0.305831E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.420193E+02    0.306132E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.452083E+02    0.322113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.467172E+02    0.349499E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.461995E+02    0.379885E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.433615E+02    0.405678E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.397281E+02    0.418604E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.399832E+02    0.255971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.379237E+02    0.257699E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.395300E+02    0.239115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.418650E+02    0.243317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.416231E+02    0.264888E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.391994E+02    0.273386E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.370983E+02    0.286020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.358838E+02    0.272938E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.357575E+02    0.255284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.368018E+02    0.237101E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.387967E+02    0.222881E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.410280E+02    0.218402E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.431249E+02    0.223510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.443049E+02    0.238170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.443297E+02    0.257315E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.432157E+02    0.275490E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.412522E+02    0.288046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.390274E+02    0.291712E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.367434E+02    0.316223E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.339092E+02    0.300422E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.326703E+02    0.272985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.333737E+02    0.240015E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.356841E+02    0.211310E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.393314E+02    0.192458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.434715E+02    0.189495E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.466370E+02    0.206755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.480993E+02    0.236942E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.472699E+02    0.271529E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.444396E+02    0.300631E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.406740E+02    0.315945E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696029.002921733     
  ps_ts2 prof sum =   695600.332788542     
  trcom prof sum =    695600.332788541     
  ps_ts2 cur sum  =   11682.0304346792     
  trcom cur sum  =    11682.0304346792     
  
  antenna # iant =            2
  powecha_use(iant) =    669019.829289240     
  ps_ts2 prof sum =   668638.421800847     
  trcom prof sum =    668638.421800846     
  ps_ts2 cur sum  =   13412.6736023738     
  trcom cur sum  =    13412.6736023738     
  
  antenna # iant =            3
  powecha_use(iant) =    522607.551955897     
  ps_ts2 prof sum =   522299.383089703     
  trcom prof sum =    522299.383073183     
  ps_ts2 cur sum  =   7631.79419026966     
  trcom cur sum  =    7631.79419026966     
  
  antenna # iant =            4
  powecha_use(iant) =    553504.499373084     
  ps_ts2 prof sum =   553154.992550334     
  trcom prof sum =    553154.992516914     
  ps_ts2 cur sum  =   10152.9751560900     
  trcom cur sum  =    10152.9751560900     
  
  antenna # iant =            5
  powecha_use(iant) =    548611.422838639     
  ps_ts2 prof sum =   548307.916713327     
  trcom prof sum =    548307.916713328     
  ps_ts2 cur sum  =   12048.8352039294     
  trcom cur sum  =    12048.8352039294     
  
  Total ECH heating:      2988001.04689281     
  Total Current Drive:    54928.3085873422     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2492
 TA= 2.77000E+00 CPU TIME= 1.61355E-01 SECONDS.  DT= 1.01934E-03
  
 TEC1=    2.76999999999996     
 TEC2=    2.77499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.64961500000004     
  %check_save_state: izleft hours =    73.3419444444445     
 --> plasma_hash("gframe"): TA= 2.770000E+00 NSTEP=  2492 Hash code:   87718892
 ->PRGCHK: bdy curvature ratio at t= 2.7750E+00 seconds is:  5.5708E-02
% MHDEQ: TG1=     2.770000 ; TG2=     2.775000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7768E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5708E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.770000 TO TG2=    2.775000 @ NSTEP     2492
   GFRAME TG2 MOMENTS CHECKSUM:  2.4789715578498D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7750E+00  2.7800E+00 total power(Watts):  2.9828E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.77500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.384019E+02    0.400361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.363826E+02    0.401009E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.378860E+02    0.385383E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.401644E+02    0.390310E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.401031E+02    0.408959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.377094E+02    0.415637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.357290E+02    0.426130E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.344559E+02    0.413443E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.343535E+02    0.397072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.354078E+02    0.381149E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.369973E+02    0.371424E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.392840E+02    0.368031E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.412230E+02    0.374181E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.424631E+02    0.387342E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.426690E+02    0.403862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.416555E+02    0.419684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.398120E+02    0.430204E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.376176E+02    0.432590E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.356332E+02    0.453596E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.326690E+02    0.437834E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.313996E+02    0.411591E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.318732E+02    0.383310E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.340757E+02    0.358995E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.376700E+02    0.344163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.415222E+02    0.344955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.448035E+02    0.360795E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.461863E+02    0.388427E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.457792E+02    0.418031E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.429375E+02    0.444104E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.393152E+02    0.456273E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.397018E+02    0.317147E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.375573E+02    0.318945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.391655E+02    0.301638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.414796E+02    0.306129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.413265E+02    0.325955E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.389116E+02    0.333503E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.368162E+02    0.345126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.357109E+02    0.331806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.355011E+02    0.315528E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.364580E+02    0.299062E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.382593E+02    0.287273E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.406694E+02    0.282271E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.426436E+02    0.288240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.439077E+02    0.301809E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.439160E+02    0.319936E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.429046E+02    0.336381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.409434E+02    0.347930E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.387293E+02    0.351002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.366355E+02    0.373379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.337274E+02    0.357859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.324282E+02    0.331780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.330611E+02    0.301243E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.352806E+02    0.274998E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.390065E+02    0.257446E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.429160E+02    0.257094E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.461451E+02    0.273274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.477973E+02    0.301085E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.470641E+02    0.333137E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.441061E+02    0.360829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.403497E+02    0.374942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.382892E+02    0.452742E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.362748E+02    0.452922E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.377783E+02    0.437646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.400516E+02    0.443152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.399882E+02    0.461561E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.376036E+02    0.467328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.356210E+02    0.476893E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.343512E+02    0.464388E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.343470E+02    0.448247E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.352122E+02    0.433154E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.369971E+02    0.422619E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.390785E+02    0.420487E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.411159E+02    0.426758E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.423384E+02    0.440636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.425506E+02    0.457251E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.415389E+02    0.472237E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.396971E+02    0.481807E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.375056E+02    0.483529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.355171E+02    0.504557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.325655E+02    0.487443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.313067E+02    0.461976E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.317815E+02    0.434183E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.340828E+02    0.409568E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.374815E+02    0.396692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.412133E+02    0.398662E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.444759E+02    0.414933E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134139E+03   -0.461863E+02    0.442427E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.456622E+02    0.471935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.429297E+02    0.496023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.391916E+02    0.508178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.389154E+02    0.362369E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.368858E+02    0.363293E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.383932E+02    0.347044E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.406857E+02    0.351769E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.405241E+02    0.371236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.382259E+02    0.377814E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.360436E+02    0.389183E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.350480E+02    0.375677E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.347516E+02    0.360081E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.357090E+02    0.344066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.376933E+02    0.331867E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.397929E+02    0.329118E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.418503E+02    0.334601E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.430980E+02    0.347948E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.432048E+02    0.365280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.420848E+02    0.381673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.402387E+02    0.392150E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.380378E+02    0.394775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.360483E+02    0.416083E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.330719E+02    0.400631E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138626E+03   -0.317896E+02    0.375105E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.323447E+02    0.345774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.345543E+02    0.320746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.380613E+02    0.305781E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.420312E+02    0.305450E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.452219E+02    0.321429E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134279E+03   -0.469630E+02    0.347970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.461021E+02    0.379697E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.433787E+02    0.405221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.397440E+02    0.418222E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.400899E+02    0.254610E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.379307E+02    0.257030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.395352E+02    0.238447E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.418719E+02    0.242620E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.417344E+02    0.263527E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.392078E+02    0.272706E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.370120E+02    0.286001E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.358913E+02    0.272293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.359471E+02    0.253225E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.368073E+02    0.236461E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.387056E+02    0.222980E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.411325E+02    0.216976E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.431305E+02    0.222812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.443120E+02    0.237446E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.443382E+02    0.256577E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.432253E+02    0.274773E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.412624E+02    0.287354E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.390376E+02    0.291047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.367535E+02    0.315632E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138415E+03   -0.339179E+02    0.299816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.327636E+02    0.271682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.333786E+02    0.239396E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.357770E+02    0.209894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.395251E+02    0.190208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.434751E+02    0.188841E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.466419E+02    0.206033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.481072E+02    0.236175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.472844E+02    0.270733E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.444511E+02    0.299931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.406853E+02    0.315306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692284.833718949     
  ps_ts2 prof sum =   691883.961446536     
  trcom prof sum =    691883.961446536     
  ps_ts2 cur sum  =   11628.8779927384     
  trcom cur sum  =    11628.8779927384     
  
  antenna # iant =            2
  powecha_use(iant) =    669736.083163714     
  ps_ts2 prof sum =   669368.184728819     
  trcom prof sum =    669368.184728818     
  ps_ts2 cur sum  =   13438.3437826015     
  trcom cur sum  =    13438.3437826015     
  
  antenna # iant =            3
  powecha_use(iant) =    522891.925125347     
  ps_ts2 prof sum =   522589.811868433     
  trcom prof sum =    522589.811868434     
  ps_ts2 cur sum  =   7642.31912943273     
  trcom cur sum  =    7642.31912943274     
  
  antenna # iant =            4
  powecha_use(iant) =    549451.208336569     
  ps_ts2 prof sum =   549112.951050379     
  trcom prof sum =    549112.951018868     
  ps_ts2 cur sum  =   10087.2875336181     
  trcom cur sum  =    10087.2875336181     
  
  antenna # iant =            5
  powecha_use(iant) =    548396.395781177     
  ps_ts2 prof sum =   548092.133566527     
  trcom prof sum =    548092.133566527     
  ps_ts2 cur sum  =   12051.4423631181     
  trcom cur sum  =    12051.4423631181     
  
  Total ECH heating:      2981047.04262918     
  Total Current Drive:    54848.2708015088     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2496
 TA= 2.77500E+00 CPU TIME= 1.59909E-01 SECONDS.  DT= 1.39221E-03
  
 TEC1=    2.77499999999996     
 TEC2=    2.77999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.66691999999966     
  %check_save_state: izleft hours =    73.3247222222222     
 --> plasma_hash("gframe"): TA= 2.775000E+00 NSTEP=  2496 Hash code:   61218103
 ->PRGCHK: bdy curvature ratio at t= 2.7800E+00 seconds is:  5.5690E-02
% MHDEQ: TG1=     2.775000 ; TG2=     2.780000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7762E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5690E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.775000 TO TG2=    2.780000 @ NSTEP     2496
   GFRAME TG2 MOMENTS CHECKSUM:  2.4785758274067D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.78860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.32573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  3.24625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.30816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.87923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.93656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.43362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.72468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.43268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.48130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.85173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.27482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18= -1.18220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.52183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.89806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.07993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.75518E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.75518E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7800E+00  2.7850E+00 total power(Watts):  2.9856E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.78000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.385186E+02    0.399621E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.362993E+02    0.401059E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.379004E+02    0.385000E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.401807E+02    0.389909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.401188E+02    0.408620E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.377246E+02    0.415321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.357433E+02    0.425844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.344693E+02    0.413145E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.343655E+02    0.396738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.354213E+02    0.380773E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.372089E+02    0.370080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.392984E+02    0.367597E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.413449E+02    0.373320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.425866E+02    0.386554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.426855E+02    0.403495E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.416721E+02    0.419355E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.398281E+02    0.429904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.376330E+02    0.432302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.356475E+02    0.453358E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.326818E+02    0.437582E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.314127E+02    0.411288E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.318854E+02    0.382953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.340886E+02    0.358567E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.376828E+02    0.343700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.415365E+02    0.344463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.447079E+02    0.360736E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.464349E+02    0.387257E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134294E+03   -0.457975E+02    0.417669E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.429547E+02    0.443813E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.393312E+02    0.456021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.397144E+02    0.316604E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.374715E+02    0.318994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.391774E+02    0.301067E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.414923E+02    0.305548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.413403E+02    0.325416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.389244E+02    0.333009E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.367314E+02    0.345190E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.357227E+02    0.331325E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.355125E+02    0.315021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.364686E+02    0.298511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.384637E+02    0.285444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.406807E+02    0.281658E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.426558E+02    0.287618E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.439209E+02    0.301203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.440395E+02    0.318838E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.429194E+02    0.335850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.409573E+02    0.347453E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.387429E+02    0.350536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.365513E+02    0.373434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.337402E+02    0.357429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.324387E+02    0.331327E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.330713E+02    0.300721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.353815E+02    0.273757E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.389182E+02    0.257518E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.429267E+02    0.256433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.461579E+02    0.272601E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.476982E+02    0.300949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.470805E+02    0.332560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.442331E+02    0.359913E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.404697E+02    0.374087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.383047E+02    0.452496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.362895E+02    0.452678E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.377936E+02    0.437371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.400679E+02    0.442880E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.400045E+02    0.461317E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.376178E+02    0.467123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.355376E+02    0.476930E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.343652E+02    0.464173E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.343615E+02    0.447994E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.351294E+02    0.433217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.370118E+02    0.422323E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.391978E+02    0.419837E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.411320E+02    0.426450E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.423545E+02    0.440345E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.425680E+02    0.456983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.415558E+02    0.472013E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.397132E+02    0.481613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.376229E+02    0.483136E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.356298E+02    0.504250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.327627E+02    0.486837E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138330E+03   -0.313191E+02    0.461770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138354E+03   -0.317944E+02    0.433926E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.340962E+02    0.409262E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.374968E+02    0.396324E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.413346E+02    0.397925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.444936E+02    0.414576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.463218E+02    0.441862E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134064E+03   -0.456809E+02    0.471687E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.429480E+02    0.495832E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.393130E+02    0.507899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      13.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.389295E+02    0.361926E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.369001E+02    0.362864E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.384067E+02    0.346574E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.407004E+02    0.351294E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.405386E+02    0.370806E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.382403E+02    0.377405E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.360572E+02    0.388820E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.350613E+02    0.375289E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.349522E+02    0.358656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.359119E+02    0.342553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.377057E+02    0.331372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.399084E+02    0.328067E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.418646E+02    0.334074E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.431133E+02    0.347451E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.432201E+02    0.364818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.421007E+02    0.381250E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.402539E+02    0.391768E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.381545E+02    0.393990E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.360623E+02    0.415788E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.330846E+02    0.400305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138635E+03   -0.318013E+02    0.374735E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138572E+03   -0.323555E+02    0.345346E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.346568E+02    0.319672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.382692E+02    0.304051E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.420440E+02    0.304865E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.452374E+02    0.320832E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.469800E+02    0.347427E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.461196E+02    0.379241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.435070E+02    0.404502E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.397599E+02    0.417897E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.400994E+02    0.253985E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.378438E+02    0.257120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.394468E+02    0.238540E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.418811E+02    0.241982E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.417453E+02    0.262891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.391192E+02    0.272754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.370224E+02    0.285428E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.359007E+02    0.271722E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.358647E+02    0.253340E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.370011E+02    0.234377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.387128E+02    0.222365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.411405E+02    0.216333E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.431392E+02    0.222153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.443216E+02    0.236779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.444561E+02    0.255262E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.432369E+02    0.274131E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.412740E+02    0.286748E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.390486E+02    0.290460E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.369572E+02    0.313944E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.340175E+02    0.298662E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.327721E+02    0.271126E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138448E+03   -0.333878E+02    0.238807E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.357831E+02    0.209304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.395311E+02    0.189601E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.434817E+02    0.188207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.467584E+02    0.204610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.481178E+02    0.235460E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.472974E+02    0.270040E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.445742E+02    0.298742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.406984E+02    0.314749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695070.003705255     
  ps_ts2 prof sum =   694653.973305171     
  trcom prof sum =    694653.973305171     
  ps_ts2 cur sum  =   11687.5073501695     
  trcom cur sum  =    11687.5073501695     
  
  antenna # iant =            2
  powecha_use(iant) =    669253.752080327     
  ps_ts2 prof sum =   668837.664672107     
  trcom prof sum =    668837.664672107     
  ps_ts2 cur sum  =   13439.0692124521     
  trcom cur sum  =    13439.0692124521     
  
  antenna # iant =            3
  powecha_use(iant) =    524018.924154452     
  ps_ts2 prof sum =   523704.942965850     
  trcom prof sum =    523704.942965851     
  ps_ts2 cur sum  =   7667.40837735328     
  trcom cur sum  =    7667.40837735329     
  
  antenna # iant =            4
  powecha_use(iant) =    548960.603158393     
  ps_ts2 prof sum =   548654.984417857     
  trcom prof sum =    548654.984417856     
  ps_ts2 cur sum  =   10087.2388154603     
  trcom cur sum  =    10087.2388154602     
  
  antenna # iant =            5
  powecha_use(iant) =    548300.634685374     
  ps_ts2 prof sum =   547976.590059329     
  trcom prof sum =    547976.590059329     
  ps_ts2 cur sum  =   12057.9305632623     
  trcom cur sum  =    12057.9305632623     
  
  Total ECH heating:      2983828.15542031     
  Total Current Drive:    54939.1543186974     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2499
 TA= 2.78000E+00 CPU TIME= 1.59427E-01 SECONDS.  DT= 2.33441E-03
  
 TEC1=    2.77999999999996     
 TEC2=    2.78499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.69106916666647     
  %check_save_state: izleft hours =    73.3005555555556     
 --> plasma_hash("gframe"): TA= 2.780000E+00 NSTEP=  2499 Hash code:   63405960
 ->PRGCHK: bdy curvature ratio at t= 2.7850E+00 seconds is:  5.5673E-02
% MHDEQ: TG1=     2.780000 ; TG2=     2.785000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7756E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5673E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.780000 TO TG2=    2.785000 @ NSTEP     2499
   GFRAME TG2 MOMENTS CHECKSUM:  2.4781800969636D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.7850E+00  2.7900E+00 total power(Watts):  2.9895E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.78500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.385336E+02    0.399236E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.365099E+02    0.399889E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.380158E+02    0.384144E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.401962E+02    0.389481E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.401347E+02    0.408253E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.377395E+02    0.414989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.356604E+02    0.425897E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.346727E+02    0.412048E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.343823E+02    0.396363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.354347E+02    0.380357E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.372227E+02    0.369622E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.393134E+02    0.367109E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.413604E+02    0.372837E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.426017E+02    0.386093E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.427025E+02    0.403089E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.416887E+02    0.419014E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.398443E+02    0.429597E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.376485E+02    0.432003E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.356625E+02    0.453109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.326960E+02    0.437312E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.314257E+02    0.410974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.319859E+02    0.382099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.342866E+02    0.357102E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.376955E+02    0.343197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.415508E+02    0.343929E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.447242E+02    0.360199E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134260E+03   -0.464532E+02    0.386765E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.458160E+02    0.417298E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.431961E+02    0.442970E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.393477E+02    0.455764E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.397266E+02    0.316046E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.376787E+02    0.317307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.391885E+02    0.300482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.415044E+02    0.304951E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.413535E+02    0.324852E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.389372E+02    0.332476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.369386E+02    0.343651E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.356399E+02    0.331372E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.355230E+02    0.314486E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.366687E+02    0.296711E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.384716E+02    0.284858E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.406913E+02    0.281036E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.426674E+02    0.286981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.439340E+02    0.300574E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.440534E+02    0.318228E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.429336E+02    0.335290E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.409714E+02    0.346929E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.388574E+02    0.349546E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.367608E+02    0.372063E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.337533E+02    0.356977E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.325360E+02    0.330269E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.330808E+02    0.300185E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.353903E+02    0.273183E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.391229E+02    0.255522E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.430410E+02    0.255122E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.461693E+02    0.271917E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.477121E+02    0.300280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.469816E+02    0.332425E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.442490E+02    0.359372E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.404848E+02    0.373618E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.383208E+02    0.452232E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.364038E+02    0.452137E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.378095E+02    0.437079E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.400843E+02    0.442594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.400213E+02    0.461061E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.376334E+02    0.466893E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.357492E+02    0.476261E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.345708E+02    0.463414E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.343760E+02    0.447742E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.353365E+02    0.432270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.370268E+02    0.422010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.392139E+02    0.419496E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.411488E+02    0.426123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.423771E+02    0.440043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.425857E+02    0.456715E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.415732E+02    0.471780E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.397299E+02    0.481410E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.376389E+02    0.482946E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.356440E+02    0.504111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.327766E+02    0.486665E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.313322E+02    0.461552E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.318073E+02    0.433665E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.340158E+02    0.409330E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.375115E+02    0.395934E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.413496E+02    0.397516E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.445112E+02    0.414205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.463410E+02    0.441548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.458166E+02    0.471241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.429658E+02    0.495651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.393292E+02    0.507748E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.389434E+02    0.361443E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.369135E+02    0.362396E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.384195E+02    0.346072E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.407145E+02    0.350780E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.406589E+02    0.369890E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.382547E+02    0.376970E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.362653E+02    0.387565E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.349797E+02    0.375319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.348706E+02    0.358698E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.359240E+02    0.342062E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.377180E+02    0.330844E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.399214E+02    0.327521E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.418783E+02    0.333518E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.431284E+02    0.346898E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.432363E+02    0.364290E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.422252E+02    0.380372E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.402704E+02    0.391332E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.381693E+02    0.393593E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.360769E+02    0.415464E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.330972E+02    0.399966E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138416E+03   -0.319011E+02    0.373841E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.323664E+02    0.344887E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.346674E+02    0.319154E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.382804E+02    0.303478E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.421617E+02    0.303691E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.454746E+02    0.319195E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.469965E+02    0.346851E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.463673E+02    0.377957E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.435243E+02    0.404094E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.397756E+02    0.417569E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.401084E+02    0.253349E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.378523E+02    0.256508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.396510E+02    0.236454E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.419924E+02    0.240619E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.417549E+02    0.262245E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.393309E+02    0.270802E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.372227E+02    0.283564E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.359091E+02    0.271141E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.358721E+02    0.252742E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.369148E+02    0.234507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.389114E+02    0.220212E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.411481E+02    0.215672E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.431466E+02    0.221473E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.444363E+02    0.235405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.444660E+02    0.254584E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.433544E+02    0.272851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.413883E+02    0.285514E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.391585E+02    0.289248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.369682E+02    0.313396E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138219E+03   -0.340269E+02    0.298112E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.327797E+02    0.270566E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.333919E+02    0.238243E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.357882E+02    0.208699E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.394399E+02    0.189810E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.435898E+02    0.186757E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.467659E+02    0.203913E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.482396E+02    0.234068E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.475342E+02    0.268147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.445909E+02    0.298091E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.407110E+02    0.314174E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695163.385420215     
  ps_ts2 prof sum =   694785.576939215     
  trcom prof sum =    694785.576939215     
  ps_ts2 cur sum  =   11698.1615149861     
  trcom cur sum  =    11698.1615149861     
  
  antenna # iant =            2
  powecha_use(iant) =    669311.154765782     
  ps_ts2 prof sum =   668940.290581424     
  trcom prof sum =    668940.290581424     
  ps_ts2 cur sum  =   13449.2037456906     
  trcom cur sum  =    13449.2037456906     
  
  antenna # iant =            3
  powecha_use(iant) =    524022.113272650     
  ps_ts2 prof sum =   523724.389698975     
  trcom prof sum =    523724.389698976     
  ps_ts2 cur sum  =   7673.87324393825     
  trcom cur sum  =    7673.87324393826     
  
  antenna # iant =            4
  powecha_use(iant) =    553325.526525079     
  ps_ts2 prof sum =   553030.032052722     
  trcom prof sum =    553030.032052721     
  ps_ts2 cur sum  =   10175.4533436923     
  trcom cur sum  =    10175.4533436923     
  
  antenna # iant =            5
  powecha_use(iant) =    547715.768477339     
  ps_ts2 prof sum =   547438.598121456     
  trcom prof sum =    547438.598121457     
  ps_ts2 cur sum  =   12048.2108981290     
  trcom cur sum  =    12048.2108981290     
  
  Total ECH heating:      2987918.88739379     
  Total Current Drive:    55044.9027464361     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2501
 TA= 2.78500E+00 CPU TIME= 1.68702E-01 SECONDS.  DT= 3.33199E-03
  
 TEC1=    2.78499999999996     
 TEC2=    2.78999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.70560916666659     
  %check_save_state: izleft hours =    73.2858333333333     
 --> plasma_hash("gframe"): TA= 2.785000E+00 NSTEP=  2501 Hash code:   77475513
 ->PRGCHK: bdy curvature ratio at t= 2.7900E+00 seconds is:  5.5656E-02
% MHDEQ: TG1=     2.785000 ; TG2=     2.790000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7750E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5656E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.785000 TO TG2=    2.790000 @ NSTEP     2501
   GFRAME TG2 MOMENTS CHECKSUM:  2.4777843665205D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.75057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.50378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  4.69041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.97542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.61909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84985E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.96244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.78712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.52451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.37336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -6.38022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.20823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.27685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.61698E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.79713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.22248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19=  1.99476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.56082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.78281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.19399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.11220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.11220E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.7900E+00  2.7950E+00 total power(Watts):  2.9908E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.79000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.385476E+02    0.399041E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.365219E+02    0.399721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.380280E+02    0.383953E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.403149E+02    0.388883E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.401482E+02    0.408074E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.378536E+02    0.414458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.358672E+02    0.425042E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.346840E+02    0.411889E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.343938E+02    0.396184E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.353510E+02    0.380609E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.372352E+02    0.369407E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.394292E+02    0.366434E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.413743E+02    0.372621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.426142E+02    0.385893E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.427167E+02    0.402902E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.417025E+02    0.418843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.398577E+02    0.429419E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.377623E+02    0.431515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.356749E+02    0.452937E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.327072E+02    0.437154E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.314357E+02    0.410827E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.319963E+02    0.381909E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.342057E+02    0.357382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.378075E+02    0.342408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.415648E+02    0.343649E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.447390E+02    0.359940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.463531E+02    0.386917E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.457156E+02    0.417436E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.430989E+02    0.443060E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.393609E+02    0.455593E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.397399E+02    0.315702E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.376908E+02    0.316987E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.393016E+02    0.299522E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.416229E+02    0.304008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.413673E+02    0.324531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.390512E+02    0.331646E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.369510E+02    0.343390E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.356509E+02    0.331091E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.355337E+02    0.314180E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.366805E+02    0.296359E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.383828E+02    0.285123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.407045E+02    0.280626E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.427873E+02    0.285964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.439484E+02    0.300175E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.440681E+02    0.317884E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.429481E+02    0.334985E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.410904E+02    0.346169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.388706E+02    0.349291E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.367732E+02    0.371852E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.337646E+02    0.356751E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.325468E+02    0.329997E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.330913E+02    0.299847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.354014E+02    0.272786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.391350E+02    0.255069E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.430548E+02    0.254642E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.462949E+02    0.270846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.479571E+02    0.298791E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.472271E+02    0.331134E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.442635E+02    0.359130E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.404985E+02    0.373401E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.384370E+02    0.451778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.364164E+02    0.451968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.378222E+02    0.436910E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.400978E+02    0.442419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.400347E+02    0.460890E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.377478E+02    0.466476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.357611E+02    0.476107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.345825E+02    0.463259E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.342924E+02    0.447882E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.353486E+02    0.432103E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.370395E+02    0.421849E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.392266E+02    0.419337E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.411625E+02    0.425956E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.425016E+02    0.439588E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.426000E+02    0.456536E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.416970E+02    0.471390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.398496E+02    0.481049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.376513E+02    0.482791E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.356557E+02    0.503982E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.326958E+02    0.486753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.313422E+02    0.461399E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.318185E+02    0.433501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.340283E+02    0.409157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.376240E+02    0.395353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.413667E+02    0.397326E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.447532E+02    0.413366E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.463566E+02    0.441356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.458319E+02    0.471056E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.432051E+02    0.495186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.393421E+02    0.507620E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.390591E+02    0.360721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.370238E+02    0.361689E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.385332E+02    0.345303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.408328E+02    0.350041E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.406729E+02    0.369656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.382676E+02    0.376754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.362778E+02    0.387373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.349915E+02    0.375117E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.348832E+02    0.358472E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.358408E+02    0.342335E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.377305E+02    0.330557E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.399347E+02    0.327207E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.418922E+02    0.333224E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.431427E+02    0.346630E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.432514E+02    0.364045E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.422393E+02    0.380157E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.403893E+02    0.390741E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.381819E+02    0.393412E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.360890E+02    0.415295E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.331998E+02    0.399376E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.319120E+02    0.373638E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138362E+03   -0.324658E+02    0.344088E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.346790E+02    0.318854E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.382925E+02    0.303123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.421758E+02    0.303315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.453784E+02    0.319352E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.469013E+02    0.346994E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.463834E+02    0.377717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.435389E+02    0.403905E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.397894E+02    0.417381E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.401208E+02    0.252884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.380566E+02    0.254659E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.396631E+02    0.235958E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.420052E+02    0.240115E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.417683E+02    0.261791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.393411E+02    0.270393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.372354E+02    0.283171E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.361065E+02    0.269378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.358831E+02    0.252302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.369257E+02    0.234023E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.389229E+02    0.219685E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.411593E+02    0.215129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.432629E+02    0.220191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.444503E+02    0.234874E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.444797E+02    0.254096E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.433675E+02    0.272415E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.414016E+02    0.285110E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.391714E+02    0.288857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.368840E+02    0.313656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.340372E+02    0.297775E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.327908E+02    0.270175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.334861E+02    0.237041E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.357983E+02    0.208178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.394505E+02    0.189257E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.436016E+02    0.186170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.467800E+02    0.203293E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.482545E+02    0.233498E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.474371E+02    0.268259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.446036E+02    0.297693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.408279E+02    0.313272E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693655.889373624     
  ps_ts2 prof sum =   693228.499959158     
  trcom prof sum =    693228.499959158     
  ps_ts2 cur sum  =   11672.7970598628     
  trcom cur sum  =    11672.7970598628     
  
  antenna # iant =            2
  powecha_use(iant) =    668215.271019493     
  ps_ts2 prof sum =   667831.785729632     
  trcom prof sum =    667831.785729631     
  ps_ts2 cur sum  =   13423.2894280546     
  trcom cur sum  =    13423.2894280546     
  
  antenna # iant =            3
  powecha_use(iant) =    523654.111548672     
  ps_ts2 prof sum =   523352.828419949     
  trcom prof sum =    523352.828419949     
  ps_ts2 cur sum  =   7671.76059425856     
  trcom cur sum  =    7671.76059425857     
  
  antenna # iant =            4
  powecha_use(iant) =    557798.044588885     
  ps_ts2 prof sum =   557474.198139641     
  trcom prof sum =    557474.198139640     
  ps_ts2 cur sum  =   10254.9039892289     
  trcom cur sum  =    10254.9039892289     
  
  antenna # iant =            5
  powecha_use(iant) =    547523.265366238     
  ps_ts2 prof sum =   547221.291972643     
  trcom prof sum =    547221.291972643     
  ps_ts2 cur sum  =   12041.0907754141     
  trcom cur sum  =    12041.0907754142     
  
  Total ECH heating:      2989108.60422102     
  Total Current Drive:    55063.8418468190     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2503
 TA= 2.79000E+00 CPU TIME= 1.59218E-01 SECONDS.  DT= 2.08502E-03
  
 TEC1=    2.78999999999996     
 TEC2=    2.79499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.71939833333295     
  %check_save_state: izleft hours =    73.2722222222222     
 --> plasma_hash("gframe"): TA= 2.790000E+00 NSTEP=  2503 Hash code:   89242558
 ->PRGCHK: bdy curvature ratio at t= 2.7950E+00 seconds is:  5.5627E-02
% MHDEQ: TG1=     2.790000 ; TG2=     2.795000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7744E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5627E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.790000 TO TG2=    2.795000 @ NSTEP     2503
   GFRAME TG2 MOMENTS CHECKSUM:  2.4773886360774D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.7950E+00  2.8000E+00 total power(Watts):  2.9931E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.79500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.385610E+02    0.398870E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.365353E+02    0.399539E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.380424E+02    0.383745E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.403294E+02    0.388683E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.401628E+02    0.407902E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.378673E+02    0.414292E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.358803E+02    0.424887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.346974E+02    0.411726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.345952E+02    0.395150E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.353641E+02    0.380407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.372486E+02    0.369191E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.394433E+02    0.366204E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.413895E+02    0.372386E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.426283E+02    0.385688E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.428424E+02    0.402357E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.418267E+02    0.418340E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.398720E+02    0.429265E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.377763E+02    0.431357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.355900E+02    0.453074E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.329018E+02    0.436326E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138305E+03   -0.315352E+02    0.410267E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.320081E+02    0.381715E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.342179E+02    0.357149E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.378213E+02    0.342146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.416858E+02    0.342890E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.449797E+02    0.358809E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.466015E+02    0.385949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134103E+03   -0.459635E+02    0.416624E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.431146E+02    0.442889E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.394808E+02    0.455161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.398562E+02    0.314800E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.377044E+02    0.316668E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.393155E+02    0.299153E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.416378E+02    0.303628E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.414874E+02    0.323680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.390654E+02    0.331358E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.369646E+02    0.343133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.358531E+02    0.329697E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.357397E+02    0.312637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.365984E+02    0.296616E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.385966E+02    0.283421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.408213E+02    0.279566E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.428021E+02    0.285542E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.440731E+02    0.299211E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.440841E+02    0.317534E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.430719E+02    0.334192E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.411054E+02    0.345903E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.388848E+02    0.349035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.367865E+02    0.371637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.337769E+02    0.356524E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.325591E+02    0.329722E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138441E+03   -0.331029E+02    0.299513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.354143E+02    0.272369E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.391491E+02    0.254598E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.430697E+02    0.254147E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.463112E+02    0.270358E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.479751E+02    0.298358E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.472445E+02    0.330803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.442797E+02    0.358869E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.405133E+02    0.373170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.384511E+02    0.451624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.364297E+02    0.451814E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.378359E+02    0.436758E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.402190E+02    0.441964E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.400490E+02    0.460734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.377602E+02    0.466333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.357740E+02    0.475971E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.345946E+02    0.463106E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.343049E+02    0.447730E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.353602E+02    0.431964E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.371531E+02    0.421330E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.392417E+02    0.419168E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.412855E+02    0.425469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.425173E+02    0.439419E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.427268E+02    0.456121E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.417118E+02    0.471235E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.398638E+02    0.480902E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.376647E+02    0.482655E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.356688E+02    0.503865E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.327073E+02    0.486634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.313531E+02    0.461255E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.318302E+02    0.433354E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.340402E+02    0.409009E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.376380E+02    0.395156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.413823E+02    0.397127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.446559E+02    0.413512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.462563E+02    0.441447E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133872E+03   -0.458484E+02    0.470890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.431074E+02    0.495216E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.393559E+02    0.507502E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.390732E+02    0.360484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.370373E+02    0.361455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.385471E+02    0.345040E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.408477E+02    0.349779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.406876E+02    0.369425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.383829E+02    0.376097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.362912E+02    0.387177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.350044E+02    0.374908E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.348963E+02    0.358237E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.358536E+02    0.342076E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.376453E+02    0.330815E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.399491E+02    0.326905E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.420138E+02    0.332401E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.432675E+02    0.345875E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.433772E+02    0.363354E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.422548E+02    0.379934E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.404038E+02    0.390543E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.381960E+02    0.393214E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.360044E+02    0.415514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.332123E+02    0.399203E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.319237E+02    0.373432E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.324769E+02    0.343851E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.346914E+02    0.318542E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.382081E+02    0.303367E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.421911E+02    0.302931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.453951E+02    0.319000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134113E+03   -0.471469E+02    0.345801E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.462852E+02    0.377865E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.435546E+02    0.403717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.399089E+02    0.416886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.402348E+02    0.251712E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.380697E+02    0.254204E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.396763E+02    0.235451E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.420197E+02    0.239607E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.418863E+02    0.260660E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.393520E+02    0.269974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.371526E+02    0.283420E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.360265E+02    0.269633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.360795E+02    0.250412E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.369377E+02    0.233536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.388389E+02    0.219930E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.412724E+02    0.213827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.432769E+02    0.219643E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.444652E+02    0.234337E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.446031E+02    0.252933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.433832E+02    0.271944E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.414165E+02    0.284684E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.391856E+02    0.288456E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.368972E+02    0.313330E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.340502E+02    0.297423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.328886E+02    0.269067E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.334993E+02    0.236552E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.358993E+02    0.206857E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.396543E+02    0.187058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.436147E+02    0.185597E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.469036E+02    0.201949E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.484960E+02    0.231575E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.474534E+02    0.267765E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.446166E+02    0.297311E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.408429E+02    0.312924E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697506.396742824     
  ps_ts2 prof sum =   697134.794698542     
  trcom prof sum =    697134.794698543     
  ps_ts2 cur sum  =   11743.5713395237     
  trcom cur sum  =    11743.5713395237     
  
  antenna # iant =            2
  powecha_use(iant) =    668702.967394913     
  ps_ts2 prof sum =   668343.192695164     
  trcom prof sum =    668343.192695163     
  ps_ts2 cur sum  =   13436.7208171354     
  trcom cur sum  =    13436.7208171354     
  
  antenna # iant =            3
  powecha_use(iant) =    524203.170986575     
  ps_ts2 prof sum =   523875.758810999     
  trcom prof sum =    523875.758811000     
  ps_ts2 cur sum  =   7684.81961017935     
  trcom cur sum  =    7684.81961017936     
  
  antenna # iant =            4
  powecha_use(iant) =    554151.714500476     
  ps_ts2 prof sum =   553790.488571577     
  trcom prof sum =    553790.488571576     
  ps_ts2 cur sum  =   10191.3708654909     
  trcom cur sum  =    10191.3708654909     
  
  antenna # iant =            5
  powecha_use(iant) =    548486.217059418     
  ps_ts2 prof sum =   548189.290309231     
  trcom prof sum =    548189.290309231     
  ps_ts2 cur sum  =   12063.7991559015     
  trcom cur sum  =    12063.7991559015     
  
  Total ECH heating:      2991333.52508551     
  Total Current Drive:    55120.2817882307     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2506
 TA= 2.79500E+00 CPU TIME= 1.67145E-01 SECONDS.  DT= 3.85892E-04
  
 TEC1=    2.79499999999996     
 TEC2=    2.79999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.73388472222200     
  %check_save_state: izleft hours =    73.2577777777778     
 --> plasma_hash("gframe"): TA= 2.795000E+00 NSTEP=  2506 Hash code:  116184492
 ->PRGCHK: bdy curvature ratio at t= 2.8000E+00 seconds is:  5.5588E-02
% MHDEQ: TG1=     2.795000 ; TG2=     2.800000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5588E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.795000 TO TG2=    2.800000 @ NSTEP     2506
   GFRAME TG2 MOMENTS CHECKSUM:  2.4769929056343D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.71253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.68183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  6.13458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.64268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.59608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.85484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  2.04565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.63769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.53929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.31311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -1.83946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.20403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.12103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.75266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.74252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.17015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20=  4.65906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.59982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.66756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.30805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.49801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.49801E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8000E+00  2.8050E+00 total power(Watts):  2.9910E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.80000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.385754E+02    0.398674E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.365478E+02    0.399374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.380564E+02    0.383539E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.403445E+02    0.388470E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.402828E+02    0.407366E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.378811E+02    0.414127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.358932E+02    0.424730E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.346154E+02    0.411943E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.346082E+02    0.394961E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.355685E+02    0.379293E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.373613E+02    0.368499E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.394579E+02    0.365963E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.415116E+02    0.371718E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.427520E+02    0.385070E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.428579E+02    0.402160E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.418420E+02    0.418159E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.399921E+02    0.428792E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.377900E+02    0.431201E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.357988E+02    0.452333E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.328222E+02    0.436517E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.315471E+02    0.410099E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138408E+03   -0.320199E+02    0.381522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.342304E+02    0.356917E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.378350E+02    0.341876E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.417013E+02    0.342601E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.448839E+02    0.358982E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.466190E+02    0.385713E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.459805E+02    0.416434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.431302E+02    0.442718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.394952E+02    0.454993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.398706E+02    0.314458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.376201E+02    0.316906E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.393295E+02    0.298763E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.416522E+02    0.303250E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.415025E+02    0.323349E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.390794E+02    0.331058E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.368804E+02    0.343395E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.358662E+02    0.329407E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.356566E+02    0.312907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.366103E+02    0.296239E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.386102E+02    0.282996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.408358E+02    0.279122E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.428173E+02    0.285100E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.440882E+02    0.298806E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.442097E+02    0.316640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.430876E+02    0.333873E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.411206E+02    0.345624E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.388987E+02    0.348776E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.368000E+02    0.371421E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.338810E+02    0.355774E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138420E+03   -0.325716E+02    0.329437E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.332037E+02    0.298505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.355184E+02    0.271260E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.390639E+02    0.254815E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.431894E+02    0.252966E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.463279E+02    0.269856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.478778E+02    0.298458E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.471468E+02    0.330946E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.444073E+02    0.358164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.406338E+02    0.372494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.384652E+02    0.451454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.364429E+02    0.451654E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.379518E+02    0.436280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.402337E+02    0.441798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.401706E+02    0.460308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.377734E+02    0.466173E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.357864E+02    0.475830E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.345110E+02    0.463234E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.345083E+02    0.446955E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.353746E+02    0.431797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.371670E+02    0.421172E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.392559E+02    0.419007E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.413005E+02    0.425309E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.425331E+02    0.439239E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.427423E+02    0.455946E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.417269E+02    0.471066E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.398779E+02    0.480755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.376780E+02    0.482514E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.356812E+02    0.503752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.327185E+02    0.486513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.314531E+02    0.460815E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.319308E+02    0.432855E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.340532E+02    0.408831E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.376518E+02    0.394968E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.413975E+02    0.396928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.446722E+02    0.413332E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.465075E+02    0.440744E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.458649E+02    0.470713E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.431223E+02    0.495081E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.393694E+02    0.507389E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.390870E+02    0.360256E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.370510E+02    0.361221E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.385613E+02    0.344776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.408628E+02    0.349512E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.407022E+02    0.369194E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.383972E+02    0.375867E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.362070E+02    0.387414E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.352070E+02    0.373758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.350971E+02    0.356995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.360579E+02    0.340744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.378559E+02    0.329430E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.400663E+02    0.326048E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.420292E+02    0.332097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.432833E+02    0.345596E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.433932E+02    0.363097E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.422704E+02    0.379708E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.404189E+02    0.390334E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.382100E+02    0.393022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.362136E+02    0.414603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.332247E+02    0.399022E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.319351E+02    0.373232E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.324883E+02    0.343604E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.348887E+02    0.317053E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.384190E+02    0.301792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.423114E+02    0.301973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.454115E+02    0.318636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.471620E+02    0.345512E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.463020E+02    0.377631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.436822E+02    0.403175E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.399233E+02    0.416720E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.402484E+02    0.251218E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.379861E+02    0.254436E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.395907E+02    0.235672E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.421363E+02    0.238371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.419004E+02    0.260165E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.394636E+02    0.268873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.371654E+02    0.283004E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.360389E+02    0.269200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.359991E+02    0.250673E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.371363E+02    0.231527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.390434E+02    0.217864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.412855E+02    0.213284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.432907E+02    0.219080E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.445865E+02    0.233078E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.446184E+02    0.252410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.435047E+02    0.270840E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.415348E+02    0.283633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.391001E+02    0.288667E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.371038E+02    0.311816E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.340625E+02    0.297056E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138330E+03   -0.329003E+02    0.268651E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.335100E+02    0.236079E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.359102E+02    0.206342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.396658E+02    0.186511E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.437324E+02    0.184197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.469182E+02    0.201343E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.483999E+02    0.231655E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.476962E+02    0.266025E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.447394E+02    0.296324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.408577E+02    0.312561E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697186.863023808     
  ps_ts2 prof sum =   696816.174411389     
  trcom prof sum =    696816.174411389     
  ps_ts2 cur sum  =   11742.6496596707     
  trcom cur sum  =    11742.6496596707     
  
  antenna # iant =            2
  powecha_use(iant) =    667317.621163830     
  ps_ts2 prof sum =   666910.181780234     
  trcom prof sum =    666910.181780233     
  ps_ts2 cur sum  =   13409.1373608695     
  trcom cur sum  =    13409.1373608695     
  
  antenna # iant =            3
  powecha_use(iant) =    524356.302388794     
  ps_ts2 prof sum =   524038.538824617     
  trcom prof sum =    524038.538824617     
  ps_ts2 cur sum  =   7694.26405391253     
  trcom cur sum  =    7694.26405391254     
  
  antenna # iant =            4
  powecha_use(iant) =    554271.951298083     
  ps_ts2 prof sum =   553982.627992041     
  trcom prof sum =    553982.627992040     
  ps_ts2 cur sum  =   10194.8452435359     
  trcom cur sum  =    10194.8452435359     
  
  antenna # iant =            5
  powecha_use(iant) =    547858.895243310     
  ps_ts2 prof sum =   547561.877230661     
  trcom prof sum =    547561.877230660     
  ps_ts2 cur sum  =   12050.7368107320     
  trcom cur sum  =    12050.7368107320     
  
  Total ECH heating:      2989309.40023894     
  Total Current Drive:    55091.6331287206     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2513
 TA= 2.80000E+00 CPU TIME= 1.59360E-01 SECONDS.  DT= 8.19158E-04
  
 TEC1=    2.79999999999996     
 TEC2=    2.80499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.74861749999991     
  %check_save_state: izleft hours =    73.2430555555556     
 --> plasma_hash("gframe"): TA= 2.800000E+00 NSTEP=  2513 Hash code:   73569294
 ->PRGCHK: bdy curvature ratio at t= 2.8050E+00 seconds is:  5.5549E-02
% MHDEQ: TG1=     2.800000 ; TG2=     2.805000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7732E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5549E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.800000 TO TG2=    2.805000 @ NSTEP     2513
   GFRAME TG2 MOMENTS CHECKSUM:  2.4765971751912D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8050E+00  2.8100E+00 total power(Watts):  2.9910E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.80500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.386910E+02    0.398109E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.364627E+02    0.399599E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.380704E+02    0.383339E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.403591E+02    0.388280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.402983E+02    0.407176E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.378956E+02    0.413958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.359068E+02    0.424577E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.346279E+02    0.411789E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.345266E+02    0.395211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.355817E+02    0.379092E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.373792E+02    0.368260E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.394726E+02    0.365734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.415270E+02    0.371492E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.427658E+02    0.384882E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.428740E+02    0.401966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.418571E+02    0.418006E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.400068E+02    0.428625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.378028E+02    0.431057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.358119E+02    0.452179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.328342E+02    0.436368E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.315590E+02    0.409953E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138413E+03   -0.320317E+02    0.381334E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.342430E+02    0.356694E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.378490E+02    0.341625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.417166E+02    0.342340E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.449005E+02    0.358724E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.466361E+02    0.385495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134121E+03   -0.459972E+02    0.416260E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.433699E+02    0.442001E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.395095E+02    0.454833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.398848E+02    0.314148E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.378299E+02    0.315456E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.393433E+02    0.298414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.416677E+02    0.302899E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.415177E+02    0.323047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.390937E+02    0.330784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.368940E+02    0.343150E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.357853E+02    0.329696E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.356675E+02    0.312624E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.368157E+02    0.294634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.386241E+02    0.282622E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.408506E+02    0.278724E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.428328E+02    0.284704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.441049E+02    0.298425E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.442259E+02    0.316311E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.431036E+02    0.333590E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.412412E+02    0.344874E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.390147E+02    0.348028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.367155E+02    0.371671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.338934E+02    0.355552E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.325834E+02    0.329182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.332151E+02    0.298192E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.355310E+02    0.270872E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.392742E+02    0.252985E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.432050E+02    0.252504E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.464607E+02    0.268768E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.481250E+02    0.296970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.471643E+02    0.330637E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.444235E+02    0.357920E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.406487E+02    0.372273E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.384791E+02    0.451299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.364562E+02    0.451497E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.379656E+02    0.436125E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.402483E+02    0.441639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.401851E+02    0.460149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.377864E+02    0.466024E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.357989E+02    0.475696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.345239E+02    0.463082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.345207E+02    0.446802E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.352900E+02    0.431992E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.371798E+02    0.421024E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.393745E+02    0.418498E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.413153E+02    0.425151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.425485E+02    0.439076E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.427579E+02    0.455777E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.417419E+02    0.470911E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.398921E+02    0.480613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.376916E+02    0.482378E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.357921E+02    0.503481E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.327305E+02    0.486385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.314647E+02    0.460669E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.319426E+02    0.432710E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.342530E+02    0.407882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.376658E+02    0.394789E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.415206E+02    0.396348E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.446884E+02    0.413162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133759E+03   -0.465245E+02    0.440572E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133670E+03   -0.459982E+02    0.470348E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.431373E+02    0.494961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.394892E+02    0.507131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.391026E+02    0.360014E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.370641E+02    0.360999E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.385754E+02    0.344528E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.408778E+02    0.349262E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.408230E+02    0.368517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.384111E+02    0.375669E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.362204E+02    0.387224E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.352200E+02    0.373551E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.351101E+02    0.356772E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.360703E+02    0.340500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.378702E+02    0.329142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.400804E+02    0.325759E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.420447E+02    0.331815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.432991E+02    0.345333E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.434093E+02    0.362850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.423946E+02    0.379083E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.404336E+02    0.390140E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.383257E+02    0.392431E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.362272E+02    0.414434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.332374E+02    0.398851E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.319473E+02    0.373022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.325037E+02    0.343350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.348089E+02    0.317350E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.384330E+02    0.301453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.423270E+02    0.301615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.455401E+02    0.317783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.470619E+02    0.345696E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134100E+03   -0.465495E+02    0.376625E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.436981E+02    0.402987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.399378E+02    0.416555E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.402654E+02    0.250757E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.379994E+02    0.254008E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.398012E+02    0.233740E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.421510E+02    0.237895E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.419155E+02    0.259731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.394804E+02    0.268445E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.373710E+02    0.281334E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.360517E+02    0.268808E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.360115E+02    0.250248E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.370554E+02    0.231830E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.390570E+02    0.217381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.412992E+02    0.212769E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.434096E+02    0.217829E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.446021E+02    0.232575E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.446344E+02    0.251936E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.435203E+02    0.270412E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.415502E+02    0.283235E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.393138E+02    0.287041E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.371172E+02    0.311513E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.341649E+02    0.296087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.329116E+02    0.268270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.335218E+02    0.235648E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.359219E+02    0.205866E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.395819E+02    0.186838E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.437429E+02    0.183679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.469337E+02    0.200794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.484169E+02    0.231126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.476006E+02    0.266166E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.447593E+02    0.295931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.408722E+02    0.312247E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692709.753115983     
  ps_ts2 prof sum =   692295.655517442     
  trcom prof sum =    692295.655517442     
  ps_ts2 cur sum  =   11674.7843162369     
  trcom cur sum  =    11674.7843162368     
  
  antenna # iant =            2
  powecha_use(iant) =    670179.611810283     
  ps_ts2 prof sum =   669781.714738240     
  trcom prof sum =    669781.714689866     
  ps_ts2 cur sum  =   13469.3473735341     
  trcom cur sum  =    13469.3473735341     
  
  antenna # iant =            3
  powecha_use(iant) =    523990.170907381     
  ps_ts2 prof sum =   523668.567135365     
  trcom prof sum =    523668.567135366     
  ps_ts2 cur sum  =   7695.66627036769     
  trcom cur sum  =    7695.66627036770     
  
  antenna # iant =            4
  powecha_use(iant) =    557286.551648430     
  ps_ts2 prof sum =   556979.781461444     
  trcom prof sum =    556979.781461444     
  ps_ts2 cur sum  =   10255.6869768727     
  trcom cur sum  =    10255.6869768727     
  
  antenna # iant =            5
  powecha_use(iant) =    546812.802320601     
  ps_ts2 prof sum =   546507.814774876     
  trcom prof sum =    546507.814774876     
  ps_ts2 cur sum  =   12028.3188721996     
  trcom cur sum  =    12028.3188721996     
  
  Total ECH heating:      2989233.53357899     
  Total Current Drive:    55123.8038092109     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2518
 TA= 2.80500E+00 CPU TIME= 1.70606E-01 SECONDS.  DT= 3.46303E-04
  
 TEC1=    2.80499999999996     
 TEC2=    2.80999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.76531805555555     
  %check_save_state: izleft hours =    73.2261111111111     
 --> plasma_hash("gframe"): TA= 2.805000E+00 NSTEP=  2518 Hash code:   88512990
 ->PRGCHK: bdy curvature ratio at t= 2.8100E+00 seconds is:  5.5513E-02
% MHDEQ: TG1=     2.805000 ; TG2=     2.810000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5513E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.805000 TO TG2=    2.810000 @ NSTEP     2518
   GFRAME TG2 MOMENTS CHECKSUM:  2.4764569071204D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.33948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.71545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  1.70383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.07062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.63577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.79859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.72772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.42418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.18481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.37347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.22356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.37189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.63866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.07222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -2.28701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.84296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.88911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.16681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.57599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.57599E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8100E+00  2.8150E+00 total power(Watts):  2.9894E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.81000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.386924E+02    0.398025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.366599E+02    0.398727E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.381715E+02    0.382845E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.404651E+02    0.387799E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.402986E+02    0.407112E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.379971E+02    0.413544E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.360043E+02    0.424205E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.348183E+02    0.410963E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.347120E+02    0.394317E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.354860E+02    0.379493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.373749E+02    0.368219E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.395747E+02    0.365215E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.415270E+02    0.371422E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.427738E+02    0.384779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.429847E+02    0.401529E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.419662E+02    0.417621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.400067E+02    0.428602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.379042E+02    0.430723E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.358119E+02    0.452204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.328342E+02    0.436389E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.315595E+02    0.409910E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.321207E+02    0.380810E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.343356E+02    0.356117E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.379469E+02    0.341002E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.418227E+02    0.341721E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.450125E+02    0.358206E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.467521E+02    0.385043E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133925E+03   -0.461132E+02    0.415880E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.432577E+02    0.442292E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.396149E+02    0.454588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.399864E+02    0.313376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.378296E+02    0.315262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.394437E+02    0.297578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.417719E+02    0.302080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.416227E+02    0.322325E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.391946E+02    0.330095E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.370880E+02    0.342000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.357846E+02    0.329559E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.358552E+02    0.311230E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.367201E+02    0.295034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.387179E+02    0.281757E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.409516E+02    0.277830E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.429380E+02    0.283829E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.442130E+02    0.297606E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.443354E+02    0.315555E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.432119E+02    0.332925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.412410E+02    0.344762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.390143E+02    0.347936E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.369117E+02    0.370679E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.338933E+02    0.355488E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.326707E+02    0.328473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.332145E+02    0.297991E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.355297E+02    0.270640E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.392726E+02    0.252695E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.432031E+02    0.252189E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.464542E+02    0.268488E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.480097E+02    0.297245E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.472791E+02    0.329966E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.445352E+02    0.357370E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.406487E+02    0.372208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.385824E+02    0.451045E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.365556E+02    0.451233E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.379653E+02    0.436133E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.403545E+02    0.441369E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.401847E+02    0.460178E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.378876E+02    0.465769E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.358978E+02    0.475444E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.347164E+02    0.462534E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.344254E+02    0.447144E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.354836E+02    0.431308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.372802E+02    0.420640E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.393741E+02    0.418461E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.414237E+02    0.424791E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.426566E+02    0.438812E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.428692E+02    0.455551E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.418516E+02    0.470693E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.399990E+02    0.480378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.377941E+02    0.482154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.357917E+02    0.503546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.328233E+02    0.486155E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.314655E+02    0.460679E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.319426E+02    0.432719E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.341595E+02    0.408233E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.377664E+02    0.394318E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.415187E+02    0.396291E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.448025E+02    0.412765E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.466414E+02    0.440319E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133694E+03   -0.459982E+02    0.470338E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.432502E+02    0.494791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.394891E+02    0.507198E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.392035E+02    0.359478E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.371628E+02    0.360445E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.386758E+02    0.343915E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.409828E+02    0.348677E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.408230E+02    0.368457E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.384111E+02    0.375609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.364158E+02    0.386296E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.351252E+02    0.373966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.350161E+02    0.357210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.359743E+02    0.340933E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.377708E+02    0.329558E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.400805E+02    0.325584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.421508E+02    0.331139E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.434081E+02    0.344731E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.435189E+02    0.362338E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.423947E+02    0.379014E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.405395E+02    0.389668E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.383259E+02    0.392364E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.361292E+02    0.414770E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.333291E+02    0.398373E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.320352E+02    0.372494E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.325889E+02    0.342734E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.348085E+02    0.317178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.383339E+02    0.301836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.423265E+02    0.301377E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.455399E+02    0.317561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.472951E+02    0.344642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.464341E+02    0.376942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.439220E+02    0.402194E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.400434E+02    0.416154E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.403609E+02    0.249777E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.381902E+02    0.252315E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.397003E+02    0.234140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.422515E+02    0.236839E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.420172E+02    0.258772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.394799E+02    0.268177E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.372740E+02    0.281752E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.361434E+02    0.267879E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.361020E+02    0.249246E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.370536E+02    0.231509E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.389578E+02    0.217795E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.413963E+02    0.211622E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.434068E+02    0.217429E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.447064E+02    0.231501E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.447401E+02    0.250941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.435192E+02    0.270131E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.415489E+02    0.282977E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.393126E+02    0.286810E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.370203E+02    0.311908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.341645E+02    0.295883E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.329972E+02    0.267335E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.336064E+02    0.234578E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.360090E+02    0.204698E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.397706E+02    0.184783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.438428E+02    0.182447E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.470390E+02    0.199600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.485269E+02    0.230037E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.478248E+02    0.264621E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.448704E+02    0.295075E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.409754E+02    0.311465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.84 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691440.759759456     
  ps_ts2 prof sum =   691055.595367420     
  trcom prof sum =    691055.595367420     
  ps_ts2 cur sum  =   11619.5753218476     
  trcom cur sum  =    11619.5753218476     
  
  antenna # iant =            2
  powecha_use(iant) =    668572.915615164     
  ps_ts2 prof sum =   668181.560439132     
  trcom prof sum =    668181.560439132     
  ps_ts2 cur sum  =   13397.8369425569     
  trcom cur sum  =    13397.8369425569     
  
  antenna # iant =            3
  powecha_use(iant) =    523119.158467309     
  ps_ts2 prof sum =   522809.876017132     
  trcom prof sum =    522809.876017132     
  ps_ts2 cur sum  =   7662.69144748714     
  trcom cur sum  =    7662.69144748715     
  
  antenna # iant =            4
  powecha_use(iant) =    558025.405006841     
  ps_ts2 prof sum =   557668.899863834     
  trcom prof sum =    557668.899863834     
  ps_ts2 cur sum  =   10238.9543512589     
  trcom cur sum  =    10238.9543512588     
  
  antenna # iant =            5
  powecha_use(iant) =    548222.426705045     
  ps_ts2 prof sum =   547908.046854104     
  trcom prof sum =    547908.046854104     
  ps_ts2 cur sum  =   12025.0507750142     
  trcom cur sum  =    12025.0507750142     
  
  Total ECH heating:      2987623.97854162     
  Total Current Drive:    54944.1088381647     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2525
 TA= 2.81000E+00 CPU TIME= 1.63976E-01 SECONDS.  DT= 1.37630E-03
  
 TEC1=    2.80999999999996     
 TEC2=    2.81499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.78194583333311     
  %check_save_state: izleft hours =    73.2097222222222     
 --> plasma_hash("gframe"): TA= 2.810000E+00 NSTEP=  2525 Hash code:   99383648
 ->PRGCHK: bdy curvature ratio at t= 2.8150E+00 seconds is:  5.5421E-02
% MHDEQ: TG1=     2.810000 ; TG2=     2.815000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5421E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.810000 TO TG2=    2.815000 @ NSTEP     2525
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763166390495D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8150E+00  2.8200E+00 total power(Watts):  2.9894E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.81500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.387942E+02    0.397551E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.367587E+02    0.398238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.382717E+02    0.382336E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.405695E+02    0.387308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.404046E+02    0.406670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.379965E+02    0.413486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.360034E+02    0.424173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.347229E+02    0.411298E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.346236E+02    0.394649E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.356768E+02    0.378508E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.374728E+02    0.367678E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.396773E+02    0.364670E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.416329E+02    0.370898E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.428800E+02    0.384287E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.429841E+02    0.401437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.419655E+02    0.417557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.401117E+02    0.428254E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.379046E+02    0.430689E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.359090E+02    0.451938E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.329252E+02    0.436057E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.316473E+02    0.409449E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.321201E+02    0.380746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.345201E+02    0.355020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.378465E+02    0.341405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.418214E+02    0.341588E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.450114E+02    0.358093E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.466356E+02    0.385306E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134164E+03   -0.459987E+02    0.416117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.433686E+02    0.442022E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.396139E+02    0.454613E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.399849E+02    0.313171E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.379259E+02    0.314501E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.395425E+02    0.296737E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.418749E+02    0.301258E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.416215E+02    0.322129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.391936E+02    0.329936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.371844E+02    0.341355E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.358781E+02    0.328853E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.357600E+02    0.311636E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.369089E+02    0.293557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.387222E+02    0.281486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.409494E+02    0.277567E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.430418E+02    0.282947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.443199E+02    0.296757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.443334E+02    0.315340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.432103E+02    0.332763E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.413452E+02    0.344144E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.391146E+02    0.347325E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.370090E+02    0.370139E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.339840E+02    0.354898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.327586E+02    0.327755E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.333018E+02    0.297140E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.356195E+02    0.269708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.393675E+02    0.251696E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.433055E+02    0.251180E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.465631E+02    0.267551E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.481224E+02    0.296402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.475077E+02    0.328798E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.445338E+02    0.357271E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.407531E+02    0.371685E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.385815E+02    0.451068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.365547E+02    0.451259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.380665E+02    0.435815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.403535E+02    0.441380E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.402906E+02    0.459945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.378867E+02    0.465790E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.357986E+02    0.475687E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.346199E+02    0.462826E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.346169E+02    0.446547E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.353871E+02    0.431630E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.372795E+02    0.420598E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.394777E+02    0.418057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.414228E+02    0.424746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.427690E+02    0.438505E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.428681E+02    0.455572E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.418508E+02    0.470699E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.399982E+02    0.480389E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.378960E+02    0.481944E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.358893E+02    0.503445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.328222E+02    0.486185E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.315541E+02    0.460409E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.320316E+02    0.432367E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.343467E+02    0.407374E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.377658E+02    0.394240E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.416278E+02    0.395807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.450295E+02    0.412015E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133585E+03   -0.466403E+02    0.440309E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.461141E+02    0.470140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.434744E+02    0.494502E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.395942E+02    0.507126E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.393022E+02    0.358915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.371619E+02    0.360361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.387744E+02    0.343289E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.410867E+02    0.348073E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.409273E+02    0.367921E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.385116E+02    0.375084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.365129E+02    0.385785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.353143E+02    0.372955E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.352032E+02    0.356118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.361643E+02    0.339744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.379669E+02    0.328301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.401816E+02    0.324874E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.421450E+02    0.330988E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.434071E+02    0.344592E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.435169E+02    0.362256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.425026E+02    0.378510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.406443E+02    0.389181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.384269E+02    0.391873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.363248E+02    0.413966E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.333287E+02    0.398305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.320347E+02    0.372430E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.325879E+02    0.342635E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.348998E+02    0.316409E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.385300E+02    0.300398E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.424305E+02    0.300549E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.456503E+02    0.316810E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.474091E+02    0.344038E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133928E+03   -0.466640E+02    0.376052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.438099E+02    0.402455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.400429E+02    0.416094E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.404578E+02    0.248764E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.382836E+02    0.251310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.398939E+02    0.232310E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.422480E+02    0.236472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.420144E+02    0.258464E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.395760E+02    0.267244E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.374641E+02    0.280204E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.363274E+02    0.266247E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.360995E+02    0.248957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.371436E+02    0.230406E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.390502E+02    0.216647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.414928E+02    0.210448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.435071E+02    0.216277E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.447029E+02    0.231104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.448447E+02    0.249927E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.436232E+02    0.269202E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.416504E+02    0.282100E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.394103E+02    0.285924E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.372122E+02    0.310515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.342534E+02    0.295014E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.329954E+02    0.267097E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.336043E+02    0.234260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.360048E+02    0.204339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.398613E+02    0.183572E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.438372E+02    0.182047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.471431E+02    0.198410E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.487485E+02    0.228233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.477089E+02    0.264910E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.448672E+02    0.294812E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.410777E+02    0.310681E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691416.414820491     
  ps_ts2 prof sum =   690994.670533858     
  trcom prof sum =    690994.670533858     
  ps_ts2 cur sum  =   11580.1201262583     
  trcom cur sum  =    11580.1201262583     
  
  antenna # iant =            2
  powecha_use(iant) =    671074.511541784     
  ps_ts2 prof sum =   670702.259310515     
  trcom prof sum =    670702.259310514     
  ps_ts2 cur sum  =   13406.6965930927     
  trcom cur sum  =    13406.6965930927     
  
  antenna # iant =            3
  powecha_use(iant) =    523683.218160850     
  ps_ts2 prof sum =   523366.276054542     
  trcom prof sum =    523366.276054543     
  ps_ts2 cur sum  =   7646.60174836188     
  trcom cur sum  =    7646.60174836189     
  
  antenna # iant =            4
  powecha_use(iant) =    554558.081892603     
  ps_ts2 prof sum =   554266.569924085     
  trcom prof sum =    554266.569924085     
  ps_ts2 cur sum  =   10141.7113542463     
  trcom cur sum  =    10141.7113542463     
  
  antenna # iant =            5
  powecha_use(iant) =    548646.934556357     
  ps_ts2 prof sum =   548359.910555368     
  trcom prof sum =    548359.910555367     
  ps_ts2 cur sum  =   11998.1353258552     
  trcom cur sum  =    11998.1353258552     
  
  Total ECH heating:      2987689.68637837     
  Total Current Drive:    54773.2651478143     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2528
 TA= 2.81500E+00 CPU TIME= 1.61311E-01 SECONDS.  DT= 2.37914E-03
  
 TEC1=    2.81499999999996     
 TEC2=    2.81999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.79618166666660     
  %check_save_state: izleft hours =    73.1952777777778     
 --> plasma_hash("gframe"): TA= 2.815000E+00 NSTEP=  2528 Hash code:   93033027
 ->PRGCHK: bdy curvature ratio at t= 2.8200E+00 seconds is:  5.5332E-02
% MHDEQ: TG1=     2.815000 ; TG2=     2.820000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7690E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5332E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.815000 TO TG2=    2.820000 @ NSTEP     2528
   GFRAME TG2 MOMENTS CHECKSUM:  2.4761763726841D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.63143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.60464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -8.60188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.05722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.17921E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.11464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.43300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.26683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.02945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.27498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.45886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.92868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -1.58722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.29024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.44745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.77026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.31867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.31867E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.8200E+00  2.8250E+00 total power(Watts):  2.9873E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.82000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.387943E+02    0.397496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.367592E+02    0.398182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.382719E+02    0.382285E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.405695E+02    0.387253E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.405097E+02    0.406237E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.380981E+02    0.413067E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.361013E+02    0.423785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.349130E+02    0.410476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.348095E+02    0.393753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.355808E+02    0.378927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.373740E+02    0.368099E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.396771E+02    0.364615E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.417398E+02    0.370404E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.429895E+02    0.383838E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.430946E+02    0.401008E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.420745E+02    0.417164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.402176E+02    0.427890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.380064E+02    0.430335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.358108E+02    0.452248E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.329253E+02    0.436061E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.316472E+02    0.409413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.322089E+02    0.380234E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.344272E+02    0.355482E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.380449E+02    0.340260E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.419274E+02    0.340982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.451245E+02    0.357560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.468675E+02    0.384485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.462283E+02    0.415426E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.433682E+02    0.442028E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.397192E+02    0.454357E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.400865E+02    0.312419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.378282E+02    0.314905E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.395422E+02    0.296523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.418747E+02    0.301047E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.417266E+02    0.321422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.392946E+02    0.329267E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.371845E+02    0.341266E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.360677E+02    0.327600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.358535E+02    0.310872E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.368130E+02    0.293987E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.388171E+02    0.280639E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.410508E+02    0.276699E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.430411E+02    0.282715E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.443187E+02    0.296536E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.444428E+02    0.314606E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.433187E+02    0.332114E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.413448E+02    0.344045E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.391146E+02    0.347245E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.370093E+02    0.370084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.339832E+02    0.354847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.327585E+02    0.327640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.333904E+02    0.296303E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.357107E+02    0.268804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.394648E+02    0.250725E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.434091E+02    0.250211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.466734E+02    0.266654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.483522E+02    0.295044E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133636E+03   -0.476225E+02    0.328148E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.446462E+02    0.356733E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.408584E+02    0.371191E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.386848E+02    0.450801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.366539E+02    0.450985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.380663E+02    0.435813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.404599E+02    0.441089E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.402908E+02    0.459942E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.379894E+02    0.465539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.359960E+02    0.475207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.348116E+02    0.462288E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.345196E+02    0.446877E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.355802E+02    0.430943E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.373794E+02    0.420206E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.394779E+02    0.418001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.415310E+02    0.424386E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.427687E+02    0.438500E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.429796E+02    0.455327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.419609E+02    0.470472E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.401046E+02    0.480187E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.378959E+02    0.481948E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.358887E+02    0.503542E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.329147E+02    0.485981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.315547E+02    0.460409E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.320315E+02    0.432361E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.342531E+02    0.407721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.378664E+02    0.393776E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.416278E+02    0.395748E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.449157E+02    0.412280E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.467572E+02    0.440034E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.461139E+02    0.470138E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.433607E+02    0.494695E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.395933E+02    0.507222E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.393095E+02    0.358828E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.372598E+02    0.359827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.387743E+02    0.343202E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.410865E+02    0.347991E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.409274E+02    0.367865E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.386129E+02    0.374580E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.365129E+02    0.385736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.352192E+02    0.373385E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.351088E+02    0.356580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.360688E+02    0.340189E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.380655E+02    0.327617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.402841E+02    0.324179E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.422585E+02    0.330300E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.435161E+02    0.344009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.436267E+02    0.361743E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.425024E+02    0.378462E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.406444E+02    0.389125E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.384270E+02    0.391820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.362269E+02    0.414297E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.334207E+02    0.397832E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.321231E+02    0.371902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.326764E+02    0.342003E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.348997E+02    0.316255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.386285E+02    0.299582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.425365E+02    0.299744E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.457614E+02    0.316096E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.472936E+02    0.344382E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.467795E+02    0.375591E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.439219E+02    0.402030E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.401483E+02    0.415690E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.404564E+02    0.248484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.381863E+02    0.251761E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.399909E+02    0.231252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.423492E+02    0.235438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.421166E+02    0.257522E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.396743E+02    0.266336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.373676E+02    0.280651E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.362331E+02    0.266723E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.361906E+02    0.247964E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.373292E+02    0.228574E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.392407E+02    0.214755E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.414905E+02    0.210102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.436090E+02    0.215165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.448076E+02    0.230040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.448432E+02    0.249622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.437288E+02    0.268309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.417537E+02    0.281244E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.395094E+02    0.285079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.373085E+02    0.309750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.342530E+02    0.294832E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.330811E+02    0.266177E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.336883E+02    0.233216E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.360925E+02    0.203201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.397624E+02    0.184081E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.439365E+02    0.180861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.472493E+02    0.197248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.486342E+02    0.228532E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.478196E+02    0.264011E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.449766E+02    0.293995E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.410777E+02    0.310486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690594.294511189     
  ps_ts2 prof sum =   690182.708148289     
  trcom prof sum =    690182.708148289     
  ps_ts2 cur sum  =   11533.9355328002     
  trcom cur sum  =    11533.9355328002     
  
  antenna # iant =            2
  powecha_use(iant) =    671467.474286641     
  ps_ts2 prof sum =   671093.472529848     
  trcom prof sum =    671093.472529847     
  ps_ts2 cur sum  =   13372.6516272462     
  trcom cur sum  =    13372.6516272462     
  
  antenna # iant =            3
  powecha_use(iant) =    524234.272617912     
  ps_ts2 prof sum =   523908.282911205     
  trcom prof sum =    523908.282911205     
  ps_ts2 cur sum  =   7634.04793705666     
  trcom cur sum  =    7634.04793705668     
  
  antenna # iant =            4
  powecha_use(iant) =    555214.566710299     
  ps_ts2 prof sum =   554876.027475961     
  trcom prof sum =    554876.027475960     
  ps_ts2 cur sum  =   10122.2375425824     
  trcom cur sum  =    10122.2375425824     
  
  antenna # iant =            5
  powecha_use(iant) =    545747.231813458     
  ps_ts2 prof sum =   545444.997111273     
  trcom prof sum =    545444.997111273     
  ps_ts2 cur sum  =   11899.5882708541     
  trcom cur sum  =    11899.5882708541     
  
  Total ECH heating:      2985505.48817657     
  Total Current Drive:    54562.4609105396     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2530
 TA= 2.82000E+00 CPU TIME= 1.61441E-01 SECONDS.  DT= 3.27607E-03
  
 TEC1=    2.81999999999996     
 TEC2=    2.82499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.80888888888830     
  %check_save_state: izleft hours =    73.1825000000000     
 --> plasma_hash("gframe"): TA= 2.820000E+00 NSTEP=  2530 Hash code:   60701791
 ->PRGCHK: bdy curvature ratio at t= 2.8250E+00 seconds is:  5.5246E-02
% MHDEQ: TG1=     2.820000 ; TG2=     2.825000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7676E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5246E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.820000 TO TG2=    2.825000 @ NSTEP     2530
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760361063186D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8250E+00  2.8300E+00 total power(Watts):  2.3085E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.82500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.388969E+02    0.397057E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.368577E+02    0.397732E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.383730E+02    0.381807E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.406753E+02    0.386798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.405100E+02    0.406195E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.381999E+02    0.412670E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.361014E+02    0.423779E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.348184E+02    0.410838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.347151E+02    0.394149E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.357729E+02    0.377970E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.375720E+02    0.367111E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.397803E+02    0.364103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.417398E+02    0.370361E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.429898E+02    0.383781E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.432054E+02    0.400597E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.420749E+02    0.417127E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.402173E+02    0.427905E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.380016E+02    0.430360E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.360069E+02    0.451698E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.330170E+02    0.435749E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.317358E+02    0.408979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.322092E+02    0.380201E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.346119E+02    0.354403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.381445E+02    0.339641E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.419277E+02    0.340882E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.453497E+02    0.356596E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133517E+03   -0.469839E+02    0.384046E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.463444E+02    0.415066E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.434798E+02    0.441785E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.397186E+02    0.454403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.400866E+02    0.312251E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.380239E+02    0.313589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.396428E+02    0.295719E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.419799E+02    0.300262E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.418318E+02    0.320732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.393962E+02    0.328601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.372827E+02    0.340643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.359729E+02    0.328054E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.358537E+02    0.310717E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.370039E+02    0.292532E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.387188E+02    0.281080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.411530E+02    0.275835E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.431474E+02    0.281871E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.444288E+02    0.295728E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.445531E+02    0.313878E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.434276E+02    0.331470E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.414481E+02    0.343468E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.392162E+02    0.346663E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.371077E+02    0.369575E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.340752E+02    0.354275E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.328471E+02    0.326945E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.333906E+02    0.296134E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.357107E+02    0.268595E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.394645E+02    0.250459E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.434085E+02    0.249932E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.466727E+02    0.266390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.482375E+02    0.295356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133878E+03   -0.475079E+02    0.328480E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.448697E+02    0.355759E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.408586E+02    0.371141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.387880E+02    0.450563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.366537E+02    0.451027E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.381675E+02    0.435526E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.404597E+02    0.441122E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.403934E+02    0.459727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.379891E+02    0.465561E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.360940E+02    0.474990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.347153E+02    0.462587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.347098E+02    0.446304E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.354838E+02    0.431296E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.373799E+02    0.420187E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.395837E+02    0.417629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.415309E+02    0.424376E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.428791E+02    0.438237E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.429792E+02    0.455368E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.419607E+02    0.470486E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.401041E+02    0.480197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.379979E+02    0.481749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.359865E+02    0.503465E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.329147E+02    0.486001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.316438E+02    0.460149E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.321212E+02    0.432026E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.344409E+02    0.406890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.378668E+02    0.393732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.417360E+02    0.395310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.450299E+02    0.411904E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133193E+03   -0.468742E+02    0.439789E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133323E+03   -0.462304E+02    0.469962E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.435862E+02    0.494389E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.396984E+02    0.507180E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.394080E+02    0.358305E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.371618E+02    0.360262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.388754E+02    0.342596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.411916E+02    0.347418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.410329E+02    0.367371E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.386133E+02    0.374537E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.366115E+02    0.385250E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.353143E+02    0.372873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.352032E+02    0.356015E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.362603E+02    0.339022E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.380658E+02    0.327495E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.402851E+02    0.324034E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.423624E+02    0.329662E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.436255E+02    0.343429E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.437372E+02    0.361229E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.426114E+02    0.377992E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.407504E+02    0.388673E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385290E+02    0.391362E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.364234E+02    0.413523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.334202E+02    0.397802E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.321234E+02    0.371856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.326763E+02    0.341933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.349927E+02    0.315513E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.386290E+02    0.299397E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.425365E+02    0.299544E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.457620E+02    0.315905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.475247E+02    0.343354E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.466648E+02    0.375916E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.439223E+02    0.401975E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.401484E+02    0.415665E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.405562E+02    0.247494E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.383783E+02    0.250073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.399901E+02    0.230934E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.424522E+02    0.234393E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.422196E+02    0.256588E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.396739E+02    0.266103E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.375592E+02    0.279134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.364195E+02    0.265113E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.361888E+02    0.247713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.372344E+02    0.229033E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.391433E+02    0.215198E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.415891E+02    0.208964E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.436027E+02    0.214823E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.449138E+02    0.228976E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.449503E+02    0.248652E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.437285E+02    0.268063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.417533E+02    0.281024E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.395096E+02    0.284876E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.372082E+02    0.310203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.343441E+02    0.294009E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.330801E+02    0.265987E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.337741E+02    0.232154E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.360910E+02    0.202883E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.399527E+02    0.182057E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.440378E+02    0.179679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.472476E+02    0.196856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.487461E+02    0.227458E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.479334E+02    0.263106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.450866E+02    0.293191E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.411815E+02    0.309737E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    14724.6631163375     
  ps_ts2 prof sum =   14716.6372785720     
  trcom prof sum =    14716.6372785720     
  ps_ts2 cur sum  =   245.222398394915     
  trcom cur sum  =    245.222398394915     
  
  antenna # iant =            2
  powecha_use(iant) =    670013.441892602     
  ps_ts2 prof sum =   669628.962841146     
  trcom prof sum =    669628.962841146     
  ps_ts2 cur sum  =   13311.7322831119     
  trcom cur sum  =    13311.7322831118     
  
  antenna # iant =            3
  powecha_use(iant) =    523934.206480522     
  ps_ts2 prof sum =   523617.843730551     
  trcom prof sum =    523617.843730551     
  ps_ts2 cur sum  =   7607.37009377913     
  trcom cur sum  =    7607.37009377914     
  
  antenna # iant =            4
  powecha_use(iant) =    554235.420250394     
  ps_ts2 prof sum =   553906.825688759     
  trcom prof sum =    553906.825688759     
  ps_ts2 cur sum  =   10078.2406986767     
  trcom cur sum  =    10078.2406986767     
  
  antenna # iant =            5
  powecha_use(iant) =    545611.909238304     
  ps_ts2 prof sum =   545309.589497736     
  trcom prof sum =    545309.589497737     
  ps_ts2 cur sum  =   11871.0807825303     
  trcom cur sum  =    11871.0807825303     
  
  Total ECH heating:      2307179.85903676     
  Total Current Drive:    43113.6462564929     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2532
 TA= 2.82500E+00 CPU TIME= 1.60570E-01 SECONDS.  DT= 2.15491E-03
  
 TEC1=    2.82499999999996     
 TEC2=    2.82999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    6.82344361111063     
  %check_save_state: izleft hours =    73.1680555555556     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  2.8250000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 2.825000E+00 NSTEP=  2532 Hash code:  118976675
 ->PRGCHK: bdy curvature ratio at t= 2.8300E+00 seconds is:  5.5162E-02
% MHDEQ: TG1=     2.825000 ; TG2=     2.830000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7662E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5162E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.825000 TO TG2=    2.830000 @ NSTEP     2532
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758958399532D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.93410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.49552E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.20784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.50961E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.82079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.54294E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.38174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.93794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.34753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.38011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.30944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.67705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.33426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.94711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20=  3.82792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.73075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.99734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.37972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.15306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.15306E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8300E+00  2.8350E+00 total power(Watts):  2.4301E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.83000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.388983E+02    0.397045E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.368591E+02    0.397723E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.383745E+02    0.381803E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.406770E+02    0.386786E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.406172E+02    0.405814E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.382011E+02    0.412665E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.362001E+02    0.423446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.350093E+02    0.410053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.349052E+02    0.393285E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.356786E+02    0.378415E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.374748E+02    0.367582E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.397823E+02    0.364093E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.418487E+02    0.369907E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.431010E+02    0.383369E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.432069E+02    0.400578E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.421848E+02    0.416795E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.403238E+02    0.427598E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.381119E+02    0.430048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.359094E+02    0.452053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.330178E+02    0.435791E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.317372E+02    0.408961E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.322992E+02    0.379726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.345210E+02    0.354905E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.381461E+02    0.339592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.420338E+02    0.340336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.452387E+02    0.357025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133758E+03   -0.468696E+02    0.384417E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.463457E+02    0.415053E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.434787E+02    0.441835E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.398247E+02    0.454185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.401906E+02    0.311540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.379276E+02    0.314045E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.396447E+02    0.295557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.419820E+02    0.300094E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.418337E+02    0.320614E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.393972E+02    0.328519E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.372841E+02    0.340604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.361644E+02    0.326840E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.359497E+02    0.309985E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.369101E+02    0.293016E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.389173E+02    0.279604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.411547E+02    0.275649E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.432557E+02    0.281066E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.444312E+02    0.295548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.445515E+02    0.313751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.434295E+02    0.331383E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.414523E+02    0.343412E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.392178E+02    0.346629E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.371090E+02    0.369578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.340767E+02    0.354265E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.328485E+02    0.326866E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.333922E+02    0.295998E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.358045E+02    0.267728E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.395643E+02    0.249515E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.435152E+02    0.248988E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.467858E+02    0.265533E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133406E+03   -0.484698E+02    0.294048E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133470E+03   -0.477404E+02    0.327378E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.447597E+02    0.356195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.409658E+02    0.370691E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.387883E+02    0.450623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.367538E+02    0.450793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.382701E+02    0.435244E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.405669E+02    0.440875E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.404024E+02    0.459755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.380920E+02    0.465348E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.360946E+02    0.475016E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.349077E+02    0.462081E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.346151E+02    0.446672E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.356773E+02    0.430651E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.374811E+02    0.419833E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.395839E+02    0.417628E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.416403E+02    0.424056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.428796E+02    0.438275E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.430905E+02    0.455189E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.420703E+02    0.470310E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.402113E+02    0.480012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.379972E+02    0.481795E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.359862E+02    0.503588E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.330072E+02    0.485818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.316440E+02    0.460195E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.321220E+02    0.432065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.343483E+02    0.407285E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.379689E+02    0.393307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.418452E+02    0.394912E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.452591E+02    0.411225E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.468744E+02    0.439838E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133127E+03   -0.463476E+02    0.469805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.434731E+02    0.494609E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.396977E+02    0.507309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.394094E+02    0.358296E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.373597E+02    0.359277E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.388772E+02    0.342548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.411944E+02    0.347383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.410350E+02    0.367353E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.387160E+02    0.374086E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.366123E+02    0.385256E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.353156E+02    0.372875E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.352039E+02    0.356010E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.361662E+02    0.339517E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.381663E+02    0.326857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.403898E+02    0.323387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.423643E+02    0.329577E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.436272E+02    0.343379E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.437387E+02    0.361226E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.427219E+02    0.377563E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.407520E+02    0.388661E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.385305E+02    0.391351E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.363264E+02    0.413898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.335134E+02    0.397366E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.322131E+02    0.371364E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.327668E+02    0.341341E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.349943E+02    0.315405E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.387291E+02    0.298642E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.426445E+02    0.298787E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.458762E+02    0.315228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133390E+03   -0.476422E+02    0.342832E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133561E+03   -0.468975E+02    0.375107E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.440355E+02    0.401606E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.402546E+02    0.415316E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.405576E+02    0.247249E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.382822E+02    0.250567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.400892E+02    0.229900E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.424531E+02    0.234101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.422211E+02    0.256358E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.397749E+02    0.265240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.374647E+02    0.279628E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.363277E+02    0.265631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.362829E+02    0.246746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.373287E+02    0.227984E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.393368E+02    0.213316E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.415900E+02    0.208633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.437150E+02    0.213685E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.449151E+02    0.228645E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.449518E+02    0.248393E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.438368E+02    0.267207E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.418589E+02    0.280212E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.396085E+02    0.284085E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.374095E+02    0.308848E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.343454E+02    0.293863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.331682E+02    0.265100E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.337751E+02    0.231898E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.361804E+02    0.201772E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.398555E+02    0.182590E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.440371E+02    0.179336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.473575E+02    0.195718E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133427E+03   -0.489733E+02    0.225716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.479359E+02    0.262857E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.450886E+02    0.293023E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.411834E+02    0.309601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    139241.762283117     
  ps_ts2 prof sum =   139155.229184513     
  trcom prof sum =    139155.229184513     
  ps_ts2 cur sum  =   2313.70258539911     
  trcom cur sum  =    2313.70258539911     
  
  antenna # iant =            2
  powecha_use(iant) =    668842.571845392     
  ps_ts2 prof sum =   668448.462367123     
  trcom prof sum =    668448.462367122     
  ps_ts2 cur sum  =   13257.1937727054     
  trcom cur sum  =    13257.1937727054     
  
  antenna # iant =            3
  powecha_use(iant) =    523456.721355692     
  ps_ts2 prof sum =   523145.426888018     
  trcom prof sum =    523145.426888019     
  ps_ts2 cur sum  =   7583.39196149164     
  trcom cur sum  =    7583.39196149165     
  
  antenna # iant =            4
  powecha_use(iant) =    553960.328106239     
  ps_ts2 prof sum =   553626.817320678     
  trcom prof sum =    553626.817287905     
  ps_ts2 cur sum  =   10050.1860267697     
  trcom cur sum  =    10050.1860267697     
  
  antenna # iant =            5
  powecha_use(iant) =    544630.043710634     
  ps_ts2 prof sum =   544309.322954515     
  trcom prof sum =    544309.322954514     
  ps_ts2 cur sum  =   11821.8342236850     
  trcom cur sum  =    11821.8342236850     
  
  Total ECH heating:      2428685.25868207     
  Total Current Drive:    45026.3085700509     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2535
 TA= 2.83000E+00 CPU TIME= 1.64835E-01 SECONDS.  DT= 1.89315E-04
  
 TEC1=    2.82999999999996     
 TEC2=    2.83499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.83676111111095     
  %check_save_state: izleft hours =    73.1547222222222     
 --> plasma_hash("gframe"): TA= 2.830000E+00 NSTEP=  2535 Hash code:    2736988
 ->PRGCHK: bdy curvature ratio at t= 2.8350E+00 seconds is:  5.5080E-02
% MHDEQ: TG1=     2.830000 ; TG2=     2.835000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5080E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.830000 TO TG2=    2.835000 @ NSTEP     2535
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757555735877D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8350E+00  2.8400E+00 total power(Watts):  2.9635E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.83500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.390005E+02    0.396609E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.369573E+02    0.397278E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.384753E+02    0.381332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.407821E+02    0.386342E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.406159E+02    0.405786E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.383022E+02    0.412257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.361996E+02    0.423429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.349142E+02    0.410407E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.348108E+02    0.393677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.358698E+02    0.377470E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.376725E+02    0.366600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.398829E+02    0.363592E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.418476E+02    0.369873E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.431005E+02    0.383332E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.433169E+02    0.400165E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.422937E+02    0.416408E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.403229E+02    0.427587E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.381083E+02    0.430039E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.361042E+02    0.451508E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.331084E+02    0.435474E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.318255E+02    0.408524E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.322991E+02    0.379696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.347058E+02    0.353833E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.382446E+02    0.338999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.421416E+02    0.339748E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.453506E+02    0.356517E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133344E+03   -0.471008E+02    0.383618E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133385E+03   -0.464611E+02    0.414682E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.435916E+02    0.441563E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.398238E+02    0.454220E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.402922E+02    0.310819E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.381240E+02    0.312744E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.397447E+02    0.294776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.420864E+02    0.299331E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.419385E+02    0.319946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.394986E+02    0.327879E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.373809E+02    0.340006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.360684E+02    0.327320E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.359492E+02    0.309852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.371006E+02    0.291583E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.390147E+02    0.278786E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.412561E+02    0.274827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.432545E+02    0.280891E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.445393E+02    0.294776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.446684E+02    0.313020E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.435374E+02    0.330772E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.415572E+02    0.342846E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.393183E+02    0.346069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.372066E+02    0.369073E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.341681E+02    0.353702E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.329363E+02    0.326204E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.334805E+02    0.295194E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.358033E+02    0.267565E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.395621E+02    0.249303E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.436197E+02    0.248055E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.468964E+02    0.264691E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133216E+03   -0.485838E+02    0.293288E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.476246E+02    0.327749E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.448707E+02    0.355681E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.409652E+02    0.370655E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.388908E+02    0.450376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.367527E+02    0.450831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.382700E+02    0.435251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.405660E+02    0.440893E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.405036E+02    0.459543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.381936E+02    0.465103E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.361925E+02    0.474776E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.348112E+02    0.462372E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.348046E+02    0.446096E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.355809E+02    0.430984E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.374802E+02    0.419812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.396875E+02    0.417244E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.416397E+02    0.424031E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.429896E+02    0.437991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.433124E+02    0.454726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.421795E+02    0.470078E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.402097E+02    0.480020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.380987E+02    0.481582E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.360837E+02    0.503525E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.330065E+02    0.485841E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.317323E+02    0.459928E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.322110E+02    0.431717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.345344E+02    0.406455E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.379683E+02    0.393271E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.418447E+02    0.394877E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.451447E+02    0.411513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133019E+03   -0.469908E+02    0.439573E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133156E+03   -0.463432E+02    0.469814E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.436973E+02    0.494326E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.398000E+02    0.507286E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.395114E+02    0.357767E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.372612E+02    0.359724E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.389770E+02    0.341978E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.412979E+02    0.346829E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.411391E+02    0.366874E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.387126E+02    0.374061E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.367098E+02    0.384782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.355050E+02    0.371896E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.352979E+02    0.355459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.363568E+02    0.338378E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.381656E+02    0.326763E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.403892E+02    0.323271E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.424703E+02    0.328948E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.437358E+02    0.342824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.438484E+02    0.360719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.427214E+02    0.377524E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.408572E+02    0.388218E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.386316E+02    0.390904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.365222E+02    0.413107E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.335132E+02    0.397334E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.322129E+02    0.371338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.327662E+02    0.341289E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.350863E+02    0.314685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.386279E+02    0.299099E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.426443E+02    0.298612E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133979E+03   -0.460995E+02    0.314010E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133630E+03   -0.475257E+02    0.343208E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133365E+03   -0.470124E+02    0.374662E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.442588E+02    0.400838E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.402549E+02    0.415264E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.406556E+02    0.246314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.384746E+02    0.248912E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.399891E+02    0.230373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.425536E+02    0.233103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.423235E+02    0.255466E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.397740E+02    0.265061E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.376561E+02    0.278138E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.364198E+02    0.264764E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.362818E+02    0.246535E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.373279E+02    0.227715E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.394319E+02    0.212237E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.416886E+02    0.207550E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.438151E+02    0.212623E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.450207E+02    0.227619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.450581E+02    0.247459E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.439424E+02    0.266363E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.418581E+02    0.280033E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.396149E+02    0.283878E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.373102E+02    0.309315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.344355E+02    0.293059E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.331646E+02    0.264966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.338613E+02    0.230868E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.362748E+02    0.200622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.400467E+02    0.180594E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.441379E+02    0.178185E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134026E+03   -0.474640E+02    0.194602E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133246E+03   -0.490844E+02    0.224689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133770E+03   -0.480477E+02    0.262004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.451979E+02    0.292245E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.412865E+02    0.308875E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667846.973801424     
  ps_ts2 prof sum =   667479.303012002     
  trcom prof sum =    667479.303012003     
  ps_ts2 cur sum  =   11060.4418860372     
  trcom cur sum  =    11060.4418860372     
  
  antenna # iant =            2
  powecha_use(iant) =    673067.381562052     
  ps_ts2 prof sum =   672701.015956970     
  trcom prof sum =    672701.015956969     
  ps_ts2 cur sum  =   13296.6855575873     
  trcom cur sum  =    13296.6855575873     
  
  antenna # iant =            3
  powecha_use(iant) =    524304.818573057     
  ps_ts2 prof sum =   524001.007441584     
  trcom prof sum =    524001.007441584     
  ps_ts2 cur sum  =   7572.79936957408     
  trcom cur sum  =    7572.79936957409     
  
  antenna # iant =            4
  powecha_use(iant) =    553464.382938551     
  ps_ts2 prof sum =   553148.871630994     
  trcom prof sum =    553148.871594921     
  ps_ts2 cur sum  =   10007.0982353563     
  trcom cur sum  =    10007.0982353563     
  
  antenna # iant =            5
  powecha_use(iant) =    544849.689452939     
  ps_ts2 prof sum =   544551.769589917     
  trcom prof sum =    544551.769589917     
  ps_ts2 cur sum  =   11788.6449642058     
  trcom cur sum  =    11788.6449642058     
  
  Total ECH heating:      2961881.96759539     
  Total Current Drive:    53725.6700127607     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2545
 TA= 2.83500E+00 CPU TIME= 1.59654E-01 SECONDS.  DT= 1.44034E-04
  
 TEC1=    2.83499999999996     
 TEC2=    2.83999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.85174222222167     
  %check_save_state: izleft hours =    73.1397222222222     
 --> plasma_hash("gframe"): TA= 2.835000E+00 NSTEP=  2545 Hash code:  104933939
 ->PRGCHK: bdy curvature ratio at t= 2.8400E+00 seconds is:  5.5001E-02
% MHDEQ: TG1=     2.835000 ; TG2=     2.840000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7634E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5001E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.835000 TO TG2=    2.840000 @ NSTEP     2545
   GFRAME TG2 MOMENTS CHECKSUM:  2.4756153072223D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.23023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.38536E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.86775E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.30443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.94075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  7.86679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.70930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.69440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.57323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.33611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.35245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.33073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.23075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.43994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.64462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      21= -3.64840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.17540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.55239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.98551E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.96920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.96920E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8400E+00  2.8450E+00 total power(Watts):  2.9614E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.84000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.389999E+02    0.396672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.369570E+02    0.397339E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.384748E+02    0.381419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.407815E+02    0.386430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.407218E+02    0.405450E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.383012E+02    0.412304E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.362962E+02    0.423126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.351040E+02    0.409665E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.349991E+02    0.392887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.357736E+02    0.378026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.377713E+02    0.366243E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.398839E+02    0.363715E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.419547E+02    0.369549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.432098E+02    0.383025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.433159E+02    0.400235E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.422926E+02    0.416457E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.404279E+02    0.427309E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.382081E+02    0.429771E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.360049E+02    0.451875E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.331081E+02    0.435529E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.318247E+02    0.408576E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.323873E+02    0.379317E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.346131E+02    0.354480E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.382448E+02    0.339129E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.421417E+02    0.339885E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.453499E+02    0.356668E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133145E+03   -0.472159E+02    0.383339E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133626E+03   -0.463441E+02    0.415050E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.438138E+02    0.441089E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.399274E+02    0.454037E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.402930E+02    0.310933E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.382231E+02    0.312264E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.397460E+02    0.294880E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.421925E+02    0.298853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.419397E+02    0.320054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.394990E+02    0.328002E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.372839E+02    0.340666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.362594E+02    0.326294E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.360445E+02    0.309342E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.370063E+02    0.292315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.390165E+02    0.278880E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.412580E+02    0.274920E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.433624E+02    0.280360E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.446492E+02    0.294308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.446651E+02    0.313154E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.435349E+02    0.330921E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.416627E+02    0.342485E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.393184E+02    0.346203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.372061E+02    0.369185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.341684E+02    0.353829E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.329373E+02    0.326309E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.335694E+02    0.294637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.358971E+02    0.266947E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.396637E+02    0.248621E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.436225E+02    0.248090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.468987E+02    0.264769E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.484706E+02    0.293950E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133295E+03   -0.478548E+02    0.326909E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.448702E+02    0.355821E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.410697E+02    0.370336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.388893E+02    0.450457E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.368507E+02    0.450617E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.383666E+02    0.434991E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.406710E+02    0.440676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.406086E+02    0.459359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.381920E+02    0.465156E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.361909E+02    0.474808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.350015E+02    0.461884E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.347081E+02    0.446484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.357734E+02    0.430366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.375799E+02    0.419500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.396869E+02    0.417287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.417468E+02    0.423756E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.429879E+02    0.438072E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.431995E+02    0.455050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.421776E+02    0.470136E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.403143E+02    0.479852E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.380970E+02    0.481618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.360805E+02    0.503641E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.330971E+02    0.485659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.317316E+02    0.459980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.322100E+02    0.431784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.344419E+02    0.406892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.380683E+02    0.392929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.419520E+02    0.394557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133698E+03   -0.453715E+02    0.410890E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133041E+03   -0.469892E+02    0.439639E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132952E+03   -0.464610E+02    0.469658E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.435820E+02    0.494527E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.397993E+02    0.507408E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.395111E+02    0.357900E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.374577E+02    0.358874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.389775E+02    0.342104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.412979E+02    0.346966E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.412443E+02    0.366549E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.388210E+02    0.373687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.367092E+02    0.384868E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.354101E+02    0.372477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.352979E+02    0.355587E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.362613E+02    0.339040E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.382649E+02    0.326328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.404918E+02    0.322845E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.424707E+02    0.329078E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.437357E+02    0.342966E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.438480E+02    0.360856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.428297E+02    0.377210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.408568E+02    0.388298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.386311E+02    0.390979E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.366193E+02    0.412780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.336049E+02    0.396961E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.323014E+02    0.370949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.328553E+02    0.340854E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.350875E+02    0.314789E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.388333E+02    0.297934E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.427511E+02    0.298132E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.459882E+02    0.314660E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133213E+03   -0.477566E+02    0.342440E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.470116E+02    0.374784E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.441460E+02    0.401263E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.403597E+02    0.414960E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.406588E+02    0.246338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.385733E+02    0.248231E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.401897E+02    0.228846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.425574E+02    0.233074E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.423259E+02    0.255525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.398748E+02    0.264461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.377531E+02    0.277570E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.364213E+02    0.264839E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.363766E+02    0.245813E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.374247E+02    0.226906E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.394362E+02    0.212167E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.417932E+02    0.206685E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.438189E+02    0.212549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.451300E+02    0.226871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.451683E+02    0.246816E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.439445E+02    0.266444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.419635E+02    0.279498E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.397118E+02    0.283356E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.375045E+02    0.308211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.344362E+02    0.293158E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.332590E+02    0.264279E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.338647E+02    0.230847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.362749E+02    0.200575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.401463E+02    0.179644E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.442452E+02    0.177246E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.474683E+02    0.194506E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.489753E+02    0.225333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133361E+03   -0.482758E+02    0.260831E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.451991E+02    0.292346E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.413916E+02    0.308404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674794.992874526     
  ps_ts2 prof sum =   674393.466251289     
  trcom prof sum =    674393.466251289     
  ps_ts2 cur sum  =   11136.8924730205     
  trcom cur sum  =    11136.8924730205     
  
  antenna # iant =            2
  powecha_use(iant) =    668648.475300925     
  ps_ts2 prof sum =   668248.725206909     
  trcom prof sum =    668248.725206908     
  ps_ts2 cur sum  =   13157.4543545291     
  trcom cur sum  =    13157.4543545290     
  
  antenna # iant =            3
  powecha_use(iant) =    523203.356800108     
  ps_ts2 prof sum =   522887.231953103     
  trcom prof sum =    522887.231953103     
  ps_ts2 cur sum  =   7532.98839555968     
  trcom cur sum  =    7532.98839555969     
  
  antenna # iant =            4
  powecha_use(iant) =    550644.451444681     
  ps_ts2 prof sum =   550314.517206814     
  trcom prof sum =    550314.517206814     
  ps_ts2 cur sum  =   9918.05956270674     
  trcom cur sum  =    9918.05956270673     
  
  antenna # iant =            5
  powecha_use(iant) =    544099.702273506     
  ps_ts2 prof sum =   543812.187978691     
  trcom prof sum =    543812.187978691     
  ps_ts2 cur sum  =   11727.7025738013     
  trcom cur sum  =    11727.7025738013     
  
  Total ECH heating:      2959656.12859680     
  Total Current Drive:    53473.0973596172     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2556
 TA= 2.84000E+00 CPU TIME= 1.59531E-01 SECONDS.  DT= 2.63074E-04
  
 TEC1=    2.83999999999996     
 TEC2=    2.84499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.86438694444405     
  %check_save_state: izleft hours =    73.1272222222222     
 --> plasma_hash("gframe"): TA= 2.840000E+00 NSTEP=  2556 Hash code:    6647590
 ->PRGCHK: bdy curvature ratio at t= 2.8450E+00 seconds is:  5.4925E-02
% MHDEQ: TG1=     2.840000 ; TG2=     2.845000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7620E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4925E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.840000 TO TG2=    2.845000 @ NSTEP     2556
   GFRAME TG2 MOMENTS CHECKSUM:  2.4754750408568D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8450E+00  2.8500E+00 total power(Watts):  2.9532E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.84500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.391021E+02    0.396341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.370554E+02    0.396997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.385714E+02    0.381111E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.408869E+02    0.386111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.407212E+02    0.405522E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.384019E+02    0.412011E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.362945E+02    0.423230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.350081E+02    0.410130E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.349046E+02    0.393391E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.359651E+02    0.377230E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.377712E+02    0.366390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.399878E+02    0.363392E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.419543E+02    0.369693E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.433190E+02    0.382732E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.434261E+02    0.399937E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.424006E+02    0.416199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.404263E+02    0.427428E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.382056E+02    0.429910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.361987E+02    0.451504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.331983E+02    0.435332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.319126E+02    0.408232E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.323873E+02    0.379421E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.347992E+02    0.353591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.383447E+02    0.338736E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.422485E+02    0.339528E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.454626E+02    0.356379E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133165E+03   -0.472154E+02    0.383466E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133208E+03   -0.465745E+02    0.414499E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.436994E+02    0.441529E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.399249E+02    0.454254E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.403964E+02    0.310458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.382211E+02    0.312390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.398487E+02    0.294350E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.421944E+02    0.298937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.420458E+02    0.319630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.396009E+02    0.327582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.374794E+02    0.339746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.361653E+02    0.326981E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.362344E+02    0.308223E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.371039E+02    0.291758E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.391169E+02    0.278291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.413630E+02    0.274331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.433649E+02    0.280433E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.446513E+02    0.294400E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.447766E+02    0.312718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.436518E+02    0.330512E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.416631E+02    0.342632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.394204E+02    0.345844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.373045E+02    0.368852E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.342602E+02    0.353458E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.330270E+02    0.325834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.335716E+02    0.294708E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.358995E+02    0.266987E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.395683E+02    0.249325E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.437304E+02    0.247387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.470129E+02    0.264176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133039E+03   -0.487024E+02    0.292939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133097E+03   -0.479706E+02    0.326556E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.449818E+02    0.355534E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.410700E+02    0.370465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.389904E+02    0.450386E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.368485E+02    0.450827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.383725E+02    0.435129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.406691E+02    0.440835E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.406061E+02    0.459586E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.382921E+02    0.465116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.362874E+02    0.474742E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.349036E+02    0.462368E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.348968E+02    0.446051E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.356757E+02    0.430822E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.375784E+02    0.419593E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.397902E+02    0.417019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.418535E+02    0.423532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.430967E+02    0.437924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.433082E+02    0.455024E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.422847E+02    0.470140E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.403119E+02    0.480014E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.381976E+02    0.481538E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.361774E+02    0.503493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.330960E+02    0.485741E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.318185E+02    0.459898E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.322977E+02    0.431559E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.346288E+02    0.406158E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.380683E+02    0.393005E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.419515E+02    0.394635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.452565E+02    0.411305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132842E+03   -0.471038E+02    0.439533E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132970E+03   -0.464578E+02    0.469897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.436922E+02    0.494455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.399030E+02    0.507287E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.396133E+02    0.357575E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.373591E+02    0.359515E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.390788E+02    0.341728E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.414034E+02    0.346627E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.412449E+02    0.366684E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.388164E+02    0.373833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.368066E+02    0.384528E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.355050E+02    0.372123E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.353925E+02    0.355224E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.363575E+02    0.338638E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.381671E+02    0.327000E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.404936E+02    0.322962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.425783E+02    0.328681E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.438453E+02    0.342629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.439586E+02    0.360566E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.428295E+02    0.377337E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.409622E+02    0.387986E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.387325E+02    0.390646E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.366186E+02    0.412851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.336051E+02    0.397030E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.323013E+02    0.371072E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.328563E+02    0.340979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.351813E+02    0.314287E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.387324E+02    0.298662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.428590E+02    0.297638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.461019E+02    0.314243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133448E+03   -0.476411E+02    0.343065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133185E+03   -0.471268E+02    0.374528E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.442575E+02    0.400972E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.404642E+02    0.414684E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.407620E+02    0.245606E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.384799E+02    0.248945E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.402920E+02    0.228021E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.426638E+02    0.232282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.424309E+02    0.254861E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.399765E+02    0.263825E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.376589E+02    0.278300E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.365171E+02    0.264177E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.365654E+02    0.244309E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.376155E+02    0.225284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.395366E+02    0.211267E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.417974E+02    0.206563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.439276E+02    0.211665E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.451348E+02    0.226772E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.451720E+02    0.246790E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.440540E+02    0.265842E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.420696E+02    0.278937E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.397142E+02    0.283430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.374096E+02    0.308906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.345289E+02    0.292581E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.332595E+02    0.264335E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.339547E+02    0.229994E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.363691E+02    0.199629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.400542E+02    0.180367E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.442502E+02    0.177105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.475820E+02    0.193593E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133296E+03   -0.490925E+02    0.224533E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.481657E+02    0.261484E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.453111E+02    0.291854E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.413931E+02    0.308508E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665019.874720291     
  ps_ts2 prof sum =   664644.992454635     
  trcom prof sum =    664644.992454636     
  ps_ts2 cur sum  =   10938.5955457877     
  trcom cur sum  =    10938.5955457877     
  
  antenna # iant =            2
  powecha_use(iant) =    668236.468306600     
  ps_ts2 prof sum =   667857.661525103     
  trcom prof sum =    667857.661525102     
  ps_ts2 cur sum  =   13107.9338098399     
  trcom cur sum  =    13107.9338098399     
  
  antenna # iant =            3
  powecha_use(iant) =    523872.953257134     
  ps_ts2 prof sum =   523554.110364808     
  trcom prof sum =    523554.110364809     
  ps_ts2 cur sum  =   7515.68156161912     
  trcom cur sum  =    7515.68156161912     
  
  antenna # iant =            4
  powecha_use(iant) =    551210.703868892     
  ps_ts2 prof sum =   550853.030743718     
  trcom prof sum =    550853.030743717     
  ps_ts2 cur sum  =   9896.20917958215     
  trcom cur sum  =    9896.20917958214     
  
  antenna # iant =            5
  powecha_use(iant) =    544837.980870582     
  ps_ts2 prof sum =   544531.428438377     
  trcom prof sum =    544531.428438377     
  ps_ts2 cur sum  =   11709.8691196327     
  trcom cur sum  =    11709.8691196327     
  
  Total ECH heating:      2951441.22352664     
  Total Current Drive:    53168.2892164616     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2564
 TA= 2.84500E+00 CPU TIME= 1.59996E-01 SECONDS.  DT= 1.29320E-03
  
 TEC1=    2.84499999999996     
 TEC2=    2.84999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.87874805555566     
  %check_save_state: izleft hours =    73.1127777777778     
 --> plasma_hash("gframe"): TA= 2.845000E+00 NSTEP=  2564 Hash code:   71679070
 ->PRGCHK: bdy curvature ratio at t= 2.8500E+00 seconds is:  5.4852E-02
% MHDEQ: TG1=     2.845000 ; TG2=     2.850000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7606E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4852E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.845000 TO TG2=    2.850000 @ NSTEP     2564
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753347744914D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.51221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.27300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.54092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.15543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.04457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.79125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  5.85608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.04345E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.44597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.78335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.31133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.39633E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.99755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.93307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.94268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.49907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20= -2.16239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.62898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  4.11859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.58337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.55754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.55754E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8500E+00  2.8550E+00 total power(Watts):  2.9445E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.85000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.391030E+02    0.396424E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.370563E+02    0.397072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.385801E+02    0.381189E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.408883E+02    0.386220E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.408280E+02    0.405222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.384027E+02    0.412073E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.363933E+02    0.422949E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.351959E+02    0.409425E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.350941E+02    0.392609E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.358705E+02    0.377805E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.378717E+02    0.366061E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.399892E+02    0.363551E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.420621E+02    0.369412E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.433203E+02    0.382850E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.434276E+02    0.400015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.424015E+02    0.416263E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.405325E+02    0.427179E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.383078E+02    0.429665E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.361990E+02    0.451642E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.331984E+02    0.435430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.319135E+02    0.408294E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.324768E+02    0.379059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.347078E+02    0.354268E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.383469E+02    0.338886E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.422500E+02    0.339694E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.456887E+02    0.355672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132967E+03   -0.473322E+02    0.383224E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133011E+03   -0.466908E+02    0.414257E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.438108E+02    0.441372E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.400297E+02    0.454134E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.404004E+02    0.310580E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.383283E+02    0.311896E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.398523E+02    0.294470E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.423025E+02    0.298477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.420484E+02    0.319767E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.396031E+02    0.327717E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.373840E+02    0.340421E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.363587E+02    0.325975E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.361427E+02    0.308951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.371075E+02    0.291882E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.391199E+02    0.278421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.413671E+02    0.274454E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.434746E+02    0.279943E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134391E+03   -0.447636E+02    0.293952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.447795E+02    0.312854E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.436488E+02    0.330683E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.417701E+02    0.342297E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.394220E+02    0.346005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.373058E+02    0.368995E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.342640E+02    0.353593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.330292E+02    0.325959E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.335756E+02    0.294830E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.359962E+02    0.266397E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.397698E+02    0.247981E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.437352E+02    0.247482E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.470171E+02    0.264302E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132843E+03   -0.488209E+02    0.292515E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133332E+03   -0.478577E+02    0.327213E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134249E+03   -0.449834E+02    0.355703E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.411766E+02    0.370171E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.389898E+02    0.450534E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.369474E+02    0.450686E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.384706E+02    0.434930E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.407749E+02    0.440664E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.407121E+02    0.459488E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.382916E+02    0.465266E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.362871E+02    0.474852E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.350950E+02    0.461961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.348014E+02    0.446495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.358689E+02    0.430241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.376793E+02    0.419296E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.397906E+02    0.417086E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.418535E+02    0.423612E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134054E+03   -0.433180E+02    0.437465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.433074E+02    0.455173E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.422840E+02    0.470279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.404180E+02    0.479909E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.381959E+02    0.481636E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.361767E+02    0.503564E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.332803E+02    0.485365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.318186E+02    0.460035E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.322992E+02    0.431647E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.345361E+02    0.406621E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.381698E+02    0.392679E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.420602E+02    0.394344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.454851E+02    0.410708E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132864E+03   -0.471036E+02    0.439638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132771E+03   -0.465736E+02    0.469858E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.439173E+02    0.494199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.399019E+02    0.507369E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.396142E+02    0.357741E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.375566E+02    0.358696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.390805E+02    0.341888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.414043E+02    0.346797E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.413512E+02    0.366397E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.389186E+02    0.373520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.368078E+02    0.384627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.355063E+02    0.372255E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.353940E+02    0.355376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.363595E+02    0.338779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.383671E+02    0.326026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.405984E+02    0.322556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.425806E+02    0.328830E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.438467E+02    0.342798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.439601E+02    0.360731E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.429394E+02    0.377053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.409634E+02    0.388088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.387336E+02    0.390737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.367176E+02    0.412544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.336977E+02    0.396678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.323895E+02    0.370711E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.329474E+02    0.340566E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.351838E+02    0.314408E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.389327E+02    0.297564E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.428622E+02    0.297763E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.461047E+02    0.314389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.478740E+02    0.342317E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133423E+03   -0.470125E+02    0.375071E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.442584E+02    0.401053E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.404648E+02    0.414749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.408668E+02    0.244983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.386777E+02    0.247575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.402980E+02    0.228038E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.426693E+02    0.232321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.425397E+02    0.254283E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.399809E+02    0.263935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.378550E+02    0.277096E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.365221E+02    0.264280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.364770E+02    0.245126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.375271E+02    0.226072E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.394457E+02    0.212044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.419037E+02    0.205758E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.439339E+02    0.211652E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.452473E+02    0.226074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.452845E+02    0.246203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.440584E+02    0.265965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.420738E+02    0.279059E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.398179E+02    0.282918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.376055E+02    0.307835E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.345328E+02    0.292692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.333504E+02    0.263715E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.339596E+02    0.230020E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.363752E+02    0.199599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.402532E+02    0.178603E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.443603E+02    0.176205E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.475897E+02    0.193539E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132895E+03   -0.493242E+02    0.223154E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133401E+03   -0.482837E+02    0.260974E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.454246E+02    0.291401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.414997E+02    0.308067E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653616.264280086     
  ps_ts2 prof sum =   653253.556834026     
  trcom prof sum =    653253.556795390     
  ps_ts2 cur sum  =   10719.1848386167     
  trcom cur sum  =    10719.1848386167     
  
  antenna # iant =            2
  powecha_use(iant) =    669100.303995485     
  ps_ts2 prof sum =   668689.181346053     
  trcom prof sum =    668689.181346051     
  ps_ts2 cur sum  =   13082.9404086941     
  trcom cur sum  =    13082.9404086941     
  
  antenna # iant =            3
  powecha_use(iant) =    523300.066874026     
  ps_ts2 prof sum =   523010.173534765     
  trcom prof sum =    523010.173534765     
  ps_ts2 cur sum  =   7486.79207819445     
  trcom cur sum  =    7486.79207819446     
  
  antenna # iant =            4
  powecha_use(iant) =    555285.527013848     
  ps_ts2 prof sum =   554942.653302398     
  trcom prof sum =    554942.653302398     
  ps_ts2 cur sum  =   9938.63090911113     
  trcom cur sum  =    9938.63090911112     
  
  antenna # iant =            5
  powecha_use(iant) =    543203.340820623     
  ps_ts2 prof sum =   542913.024778924     
  trcom prof sum =    542913.024778923     
  ps_ts2 cur sum  =   11638.7341017023     
  trcom cur sum  =    11638.7341017023     
  
  Total ECH heating:      2942808.58975753     
  Total Current Drive:    52866.2823363187     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2568
 TA= 2.85000E+00 CPU TIME= 1.59360E-01 SECONDS.  DT= 8.70717E-05
  
 TEC1=    2.84999999999996     
 TEC2=    2.85499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.89525111111061     
  %check_save_state: izleft hours =    73.0963888888889     
 --> plasma_hash("gframe"): TA= 2.850000E+00 NSTEP=  2568 Hash code:  105919255
 ->PRGCHK: bdy curvature ratio at t= 2.8550E+00 seconds is:  5.4782E-02
% MHDEQ: TG1=     2.850000 ; TG2=     2.855000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7592E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4782E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.850000 TO TG2=    2.855000 @ NSTEP     2568
   GFRAME TG2 MOMENTS CHECKSUM:  2.4751945081259D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8550E+00  2.8600E+00 total power(Watts):  2.9438E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.85500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.392059E+02    0.396112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.371531E+02    0.396756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.386779E+02    0.380892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.409938E+02    0.385927E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.408280E+02    0.405294E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.385038E+02    0.411774E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.363928E+02    0.423026E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.351085E+02    0.409851E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.350005E+02    0.393129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.360621E+02    0.377017E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.378722E+02    0.366196E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.400930E+02    0.363232E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.420631E+02    0.369556E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.434300E+02    0.382579E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.435374E+02    0.399733E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.425102E+02    0.415999E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.405319E+02    0.427263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.383073E+02    0.429750E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.362952E+02    0.451501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.332895E+02    0.435188E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.320025E+02    0.407939E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.324780E+02    0.379162E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.348917E+02    0.353382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.384471E+02    0.338480E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.423577E+02    0.339325E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.455772E+02    0.356266E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132986E+03   -0.473323E+02    0.383356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.466905E+02    0.414333E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.438096E+02    0.441484E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.400283E+02    0.454275E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.405038E+02    0.310088E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.383273E+02    0.311990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.399547E+02    0.293926E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.423049E+02    0.298559E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.421555E+02    0.319319E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.397055E+02    0.327292E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.375805E+02    0.339489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.362655E+02    0.326636E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.361451E+02    0.309022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.373012E+02    0.290662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.392218E+02    0.277825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.414717E+02    0.273878E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.434781E+02    0.279995E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.447665E+02    0.294018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.448914E+02    0.312399E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.437589E+02    0.330284E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.417713E+02    0.342432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.395248E+02    0.345634E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.374044E+02    0.368665E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.343548E+02    0.353234E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.330312E+02    0.326057E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.336666E+02    0.294241E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.359995E+02    0.266440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.396751E+02    0.248700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.438445E+02    0.246791E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.471320E+02    0.263716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133078E+03   -0.487088E+02    0.293153E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132919E+03   -0.480900E+02    0.326329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.450957E+02    0.355412E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.411765E+02    0.370323E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.390920E+02    0.450391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.369461E+02    0.450820E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.384705E+02    0.435017E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.407743E+02    0.440766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.407107E+02    0.459632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.382901E+02    0.465394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.362854E+02    0.474961E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.349981E+02    0.462363E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.349911E+02    0.446009E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.357716E+02    0.430669E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.376790E+02    0.419374E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.398946E+02    0.416812E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.419613E+02    0.423359E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134298E+03   -0.432069E+02    0.437833E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134071E+03   -0.434172E+02    0.455072E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.423918E+02    0.470199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.404163E+02    0.480010E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.382979E+02    0.481511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.361751E+02    0.503635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.331863E+02    0.485662E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.318177E+02    0.460163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.323855E+02    0.431389E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.347239E+02    0.405893E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.381700E+02    0.392771E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.420605E+02    0.394437E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133763E+03   -0.453711E+02    0.411106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132667E+03   -0.472198E+02    0.439478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132793E+03   -0.465716E+02    0.469998E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.438025E+02    0.494426E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.400061E+02    0.507300E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.397172E+02    0.357413E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.374594E+02    0.359328E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.391823E+02    0.341503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.415109E+02    0.346443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.413517E+02    0.366546E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.389193E+02    0.373648E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.369052E+02    0.384300E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.356965E+02    0.371451E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.355829E+02    0.354505E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.365519E+02    0.337823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.383688E+02    0.326131E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.406001E+02    0.322656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.426888E+02    0.328420E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.439576E+02    0.342441E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.440707E+02    0.360441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.429398E+02    0.377190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.410693E+02    0.387796E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.388356E+02    0.390422E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.367175E+02    0.412608E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.336981E+02    0.396757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.323917E+02    0.370833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.329487E+02    0.340686E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.352785E+02    0.313892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.388361E+02    0.298242E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.429705E+02    0.297257E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133837E+03   -0.462185E+02    0.313954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132835E+03   -0.479904E+02    0.342003E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133006E+03   -0.472435E+02    0.374429E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.443702E+02    0.400780E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.405699E+02    0.414469E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.408710E+02    0.244974E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.385848E+02    0.248310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.404004E+02    0.227243E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.427768E+02    0.231552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.425438E+02    0.254301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.400839E+02    0.263298E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.378581E+02    0.277152E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.366179E+02    0.263620E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.366652E+02    0.243641E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.377173E+02    0.224473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.396428E+02    0.210395E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.419081E+02    0.205680E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.440427E+02    0.210814E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.452519E+02    0.226014E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.452886E+02    0.246191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.441680E+02    0.265368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.421805E+02    0.278484E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.398197E+02    0.282984E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.375112E+02    0.308507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.346258E+02    0.292106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.333525E+02    0.263756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.340501E+02    0.229197E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.364689E+02    0.198692E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.401610E+02    0.179372E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.443649E+02    0.176105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133708E+03   -0.477037E+02    0.192664E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133132E+03   -0.492162E+02    0.223788E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132994E+03   -0.485128E+02    0.259766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.454273E+02    0.291472E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.415024E+02    0.308138E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    649073.847719559     
  ps_ts2 prof sum =   648715.065642113     
  trcom prof sum =    648715.065642113     
  ps_ts2 cur sum  =   10610.6862260844     
  trcom cur sum  =    10610.6862260844     
  
  antenna # iant =            2
  powecha_use(iant) =    668474.542826800     
  ps_ts2 prof sum =   668076.454944336     
  trcom prof sum =    668076.454944336     
  ps_ts2 cur sum  =   13027.6070013181     
  trcom cur sum  =    13027.6070013181     
  
  antenna # iant =            3
  powecha_use(iant) =    524350.107165967     
  ps_ts2 prof sum =   524017.078853154     
  trcom prof sum =    524017.078853154     
  ps_ts2 cur sum  =   7480.86278812484     
  trcom cur sum  =    7480.86278812485     
  
  antenna # iant =            4
  powecha_use(iant) =    557593.015155580     
  ps_ts2 prof sum =   557283.480626502     
  trcom prof sum =    557283.480626502     
  ps_ts2 cur sum  =   9946.35565851412     
  trcom cur sum  =    9946.35565851410     
  
  antenna # iant =            5
  powecha_use(iant) =    544346.231794956     
  ps_ts2 prof sum =   544056.007773173     
  trcom prof sum =    544056.007773173     
  ps_ts2 cur sum  =   11626.8197230908     
  trcom cur sum  =    11626.8197230908     
  
  Total ECH heating:      2942148.08783928     
  Total Current Drive:    52692.3313971322     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2581
 TA= 2.85500E+00 CPU TIME= 1.60380E-01 SECONDS.  DT= 3.50061E-04
  
 TEC1=    2.85499999999996     
 TEC2=    2.85999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.90873666666653     
  %check_save_state: izleft hours =    73.0827777777778     
 --> plasma_hash("gframe"): TA= 2.855000E+00 NSTEP=  2581 Hash code:   73728501
 ->PRGCHK: bdy curvature ratio at t= 2.8600E+00 seconds is:  5.4842E-02
% MHDEQ: TG1=     2.855000 ; TG2=     2.860000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7607E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4842E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.855000 TO TG2=    2.860000 @ NSTEP     2581
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757064452833D+04
 %MFRCHK - LABEL "RMC12", #       1= -2.54581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.27726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.51765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  9.19211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.09800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.78738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  6.74211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.23836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.42975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.01646E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -4.41792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.37343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  5.26176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.58523E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -4.01599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.55915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20= -3.21398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.62020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  4.23719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.50711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.36271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.36271E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8600E+00  2.8650E+00 total power(Watts):  2.9489E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.86000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.392243E+02    0.396616E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.370738E+02    0.397639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.385945E+02    0.381841E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.410123E+02    0.386452E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.408465E+02    0.405803E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.384205E+02    0.412618E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.364102E+02    0.423474E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.351209E+02    0.410325E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.351111E+02    0.393181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.360796E+02    0.377503E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.378905E+02    0.366707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.400087E+02    0.364219E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.420822E+02    0.370094E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.433400E+02    0.383521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.435568E+02    0.400265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.424203E+02    0.416832E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.405503E+02    0.427735E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.383254E+02    0.430196E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.361169E+02    0.452472E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.332139E+02    0.435933E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.319301E+02    0.408785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.324940E+02    0.379626E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.347246E+02    0.354897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.383671E+02    0.339541E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.422710E+02    0.340385E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.455971E+02    0.356855E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132989E+03   -0.473531E+02    0.383933E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133036E+03   -0.467114E+02    0.414855E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.438301E+02    0.441932E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.400472E+02    0.454702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.404212E+02    0.311229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.383459E+02    0.312533E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.399748E+02    0.294469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.423254E+02    0.299123E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.421759E+02    0.319893E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.396241E+02    0.328381E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.374039E+02    0.341067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.363782E+02    0.326601E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.361637E+02    0.309547E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.373196E+02    0.291190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.391442E+02    0.278987E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.414932E+02    0.274398E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.434988E+02    0.280554E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.447876E+02    0.294610E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.449125E+02    0.313006E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.437789E+02    0.330882E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.417907E+02    0.342996E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.395432E+02    0.346176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.373238E+02    0.369630E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.342809E+02    0.354225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.330475E+02    0.326564E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.336847E+02    0.294732E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.360186E+02    0.266914E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.397950E+02    0.248480E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.438676E+02    0.247312E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.471553E+02    0.264277E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132864E+03   -0.488464E+02    0.293222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133352E+03   -0.478808E+02    0.327955E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.452271E+02    0.355554E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.411958E+02    0.370849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.390074E+02    0.451076E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.369643E+02    0.451224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.384891E+02    0.435444E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.407934E+02    0.441204E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.407297E+02    0.460071E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.383083E+02    0.465830E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.363031E+02    0.475392E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.351117E+02    0.462495E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.348178E+02    0.447012E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.358858E+02    0.430753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.376969E+02    0.419837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.399131E+02    0.417294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.418721E+02    0.424165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134301E+03   -0.432268E+02    0.438298E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.433257E+02    0.455765E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.423023E+02    0.470857E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.404363E+02    0.480447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.382146E+02    0.482154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.361934E+02    0.504049E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.332031E+02    0.486073E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.318338E+02    0.460553E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.323129E+02    0.432131E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.345531E+02    0.407136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.381878E+02    0.393277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.420795E+02    0.394963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.453911E+02    0.411635E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132670E+03   -0.472411E+02    0.439970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132797E+03   -0.465926E+02    0.470489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133541E+03   -0.439359E+02    0.494751E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.400254E+02    0.507736E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.396336E+02    0.358421E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.375755E+02    0.359355E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.391002E+02    0.342556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.415302E+02    0.347000E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.413713E+02    0.367079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.389374E+02    0.374166E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.367274E+02    0.385656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.355233E+02    0.372881E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.354128E+02    0.356001E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.365678E+02    0.338363E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.383883E+02    0.326672E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.406201E+02    0.323215E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.427092E+02    0.328996E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.438682E+02    0.343512E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.439798E+02    0.361462E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.429590E+02    0.377730E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.409820E+02    0.388719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.388536E+02    0.390934E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.367351E+02    0.413069E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.337145E+02    0.397214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.324078E+02    0.371295E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.329649E+02    0.341185E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.353893E+02    0.313815E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.389545E+02    0.298161E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.428856E+02    0.298409E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133631E+03   -0.463468E+02    0.314068E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133270E+03   -0.477805E+02    0.343542E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133016E+03   -0.472600E+02    0.375028E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134271E+03   -0.442780E+02    0.401666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.404832E+02    0.415305E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.408929E+02    0.245462E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.387021E+02    0.248075E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.403237E+02    0.228470E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.427994E+02    0.232052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.425658E+02    0.254811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.400060E+02    0.264481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.378782E+02    0.277648E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.365442E+02    0.264798E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.365008E+02    0.245583E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.375526E+02    0.226469E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.394718E+02    0.212429E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.419313E+02    0.206143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.440665E+02    0.211295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.452759E+02    0.226524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.453122E+02    0.246722E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.441900E+02    0.265908E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.420972E+02    0.279665E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.398408E+02    0.283504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.376263E+02    0.308455E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.346436E+02    0.292602E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.333712E+02    0.264209E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.339830E+02    0.230413E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.363995E+02    0.199950E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.402807E+02    0.178926E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.443896E+02    0.176536E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133714E+03   -0.477295E+02    0.193148E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132924E+03   -0.493543E+02    0.223627E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133424E+03   -0.483110E+02    0.261587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.454488E+02    0.292067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.415222E+02    0.308713E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653892.768122048     
  ps_ts2 prof sum =   653510.819353127     
  trcom prof sum =    653510.819353128     
  ps_ts2 cur sum  =   10673.1121006923     
  trcom cur sum  =    10673.1121006923     
  
  antenna # iant =            2
  powecha_use(iant) =    666361.058223122     
  ps_ts2 prof sum =   666004.690687872     
  trcom prof sum =    666004.690687870     
  ps_ts2 cur sum  =   12975.0030260696     
  trcom cur sum  =    12975.0030260696     
  
  antenna # iant =            3
  powecha_use(iant) =    524605.683025910     
  ps_ts2 prof sum =   524290.929183032     
  trcom prof sum =    524290.929183033     
  ps_ts2 cur sum  =   7471.49360568557     
  trcom cur sum  =    7471.49360568558     
  
  antenna # iant =            4
  powecha_use(iant) =    558894.956708065     
  ps_ts2 prof sum =   558575.367418719     
  trcom prof sum =    558575.367418718     
  ps_ts2 cur sum  =   9956.91528340625     
  trcom cur sum  =    9956.91528340624     
  
  antenna # iant =            5
  powecha_use(iant) =    545168.046686104     
  ps_ts2 prof sum =   544870.957531577     
  trcom prof sum =    544870.957531577     
  ps_ts2 cur sum  =   11642.8547705659     
  trcom cur sum  =    11642.8547705659     
  
  Total ECH heating:      2947252.76417433     
  Total Current Drive:    52719.3787864196     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2588
 TA= 2.86000E+00 CPU TIME= 1.47682E-01 SECONDS.  DT= 1.32343E-03
  
 TEC1=    2.85999999999996     
 TEC2=    2.86499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.92093611111090     
  %check_save_state: izleft hours =    73.0705555555556     
 --> plasma_hash("gframe"): TA= 2.860000E+00 NSTEP=  2588 Hash code:   65046416
 ->PRGCHK: bdy curvature ratio at t= 2.8650E+00 seconds is:  5.4902E-02
% MHDEQ: TG1=     2.860000 ; TG2=     2.865000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4902E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.860000 TO TG2=    2.865000 @ NSTEP     2588
   GFRAME TG2 MOMENTS CHECKSUM:  2.4762183824408D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.8650E+00  2.8700E+00 total power(Watts):  2.9602E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.86500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.391425E+02    0.397526E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.370948E+02    0.398137E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.386151E+02    0.382362E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.409278E+02    0.387395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.408680E+02    0.406326E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.384411E+02    0.413116E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.362339E+02    0.424646E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.352355E+02    0.410413E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.349412E+02    0.394514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.359077E+02    0.378912E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.378116E+02    0.367705E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.400296E+02    0.364773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.421044E+02    0.370658E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.433619E+02    0.384093E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.434683E+02    0.401190E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.424419E+02    0.417373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.404655E+02    0.428557E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.383459E+02    0.430684E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.362345E+02    0.452641E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.332322E+02    0.436375E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.319481E+02    0.409240E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.324231E+02    0.380583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.347463E+02    0.355394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.383883E+02    0.340092E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.422934E+02    0.340979E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.455080E+02    0.357905E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133429E+03   -0.471451E+02    0.385278E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133478E+03   -0.465028E+02    0.416056E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.437403E+02    0.442726E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.399625E+02    0.455446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.404436E+02    0.311802E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.382696E+02    0.313671E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.398976E+02    0.295633E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.422438E+02    0.300288E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.420933E+02    0.321028E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.396455E+02    0.328953E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.375227E+02    0.341081E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.362076E+02    0.328274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.362785E+02    0.309484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.371516E+02    0.292977E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.391678E+02    0.279522E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.414149E+02    0.275588E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.435248E+02    0.281129E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.447038E+02    0.295777E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.448270E+02    0.314150E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.436934E+02    0.331995E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.417074E+02    0.344069E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.394627E+02    0.347240E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.373439E+02    0.370162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.343003E+02    0.354731E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.330676E+02    0.327067E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.336164E+02    0.295881E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.359485E+02    0.268106E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.398193E+02    0.248983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.437861E+02    0.248533E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.470706E+02    0.265495E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133297E+03   -0.486429E+02    0.294966E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133138E+03   -0.480213E+02    0.328116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.450269E+02    0.357054E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.412168E+02    0.371412E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.390279E+02    0.451556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.369841E+02    0.451688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.384068E+02    0.436251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.408146E+02    0.441703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.406440E+02    0.460810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.383284E+02    0.466303E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.363229E+02    0.475843E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.351300E+02    0.462961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.349321E+02    0.447157E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.359046E+02    0.431232E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.376169E+02    0.420676E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.398298E+02    0.418144E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.418940E+02    0.424688E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.431374E+02    0.439107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.433479E+02    0.456273E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.423237E+02    0.471371E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.404570E+02    0.480941E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.382345E+02    0.482635E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.362122E+02    0.504523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.331282E+02    0.486742E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.318514E+02    0.460987E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.323301E+02    0.432581E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.345721E+02    0.407610E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.382075E+02    0.393787E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.419934E+02    0.395886E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.455279E+02    0.411870E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132894E+03   -0.471472E+02    0.440790E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132801E+03   -0.466157E+02    0.471042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.437321E+02    0.495591E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.399399E+02    0.508374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.396551E+02    0.358969E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.375961E+02    0.359888E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.391224E+02    0.343103E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.414468E+02    0.348066E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.412875E+02    0.368083E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.388569E+02    0.375141E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.368451E+02    0.385735E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.355433E+02    0.373380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.354324E+02    0.356525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.363987E+02    0.339949E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.382116E+02    0.328328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.406423E+02    0.323794E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.426254E+02    0.330105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.438913E+02    0.344114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.440027E+02    0.362046E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.429813E+02    0.378296E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.410033E+02    0.389262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.387728E+02    0.391858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.366567E+02    0.413929E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.336416E+02    0.398109E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.323375E+02    0.372268E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.328954E+02    0.342233E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.352247E+02    0.315530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.389767E+02    0.298726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.429090E+02    0.298997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.461500E+02    0.315741E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133055E+03   -0.479206E+02    0.343740E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133233E+03   -0.471701E+02    0.376035E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.443008E+02    0.402223E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.405042E+02    0.415827E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.408174E+02    0.246683E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.385330E+02    0.249995E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.403495E+02    0.228939E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.427227E+02    0.233269E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.424879E+02    0.256021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.400296E+02    0.265004E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.377090E+02    0.279485E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.365668E+02    0.265293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.365242E+02    0.246058E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.375769E+02    0.226914E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.395937E+02    0.212084E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.419583E+02    0.206590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.439897E+02    0.212527E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.453039E+02    0.227025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.453394E+02    0.247270E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.441091E+02    0.267113E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.421219E+02    0.280224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.398639E+02    0.284058E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.374554E+02    0.310182E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.345745E+02    0.293757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.333056E+02    0.265402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.340055E+02    0.230847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.364232E+02    0.200349E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.403075E+02    0.179316E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.444183E+02    0.176953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.476505E+02    0.194379E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133354E+03   -0.491586E+02    0.225548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133214E+03   -0.484516E+02    0.261561E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.453643E+02    0.293244E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.414413E+02    0.309863E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.72 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669457.776082970     
  ps_ts2 prof sum =   669044.416112285     
  trcom prof sum =    669044.416112286     
  ps_ts2 cur sum  =   10928.0797104059     
  trcom cur sum  =    10928.0797104059     
  
  antenna # iant =            2
  powecha_use(iant) =    669048.705720789     
  ps_ts2 prof sum =   668663.576192609     
  trcom prof sum =    668663.576192608     
  ps_ts2 cur sum  =   13036.2094840427     
  trcom cur sum  =    13036.2094840427     
  
  antenna # iant =            3
  powecha_use(iant) =    524141.135385450     
  ps_ts2 prof sum =   523850.256691468     
  trcom prof sum =    523850.256691468     
  ps_ts2 cur sum  =   7460.46848024019     
  trcom cur sum  =    7460.46848024020     
  
  antenna # iant =            4
  powecha_use(iant) =    552657.702193975     
  ps_ts2 prof sum =   552325.648830606     
  trcom prof sum =    552325.648830606     
  ps_ts2 cur sum  =   9849.12791667153     
  trcom cur sum  =    9849.12791667152     
  
  antenna # iant =            5
  powecha_use(iant) =    544921.279009167     
  ps_ts2 prof sum =   544612.749936009     
  trcom prof sum =    544612.749936009     
  ps_ts2 cur sum  =   11651.1895971145     
  trcom cur sum  =    11651.1895971145     
  
  Total ECH heating:      2958496.64776298     
  Total Current Drive:    52925.0751884748     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2591
 TA= 2.86500E+00 CPU TIME= 1.59358E-01 SECONDS.  DT= 2.52786E-03
  
 TEC1=    2.86499999999996     
 TEC2=    2.86999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.93690972222203     
  %check_save_state: izleft hours =    73.0547222222222     
 --> plasma_hash("gframe"): TA= 2.865000E+00 NSTEP=  2591 Hash code:  105036506
 ->PRGCHK: bdy curvature ratio at t= 2.8700E+00 seconds is:  5.4962E-02
% MHDEQ: TG1=     2.865000 ; TG2=     2.870000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1640E-03 SECONDS
   DATA R*BT AT EDGE:  2.7638E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.4962E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.865000 TO TG2=    2.870000 @ NSTEP     2591
   GFRAME TG2 MOMENTS CHECKSUM:  2.4767303208422D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.33093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.39815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.79804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  6.41491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.10105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.79456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3=  1.74898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.29409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.64569E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.27242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.65604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.28375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  5.12344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  1.24923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.65995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.82487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20= -2.29265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.14913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.90826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.75665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.32626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.32626E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8700E+00  2.8750E+00 total power(Watts):  2.9670E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.87000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.391611E+02    0.398067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.369174E+02    0.399445E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.386345E+02    0.382906E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.409479E+02    0.387952E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.407816E+02    0.407226E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.383581E+02    0.413998E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.363513E+02    0.424775E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.350631E+02    0.411659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.349591E+02    0.395013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.360222E+02    0.378978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.378308E+02    0.368253E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.400497E+02    0.365340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.420180E+02    0.371660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.432727E+02    0.385069E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.434888E+02    0.401749E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.423530E+02    0.418238E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.404850E+02    0.429070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.382629E+02    0.431495E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.362525E+02    0.453096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.332497E+02    0.436814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.319651E+02    0.409703E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.324404E+02    0.381068E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.346729E+02    0.356421E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.382088E+02    0.341701E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.422076E+02    0.342081E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.455298E+02    0.358534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133213E+03   -0.472831E+02    0.385528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133262E+03   -0.466404E+02    0.416329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.437609E+02    0.443243E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.399818E+02    0.455927E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.403637E+02    0.312949E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.382910E+02    0.314227E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.399186E+02    0.296211E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.422666E+02    0.300878E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.421148E+02    0.321631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.396661E+02    0.329535E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.375413E+02    0.341652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.362280E+02    0.328813E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.361103E+02    0.311222E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.372681E+02    0.292883E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.389922E+02    0.281351E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.414383E+02    0.276140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.434417E+02    0.282322E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.447273E+02    0.296383E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.448496E+02    0.314782E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.437154E+02    0.332614E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.417280E+02    0.344670E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.394828E+02    0.347816E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.371667E+02    0.371605E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.343178E+02    0.355259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.329979E+02    0.328164E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.336362E+02    0.296398E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.359700E+02    0.268602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.397445E+02    0.250192E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.438156E+02    0.249042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.470967E+02    0.266083E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133084E+03   -0.487829E+02    0.295074E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133140E+03   -0.480449E+02    0.328778E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134271E+03   -0.450484E+02    0.357680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.411317E+02    0.372418E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.389433E+02    0.452302E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.368982E+02    0.452435E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.384258E+02    0.436727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.407277E+02    0.442476E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.406633E+02    0.461301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.382446E+02    0.467029E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.362421E+02    0.476543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.349557E+02    0.463941E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.349499E+02    0.447604E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.357284E+02    0.432366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.376357E+02    0.421171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.398492E+02    0.418660E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.418055E+02    0.425533E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.431578E+02    0.439629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134081E+03   -0.434800E+02    0.456537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.422336E+02    0.472092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.403695E+02    0.481644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.381506E+02    0.483320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.361310E+02    0.505153E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.331451E+02    0.487192E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.317789E+02    0.461697E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.322578E+02    0.433365E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.346842E+02    0.407703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.381258E+02    0.394719E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.420136E+02    0.396443E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.453210E+02    0.413104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132899E+03   -0.471690E+02    0.441345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.465201E+02    0.471783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133770E+03   -0.438655E+02    0.495975E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.399589E+02    0.508869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.396751E+02    0.359535E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.375168E+02    0.360916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.391426E+02    0.343676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.414675E+02    0.348659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.413078E+02    0.368657E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.388763E+02    0.375687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.366680E+02    0.387124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.356572E+02    0.373436E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.355455E+02    0.356557E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.365166E+02    0.339953E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.383309E+02    0.328344E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.405602E+02    0.324928E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.426471E+02    0.330713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.439131E+02    0.344726E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.440240E+02    0.362657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.428928E+02    0.379299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.410231E+02    0.389826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.387913E+02    0.392397E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.366748E+02    0.414431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.336595E+02    0.398589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.323548E+02    0.372766E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.329134E+02    0.342751E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.352439E+02    0.316068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.388999E+02    0.299881E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.428259E+02    0.300170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.461764E+02    0.316362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.477124E+02    0.345297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133231E+03   -0.471940E+02    0.376659E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134055E+03   -0.444333E+02    0.402457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.404183E+02    0.416692E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.408417E+02    0.247192E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.386528E+02    0.249771E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.401765E+02    0.230904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.427484E+02    0.233766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.425124E+02    0.256551E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.399528E+02    0.266207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.378270E+02    0.279355E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.366821E+02    0.265100E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.364543E+02    0.247259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.375055E+02    0.228143E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.396190E+02    0.212533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.418838E+02    0.207826E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.440168E+02    0.213006E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.452191E+02    0.228269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.452573E+02    0.248485E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.441342E+02    0.267671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.420417E+02    0.281404E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.397863E+02    0.285229E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.375721E+02    0.310144E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.345945E+02    0.294276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.333260E+02    0.265878E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.339401E+02    0.232061E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.364468E+02    0.200772E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.401402E+02    0.181439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.443430E+02    0.178223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.476787E+02    0.194876E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133361E+03   -0.491871E+02    0.226084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.482520E+02    0.263395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.453882E+02    0.293846E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.414633E+02    0.310456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667305.066454128     
  ps_ts2 prof sum =   666898.793035158     
  trcom prof sum =    666898.793035158     
  ps_ts2 cur sum  =   10886.5288967388     
  trcom cur sum  =    10886.5288967388     
  
  antenna # iant =            2
  powecha_use(iant) =    669002.776473395     
  ps_ts2 prof sum =   668628.330680595     
  trcom prof sum =    668628.330680595     
  ps_ts2 cur sum  =   13041.8472517792     
  trcom cur sum  =    13041.8472517792     
  
  antenna # iant =            3
  powecha_use(iant) =    525397.271128222     
  ps_ts2 prof sum =   525076.107242770     
  trcom prof sum =    525076.107242771     
  ps_ts2 cur sum  =   7467.64386671414     
  trcom cur sum  =    7467.64386671415     
  
  antenna # iant =            4
  powecha_use(iant) =    559856.065029266     
  ps_ts2 prof sum =   559568.740474369     
  trcom prof sum =    559568.740441798     
  ps_ts2 cur sum  =   9976.28634444507     
  trcom cur sum  =    9976.28634444506     
  
  antenna # iant =            5
  powecha_use(iant) =    545394.052514705     
  ps_ts2 prof sum =   545092.055827682     
  trcom prof sum =    545092.055827682     
  ps_ts2 cur sum  =   11674.9868154688     
  trcom cur sum  =    11674.9868154688     
  
  Total ECH heating:      2965264.02722800     
  Total Current Drive:    53047.2931751460     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2593
 TA= 2.87000E+00 CPU TIME= 1.59944E-01 SECONDS.  DT= 3.09018E-03
  
 TEC1=    2.86999999999996     
 TEC2=    2.87499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.95597361111095     
  %check_save_state: izleft hours =    73.0355555555556     
 --> plasma_hash("gframe"): TA= 2.870000E+00 NSTEP=  2593 Hash code:     335352
 ->PRGCHK: bdy curvature ratio at t= 2.8750E+00 seconds is:  5.5023E-02
% MHDEQ: TG1=     2.870000 ; TG2=     2.875000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5023E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.870000 TO TG2=    2.875000 @ NSTEP     2593
   GFRAME TG2 MOMENTS CHECKSUM:  2.4772422592436D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8750E+00  2.8800E+00 total power(Watts):  2.9633E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.87500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.390774E+02    0.398958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.370354E+02    0.399532E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.385526E+02    0.383846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.408616E+02    0.388886E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.408011E+02    0.407727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.383770E+02    0.414471E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.363695E+02    0.425215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.351761E+02    0.411736E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.350713E+02    0.395071E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.358478E+02    0.380376E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.376510E+02    0.369695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.399659E+02    0.366335E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.420376E+02    0.372225E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.432930E+02    0.385619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.433992E+02    0.402638E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.423730E+02    0.418742E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.405006E+02    0.429536E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.382818E+02    0.431947E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.361725E+02    0.453806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.331746E+02    0.437553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.318932E+02    0.410540E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.324572E+02    0.381540E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.346923E+02    0.356924E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.383278E+02    0.341738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.422281E+02    0.342672E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.454384E+02    0.359574E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133216E+03   -0.473048E+02    0.386124E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.464296E+02    0.417493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.438938E+02    0.443455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.400013E+02    0.456387E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.403843E+02    0.313531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.381142E+02    0.315947E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.398397E+02    0.297386E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.422886E+02    0.301480E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.420305E+02    0.322764E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.395851E+02    0.330637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.374629E+02    0.342716E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.363427E+02    0.328802E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.361297E+02    0.311775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.370961E+02    0.294698E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.391120E+02    0.281275E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.413584E+02    0.277357E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.434652E+02    0.282919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.447498E+02    0.297009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.447616E+02    0.315943E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.436282E+02    0.333722E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.416424E+02    0.345741E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.394010E+02    0.348866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.372835E+02    0.371668E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.342438E+02    0.356278E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.330153E+02    0.328692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.335652E+02    0.297571E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.359904E+02    0.269134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.397669E+02    0.250742E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.437323E+02    0.250323E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.470104E+02    0.267324E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.485766E+02    0.296822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133357E+03   -0.479519E+02    0.329936E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.449582E+02    0.358718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.411519E+02    0.372966E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.389625E+02    0.452743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.369170E+02    0.452868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.384447E+02    0.437170E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.407474E+02    0.442929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.406831E+02    0.461762E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.382635E+02    0.467478E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.362602E+02    0.476995E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.350693E+02    0.464111E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.347767E+02    0.448615E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.358439E+02    0.432462E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.376542E+02    0.421636E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.397639E+02    0.419483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.418252E+02    0.426020E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.430673E+02    0.440365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.432772E+02    0.457494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.422538E+02    0.472575E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.403890E+02    0.482126E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.381692E+02    0.483788E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.361492E+02    0.505607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.332543E+02    0.487417E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.317954E+02    0.462104E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.322748E+02    0.433784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.345133E+02    0.408944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.381445E+02    0.395221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.420335E+02    0.396973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.454564E+02    0.413307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.470735E+02    0.442101E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133031E+03   -0.465419E+02    0.472298E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134219E+03   -0.436601E+02    0.496790E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.398720E+02    0.509490E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.395918E+02    0.360555E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.375354E+02    0.361446E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.390606E+02    0.344748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.413821E+02    0.349720E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.413276E+02    0.369211E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.388953E+02    0.376214E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.367845E+02    0.387187E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.354845E+02    0.374857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.353742E+02    0.358075E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.363444E+02    0.341557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.383506E+02    0.328904E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.405811E+02    0.325511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.425608E+02    0.331838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.438240E+02    0.345814E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.439344E+02    0.363674E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.429133E+02    0.379844E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.409369E+02    0.390744E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.387083E+02    0.393306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.364964E+02    0.415617E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.337682E+02    0.398643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.323718E+02    0.373248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.329316E+02    0.343262E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.351705E+02    0.317198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.389206E+02    0.300449E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.428483E+02    0.300774E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134268E+03   -0.460890E+02    0.317524E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133276E+03   -0.478505E+02    0.345495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133449E+03   -0.471028E+02    0.377630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.442295E+02    0.403700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.404378E+02    0.417181E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.407645E+02    0.248448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.386750E+02    0.250311E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.402986E+02    0.230692E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.426690E+02    0.235046E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.424316E+02    0.257815E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.399750E+02    0.266769E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.376548E+02    0.281221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.365156E+02    0.267020E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.364754E+02    0.247780E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.375280E+02    0.228649E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.394485E+02    0.214606E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.419086E+02    0.208348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.439375E+02    0.214304E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.452483E+02    0.228826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.452820E+02    0.249081E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.440505E+02    0.268913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.420640E+02    0.281996E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.398078E+02    0.285808E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.375924E+02    0.310707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.345221E+02    0.295452E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.333453E+02    0.266390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.339611E+02    0.232546E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.363795E+02    0.202067E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.402621E+02    0.181050E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.443701E+02    0.178708E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.477068E+02    0.195421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133151E+03   -0.493269E+02    0.226005E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133648E+03   -0.482776E+02    0.264032E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.453009E+02    0.295051E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.414849E+02    0.311048E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663623.473346605     
  ps_ts2 prof sum =   663240.621809813     
  trcom prof sum =    663240.621809814     
  ps_ts2 cur sum  =   10816.7055813816     
  trcom cur sum  =    10816.7055813816     
  
  antenna # iant =            2
  powecha_use(iant) =    665750.106284872     
  ps_ts2 prof sum =   665350.412886347     
  trcom prof sum =    665350.412886346     
  ps_ts2 cur sum  =   12972.3444661785     
  trcom cur sum  =    12972.3444661784     
  
  antenna # iant =            3
  powecha_use(iant) =    526155.168044252     
  ps_ts2 prof sum =   525855.407117866     
  trcom prof sum =    525855.407117866     
  ps_ts2 cur sum  =   7470.19180478822     
  trcom cur sum  =    7470.19180478823     
  
  antenna # iant =            4
  powecha_use(iant) =    564186.738381043     
  ps_ts2 prof sum =   563859.340369517     
  trcom prof sum =    563859.340369517     
  ps_ts2 cur sum  =   10046.0592105030     
  trcom cur sum  =    10046.0592105030     
  
  antenna # iant =            5
  powecha_use(iant) =    543556.198875531     
  ps_ts2 prof sum =   543256.554083410     
  trcom prof sum =    543256.554048384     
  ps_ts2 cur sum  =   11636.9112326385     
  trcom cur sum  =    11636.9112326385     
  
  Total ECH heating:      2961562.33623193     
  Total Current Drive:    52942.2122954898     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2595
 TA= 2.87500E+00 CPU TIME= 1.59953E-01 SECONDS.  DT= 2.38728E-03
  
 TEC1=    2.87499999999996     
 TEC2=    2.87999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.97229555555532     
  %check_save_state: izleft hours =    73.0191666666667     
 --> plasma_hash("gframe"): TA= 2.875000E+00 NSTEP=  2595 Hash code:  109494106
 ->PRGCHK: bdy curvature ratio at t= 2.8800E+00 seconds is:  5.5084E-02
% MHDEQ: TG1=     2.875000 ; TG2=     2.880000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7669E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5084E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.875000 TO TG2=    2.880000 @ NSTEP     2595
   GFRAME TG2 MOMENTS CHECKSUM:  2.4777541976450D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.11605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.51904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1=  3.63769E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.10411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.24415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.34982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.86164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.52839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.89416E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.19407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.98513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -4.45189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.30390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.09058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20= -1.37132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.67806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.57932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.00620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.60192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.60192E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.8800E+00  2.8850E+00 total power(Watts):  2.9807E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.88000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.390957E+02    0.399484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.370494E+02    0.400052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.385705E+02    0.384379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.408804E+02    0.389438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.407135E+02    0.408613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.383948E+02    0.414971E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.362883E+02    0.426033E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.350022E+02    0.412973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.348990E+02    0.396403E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.359614E+02    0.380448E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.377688E+02    0.369775E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.399851E+02    0.366898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.419498E+02    0.373229E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.432026E+02    0.386584E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.434185E+02    0.403206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.423930E+02    0.419255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.404138E+02    0.430347E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.381982E+02    0.432734E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.361900E+02    0.454244E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.331905E+02    0.437992E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.319093E+02    0.410991E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.323845E+02    0.382489E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.348005E+02    0.356965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.383470E+02    0.342307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.422493E+02    0.343264E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.454595E+02    0.360190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133437E+03   -0.472093E+02    0.387101E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.465663E+02    0.417743E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.436888E+02    0.444483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.399141E+02    0.457103E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.404044E+02    0.314136E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.382319E+02    0.315955E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.398604E+02    0.297976E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.422046E+02    0.302666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.420515E+02    0.323378E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.396050E+02    0.331220E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.374821E+02    0.343275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.361705E+02    0.330468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.360542E+02    0.312921E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.372121E+02    0.294633E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.391335E+02    0.281851E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.413802E+02    0.277962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.433806E+02    0.284154E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.446631E+02    0.298219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.447835E+02    0.316586E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.436493E+02    0.334334E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.416630E+02    0.346332E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.394208E+02    0.349431E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.373013E+02    0.372206E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.342617E+02    0.356797E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.329441E+02    0.329791E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.335845E+02    0.298099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.359185E+02    0.270362E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.395917E+02    0.252713E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.437562E+02    0.250925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.470342E+02    0.267979E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133301E+03   -0.487155E+02    0.296971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133358E+03   -0.479742E+02    0.330614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.449788E+02    0.359338E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.410652E+02    0.373963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.389806E+02    0.453203E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.368352E+02    0.453593E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.383603E+02    0.437947E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.406592E+02    0.443692E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.405945E+02    0.462476E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.382812E+02    0.467945E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.360794E+02    0.477911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.348938E+02    0.465071E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.348879E+02    0.448758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.356667E+02    0.433577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.375713E+02    0.422462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.397824E+02    0.419989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.418444E+02    0.426530E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.430868E+02    0.440873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.432913E+02    0.457994E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.422727E+02    0.473076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.403002E+02    0.482814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.381868E+02    0.484270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.361663E+02    0.506072E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.330860E+02    0.488278E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.318107E+02    0.462531E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.322919E+02    0.434203E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.346248E+02    0.409029E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.380616E+02    0.396143E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.419445E+02    0.397900E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.452480E+02    0.414511E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133128E+03   -0.470942E+02    0.442623E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133255E+03   -0.464453E+02    0.473005E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.436795E+02    0.497317E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.398901E+02    0.509985E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.396108E+02    0.361123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.373565E+02    0.362940E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.390803E+02    0.345319E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.414023E+02    0.350305E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.412409E+02    0.370223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.388117E+02    0.377192E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.368021E+02    0.387706E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.355972E+02    0.374915E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.354872E+02    0.358108E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.364561E+02    0.341592E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.382706E+02    0.330026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.404977E+02    0.326641E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.425816E+02    0.332445E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.438452E+02    0.346424E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.439548E+02    0.364278E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.428238E+02    0.380831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.409557E+02    0.391294E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.387264E+02    0.393840E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.366119E+02    0.415743E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.336004E+02    0.399953E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.322997E+02    0.374220E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.328596E+02    0.344333E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.351891E+02    0.317746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.387426E+02    0.302233E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.428703E+02    0.301388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.461084E+02    0.318183E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133711E+03   -0.476407E+02    0.347053E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133447E+03   -0.471256E+02    0.378258E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.442499E+02    0.404255E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.404564E+02    0.417697E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.407874E+02    0.249028E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.385034E+02    0.252290E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.403217E+02    0.231257E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.426938E+02    0.235622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.424551E+02    0.258401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.397977E+02    0.268675E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.377719E+02    0.281133E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.365365E+02    0.267565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.365895E+02    0.247589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.376445E+02    0.228420E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.395702E+02    0.214368E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.418330E+02    0.209690E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.439632E+02    0.214897E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.451708E+02    0.230122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.451984E+02    0.250367E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.440741E+02    0.269526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.420821E+02    0.282626E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.397289E+02    0.287019E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.374177E+02    0.312451E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.345418E+02    0.295993E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.332778E+02    0.267619E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.339821E+02    0.233059E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.364027E+02    0.202582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.400936E+02    0.183274E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.442936E+02    0.180096E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.476250E+02    0.196792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133578E+03   -0.491278E+02    0.228023E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.481887E+02    0.265308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.453237E+02    0.295699E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.414012E+02    0.312219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678197.699886074     
  ps_ts2 prof sum =   677824.614103275     
  trcom prof sum =    677824.614103276     
  ps_ts2 cur sum  =   11046.8641806485     
  trcom cur sum  =    11046.8641806485     
  
  antenna # iant =            2
  powecha_use(iant) =    669141.518587031     
  ps_ts2 prof sum =   668769.648749517     
  trcom prof sum =    668769.648710482     
  ps_ts2 cur sum  =   13038.3002476294     
  trcom cur sum  =    13038.3002476293     
  
  antenna # iant =            3
  powecha_use(iant) =    527748.106326671     
  ps_ts2 prof sum =   527421.859640385     
  trcom prof sum =    527421.859640385     
  ps_ts2 cur sum  =   7484.63319741167     
  trcom cur sum  =    7484.63319741167     
  
  antenna # iant =            4
  powecha_use(iant) =    560950.727151657     
  ps_ts2 prof sum =   560642.085141609     
  trcom prof sum =    560642.085141609     
  ps_ts2 cur sum  =   9985.11213130081     
  trcom cur sum  =    9985.11213130081     
  
  antenna # iant =            5
  powecha_use(iant) =    544663.560265313     
  ps_ts2 prof sum =   544362.573912407     
  trcom prof sum =    544362.573912406     
  ps_ts2 cur sum  =   11667.7495238012     
  trcom cur sum  =    11667.7495238012     
  
  Total ECH heating:      2979020.78150816     
  Total Current Drive:    53222.6592807915     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2597
 TA= 2.88000E+00 CPU TIME= 1.59964E-01 SECONDS.  DT= 3.26590E-03
  
 TEC1=    2.87999999999996     
 TEC2=    2.88499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    6.98902166666676     
  %check_save_state: izleft hours =    73.0025000000000     
 --> plasma_hash("gframe"): TA= 2.880000E+00 NSTEP=  2597 Hash code:    1451757
 ->PRGCHK: bdy curvature ratio at t= 2.8850E+00 seconds is:  5.5146E-02
% MHDEQ: TG1=     2.880000 ; TG2=     2.885000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5146E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.880000 TO TG2=    2.885000 @ NSTEP     2597
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782661360464D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8850E+00  2.8900E+00 total power(Watts):  2.9893E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.88500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.391142E+02    0.400019E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.369681E+02    0.400971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.384875E+02    0.385342E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.407937E+02    0.390397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.407323E+02    0.409159E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.383108E+02    0.415842E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.363051E+02    0.426529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.350194E+02    0.413466E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.350111E+02    0.396495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.357866E+02    0.381854E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.377876E+02    0.370322E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.399001E+02    0.367922E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.419696E+02    0.373812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.432226E+02    0.387167E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.433273E+02    0.404127E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.423029E+02    0.420124E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.404339E+02    0.430859E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.382160E+02    0.433230E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.360099E+02    0.455267E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.331141E+02    0.438769E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.318363E+02    0.411865E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.324010E+02    0.382983E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.346318E+02    0.358492E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.382660E+02    0.343401E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.421623E+02    0.344367E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.453674E+02    0.361252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133440E+03   -0.472306E+02    0.387726E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.465872E+02    0.418333E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.437085E+02    0.445009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.399324E+02    0.457595E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.403229E+02    0.315299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.382524E+02    0.316535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.397808E+02    0.299173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.422268E+02    0.303296E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.419660E+02    0.324534E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.395233E+02    0.332348E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.373040E+02    0.344879E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.362845E+02    0.330484E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.360741E+02    0.313486E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.370408E+02    0.296449E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.390562E+02    0.283077E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.412998E+02    0.279202E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.434035E+02    0.284786E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.446860E+02    0.298867E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.446950E+02    0.317772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.435616E+02    0.335460E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.416830E+02    0.346936E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.393376E+02    0.350510E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.372210E+02    0.373204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.341868E+02    0.357825E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.329618E+02    0.330328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.336035E+02    0.298642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.359392E+02    0.270927E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.397136E+02    0.252606E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.436749E+02    0.252229E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.469476E+02    0.269259E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.485093E+02    0.298738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.478816E+02    0.331760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.448876E+02    0.360391E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.410852E+02    0.374527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.388946E+02    0.453958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.368531E+02    0.454059E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.383780E+02    0.438445E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.406777E+02    0.444198E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.406129E+02    0.462977E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.381962E+02    0.468672E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.361952E+02    0.478164E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.350066E+02    0.465275E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.347133E+02    0.449808E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.357810E+02    0.433720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.375891E+02    0.422962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.398009E+02    0.420511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.417549E+02    0.427370E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.431062E+02    0.441398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.431995E+02    0.458746E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.421812E+02    0.473797E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.403183E+02    0.483324E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.381014E+02    0.484959E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.360840E+02    0.506696E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.331015E+02    0.488731E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.317370E+02    0.463243E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.322195E+02    0.434988E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.344531E+02    0.410295E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.380801E+02    0.396675E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.419634E+02    0.398460E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.453826E+02    0.414777E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133351E+03   -0.469973E+02    0.443451E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133260E+03   -0.464656E+02    0.473566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.438121E+02    0.497707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.399083E+02    0.510478E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.395275E+02    0.362156E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.374740E+02    0.363014E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.389984E+02    0.346397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.413166E+02    0.351377E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.412559E+02    0.370812E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.388309E+02    0.377739E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.367217E+02    0.388656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.354241E+02    0.376349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.353152E+02    0.359633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.362829E+02    0.343194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.382904E+02    0.330614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.405181E+02    0.327249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.424947E+02    0.333587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.437526E+02    0.347532E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.438648E+02    0.365313E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.428432E+02    0.381425E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.408687E+02    0.392246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.386433E+02    0.394767E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.366293E+02    0.416253E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.336178E+02    0.400446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.323155E+02    0.374718E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.328766E+02    0.344857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.351146E+02    0.318894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.388626E+02    0.302227E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.427855E+02    0.302594E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.460184E+02    0.319363E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133496E+03   -0.477786E+02    0.347278E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.469110E+02    0.379652E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.441577E+02    0.405177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.403691E+02    0.418559E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.408109E+02    0.249630E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.386232E+02    0.252159E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.402473E+02    0.232575E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.426149E+02    0.236949E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.424786E+02    0.259027E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.399198E+02    0.268611E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.377932E+02    0.281710E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.364643E+02    0.268817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.364242E+02    0.249621E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.374790E+02    0.230511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.394007E+02    0.216491E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.418586E+02    0.210267E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.438848E+02    0.216251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.451932E+02    0.230770E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.452235E+02    0.251012E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.439905E+02    0.270800E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.420043E+02    0.283841E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.397505E+02    0.287615E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.375352E+02    0.312444E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.344704E+02    0.297177E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.332986E+02    0.268151E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.339160E+02    0.234371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.363360E+02    0.203930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.402168E+02    0.182957E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.443216E+02    0.180655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.476535E+02    0.197415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.490423E+02    0.229379E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.482142E+02    0.265990E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.452365E+02    0.296914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.414226E+02    0.312835E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681015.634532480     
  ps_ts2 prof sum =   680605.067381955     
  trcom prof sum =    680605.067381955     
  ps_ts2 cur sum  =   11083.2712560196     
  trcom cur sum  =    11083.2712560196     
  
  antenna # iant =            2
  powecha_use(iant) =    669772.683877534     
  ps_ts2 prof sum =   669377.036506123     
  trcom prof sum =    669377.036506122     
  ps_ts2 cur sum  =   13057.6747212229     
  trcom cur sum  =    13057.6747212228     
  
  antenna # iant =            3
  powecha_use(iant) =    528781.819867951     
  ps_ts2 prof sum =   528478.359614934     
  trcom prof sum =    528478.359614934     
  ps_ts2 cur sum  =   7487.20639444365     
  trcom cur sum  =    7487.20639444366     
  
  antenna # iant =            4
  powecha_use(iant) =    565100.907599535     
  ps_ts2 prof sum =   564757.282693148     
  trcom prof sum =    564757.282693148     
  ps_ts2 cur sum  =   10057.2583137097     
  trcom cur sum  =    10057.2583137097     
  
  antenna # iant =            5
  powecha_use(iant) =    544599.301736373     
  ps_ts2 prof sum =   544301.409250079     
  trcom prof sum =    544301.409250078     
  ps_ts2 cur sum  =   11682.2640963134     
  trcom cur sum  =    11682.2640959093     
  
  Total ECH heating:      2987519.15544624     
  Total Current Drive:    53367.6747813051     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2599
 TA= 2.88500E+00 CPU TIME= 1.59564E-01 SECONDS.  DT= 2.16763E-03
  
 TEC1=    2.88499999999996     
 TEC2=    2.88999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.00442805555554     
  %check_save_state: izleft hours =    72.9872222222222     
 --> plasma_hash("gframe"): TA= 2.885000E+00 NSTEP=  2599 Hash code:   10565567
 ->PRGCHK: bdy curvature ratio at t= 2.8900E+00 seconds is:  5.5208E-02
% MHDEQ: TG1=     2.885000 ; TG2=     2.890000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7700E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5208E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.885000 TO TG2=    2.890000 @ NSTEP     2599
   GFRAME TG2 MOMENTS CHECKSUM:  2.4787780744478D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.89153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.63845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -5.70755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.10712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.17595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.40487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -4.33911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.14164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.10549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.84852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -2.83590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.95224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.35303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      21=  1.95116E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.21277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.25443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.25268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.84952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.84952E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.8900E+00  2.8950E+00 total power(Watts):  2.9857E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.89000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.390235E+02    0.400847E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.369801E+02    0.401397E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.384998E+02    0.385785E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.408063E+02    0.390853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.406386E+02    0.409962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.383232E+02    0.416275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.361205E+02    0.427614E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.351264E+02    0.413502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.348336E+02    0.397729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.357984E+02    0.382285E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.376998E+02    0.371229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.399127E+02    0.368387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.418753E+02    0.374696E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.432358E+02    0.387642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.433401E+02    0.404598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.423150E+02    0.420600E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.403413E+02    0.431608E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.382280E+02    0.433653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.361203E+02    0.455398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.331257E+02    0.439152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.318469E+02    0.412260E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.324122E+02    0.383388E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.346432E+02    0.358939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.382786E+02    0.343882E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.421755E+02    0.344874E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.453811E+02    0.361764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133661E+03   -0.471281E+02    0.388589E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.464847E+02    0.419122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.436093E+02    0.445718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.398388E+02    0.458283E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.403355E+02    0.315838E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.381655E+02    0.317628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.397930E+02    0.299735E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.421340E+02    0.304440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.419793E+02    0.325068E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.395356E+02    0.332855E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.374144E+02    0.344841E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.361052E+02    0.332062E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.361800E+02    0.313406E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.370536E+02    0.296990E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.390691E+02    0.283673E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.413137E+02    0.279814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.433101E+02    0.286013E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.445906E+02    0.300029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.447088E+02    0.318340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.435744E+02    0.336008E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.415900E+02    0.347913E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.393503E+02    0.350990E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.372338E+02    0.373643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.341978E+02    0.358267E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.329725E+02    0.330795E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.335265E+02    0.299784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.358596E+02    0.272189E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.395297E+02    0.254657E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.436895E+02    0.252931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.469615E+02    0.269965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.486391E+02    0.298852E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.478959E+02    0.332334E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.449011E+02    0.360900E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.409920E+02    0.375416E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.389069E+02    0.454386E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.368655E+02    0.454476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.382879E+02    0.439158E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.405833E+02    0.444901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.405181E+02    0.463667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.382083E+02    0.469109E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.362068E+02    0.478591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.350182E+02    0.465688E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.348205E+02    0.449914E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.357927E+02    0.434128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.375003E+02    0.423736E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.397086E+02    0.421284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.417678E+02    0.427820E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.430079E+02    0.442128E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.432132E+02    0.459209E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.421942E+02    0.474260E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.403303E+02    0.483804E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.381135E+02    0.485414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.360957E+02    0.507131E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.332053E+02    0.488942E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.317477E+02    0.463641E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.322307E+02    0.435369E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.344643E+02    0.410716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.380923E+02    0.397118E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.418681E+02    0.399295E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134443E+03   -0.451673E+02    0.415886E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.470113E+02    0.443931E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.463623E+02    0.474241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.435986E+02    0.498490E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.398147E+02    0.511053E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.395402E+02    0.362620E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.372886E+02    0.364406E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.390104E+02    0.346888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.413296E+02    0.351868E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.411654E+02    0.371705E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.387415E+02    0.378622E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.367337E+02    0.389087E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.354359E+02    0.376778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.353275E+02    0.360072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.362947E+02    0.343665E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.381044E+02    0.332174E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.404277E+02    0.328295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.425082E+02    0.334109E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.437683E+02    0.348041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.438782E+02    0.365808E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.427473E+02    0.382284E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.408815E+02    0.392706E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.386554E+02    0.395219E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.365428E+02    0.417030E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.335361E+02    0.401267E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.322377E+02    0.375607E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.327991E+02    0.345838E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.351260E+02    0.319381E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.386759E+02    0.303963E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.427985E+02    0.303181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.460321E+02    0.319948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.475608E+02    0.348701E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133677E+03   -0.470408E+02    0.379787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.441709E+02    0.405651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.403820E+02    0.419003E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.407244E+02    0.251003E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.384429E+02    0.254224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.402616E+02    0.233290E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.426299E+02    0.237681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.423892E+02    0.260362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.397337E+02    0.270551E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.376132E+02    0.283572E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.364775E+02    0.269410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.364415E+02    0.250225E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.375915E+02    0.230414E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.395118E+02    0.216453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.417730E+02    0.211811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.439000E+02    0.217030E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.451007E+02    0.232247E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.451300E+02    0.252393E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.440044E+02    0.271465E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.420213E+02    0.284434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.396636E+02    0.288813E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.373533E+02    0.314119E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.344823E+02    0.297694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.332238E+02    0.269429E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.339300E+02    0.235012E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.363508E+02    0.204638E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.400392E+02    0.185393E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.442347E+02    0.182282E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.475610E+02    0.199014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133782E+03   -0.490584E+02    0.230202E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.481150E+02    0.267329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.452507E+02    0.297528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.413319E+02    0.313928E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677050.963135727     
  ps_ts2 prof sum =   676663.516881627     
  trcom prof sum =    676663.516881628     
  ps_ts2 cur sum  =   11000.7450820014     
  trcom cur sum  =    11000.7450820014     
  
  antenna # iant =            2
  powecha_use(iant) =    666232.166721887     
  ps_ts2 prof sum =   665863.615071423     
  trcom prof sum =    665863.615071422     
  ps_ts2 cur sum  =   12968.7661204188     
  trcom cur sum  =    12968.7661204188     
  
  antenna # iant =            3
  powecha_use(iant) =    529447.497067735     
  ps_ts2 prof sum =   529160.596749410     
  trcom prof sum =    529160.596749410     
  ps_ts2 cur sum  =   7482.10017710184     
  trcom cur sum  =    7482.10017710185     
  
  antenna # iant =            4
  powecha_use(iant) =    566912.987948596     
  ps_ts2 prof sum =   566547.146054973     
  trcom prof sum =    566547.146054973     
  ps_ts2 cur sum  =   10073.1625131709     
  trcom cur sum  =    10073.1625131708     
  
  antenna # iant =            5
  powecha_use(iant) =    546098.249287671     
  ps_ts2 prof sum =   545772.776288955     
  trcom prof sum =    545772.776288955     
  ps_ts2 cur sum  =   11699.3061550678     
  trcom cur sum  =    11699.3061546442     
  
  Total ECH heating:      2984007.65104639     
  Total Current Drive:    53224.0800473371     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2602
 TA= 2.89000E+00 CPU TIME= 1.85891E-01 SECONDS.  DT= 1.53554E-04
  
 TEC1=    2.88999999999996     
 TEC2=    2.89499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.01864999999975     
  %check_save_state: izleft hours =    72.9727777777778     
 --> plasma_hash("gframe"): TA= 2.890000E+00 NSTEP=  2602 Hash code:   81815539
 ->PRGCHK: bdy curvature ratio at t= 2.8950E+00 seconds is:  5.5271E-02
% MHDEQ: TG1=     2.890000 ; TG2=     2.895000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5271E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.890000 TO TG2=    2.895000 @ NSTEP     2602
   GFRAME TG2 MOMENTS CHECKSUM:  2.4792900128492D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.8950E+00  2.9000E+00 total power(Watts):  2.9911E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.89500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.390359E+02    0.401313E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.367943E+02    0.402629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.384106E+02    0.386667E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.408193E+02    0.391328E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.406511E+02    0.410437E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.382332E+02    0.417084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.362303E+02    0.427722E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.349474E+02    0.414677E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.348445E+02    0.398173E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.359071E+02    0.382287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.377123E+02    0.371704E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.398219E+02    0.369324E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.418883E+02    0.375194E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.431388E+02    0.388523E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.432421E+02    0.405442E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.422183E+02    0.421403E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.403547E+02    0.432072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.381379E+02    0.434414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.361317E+02    0.455832E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.331372E+02    0.439553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.318579E+02    0.412672E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.323341E+02    0.384276E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.345615E+02    0.359898E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.381916E+02    0.344907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.420820E+02    0.345905E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.455080E+02    0.361891E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133662E+03   -0.471421E+02    0.389124E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.464984E+02    0.419645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.436221E+02    0.446207E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.398506E+02    0.458749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.402465E+02    0.316988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.381788E+02    0.318196E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.398071E+02    0.300356E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.421482E+02    0.305084E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.418870E+02    0.326178E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.394471E+02    0.333933E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.372307E+02    0.346368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.361179E+02    0.332589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.360042E+02    0.315137E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.371634E+02    0.296978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.389847E+02    0.284945E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.412252E+02    0.281126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.433252E+02    0.286698E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.446047E+02    0.300714E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.446127E+02    0.319495E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.435882E+02    0.336590E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.416033E+02    0.348460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.393631E+02    0.351507E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.370485E+02    0.375005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.342095E+02    0.358734E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.328957E+02    0.331856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.335393E+02    0.300355E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.358735E+02    0.272829E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.396441E+02    0.254691E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.435994E+02    0.254374E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.468656E+02    0.271350E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133519E+03   -0.486513E+02    0.299588E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.476791E+02    0.333901E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.448027E+02    0.361871E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.410047E+02    0.375914E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.388149E+02    0.455098E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.367781E+02    0.455184E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.382999E+02    0.439606E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.405956E+02    0.445360E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.405302E+02    0.464132E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.381167E+02    0.469802E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.361190E+02    0.479259E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.348363E+02    0.466638E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.348322E+02    0.450325E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.356099E+02    0.435197E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.375125E+02    0.424182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.397205E+02    0.421750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.416724E+02    0.428598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.430209E+02    0.442597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.431148E+02    0.459918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.420960E+02    0.474951E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.402355E+02    0.484461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.380220E+02    0.486071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.360077E+02    0.507718E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.330299E+02    0.489790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.316686E+02    0.464325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.321524E+02    0.436116E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.343811E+02    0.411532E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.380003E+02    0.397978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.418809E+02    0.399789E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.451806E+02    0.416395E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.470250E+02    0.444443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.463752E+02    0.474768E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.437245E+02    0.498856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.398267E+02    0.511511E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.394501E+02    0.363574E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.373997E+02    0.364419E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.389220E+02    0.347904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.413428E+02    0.352398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.411803E+02    0.372201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.387539E+02    0.379094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.365491E+02    0.390375E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.355438E+02    0.376780E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.354338E+02    0.360058E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.364032E+02    0.343652E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.382140E+02    0.332191E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.404415E+02    0.328859E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.424145E+02    0.335186E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.436752E+02    0.349047E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.437810E+02    0.366760E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.427605E+02    0.382779E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.407879E+02    0.393571E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.386679E+02    0.395677E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.365546E+02    0.417476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.335467E+02    0.401698E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.322495E+02    0.376033E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.328100E+02    0.346315E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.351391E+02    0.319914E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.387892E+02    0.303970E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.427063E+02    0.304397E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.459340E+02    0.321099E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133714E+03   -0.476911E+02    0.348864E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.468227E+02    0.381064E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.440718E+02    0.406489E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.402881E+02    0.419811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.407400E+02    0.251746E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.385551E+02    0.254238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.401792E+02    0.234793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.426462E+02    0.238479E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.424047E+02    0.261109E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.398485E+02    0.270584E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.377238E+02    0.283571E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.363979E+02    0.270742E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.363615E+02    0.251657E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.374160E+02    0.232692E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.393344E+02    0.218793E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.417897E+02    0.212635E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.438130E+02    0.218616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.451177E+02    0.233091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.451461E+02    0.253194E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.439127E+02    0.272822E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.419281E+02    0.285748E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.396769E+02    0.289462E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.374629E+02    0.314119E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.344953E+02    0.298277E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.332373E+02    0.270054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.338574E+02    0.236484E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.362756E+02    0.206224E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.401516E+02    0.185394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.442541E+02    0.183150E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.475782E+02    0.199950E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.489625E+02    0.231783E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.481312E+02    0.268131E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.452651E+02    0.298226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.413448E+02    0.314550E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679655.942708892     
  ps_ts2 prof sum =   679269.409443800     
  trcom prof sum =    679269.409443800     
  ps_ts2 cur sum  =   11029.9814559368     
  trcom cur sum  =    11029.9814559368     
  
  antenna # iant =            2
  powecha_use(iant) =    669452.566529932     
  ps_ts2 prof sum =   669062.243670900     
  trcom prof sum =    669062.243670898     
  ps_ts2 cur sum  =   13021.1245401661     
  trcom cur sum  =    13021.1245401661     
  
  antenna # iant =            3
  powecha_use(iant) =    529664.552534692     
  ps_ts2 prof sum =   529332.083189406     
  trcom prof sum =    529332.083189407     
  ps_ts2 cur sum  =   7473.24527295544     
  trcom cur sum  =    7473.24527295544     
  
  antenna # iant =            4
  powecha_use(iant) =    566017.491428315     
  ps_ts2 prof sum =   565704.755484951     
  trcom prof sum =    565704.755484950     
  ps_ts2 cur sum  =   10047.5039602135     
  trcom cur sum  =    10047.5039602135     
  
  antenna # iant =            5
  powecha_use(iant) =    546314.478075272     
  ps_ts2 prof sum =   546024.016989443     
  trcom prof sum =    546024.016989442     
  ps_ts2 cur sum  =   11696.5910523938     
  trcom cur sum  =    11696.5910523938     
  
  Total ECH heating:      2989392.50877850     
  Total Current Drive:    53268.4462816655     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2612
 TA= 2.89500E+00 CPU TIME= 1.59429E-01 SECONDS.  DT= 1.29743E-03
  
 TEC1=    2.89499999999996     
 TEC2=    2.89999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.03499555555527     
  %check_save_state: izleft hours =    72.9566666666667     
 --> plasma_hash("gframe"): TA= 2.895000E+00 NSTEP=  2612 Hash code:    8105937
 ->PRGCHK: bdy curvature ratio at t= 2.9000E+00 seconds is:  5.5334E-02
% MHDEQ: TG1=     2.895000 ; TG2=     2.900000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7731E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5334E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.895000 TO TG2=    2.900000 @ NSTEP     2612
   GFRAME TG2 MOMENTS CHECKSUM:  2.4798019481611D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.68209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.76017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  5.54176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.90185E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.11020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.46099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.29237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  1.26326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.37448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.01519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.70925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11= -1.18910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.59373E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.62059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17=  1.93755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.73843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.92322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.50395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.18021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.18021E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9000E+00  2.9050E+00 total power(Watts):  2.9964E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.90000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.389461E+02    0.402201E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.369061E+02    0.402731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.384239E+02    0.387196E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.407271E+02    0.392253E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.406646E+02    0.410954E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.382462E+02    0.417573E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.362426E+02    0.428189E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.350545E+02    0.414780E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.347620E+02    0.399071E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.357276E+02    0.383666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.376264E+02    0.372670E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.398356E+02    0.369877E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.419026E+02    0.375760E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.431532E+02    0.389080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.432562E+02    0.405984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.422321E+02    0.421910E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.403691E+02    0.432567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.381512E+02    0.434873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.360452E+02    0.456555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.330566E+02    0.440304E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.317804E+02    0.413505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.323462E+02    0.384754E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.345746E+02    0.360410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.382064E+02    0.345458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.420971E+02    0.346501E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.452972E+02    0.363338E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133881E+03   -0.470406E+02    0.390081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.463965E+02    0.420500E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.435232E+02    0.446969E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.398639E+02    0.459216E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.402624E+02    0.317589E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.380953E+02    0.319347E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.397214E+02    0.301580E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.420593E+02    0.306280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.419030E+02    0.326788E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.394622E+02    0.334503E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.373436E+02    0.346400E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.360364E+02    0.333688E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.361131E+02    0.315134E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.369865E+02    0.298808E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.390011E+02    0.285592E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.412422E+02    0.281808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.432354E+02    0.287987E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.445115E+02    0.301965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.446295E+02    0.320136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.434946E+02    0.337694E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.415120E+02    0.349516E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.392755E+02    0.352546E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.371610E+02    0.375069E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.341305E+02    0.359736E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.329086E+02    0.332389E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.334641E+02    0.301554E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.357965E+02    0.274143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.394633E+02    0.256784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.436178E+02    0.255141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.468843E+02    0.272113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133723E+03   -0.485567E+02    0.300850E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.478114E+02    0.334110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.448179E+02    0.362472E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.410191E+02    0.376462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.388277E+02    0.455559E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.367917E+02    0.455627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.382102E+02    0.440366E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.406088E+02    0.445838E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.404358E+02    0.464845E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.381293E+02    0.470270E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.361307E+02    0.479731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.349447E+02    0.466821E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.346524E+02    0.451342E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.357203E+02    0.435324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.375255E+02    0.424650E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.396287E+02    0.422579E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.416861E+02    0.429099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.429230E+02    0.443370E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.431292E+02    0.460414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.421091E+02    0.475457E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.402481E+02    0.484955E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.380339E+02    0.486560E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.360193E+02    0.508184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.331342E+02    0.490035E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.316796E+02    0.464751E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.321648E+02    0.436540E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.343933E+02    0.411980E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.380151E+02    0.398476E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.417865E+02    0.400688E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.450804E+02    0.417255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.469218E+02    0.445211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133485E+03   -0.463892E+02    0.475318E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.435108E+02    0.499666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.397322E+02    0.512131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.394642E+02    0.364125E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.374135E+02    0.364954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.389364E+02    0.348466E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.412517E+02    0.353449E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.410904E+02    0.373168E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.386656E+02    0.380046E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.366603E+02    0.390469E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.353649E+02    0.378180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.352575E+02    0.361549E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.362253E+02    0.345218E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.380322E+02    0.333812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.403534E+02    0.329983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.424300E+02    0.335796E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.436926E+02    0.349656E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.437960E+02    0.367346E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.426653E+02    0.383733E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.408017E+02    0.394107E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.385785E+02    0.396592E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.363697E+02    0.418657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.334667E+02    0.402572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.322623E+02    0.376511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.328229E+02    0.346830E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.350600E+02    0.321059E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.388046E+02    0.304592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.427222E+02    0.305052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.459511E+02    0.321746E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.474752E+02    0.350372E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.469539E+02    0.381315E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.440804E+02    0.407062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.403014E+02    0.420314E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.406570E+02    0.253174E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.383782E+02    0.256332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.401970E+02    0.235568E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.425615E+02    0.239964E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.423181E+02    0.262488E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.398654E+02    0.271273E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.375467E+02    0.285486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.364139E+02    0.271391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.363781E+02    0.252350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.375280E+02    0.232683E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.394499E+02    0.218807E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.417081E+02    0.214227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.438325E+02    0.219463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.450297E+02    0.234615E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.450564E+02    0.254635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.439303E+02    0.273554E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.419449E+02    0.286423E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.395926E+02    0.290728E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.372832E+02    0.315855E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.344188E+02    0.299489E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.331654E+02    0.271371E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.338743E+02    0.237180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.362937E+02    0.206984E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.399824E+02    0.187832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.441721E+02    0.184820E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.474948E+02    0.201578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.489837E+02    0.232663E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.480365E+02    0.269520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.451712E+02    0.299485E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.412571E+02    0.315714E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683839.683220166     
  ps_ts2 prof sum =   683462.705901502     
  trcom prof sum =    683462.705901502     
  ps_ts2 cur sum  =   11084.3895748218     
  trcom cur sum  =    11084.3895748218     
  
  antenna # iant =            2
  powecha_use(iant) =    669390.197501106     
  ps_ts2 prof sum =   669012.607479571     
  trcom prof sum =    669012.607479570     
  ps_ts2 cur sum  =   13018.0695222001     
  trcom cur sum  =    13018.0695222001     
  
  antenna # iant =            3
  powecha_use(iant) =    530577.365819629     
  ps_ts2 prof sum =   530272.757120925     
  trcom prof sum =    530272.757120926     
  ps_ts2 cur sum  =   7470.72719874265     
  trcom cur sum  =    7470.72719874266     
  
  antenna # iant =            4
  powecha_use(iant) =    566184.740598922     
  ps_ts2 prof sum =   565833.853528630     
  trcom prof sum =    565833.853528629     
  ps_ts2 cur sum  =   10043.3577205271     
  trcom cur sum  =    10043.3577205271     
  
  antenna # iant =            5
  powecha_use(iant) =    546414.239423739     
  ps_ts2 prof sum =   546102.690537256     
  trcom prof sum =    546102.690537256     
  ps_ts2 cur sum  =   11703.4448299088     
  trcom cur sum  =    11703.4448299088     
  
  Total ECH heating:      2994684.61456788     
  Total Current Drive:    53319.9888462004     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2616
 TA= 2.90000E+00 CPU TIME= 1.60626E-01 SECONDS.  DT= 6.69338E-05
  
 TEC1=    2.89999999999996     
 TEC2=    2.90499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.04662583333334     
  %check_save_state: izleft hours =    72.9450000000000     
 --> plasma_hash("gframe"): TA= 2.900000E+00 NSTEP=  2616 Hash code:   68357741
 ->PRGCHK: bdy curvature ratio at t= 2.9050E+00 seconds is:  5.5397E-02
% MHDEQ: TG1=     2.900000 ; TG2=     2.905000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7747E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5397E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.900000 TO TG2=    2.905000 @ NSTEP     2616
   GFRAME TG2 MOMENTS CHECKSUM:  2.4803138834729D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9050E+00  2.9100E+00 total power(Watts):  2.9904E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.90500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.389588E+02    0.402657E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.369185E+02    0.403172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.384371E+02    0.387646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.407401E+02    0.392727E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.405711E+02    0.411763E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.382587E+02    0.418023E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.361567E+02    0.428941E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.348753E+02    0.415944E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.347738E+02    0.399495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.358358E+02    0.383673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.376392E+02    0.373129E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.398490E+02    0.370349E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.418083E+02    0.376661E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.430562E+02    0.389952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.432697E+02    0.406464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.421355E+02    0.422703E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.402772E+02    0.433309E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.380604E+02    0.435636E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.360563E+02    0.456988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.330678E+02    0.440705E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.317916E+02    0.413917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.322653E+02    0.385631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.344940E+02    0.361345E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.380195E+02    0.346950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.420035E+02    0.347500E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.454244E+02    0.363457E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.470550E+02    0.390594E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.464105E+02    0.421010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.435366E+02    0.447435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.397705E+02    0.459908E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.401729E+02    0.318705E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.381082E+02    0.319889E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.397358E+02    0.302174E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.420731E+02    0.306896E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.419171E+02    0.327347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.393735E+02    0.335542E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.373562E+02    0.346892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.360491E+02    0.334185E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.359362E+02    0.316823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.370957E+02    0.298777E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.389159E+02    0.286838E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.411537E+02    0.283076E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.432501E+02    0.288654E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.445268E+02    0.302589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.445333E+02    0.321253E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.435090E+02    0.338247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.415256E+02    0.350035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.392888E+02    0.353045E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.369758E+02    0.376408E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.341429E+02    0.360186E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.328320E+02    0.333435E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.334774E+02    0.302096E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.358094E+02    0.274765E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.395766E+02    0.256809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.435273E+02    0.256554E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.467875E+02    0.273461E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.483449E+02    0.302561E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.475946E+02    0.335635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.447195E+02    0.363421E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.409223E+02    0.377375E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.387360E+02    0.456255E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.367037E+02    0.456333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.382226E+02    0.440798E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.405143E+02    0.446562E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.404485E+02    0.465301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.380383E+02    0.470946E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.360432E+02    0.480397E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.347631E+02    0.467749E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.347599E+02    0.451465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.355371E+02    0.436385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.374366E+02    0.425438E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.396414E+02    0.423034E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.415896E+02    0.429881E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.429364E+02    0.443832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.430311E+02    0.461112E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.420111E+02    0.476134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.401533E+02    0.485617E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.380461E+02    0.487018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.358323E+02    0.508915E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.329589E+02    0.490868E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.316903E+02    0.465152E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.321722E+02    0.436941E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.344995E+02    0.412031E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.379281E+02    0.399313E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.417999E+02    0.401162E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.450943E+02    0.417748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133579E+03   -0.469360E+02    0.445711E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133708E+03   -0.462857E+02    0.475997E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.436376E+02    0.500030E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.397447E+02    0.512594E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.394773E+02    0.364613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.373272E+02    0.365887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.389500E+02    0.348961E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.412652E+02    0.353960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.411064E+02    0.373640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.386784E+02    0.380510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.364762E+02    0.391731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.354723E+02    0.378182E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.353625E+02    0.361531E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.363337E+02    0.345194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.381481E+02    0.333796E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.403666E+02    0.330522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.423370E+02    0.336829E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.435925E+02    0.350655E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.436988E+02    0.368278E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.426788E+02    0.384222E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.408149E+02    0.394572E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.385913E+02    0.397043E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.364805E+02    0.418738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.334778E+02    0.402996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.321847E+02    0.377406E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.327458E+02    0.347816E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.350726E+02    0.321573E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.387188E+02    0.305762E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.426306E+02    0.306208E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.458529E+02    0.322860E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.476059E+02    0.350515E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.467360E+02    0.382564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.439836E+02    0.407873E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.402080E+02    0.421105E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.406722E+02    0.253904E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.384898E+02    0.256337E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.401136E+02    0.237061E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.424735E+02    0.241452E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.423332E+02    0.263221E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.397798E+02    0.272589E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.376571E+02    0.285457E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.363330E+02    0.272698E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.362994E+02    0.253748E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.373544E+02    0.234915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.392719E+02    0.221125E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.417252E+02    0.215048E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.437450E+02    0.221037E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.450466E+02    0.235444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.450722E+02    0.255418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.438382E+02    0.274878E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.418547E+02    0.287687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.396074E+02    0.291341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.373939E+02    0.315828E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.344323E+02    0.300037E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.331775E+02    0.271974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.338009E+02    0.238639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.362185E+02    0.208566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.400947E+02    0.187832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.441910E+02    0.185689E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.474003E+02    0.203246E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134177E+03   -0.488874E+02    0.234218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134054E+03   -0.481659E+02    0.269702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.451865E+02    0.300123E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.412699E+02    0.316302E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676932.778906288     
  ps_ts2 prof sum =   676554.118880010     
  trcom prof sum =    676554.118880010     
  ps_ts2 cur sum  =   10951.0324722007     
  trcom cur sum  =    10951.0324722007     
  
  antenna # iant =            2
  powecha_use(iant) =    668059.839412121     
  ps_ts2 prof sum =   667673.510280571     
  trcom prof sum =    667673.510280570     
  ps_ts2 cur sum  =   12973.8253633662     
  trcom cur sum  =    12973.8253633662     
  
  antenna # iant =            3
  powecha_use(iant) =    531480.445199117     
  ps_ts2 prof sum =   531154.878933186     
  trcom prof sum =    531154.878933187     
  ps_ts2 cur sum  =   7467.99846967346     
  trcom cur sum  =    7467.99846967347     
  
  antenna # iant =            4
  powecha_use(iant) =    567165.779578307     
  ps_ts2 prof sum =   566853.759945757     
  trcom prof sum =    566853.759945757     
  ps_ts2 cur sum  =   10044.0426400309     
  trcom cur sum  =    10044.0426400309     
  
  antenna # iant =            5
  powecha_use(iant) =    546798.469113120     
  ps_ts2 prof sum =   546509.003746318     
  trcom prof sum =    546509.003746318     
  ps_ts2 cur sum  =   11698.8674448861     
  trcom cur sum  =    11698.8674448861     
  
  Total ECH heating:      2988745.27178584     
  Total Current Drive:    53135.7663901574     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2630
 TA= 2.90500E+00 CPU TIME= 1.60394E-01 SECONDS.  DT= 4.97077E-04
  
 TEC1=    2.90499999999996     
 TEC2=    2.90999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.06416249999961     
  %check_save_state: izleft hours =    72.9275000000000     
 --> plasma_hash("gframe"): TA= 2.905000E+00 NSTEP=  2630 Hash code:    5095889
 ->PRGCHK: bdy curvature ratio at t= 2.9100E+00 seconds is:  5.5507E-02
% MHDEQ: TG1=     2.905000 ; TG2=     2.910000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7737E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5507E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.905000 TO TG2=    2.910000 @ NSTEP     2630
   GFRAME TG2 MOMENTS CHECKSUM:  2.4797459312805D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.98553E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.72210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2=  7.17133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.17331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.08291E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.42571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.39424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  2.78892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.08851E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.03730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.60274E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.72232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.41736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.73520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.16692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.54479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.78946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.69105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.07460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.07460E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.9100E+00  2.9150E+00 total power(Watts):  2.9912E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.91000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.389816E+02    0.402678E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.369401E+02    0.403198E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.384621E+02    0.387634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.407637E+02    0.392743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.405953E+02    0.411795E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.382812E+02    0.418040E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.361790E+02    0.428937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.348950E+02    0.415960E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.347944E+02    0.399498E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.358564E+02    0.383670E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.376610E+02    0.373112E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.398732E+02    0.370319E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.418322E+02    0.376656E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.430812E+02    0.389969E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.432915E+02    0.406508E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.421605E+02    0.422730E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.402984E+02    0.433316E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.380837E+02    0.435616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.360790E+02    0.456829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.330888E+02    0.440653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.318101E+02    0.413927E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.322882E+02    0.385593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.345144E+02    0.361306E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.380414E+02    0.346959E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.420284E+02    0.347514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.454505E+02    0.363453E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.470817E+02    0.390630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133872E+03   -0.464373E+02    0.421064E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.435631E+02    0.447394E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.397952E+02    0.459758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.401959E+02    0.318818E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.381299E+02    0.319990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.397589E+02    0.302292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.420982E+02    0.307018E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.419399E+02    0.327456E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.393958E+02    0.335601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.373778E+02    0.346887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.360706E+02    0.334217E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.359578E+02    0.316907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.371171E+02    0.298883E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.389384E+02    0.286940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.412803E+02    0.282571E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.432753E+02    0.288770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.445517E+02    0.302742E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.445576E+02    0.321390E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.435339E+02    0.338305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.415502E+02    0.350041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.393120E+02    0.353028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.369963E+02    0.376404E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.341666E+02    0.360132E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.328527E+02    0.333448E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.334971E+02    0.302182E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.358311E+02    0.274839E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.396004E+02    0.256901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.435544E+02    0.256679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.468141E+02    0.273608E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134085E+03   -0.483669E+02    0.302768E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.476212E+02    0.335736E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.447452E+02    0.363426E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.409498E+02    0.377352E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.387602E+02    0.456123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.367266E+02    0.456186E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.382468E+02    0.440772E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.405387E+02    0.446520E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.404738E+02    0.465123E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.380623E+02    0.470753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.360657E+02    0.480220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.347849E+02    0.467566E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.347812E+02    0.451350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.355581E+02    0.436362E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.374587E+02    0.425452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.396650E+02    0.423058E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.416140E+02    0.429901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.429621E+02    0.443807E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.430589E+02    0.460970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.420374E+02    0.475947E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.401781E+02    0.485463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.380695E+02    0.486879E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.359534E+02    0.508743E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.329792E+02    0.490767E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.317094E+02    0.464965E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.321925E+02    0.436893E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.345193E+02    0.412045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.379501E+02    0.399326E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.418239E+02    0.401192E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.451205E+02    0.417796E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.469636E+02    0.445708E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.463143E+02    0.475807E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.436640E+02    0.499966E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.397702E+02    0.512589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.395003E+02    0.364589E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.373495E+02    0.365851E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.389728E+02    0.348948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.412896E+02    0.353956E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.411260E+02    0.373645E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.387010E+02    0.380501E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.364978E+02    0.391731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.354939E+02    0.378153E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.353864E+02    0.361477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.363548E+02    0.345190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.381665E+02    0.333857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.403891E+02    0.330607E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.423612E+02    0.336894E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.436176E+02    0.350675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.437241E+02    0.368274E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.427035E+02    0.384232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.408385E+02    0.394592E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.386139E+02    0.397060E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.365028E+02    0.418754E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.334978E+02    0.403001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.322027E+02    0.377379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.327655E+02    0.347787E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.350938E+02    0.321640E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.387415E+02    0.305861E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.426551E+02    0.306354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.458781E+02    0.323014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.476329E+02    0.350554E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.467628E+02    0.382581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.440119E+02    0.407921E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.402321E+02    0.421130E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.406958E+02    0.254011E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.385123E+02    0.256428E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.401379E+02    0.237154E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.426023E+02    0.240874E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.423579E+02    0.263334E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.398025E+02    0.272686E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.376792E+02    0.285547E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.363549E+02    0.272768E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.363208E+02    0.253824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.373775E+02    0.234987E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.392962E+02    0.221171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.417512E+02    0.215103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.437717E+02    0.221123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.450707E+02    0.235591E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.450981E+02    0.255561E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.438636E+02    0.274996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.418793E+02    0.287797E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.396302E+02    0.291450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.374156E+02    0.315919E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.344523E+02    0.300123E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.331982E+02    0.272029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.338213E+02    0.238699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.362419E+02    0.208550E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.401217E+02    0.187818E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.442194E+02    0.185700E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.474295E+02    0.203316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.489151E+02    0.234393E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.480795E+02    0.270448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.452117E+02    0.300289E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.412935E+02    0.316420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677859.488306488     
  ps_ts2 prof sum =   677478.772850308     
  trcom prof sum =    677478.772850308     
  ps_ts2 cur sum  =   10944.4808139399     
  trcom cur sum  =    10944.4808139399     
  
  antenna # iant =            2
  powecha_use(iant) =    668934.071241049     
  ps_ts2 prof sum =   668547.125384427     
  trcom prof sum =    668547.125384426     
  ps_ts2 cur sum  =   12956.9063066072     
  trcom cur sum  =    12956.9063066072     
  
  antenna # iant =            3
  powecha_use(iant) =    530647.535303122     
  ps_ts2 prof sum =   530331.452482776     
  trcom prof sum =    530331.452482776     
  ps_ts2 cur sum  =   7447.54949104488     
  trcom cur sum  =    7447.54949104489     
  
  antenna # iant =            4
  powecha_use(iant) =    566665.940085799     
  ps_ts2 prof sum =   566350.964902348     
  trcom prof sum =    566350.964902348     
  ps_ts2 cur sum  =   10012.0653025936     
  trcom cur sum  =    10012.0653025936     
  
  antenna # iant =            5
  powecha_use(iant) =    547132.505117755     
  ps_ts2 prof sum =   546834.799242210     
  trcom prof sum =    546834.799242210     
  ps_ts2 cur sum  =   11675.4875531349     
  trcom cur sum  =    11675.4875531349     
  
  Total ECH heating:      2989543.11486207     
  Total Current Drive:    53036.4894673204     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2636
 TA= 2.91000E+00 CPU TIME= 1.59818E-01 SECONDS.  DT= 1.15059E-03
  
 TEC1=    2.90999999999996     
 TEC2=    2.91499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.07795499999975     
  %check_save_state: izleft hours =    72.9136111111111     
 --> plasma_hash("gframe"): TA= 2.910000E+00 NSTEP=  2636 Hash code:   86838120
 ->PRGCHK: bdy curvature ratio at t= 2.9150E+00 seconds is:  5.5617E-02
% MHDEQ: TG1=     2.910000 ; TG2=     2.915000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5617E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.910000 TO TG2=    2.915000 @ NSTEP     2636
   GFRAME TG2 MOMENTS CHECKSUM:  2.4791779790881D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9150E+00  2.9200E+00 total power(Watts):  3.0026E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.91500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.390052E+02    0.402715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.369625E+02    0.403219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.384827E+02    0.387648E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.407883E+02    0.392759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.406192E+02    0.411842E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.382023E+02    0.418419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.362005E+02    0.428959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.349167E+02    0.415982E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.348163E+02    0.399512E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.358793E+02    0.383656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.376834E+02    0.373087E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.398935E+02    0.370305E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.418576E+02    0.376647E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.431071E+02    0.389985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.433205E+02    0.406560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.421857E+02    0.422781E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.403235E+02    0.433335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.381068E+02    0.435615E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.361026E+02    0.456764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.331089E+02    0.440635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.318298E+02    0.413944E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.323084E+02    0.385575E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.345353E+02    0.361249E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.380650E+02    0.346924E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.420536E+02    0.347505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.454778E+02    0.363435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.471094E+02    0.390673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133807E+03   -0.464648E+02    0.421133E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.435901E+02    0.447393E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.398204E+02    0.459709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.402204E+02    0.318869E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.381540E+02    0.320018E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.397826E+02    0.302349E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.421217E+02    0.307102E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.419655E+02    0.327487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.394204E+02    0.335604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.374015E+02    0.346852E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.360951E+02    0.334194E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.359797E+02    0.316939E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.371395E+02    0.298934E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.389619E+02    0.286973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.413050E+02    0.282606E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.433008E+02    0.288830E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.445783E+02    0.302817E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.445839E+02    0.321461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.435598E+02    0.338325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.415751E+02    0.350021E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.393358E+02    0.352991E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.370198E+02    0.376369E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.341849E+02    0.360081E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.328732E+02    0.333431E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.335174E+02    0.302200E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.358541E+02    0.274827E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.396251E+02    0.256913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.435784E+02    0.256726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.468419E+02    0.273656E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.486267E+02    0.301822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.476493E+02    0.335787E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.447724E+02    0.363400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.409745E+02    0.377343E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.387846E+02    0.456076E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.367505E+02    0.456120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.382699E+02    0.440766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.405640E+02    0.446508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.404947E+02    0.465091E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.380865E+02    0.470717E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.360888E+02    0.480200E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.348071E+02    0.467517E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.348036E+02    0.451286E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.355802E+02    0.436360E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.374816E+02    0.425467E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.396892E+02    0.423094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.416393E+02    0.429943E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.429887E+02    0.443828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.430859E+02    0.460930E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.420638E+02    0.475928E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.402034E+02    0.485460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.380938E+02    0.486864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.359770E+02    0.508598E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.330009E+02    0.490714E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.317298E+02    0.464908E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.322135E+02    0.436873E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.345404E+02    0.412074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.379732E+02    0.399350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.418490E+02    0.401231E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.451474E+02    0.417858E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.469923E+02    0.445728E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133582E+03   -0.463428E+02    0.475800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.436914E+02    0.499947E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.397942E+02    0.512438E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.395251E+02    0.364537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.373727E+02    0.365802E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.389962E+02    0.348928E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.413148E+02    0.353915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.411507E+02    0.373631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.387245E+02    0.380499E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.365206E+02    0.391727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.355159E+02    0.378130E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.354080E+02    0.361421E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.363780E+02    0.345152E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.381907E+02    0.333852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.404144E+02    0.330621E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.423863E+02    0.336910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.436442E+02    0.350658E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.437514E+02    0.368233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.427292E+02    0.384248E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.408631E+02    0.394618E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.386371E+02    0.397079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.365248E+02    0.418784E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.335191E+02    0.403012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.322242E+02    0.377332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.327866E+02    0.347731E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.351153E+02    0.321660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.387683E+02    0.305900E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.426808E+02    0.306426E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.459049E+02    0.323074E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.476612E+02    0.350563E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.467905E+02    0.382607E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.440380E+02    0.407977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.402543E+02    0.421171E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.407207E+02    0.254030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.385359E+02    0.256442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.401627E+02    0.237175E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.426280E+02    0.240909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.423797E+02    0.263377E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.398269E+02    0.272695E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.377017E+02    0.285576E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.363778E+02    0.272762E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.363438E+02    0.253828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.374001E+02    0.234995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.393213E+02    0.221138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.417766E+02    0.215080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.437982E+02    0.221120E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.451002E+02    0.235632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.451250E+02    0.255602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.438896E+02    0.275034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.419043E+02    0.287839E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.396540E+02    0.291489E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.374384E+02    0.315963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.344734E+02    0.300154E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.332195E+02    0.272013E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.338427E+02    0.238682E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.362667E+02    0.208469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.401475E+02    0.187716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.442477E+02    0.185616E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.474589E+02    0.203282E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.489440E+02    0.234460E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.481076E+02    0.270498E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.452387E+02    0.300364E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.413186E+02    0.316473E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689391.053573274     
  ps_ts2 prof sum =   689001.024135830     
  trcom prof sum =    689001.024135830     
  ps_ts2 cur sum  =   11116.7004390868     
  trcom cur sum  =    11116.7004390868     
  
  antenna # iant =            2
  powecha_use(iant) =    669924.003901717     
  ps_ts2 prof sum =   669550.139732205     
  trcom prof sum =    669550.139732204     
  ps_ts2 cur sum  =   12951.0752906320     
  trcom cur sum  =    12951.0752906320     
  
  antenna # iant =            3
  powecha_use(iant) =    531863.874349924     
  ps_ts2 prof sum =   531547.600167229     
  trcom prof sum =    531547.600167230     
  ps_ts2 cur sum  =   7459.21246135640     
  trcom cur sum  =    7459.21246135641     
  
  antenna # iant =            4
  powecha_use(iant) =    564547.483621418     
  ps_ts2 prof sum =   564234.920050592     
  trcom prof sum =    564234.920050591     
  ps_ts2 cur sum  =   9958.65993164395     
  trcom cur sum  =    9958.65993164393     
  
  antenna # iant =            5
  powecha_use(iant) =    546857.704373815     
  ps_ts2 prof sum =   546561.215111858     
  trcom prof sum =    546561.215111858     
  ps_ts2 cur sum  =   11644.8416873055     
  trcom cur sum  =    11644.8416873055     
  
  Total ECH heating:      3000894.89919771     
  Total Current Drive:    53130.4898100247     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2640
 TA= 2.91500E+00 CPU TIME= 1.59706E-01 SECONDS.  DT= 7.66704E-04
  
 TEC1=    2.91499999999996     
 TEC2=    2.91999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.09453944444431     
  %check_save_state: izleft hours =    72.8969444444444     
 --> plasma_hash("gframe"): TA= 2.915000E+00 NSTEP=  2640 Hash code:   12995167
 ->PRGCHK: bdy curvature ratio at t= 2.9200E+00 seconds is:  5.5727E-02
% MHDEQ: TG1=     2.915000 ; TG2=     2.920000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7717E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5727E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.915000 TO TG2=    2.920000 @ NSTEP     2640
   GFRAME TG2 MOMENTS CHECKSUM:  2.4786100268957D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.80969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.53526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       3=  4.57178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.92458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.02858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.30617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.38055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  4.62596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.39506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.16436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.53377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.96201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.42406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.69815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.75139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.62849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.85065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.80597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.87247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.87247E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.9200E+00  2.9250E+00 total power(Watts):  2.9942E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.92000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.390279E+02    0.402733E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.369842E+02    0.403243E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.385055E+02    0.387644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.408119E+02    0.392774E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.406403E+02    0.411878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.383271E+02    0.418107E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.362225E+02    0.428953E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.349377E+02    0.416003E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.348378E+02    0.399512E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.359002E+02    0.383640E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.377063E+02    0.373044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.399197E+02    0.370267E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.418816E+02    0.376638E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.431316E+02    0.390003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.433458E+02    0.406594E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.422102E+02    0.422825E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.403471E+02    0.433355E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.381305E+02    0.435618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.361238E+02    0.456730E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.331289E+02    0.440597E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.318490E+02    0.413947E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.323278E+02    0.385552E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.345566E+02    0.361184E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.380881E+02    0.346892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.420782E+02    0.347482E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.453905E+02    0.363826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.471359E+02    0.390705E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.464873E+02    0.421195E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.436158E+02    0.447392E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.398441E+02    0.459684E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.402433E+02    0.318938E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.381756E+02    0.320073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.398049E+02    0.302443E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.421460E+02    0.307206E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.419892E+02    0.327539E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.395450E+02    0.335101E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.374233E+02    0.346819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.361145E+02    0.334204E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.360006E+02    0.316995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.371612E+02    0.299001E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.388851E+02    0.287656E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.413283E+02    0.282684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.433250E+02    0.288935E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.446025E+02    0.302952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.447196E+02    0.321042E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.435848E+02    0.338345E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.415995E+02    0.349991E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.393594E+02    0.352941E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.370420E+02    0.376335E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.342049E+02    0.360019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.328924E+02    0.333417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.335367E+02    0.302261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.358747E+02    0.274867E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.396477E+02    0.256996E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.437097E+02    0.256174E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.468680E+02    0.273767E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.486527E+02    0.301977E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134032E+03   -0.476760E+02    0.335834E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.449106E+02    0.362946E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.409985E+02    0.377321E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.388080E+02    0.456038E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.367727E+02    0.456076E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.382921E+02    0.440761E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.405882E+02    0.446484E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.405235E+02    0.465076E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.381090E+02    0.470750E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.361102E+02    0.480275E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.348281E+02    0.467523E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.348248E+02    0.451236E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.356022E+02    0.436342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.375049E+02    0.425478E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.397121E+02    0.423129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.416638E+02    0.429966E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.430112E+02    0.443844E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.433361E+02    0.460465E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.421991E+02    0.475794E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.402271E+02    0.485561E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.381161E+02    0.486968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.359009E+02    0.508674E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.330202E+02    0.490806E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.317523E+02    0.464891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.322316E+02    0.436855E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.345610E+02    0.412088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.379954E+02    0.399367E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.418761E+02    0.401254E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.451731E+02    0.417918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.470195E+02    0.445744E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.463697E+02    0.475861E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.437166E+02    0.500079E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.398189E+02    0.512373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.395468E+02    0.364504E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.373953E+02    0.365747E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.390193E+02    0.348891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.413391E+02    0.353875E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.411744E+02    0.373603E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.387470E+02    0.380483E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.367382E+02    0.390916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.355369E+02    0.378106E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.354294E+02    0.361361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.363993E+02    0.345119E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.382126E+02    0.333864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.404375E+02    0.330650E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.425188E+02    0.336438E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.437795E+02    0.350186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.438872E+02    0.367797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.427536E+02    0.384255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.408872E+02    0.394629E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.386596E+02    0.397098E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.365463E+02    0.418805E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.335389E+02    0.403020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.322437E+02    0.377297E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.328065E+02    0.347673E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.351356E+02    0.321696E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.387866E+02    0.306004E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.427038E+02    0.306537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.459309E+02    0.323161E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133743E+03   -0.476879E+02    0.350564E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.468168E+02    0.382626E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.440632E+02    0.408025E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.402799E+02    0.421202E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.407440E+02    0.254126E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.385586E+02    0.256506E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.401860E+02    0.237285E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.426542E+02    0.241033E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.424075E+02    0.263447E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.398498E+02    0.272765E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.377236E+02    0.285636E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.363993E+02    0.272805E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.363649E+02    0.253885E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.374227E+02    0.235080E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.393459E+02    0.221223E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.418016E+02    0.215169E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.438234E+02    0.221253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.451256E+02    0.235776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.451504E+02    0.255726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.439146E+02    0.275125E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.419278E+02    0.287934E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.396764E+02    0.291577E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.374596E+02    0.316034E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.344936E+02    0.300214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.332381E+02    0.272034E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.338635E+02    0.238745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.363773E+02    0.207724E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.401740E+02    0.187723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.442754E+02    0.185648E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.475970E+02    0.202643E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133978E+03   -0.489713E+02    0.234644E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134066E+03   -0.481386E+02    0.270606E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.452632E+02    0.300497E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.413418E+02    0.316563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682532.704300487     
  ps_ts2 prof sum =   682133.887234414     
  trcom prof sum =    682133.887234415     
  ps_ts2 cur sum  =   10986.8146552144     
  trcom cur sum  =    10986.8146552144     
  
  antenna # iant =            2
  powecha_use(iant) =    667824.805865022     
  ps_ts2 prof sum =   667451.419893698     
  trcom prof sum =    667451.419893697     
  ps_ts2 cur sum  =   12884.3687400850     
  trcom cur sum  =    12884.3687400850     
  
  antenna # iant =            3
  powecha_use(iant) =    531885.579421432     
  ps_ts2 prof sum =   531569.779279782     
  trcom prof sum =    531569.779279782     
  ps_ts2 cur sum  =   7449.10740466279     
  trcom cur sum  =    7449.10740466280     
  
  antenna # iant =            4
  powecha_use(iant) =    566460.197413616     
  ps_ts2 prof sum =   566167.392297141     
  trcom prof sum =    566167.392297141     
  ps_ts2 cur sum  =   9973.84601848172     
  trcom cur sum  =    9973.84601848170     
  
  antenna # iant =            5
  powecha_use(iant) =    545487.640817360     
  ps_ts2 prof sum =   545196.480485935     
  trcom prof sum =    545196.480485934     
  ps_ts2 cur sum  =   11589.1264189252     
  trcom cur sum  =    11589.1264189252     
  
  Total ECH heating:      2992518.95919097     
  Total Current Drive:    52883.2632373691     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2645
 TA= 2.92000E+00 CPU TIME= 1.66644E-01 SECONDS.  DT= 7.24342E-04
  
 TEC1=    2.91999999999996     
 TEC2=    2.92499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.10633166666662     
  %check_save_state: izleft hours =    72.8852777777778     
 --> plasma_hash("gframe"): TA= 2.920000E+00 NSTEP=  2645 Hash code:   68133850
 ->PRGCHK: bdy curvature ratio at t= 2.9250E+00 seconds is:  5.5837E-02
% MHDEQ: TG1=     2.920000 ; TG2=     2.925000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7707E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5837E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.920000 TO TG2=    2.925000 @ NSTEP     2645
   GFRAME TG2 MOMENTS CHECKSUM:  2.4780420747034D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.9250E+00  2.9300E+00 total power(Watts):  2.9857E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.92500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.390507E+02    0.402788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.370057E+02    0.403295E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.385278E+02    0.387689E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.408355E+02    0.392826E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.406665E+02    0.411945E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.383495E+02    0.418145E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.362441E+02    0.428965E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.349588E+02    0.416028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.348571E+02    0.399556E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.359252E+02    0.383646E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.377287E+02    0.373055E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.399432E+02    0.370283E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.419064E+02    0.376660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.431565E+02    0.390064E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.433701E+02    0.406680E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.423441E+02    0.422573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.403711E+02    0.433381E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.381527E+02    0.435619E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.361463E+02    0.456675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.331491E+02    0.440547E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.318649E+02    0.413978E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.323477E+02    0.385563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.345778E+02    0.361163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.381109E+02    0.346913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.421031E+02    0.347517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.454171E+02    0.363849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133626E+03   -0.471622E+02    0.390799E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133676E+03   -0.465174E+02    0.421285E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.436415E+02    0.447366E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.398681E+02    0.459648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.402668E+02    0.319058E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.381980E+02    0.320179E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.398284E+02    0.302591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.421701E+02    0.307367E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.420137E+02    0.327648E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.395680E+02    0.335167E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.374455E+02    0.346837E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.361361E+02    0.334253E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.360172E+02    0.317122E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.371827E+02    0.299133E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.389086E+02    0.287775E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.413531E+02    0.282816E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.433505E+02    0.289086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.446309E+02    0.303113E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.447454E+02    0.321186E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.436102E+02    0.338421E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.416242E+02    0.350015E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.393828E+02    0.352953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.372587E+02    0.375492E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.342259E+02    0.359998E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.329125E+02    0.333451E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.335572E+02    0.302365E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.358977E+02    0.274943E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.396731E+02    0.257109E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.437363E+02    0.256325E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.469001E+02    0.273906E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133455E+03   -0.486796E+02    0.302210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133967E+03   -0.477033E+02    0.335950E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.449369E+02    0.362971E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.410224E+02    0.377350E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.389350E+02    0.455745E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.367952E+02    0.456029E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.383153E+02    0.440727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.406131E+02    0.446443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.405476E+02    0.465067E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.381318E+02    0.470762E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.360319E+02    0.480554E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.348487E+02    0.467526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.348461E+02    0.451174E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.356229E+02    0.436332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.375290E+02    0.425504E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.397360E+02    0.423164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.417976E+02    0.429693E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.430392E+02    0.443824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.432496E+02    0.460661E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.422242E+02    0.475835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.402511E+02    0.485637E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.381392E+02    0.487038E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.359232E+02    0.508639E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.330413E+02    0.490845E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.317694E+02    0.464880E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.322515E+02    0.436819E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.345817E+02    0.412115E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.380178E+02    0.399411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.418972E+02    0.401330E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.451988E+02    0.418001E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133319E+03   -0.470469E+02    0.445766E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.463967E+02    0.475913E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.436296E+02    0.500276E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.398435E+02    0.512343E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.395709E+02    0.364511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.373175E+02    0.366217E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.390429E+02    0.348903E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.413634E+02    0.353897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.411983E+02    0.373637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.387704E+02    0.380509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.367601E+02    0.390949E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.355587E+02    0.378118E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.354506E+02    0.361350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.364210E+02    0.345136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.382352E+02    0.333925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.404610E+02    0.330740E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.425434E+02    0.336512E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.438052E+02    0.350222E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.439125E+02    0.367825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.427785E+02    0.384302E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.409105E+02    0.394687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.386824E+02    0.397145E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.365682E+02    0.418839E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.335588E+02    0.403056E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.322636E+02    0.377289E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.328219E+02    0.347687E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.351569E+02    0.321781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.388093E+02    0.306146E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.427286E+02    0.306708E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.459569E+02    0.323323E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.475994E+02    0.351040E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.470760E+02    0.381963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.443137E+02    0.407444E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.403030E+02    0.421267E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.407722E+02    0.254240E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.385836E+02    0.256616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.402103E+02    0.237452E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.426790E+02    0.241216E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.424337E+02    0.263575E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.398746E+02    0.272864E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.377465E+02    0.285748E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.366105E+02    0.271553E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.363882E+02    0.253983E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.374469E+02    0.235217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.393703E+02    0.221389E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.418291E+02    0.215338E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.438517E+02    0.221451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.451534E+02    0.235984E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.451780E+02    0.255883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.440486E+02    0.274648E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.419526E+02    0.288075E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.396999E+02    0.291706E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.374817E+02    0.316145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.345140E+02    0.300325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.332601E+02    0.272095E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.338853E+02    0.238869E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.363140E+02    0.208604E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.402017E+02    0.187793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.443049E+02    0.185755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134279E+03   -0.476271E+02    0.202845E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.492276E+02    0.233578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.481630E+02    0.270789E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.452891E+02    0.300683E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.413657E+02    0.316701E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678289.348960228     
  ps_ts2 prof sum =   677890.769440301     
  trcom prof sum =    677890.769440302     
  ps_ts2 cur sum  =   10901.9654718803     
  trcom cur sum  =    10901.9654718803     
  
  antenna # iant =            2
  powecha_use(iant) =    669031.996216778     
  ps_ts2 prof sum =   668667.509668248     
  trcom prof sum =    668667.509668247     
  ps_ts2 cur sum  =   12877.9944275409     
  trcom cur sum  =    12877.9944275409     
  
  antenna # iant =            3
  powecha_use(iant) =    532173.544481874     
  ps_ts2 prof sum =   531840.419821342     
  trcom prof sum =    531840.419821342     
  ps_ts2 cur sum  =   7445.90245411959     
  trcom cur sum  =    7445.90245411960     
  
  antenna # iant =            4
  powecha_use(iant) =    563174.622097068     
  ps_ts2 prof sum =   562881.909965224     
  trcom prof sum =    562881.909965223     
  ps_ts2 cur sum  =   9897.02746329699     
  trcom cur sum  =    9897.02746329698     
  
  antenna # iant =            5
  powecha_use(iant) =    543071.150312119     
  ps_ts2 prof sum =   542799.105311078     
  trcom prof sum =    542799.105311078     
  ps_ts2 cur sum  =   11510.1433750936     
  trcom cur sum  =    11510.1433750936     
  
  Total ECH heating:      2984079.71420619     
  Total Current Drive:    52633.0331919314     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2650
 TA= 2.92500E+00 CPU TIME= 1.59781E-01 SECONDS.  DT= 1.02965E-03
  
 TEC1=    2.92499999999996     
 TEC2=    2.92999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.12153277777747     
  %check_save_state: izleft hours =    72.8700000000000     
 --> plasma_hash("gframe"): TA= 2.925000E+00 NSTEP=  2650 Hash code:  119666682
 ->PRGCHK: bdy curvature ratio at t= 2.9300E+00 seconds is:  5.5947E-02
% MHDEQ: TG1=     2.925000 ; TG2=     2.930000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7697E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5947E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.925000 TO TG2=    2.930000 @ NSTEP     2650
   GFRAME TG2 MOMENTS CHECKSUM:  2.4774741225110D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.61222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.32543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       2= -8.89341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.64525E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.96758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.30234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.17193E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.36519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.22321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.69262E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.30705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.45631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.57272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.43158E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.65654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.03628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.72248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.91936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.93503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.51566E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.51566E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9300E+00  2.9350E+00 total power(Watts):  2.9911E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.93000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.390719E+02    0.402789E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.370260E+02    0.403286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.385487E+02    0.387659E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.408575E+02    0.392813E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.406890E+02    0.411938E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.383714E+02    0.418139E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.362611E+02    0.428933E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.349785E+02    0.416015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.348768E+02    0.399530E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.359410E+02    0.383614E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.377492E+02    0.372988E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.399650E+02    0.370217E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.419290E+02    0.376604E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.431797E+02    0.390048E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.433936E+02    0.406691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.422576E+02    0.422890E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.403932E+02    0.433359E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.381743E+02    0.435572E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.361672E+02    0.456607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.331683E+02    0.440457E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.318862E+02    0.413949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.323655E+02    0.385512E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.345963E+02    0.361074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.381312E+02    0.346834E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.421255E+02    0.347452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.454412E+02    0.363786E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133563E+03   -0.471873E+02    0.390787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133610E+03   -0.465422E+02    0.421321E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.436661E+02    0.447297E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.398903E+02    0.459603E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.402879E+02    0.319061E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.382182E+02    0.320172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.398488E+02    0.302612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.421919E+02    0.307401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.420359E+02    0.327627E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.395894E+02    0.335113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.374658E+02    0.346757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.361558E+02    0.334193E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.360413E+02    0.317079E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.372026E+02    0.299137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.390281E+02    0.287148E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.413750E+02    0.282819E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.433729E+02    0.289105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.446512E+02    0.303170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.447684E+02    0.321208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.436332E+02    0.338379E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.416462E+02    0.349947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.394039E+02    0.352870E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.370844E+02    0.376278E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.342446E+02    0.359906E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.329307E+02    0.333383E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.335749E+02    0.302359E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.359174E+02    0.274906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.396939E+02    0.257118E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.437595E+02    0.256360E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.471444E+02    0.272768E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133390E+03   -0.487043E+02    0.302266E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.477317E+02    0.335929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.449605E+02    0.362906E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.410447E+02    0.377304E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.388565E+02    0.455923E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.368163E+02    0.455958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.383371E+02    0.440655E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.406348E+02    0.446362E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.405706E+02    0.465037E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.381536E+02    0.470767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.361519E+02    0.480379E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.348683E+02    0.467508E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.348660E+02    0.451088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.356437E+02    0.436268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.375475E+02    0.425489E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.397580E+02    0.423154E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.417121E+02    0.429983E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.430635E+02    0.443758E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.433863E+02    0.460389E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.422478E+02    0.475866E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.402741E+02    0.485687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.381602E+02    0.487103E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.360438E+02    0.508469E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.330606E+02    0.490875E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.317877E+02    0.464851E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.322700E+02    0.436730E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.346007E+02    0.412118E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.380385E+02    0.399403E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.419199E+02    0.401333E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.452232E+02    0.418026E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133255E+03   -0.470732E+02    0.445703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.464224E+02    0.475943E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134121E+03   -0.437680E+02    0.500206E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.398672E+02    0.512316E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.395923E+02    0.364425E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.374353E+02    0.365681E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.390637E+02    0.348832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.413855E+02    0.353820E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.412209E+02    0.373566E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.387914E+02    0.380457E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.367802E+02    0.390924E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.355780E+02    0.378058E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.354694E+02    0.361260E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.364409E+02    0.345054E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.382559E+02    0.333872E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.404827E+02    0.330703E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.425659E+02    0.336473E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.438284E+02    0.350159E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.439357E+02    0.367773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.428014E+02    0.384271E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.409347E+02    0.394672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.387034E+02    0.397133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.365887E+02    0.418825E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.335775E+02    0.403038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.322817E+02    0.377228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.328447E+02    0.347573E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.351755E+02    0.321752E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.388299E+02    0.306168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.427507E+02    0.306735E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.459806E+02    0.323337E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133835E+03   -0.476244E+02    0.350983E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133582E+03   -0.471009E+02    0.381933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.441124E+02    0.408115E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.403261E+02    0.421249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.407916E+02    0.254274E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.386038E+02    0.256622E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.402324E+02    0.237530E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.427020E+02    0.241293E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.424562E+02    0.263582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.398959E+02    0.272846E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.377635E+02    0.285742E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.364425E+02    0.272843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.364081E+02    0.253979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.374668E+02    0.235295E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.393912E+02    0.221517E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.418510E+02    0.215489E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.438739E+02    0.221616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.451770E+02    0.236103E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.452017E+02    0.255928E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.439644E+02    0.275265E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.419745E+02    0.288085E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.397213E+02    0.291714E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.375017E+02    0.316133E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.345325E+02    0.300319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.332785E+02    0.272047E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.339045E+02    0.238894E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.363334E+02    0.208717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.402232E+02    0.187928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.443286E+02    0.185916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.476517E+02    0.203045E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133840E+03   -0.490259E+02    0.235044E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.481878E+02    0.270822E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.453124E+02    0.300721E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.413872E+02    0.316715E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692920.676768229     
  ps_ts2 prof sum =   692515.618300233     
  trcom prof sum =    692515.618300234     
  ps_ts2 cur sum  =   11116.7739897433     
  trcom cur sum  =    11116.7739897433     
  
  antenna # iant =            2
  powecha_use(iant) =    669259.242635133     
  ps_ts2 prof sum =   668909.887589282     
  trcom prof sum =    668909.887589281     
  ps_ts2 cur sum  =   12851.4374173540     
  trcom cur sum  =    12851.4374173540     
  
  antenna # iant =            3
  powecha_use(iant) =    531291.763049178     
  ps_ts2 prof sum =   530986.472525946     
  trcom prof sum =    530986.472525946     
  ps_ts2 cur sum  =   7424.30723303966     
  trcom cur sum  =    7424.30723303967     
  
  antenna # iant =            4
  powecha_use(iant) =    555547.576110930     
  ps_ts2 prof sum =   555263.521562057     
  trcom prof sum =    555263.521562057     
  ps_ts2 cur sum  =   9742.22651819933     
  trcom cur sum  =    9742.22651819932     
  
  antenna # iant =            5
  powecha_use(iant) =    542063.292913833     
  ps_ts2 prof sum =   541769.375950701     
  trcom prof sum =    541769.375950700     
  ps_ts2 cur sum  =   11457.0459855120     
  trcom cur sum  =    11457.0459855120     
  
  Total ECH heating:      2989444.87592822     
  Total Current Drive:    52591.7911438483     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2654
 TA= 2.93000E+00 CPU TIME= 1.59177E-01 SECONDS.  DT= 1.34310E-03
  
 TEC1=    2.92999999999996     
 TEC2=    2.93499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.13538333333281     
  %check_save_state: izleft hours =    72.8561111111111     
 --> plasma_hash("gframe"): TA= 2.930000E+00 NSTEP=  2654 Hash code:   45906559
 ->PRGCHK: bdy curvature ratio at t= 2.9350E+00 seconds is:  5.6058E-02
% MHDEQ: TG1=     2.930000 ; TG2=     2.935000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7687E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6058E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.930000 TO TG2=    2.935000 @ NSTEP     2654
   GFRAME TG2 MOMENTS CHECKSUM:  2.4769061703186D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9350E+00  2.9400E+00 total power(Watts):  2.9956E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.93500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.390880E+02    0.402808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.370451E+02    0.403284E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.385683E+02    0.387644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.408782E+02    0.392814E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.407097E+02    0.411959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.383910E+02    0.418141E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.362839E+02    0.428904E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.349968E+02    0.416009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.348946E+02    0.399530E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.359596E+02    0.383579E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.377685E+02    0.372933E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.399858E+02    0.370145E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.419502E+02    0.376565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.432016E+02    0.390042E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.434154E+02    0.406724E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.423898E+02    0.422584E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.404147E+02    0.433323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.381949E+02    0.435511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.361863E+02    0.456557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.331867E+02    0.440355E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.319036E+02    0.413928E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.323823E+02    0.385474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.346141E+02    0.360995E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.381508E+02    0.346773E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.421470E+02    0.347400E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.454637E+02    0.363740E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.472105E+02    0.390802E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133544E+03   -0.465657E+02    0.421357E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.436892E+02    0.447233E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.399114E+02    0.459559E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.403081E+02    0.319083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.382374E+02    0.320179E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.398684E+02    0.302670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.422124E+02    0.307460E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.420565E+02    0.327641E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.396094E+02    0.335089E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.374850E+02    0.346691E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.361743E+02    0.334157E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.360594E+02    0.317091E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.372216E+02    0.299180E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.389486E+02    0.287788E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.413955E+02    0.282841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.433944E+02    0.289150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.446726E+02    0.303252E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.447902E+02    0.321248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.436550E+02    0.338358E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.416677E+02    0.349886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.394241E+02    0.352809E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.371036E+02    0.376228E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.342613E+02    0.359827E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.329476E+02    0.333337E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.335924E+02    0.302379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.359360E+02    0.274892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.397148E+02    0.257118E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.437818E+02    0.256390E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.470554E+02    0.273410E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133324E+03   -0.487270E+02    0.302380E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133841E+03   -0.477512E+02    0.335943E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.449827E+02    0.362862E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.410654E+02    0.377258E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.389787E+02    0.455605E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.368359E+02    0.455904E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.383575E+02    0.440571E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.406581E+02    0.446275E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.405921E+02    0.465022E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.381735E+02    0.470781E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.361712E+02    0.480416E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.348868E+02    0.467509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.348848E+02    0.451010E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.356630E+02    0.436193E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.375673E+02    0.425470E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.397786E+02    0.423153E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.417335E+02    0.429979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.430870E+02    0.443677E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.432969E+02    0.460570E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.422699E+02    0.475906E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.402949E+02    0.485763E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.381811E+02    0.487146E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.360640E+02    0.508414E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.330775E+02    0.490900E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.318036E+02    0.464844E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.322877E+02    0.436638E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.346190E+02    0.412111E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.380579E+02    0.399416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.419410E+02    0.401356E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.452464E+02    0.418053E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133191E+03   -0.470975E+02    0.445647E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133318E+03   -0.464463E+02    0.475984E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134054E+03   -0.437912E+02    0.500240E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.398896E+02    0.512260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.396136E+02    0.364354E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.373582E+02    0.366052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.390834E+02    0.348769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.414066E+02    0.353759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.412418E+02    0.373519E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.388110E+02    0.380421E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.367988E+02    0.390911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.355963E+02    0.378011E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.354869E+02    0.361195E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.364596E+02    0.344988E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.382752E+02    0.333845E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.405028E+02    0.330698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.425868E+02    0.336460E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.438506E+02    0.350106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.439579E+02    0.367721E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.428229E+02    0.384253E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.409532E+02    0.394683E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.387230E+02    0.397135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.366088E+02    0.418820E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.335949E+02    0.403031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.322985E+02    0.377170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.328618E+02    0.347492E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.351936E+02    0.321740E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.388489E+02    0.306214E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.427714E+02    0.306805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134097E+03   -0.462281E+02    0.322413E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.476479E+02    0.350952E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.471242E+02    0.381922E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.443599E+02    0.407486E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.403468E+02    0.421258E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.408127E+02    0.254289E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.386250E+02    0.256610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.402533E+02    0.237579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.427233E+02    0.241360E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.424777E+02    0.263595E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.399162E+02    0.272847E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.377853E+02    0.285749E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.364615E+02    0.272825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.364276E+02    0.253971E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.374867E+02    0.235342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.394120E+02    0.221610E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.418725E+02    0.215626E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.438967E+02    0.221745E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.451999E+02    0.236203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.452247E+02    0.255967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.440933E+02    0.274692E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.419960E+02    0.288119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.397402E+02    0.291751E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.375205E+02    0.316154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.345503E+02    0.300343E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.332955E+02    0.272015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.339228E+02    0.238923E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.363533E+02    0.208805E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.402452E+02    0.188018E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.443522E+02    0.186044E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.476757E+02    0.203220E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.492766E+02    0.233882E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.482112E+02    0.270877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.453339E+02    0.300818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.414077E+02    0.316747E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691883.678934617     
  ps_ts2 prof sum =   691480.082326173     
  trcom prof sum =    691480.082326173     
  ps_ts2 cur sum  =   11074.3250397922     
  trcom cur sum  =    11074.3250397922     
  
  antenna # iant =            2
  powecha_use(iant) =    670620.888350319     
  ps_ts2 prof sum =   670244.400636134     
  trcom prof sum =    670244.400636133     
  ps_ts2 cur sum  =   12846.1122259086     
  trcom cur sum  =    12846.1122259086     
  
  antenna # iant =            3
  powecha_use(iant) =    529804.472117409     
  ps_ts2 prof sum =   529496.816696581     
  trcom prof sum =    529496.816696582     
  ps_ts2 cur sum  =   7389.63136966049     
  trcom cur sum  =    7389.63136966050     
  
  antenna # iant =            4
  powecha_use(iant) =    559230.305213506     
  ps_ts2 prof sum =   558950.845203684     
  trcom prof sum =    558950.845203684     
  ps_ts2 cur sum  =   9782.77682866761     
  trcom cur sum  =    9782.77682866760     
  
  antenna # iant =            5
  powecha_use(iant) =    544070.754490873     
  ps_ts2 prof sum =   543785.215722559     
  trcom prof sum =    543785.215722559     
  ps_ts2 cur sum  =   11470.1781427076     
  trcom cur sum  =    11470.1781427076     
  
  Total ECH heating:      2993957.36058513     
  Total Current Drive:    52563.0236067364     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2657
 TA= 2.93500E+00 CPU TIME= 1.46930E-01 SECONDS.  DT= 2.47254E-03
  
 TEC1=    2.93499999999996     
 TEC2=    2.93999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.15293194444439     
  %check_save_state: izleft hours =    72.8386111111111     
 --> plasma_hash("gframe"): TA= 2.935000E+00 NSTEP=  2657 Hash code:   31237425
 ->PRGCHK: bdy curvature ratio at t= 2.9400E+00 seconds is:  5.6169E-02
% MHDEQ: TG1=     2.935000 ; TG2=     2.940000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7677E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6169E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.935000 TO TG2=    2.940000 @ NSTEP     2657
   GFRAME TG2 MOMENTS CHECKSUM:  2.4763382181262D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.42557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.12710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.38121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.90991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.04505E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.57981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.97388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.44192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.38310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.20160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.43870E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.61721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.25080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.81132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.98430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.05702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.72584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.72584E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9400E+00  2.9450E+00 total power(Watts):  2.9994E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.94000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.391049E+02    0.402750E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.370577E+02    0.403228E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.385808E+02    0.387565E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.408915E+02    0.392752E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.407234E+02    0.411920E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.384040E+02    0.418082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.362968E+02    0.428791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.350087E+02    0.415942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.349062E+02    0.399466E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.359709E+02    0.383499E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.377811E+02    0.372811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.399984E+02    0.370032E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.419637E+02    0.376460E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.432155E+02    0.389980E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.434300E+02    0.406677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.424015E+02    0.422538E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.404294E+02    0.433201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.382088E+02    0.435366E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.361992E+02    0.456461E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.331989E+02    0.440192E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.319138E+02    0.413855E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.323924E+02    0.385390E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.346259E+02    0.360838E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.381638E+02    0.346616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.421605E+02    0.347268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.454786E+02    0.363599E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.472257E+02    0.390735E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133477E+03   -0.465818E+02    0.421302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.437051E+02    0.447083E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.399256E+02    0.459473E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.403226E+02    0.318996E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.382494E+02    0.320091E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.398801E+02    0.302634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.422252E+02    0.307422E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.420697E+02    0.327538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.396220E+02    0.334963E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.375000E+02    0.346522E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.361860E+02    0.334028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.360708E+02    0.317008E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.372321E+02    0.299137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.390596E+02    0.287133E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.414077E+02    0.282804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.434071E+02    0.289124E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.446855E+02    0.303233E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.448037E+02    0.321178E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.436687E+02    0.338242E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.416812E+02    0.349746E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.394367E+02    0.352662E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.371160E+02    0.376110E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.342734E+02    0.359670E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.329587E+02    0.333201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.336024E+02    0.302326E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.359464E+02    0.274819E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.397260E+02    0.257090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.437943E+02    0.256379E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.470688E+02    0.273380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133256E+03   -0.487408E+02    0.302374E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.477660E+02    0.335846E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.449979E+02    0.362717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.410786E+02    0.377155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.389924E+02    0.455506E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.368535E+02    0.455797E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.383718E+02    0.440419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.406724E+02    0.446134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.406064E+02    0.464970E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.381862E+02    0.470778E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.361843E+02    0.480429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.348986E+02    0.467473E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.348976E+02    0.450881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.356758E+02    0.436041E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.375804E+02    0.425387E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.397923E+02    0.423086E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.417483E+02    0.429885E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.431025E+02    0.443532E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.434254E+02    0.460265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.422844E+02    0.475915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.403093E+02    0.485784E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.381946E+02    0.487162E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.360776E+02    0.508335E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.330893E+02    0.490875E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.318157E+02    0.464793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.322996E+02    0.436485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.346311E+02    0.412046E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.380708E+02    0.399350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.419551E+02    0.401297E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134207E+03   -0.452617E+02    0.418017E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.471142E+02    0.445519E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133248E+03   -0.464624E+02    0.475993E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.438070E+02    0.500238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.399046E+02    0.512189E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.396266E+02    0.364211E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.374693E+02    0.365453E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.390965E+02    0.348615E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.414195E+02    0.353621E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.412550E+02    0.373411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.388234E+02    0.380331E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.368110E+02    0.390835E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.356075E+02    0.377902E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.354995E+02    0.361036E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.364719E+02    0.344832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.382874E+02    0.333721E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.405156E+02    0.330587E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.426005E+02    0.336337E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.438649E+02    0.349955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.439722E+02    0.367589E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.428369E+02    0.384164E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.409666E+02    0.394625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.387371E+02    0.397075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.366196E+02    0.418761E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.336067E+02    0.402965E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.323086E+02    0.377055E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.328729E+02    0.347334E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.352047E+02    0.321644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.388609E+02    0.306161E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.427842E+02    0.306773E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.460171E+02    0.323306E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133708E+03   -0.476630E+02    0.350825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.471392E+02    0.381836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.441537E+02    0.408100E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.403603E+02    0.421205E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.408241E+02    0.254272E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.386349E+02    0.256587E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.402651E+02    0.237638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.427360E+02    0.241401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.424901E+02    0.263562E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.399279E+02    0.272794E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.377974E+02    0.285698E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.364722E+02    0.272755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.364388E+02    0.253932E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.374979E+02    0.235396E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.394233E+02    0.221758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.418846E+02    0.215804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.439086E+02    0.221918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.452127E+02    0.236288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.452374E+02    0.255970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.440011E+02    0.275237E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.420073E+02    0.288099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.397522E+02    0.291724E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.375321E+02    0.316077E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.345606E+02    0.300295E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.333052E+02    0.271942E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.339325E+02    0.238934E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.363656E+02    0.208960E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.402568E+02    0.188254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.443643E+02    0.186316E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.475786E+02    0.204226E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133698E+03   -0.490635E+02    0.235311E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.482249E+02    0.270864E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.453470E+02    0.300799E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.414204E+02    0.316680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690065.165918487     
  ps_ts2 prof sum =   689663.949554563     
  trcom prof sum =    689663.949554563     
  ps_ts2 cur sum  =   11024.5054713514     
  trcom cur sum  =    11024.5054713514     
  
  antenna # iant =            2
  powecha_use(iant) =    668365.050109062     
  ps_ts2 prof sum =   668007.131211087     
  trcom prof sum =    668007.131211086     
  ps_ts2 cur sum  =   12770.0478493773     
  trcom cur sum  =    12770.0478493773     
  
  antenna # iant =            3
  powecha_use(iant) =    530716.596681173     
  ps_ts2 prof sum =   530413.969736742     
  trcom prof sum =    530413.969736743     
  ps_ts2 cur sum  =   7390.31534067885     
  trcom cur sum  =    7390.31534067886     
  
  antenna # iant =            4
  powecha_use(iant) =    566944.459706782     
  ps_ts2 prof sum =   566651.166336235     
  trcom prof sum =    566651.166336235     
  ps_ts2 cur sum  =   9896.66685122808     
  trcom cur sum  =    9896.66685122807     
  
  antenna # iant =            5
  powecha_use(iant) =    543355.281633910     
  ps_ts2 prof sum =   543061.307266533     
  trcom prof sum =    543061.307266533     
  ps_ts2 cur sum  =   11420.8017095840     
  trcom cur sum  =    11420.8017095840     
  
  Total ECH heating:      2997797.52410516     
  Total Current Drive:    52502.3372222196     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2659
 TA= 2.94000E+00 CPU TIME= 1.45668E-01 SECONDS.  DT= 3.15932E-03
  
 TEC1=    2.93999999999996     
 TEC2=    2.94499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.16667083333277     
  %check_save_state: izleft hours =    72.8250000000000     
 --> plasma_hash("gframe"): TA= 2.940000E+00 NSTEP=  2659 Hash code:   46068028
 ->PRGCHK: bdy curvature ratio at t= 2.9450E+00 seconds is:  5.6280E-02
% MHDEQ: TG1=     2.940000 ; TG2=     2.945000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7667E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6280E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.940000 TO TG2=    2.945000 @ NSTEP     2659
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757702659338D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9450E+00  2.9500E+00 total power(Watts):  2.9991E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.94500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.391167E+02    0.402661E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.370662E+02    0.403149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.385922E+02    0.387452E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.409036E+02    0.392650E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.407364E+02    0.411824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.383142E+02    0.418310E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.363087E+02    0.428626E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.350197E+02    0.415825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.349173E+02    0.399371E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.359812E+02    0.383373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.377915E+02    0.372653E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.400104E+02    0.369841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.419759E+02    0.376305E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.432283E+02    0.389859E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.434482E+02    0.406574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.423083E+02    0.422717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.404430E+02    0.433022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.382219E+02    0.435176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.362116E+02    0.456328E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.332099E+02    0.440001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.319233E+02    0.413749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.324024E+02    0.385260E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.346360E+02    0.360654E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.381744E+02    0.346459E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.421725E+02    0.347089E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.454917E+02    0.363416E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133366E+03   -0.472394E+02    0.390624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133410E+03   -0.465962E+02    0.421206E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.437201E+02    0.446892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.399393E+02    0.459350E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.403301E+02    0.318944E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.382585E+02    0.320020E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.398894E+02    0.302616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.422348E+02    0.307402E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.420808E+02    0.327434E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.396330E+02    0.334827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.375081E+02    0.346372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.361960E+02    0.333892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.360795E+02    0.316943E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.372408E+02    0.299110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.390681E+02    0.287117E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.414175E+02    0.282773E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.434163E+02    0.289129E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.446957E+02    0.303228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.448149E+02    0.321119E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.436807E+02    0.338101E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.416928E+02    0.349574E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.394476E+02    0.352480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.371261E+02    0.375962E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.342832E+02    0.359484E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.329677E+02    0.333068E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.336106E+02    0.302302E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.359558E+02    0.274755E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.397364E+02    0.257032E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.438045E+02    0.256354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.470795E+02    0.273359E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133187E+03   -0.487513E+02    0.302395E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133711E+03   -0.477785E+02    0.335724E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.450107E+02    0.362535E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.410909E+02    0.376993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.389010E+02    0.455620E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.368617E+02    0.455660E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.383848E+02    0.440220E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.406864E+02    0.445945E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.406201E+02    0.464883E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.381991E+02    0.470732E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.361968E+02    0.480402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.349109E+02    0.467418E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.349097E+02    0.450721E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.356880E+02    0.435852E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.375928E+02    0.425241E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.398053E+02    0.422962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.417622E+02    0.429731E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.431172E+02    0.443340E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.434389E+02    0.460155E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.422991E+02    0.475885E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.403234E+02    0.485762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.382076E+02    0.487135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.360911E+02    0.508221E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.331011E+02    0.490808E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.317351E+02    0.464998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.323104E+02    0.436288E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.346413E+02    0.411940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.380821E+02    0.399255E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.419678E+02    0.401208E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.452758E+02    0.417927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133059E+03   -0.471303E+02    0.445309E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133180E+03   -0.464779E+02    0.475952E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.438228E+02    0.500176E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.399193E+02    0.512078E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.396377E+02    0.364043E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.374800E+02    0.365280E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.391072E+02    0.348444E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.414314E+02    0.353436E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.412673E+02    0.373230E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.388346E+02    0.380191E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.366251E+02    0.391547E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.356179E+02    0.377755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.355099E+02    0.360851E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.364817E+02    0.344671E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.382975E+02    0.333588E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.405264E+02    0.330469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.426120E+02    0.336205E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.438768E+02    0.349795E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.439849E+02    0.367413E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.428493E+02    0.384039E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.409789E+02    0.394524E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.387476E+02    0.396983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.366318E+02    0.418638E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.336168E+02    0.402865E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.323181E+02    0.376904E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.328817E+02    0.347168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.352135E+02    0.321561E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.388694E+02    0.306136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.427940E+02    0.306755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.462532E+02    0.322279E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.476765E+02    0.350642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133396E+03   -0.471489E+02    0.381700E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.443880E+02    0.407362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.403737E+02    0.421080E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.408346E+02    0.254224E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.386455E+02    0.256522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.402746E+02    0.237663E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.427464E+02    0.241415E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.425002E+02    0.263514E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.399375E+02    0.272743E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.378053E+02    0.285670E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.364816E+02    0.272692E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.364472E+02    0.253881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.375070E+02    0.235430E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.394326E+02    0.221885E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.418936E+02    0.215984E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.439180E+02    0.222077E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.452234E+02    0.236354E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.452479E+02    0.255957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.441163E+02    0.274609E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.420209E+02    0.288071E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.397611E+02    0.291707E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.375409E+02    0.316018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.345688E+02    0.300259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.333137E+02    0.271861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.339422E+02    0.238920E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.363741E+02    0.209135E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.402647E+02    0.188527E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.443740E+02    0.186621E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.476952E+02    0.203802E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133198E+03   -0.493004E+02    0.234125E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.482359E+02    0.270847E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.453572E+02    0.300803E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.414303E+02    0.316632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693724.722682943     
  ps_ts2 prof sum =   693312.595193440     
  trcom prof sum =    693312.595193441     
  ps_ts2 cur sum  =   11053.5395755518     
  trcom cur sum  =    11053.5395755518     
  
  antenna # iant =            2
  powecha_use(iant) =    667415.244750797     
  ps_ts2 prof sum =   667057.474209190     
  trcom prof sum =    667057.474209189     
  ps_ts2 cur sum  =   12704.2788251541     
  trcom cur sum  =    12704.2788251541     
  
  antenna # iant =            3
  powecha_use(iant) =    530377.050661598     
  ps_ts2 prof sum =   530065.317292883     
  trcom prof sum =    530065.317292883     
  ps_ts2 cur sum  =   7372.13058931379     
  trcom cur sum  =    7372.13058931380     
  
  antenna # iant =            4
  powecha_use(iant) =    562933.582551034     
  ps_ts2 prof sum =   562649.924247382     
  trcom prof sum =    562649.924247382     
  ps_ts2 cur sum  =   9795.15031981111     
  trcom cur sum  =    9795.15031981110     
  
  antenna # iant =            5
  powecha_use(iant) =    544599.502409912     
  ps_ts2 prof sum =   544325.557326106     
  trcom prof sum =    544325.557326106     
  ps_ts2 cur sum  =   11399.1055802737     
  trcom cur sum  =    11399.1055802737     
  
  Total ECH heating:      2997410.86826900     
  Total Current Drive:    52324.2048901044     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2661
 TA= 2.94500E+00 CPU TIME= 1.67891E-01 SECONDS.  DT= 2.30085E-03
  
 TEC1=    2.94499999999996     
 TEC2=    2.94999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.17986555555512     
  %check_save_state: izleft hours =    72.8116666666667     
 --> plasma_hash("gframe"): TA= 2.945000E+00 NSTEP=  2661 Hash code:   56183467
 ->PRGCHK: bdy curvature ratio at t= 2.9500E+00 seconds is:  5.6391E-02
% MHDEQ: TG1=     2.945000 ; TG2=     2.950000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6391E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.945000 TO TG2=    2.950000 @ NSTEP     2661
   GFRAME TG2 MOMENTS CHECKSUM:  2.4752023180751D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.23891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.92877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.60763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.11718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.85224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.25556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.91816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.33614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.93642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.25515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.57679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.30988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.83048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.44581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.57788E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.46530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.90015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.04925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.17901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.80950E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.80950E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  2.9500E+00  2.9550E+00 total power(Watts):  2.9989E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.95000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.391286E+02    0.402600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.370803E+02    0.403069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.386036E+02    0.387371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.409158E+02    0.392585E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.407489E+02    0.411766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.384285E+02    0.417888E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.363209E+02    0.428485E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.350307E+02    0.415746E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.349279E+02    0.399292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.359925E+02    0.383266E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.378026E+02    0.372514E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.400225E+02    0.369691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.419888E+02    0.376164E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.432411E+02    0.389793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.434566E+02    0.406538E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.424313E+02    0.422337E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.404562E+02    0.432881E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.382344E+02    0.435029E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.362230E+02    0.456263E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.332212E+02    0.439844E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.319341E+02    0.413663E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.324123E+02    0.385172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.346466E+02    0.360474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.383855E+02    0.345303E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.421846E+02    0.346942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.455054E+02    0.363253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133300E+03   -0.472532E+02    0.390560E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133343E+03   -0.466107E+02    0.421147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.437319E+02    0.446752E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.399521E+02    0.459294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.403420E+02    0.318885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.382727E+02    0.319931E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.399037E+02    0.302616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.422462E+02    0.307406E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.420929E+02    0.327347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.396441E+02    0.334695E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.375191E+02    0.346199E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.362066E+02    0.333765E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.360902E+02    0.316876E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.372508E+02    0.299128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.390783E+02    0.287177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.414286E+02    0.282837E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.434279E+02    0.289207E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.447075E+02    0.303272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.448274E+02    0.321064E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.436932E+02    0.337972E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.417046E+02    0.349414E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.394601E+02    0.352302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.373349E+02    0.374964E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.342939E+02    0.359305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.329771E+02    0.332938E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.336203E+02    0.302283E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.359655E+02    0.274800E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.397471E+02    0.257121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.438163E+02    0.256467E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.470915E+02    0.273467E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.487638E+02    0.302453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133212E+03   -0.480234E+02    0.334727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.450242E+02    0.362372E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.411031E+02    0.376872E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.390177E+02    0.455286E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.368734E+02    0.455593E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.383975E+02    0.440070E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.407003E+02    0.445798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.406332E+02    0.464872E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.382119E+02    0.470722E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.362087E+02    0.480407E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.349227E+02    0.467396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.349205E+02    0.450624E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.357002E+02    0.435698E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.376051E+02    0.425124E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.398180E+02    0.422867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.418847E+02    0.429318E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.431313E+02    0.443197E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.433410E+02    0.460303E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.423119E+02    0.475920E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.403368E+02    0.485764E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.382200E+02    0.487127E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.361037E+02    0.508127E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.331127E+02    0.490760E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.317465E+02    0.464968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.323211E+02    0.436132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.346529E+02    0.411865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.380937E+02    0.399204E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.419804E+02    0.401161E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.452898E+02    0.417875E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132994E+03   -0.471457E+02    0.445175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133111E+03   -0.464926E+02    0.475991E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133846E+03   -0.438378E+02    0.500138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.399338E+02    0.511984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.396497E+02    0.363870E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.373928E+02    0.365564E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.391186E+02    0.348280E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.414438E+02    0.353271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.412797E+02    0.373087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.388464E+02    0.380072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.368326E+02    0.390665E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.356284E+02    0.377640E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.355206E+02    0.360678E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.364930E+02    0.344500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.383090E+02    0.333463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.405382E+02    0.330363E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.426240E+02    0.336083E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.438894E+02    0.349642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.439980E+02    0.367250E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.428622E+02    0.383943E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.409910E+02    0.394466E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.387589E+02    0.396924E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.366436E+02    0.418548E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.336275E+02    0.402796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.323275E+02    0.376783E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.328920E+02    0.346992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.352240E+02    0.321476E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.388806E+02    0.306126E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.428055E+02    0.306766E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.462660E+02    0.322225E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.476899E+02    0.350512E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133323E+03   -0.471667E+02    0.381587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.444017E+02    0.407323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.403866E+02    0.421002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.408456E+02    0.254327E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.386560E+02    0.256605E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.402852E+02    0.237820E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.427577E+02    0.241572E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.425113E+02    0.263613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.399482E+02    0.272819E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.378153E+02    0.285733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.364917E+02    0.272740E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.364577E+02    0.253959E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.375178E+02    0.235566E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.394435E+02    0.222098E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.419048E+02    0.216252E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.439301E+02    0.222326E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.452352E+02    0.236554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.452600E+02    0.256080E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.441278E+02    0.274699E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.420278E+02    0.288158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.397715E+02    0.291762E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.375520E+02    0.315957E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.345783E+02    0.300261E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.333227E+02    0.271900E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.339515E+02    0.239025E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.363830E+02    0.209393E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.402781E+02    0.188830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.443859E+02    0.186999E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.476009E+02    0.204884E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.490870E+02    0.235646E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133675E+03   -0.482481E+02    0.270970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.453690E+02    0.300859E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.414420E+02    0.316586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    695171.697573054     
  ps_ts2 prof sum =   694781.115335207     
  trcom prof sum =    694781.115335207     
  ps_ts2 cur sum  =   11051.9918679720     
  trcom cur sum  =    11051.9918679720     
  
  antenna # iant =            2
  powecha_use(iant) =    670840.043953200     
  ps_ts2 prof sum =   670505.578404511     
  trcom prof sum =    670505.578404509     
  ps_ts2 cur sum  =   12735.5308159930     
  trcom cur sum  =    12735.5308159930     
  
  antenna # iant =            3
  powecha_use(iant) =    529557.057436878     
  ps_ts2 prof sum =   529247.235328476     
  trcom prof sum =    529247.235328477     
  ps_ts2 cur sum  =   7346.71042555837     
  trcom cur sum  =    7346.71042555837     
  
  antenna # iant =            4
  powecha_use(iant) =    560301.824750665     
  ps_ts2 prof sum =   560019.713683048     
  trcom prof sum =    560019.713683048     
  ps_ts2 cur sum  =   9726.05456148840     
  trcom cur sum  =    9726.05456148838     
  
  antenna # iant =            5
  powecha_use(iant) =    543076.596213578     
  ps_ts2 prof sum =   542791.159984404     
  trcom prof sum =    542791.159984404     
  ps_ts2 cur sum  =   11331.0782371168     
  trcom cur sum  =    11331.0782371168     
  
  Total ECH heating:      2997344.80273564     
  Total Current Drive:    52191.3659081285     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2663
 TA= 2.95000E+00 CPU TIME= 1.65307E-01 SECONDS.  DT= 3.37394E-03
  
 TEC1=    2.94999999999996     
 TEC2=    2.95499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.19378277777787     
  %check_save_state: izleft hours =    72.7977777777778     
 --> plasma_hash("gframe"): TA= 2.950000E+00 NSTEP=  2663 Hash code:   45935543
 ->PRGCHK: bdy curvature ratio at t= 2.9550E+00 seconds is:  5.6502E-02
% MHDEQ: TG1=     2.950000 ; TG2=     2.955000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6502E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.950000 TO TG2=    2.955000 @ NSTEP     2663
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746343702163D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9550E+00  2.9600E+00 total power(Watts):  2.9949E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.95500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.391422E+02    0.402579E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.368951E+02    0.403798E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.386166E+02    0.387327E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.409296E+02    0.392550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.407626E+02    0.411732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.383398E+02    0.418156E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.363338E+02    0.428346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.350431E+02    0.415669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.349397E+02    0.399262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.360047E+02    0.383193E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.378159E+02    0.372384E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.400361E+02    0.369554E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.420030E+02    0.376058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.432554E+02    0.389758E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.434710E+02    0.406526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.423365E+02    0.422557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.404708E+02    0.432746E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.382481E+02    0.434887E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.362353E+02    0.456213E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.332330E+02    0.439697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.319454E+02    0.413577E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.324232E+02    0.385105E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.346591E+02    0.360287E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.381992E+02    0.346072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.421994E+02    0.346721E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.455211E+02    0.363065E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133235E+03   -0.472685E+02    0.390536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133270E+03   -0.466305E+02    0.421083E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.437505E+02    0.446621E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.399665E+02    0.459249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.403560E+02    0.318714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.382832E+02    0.319764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.399135E+02    0.302554E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.422609E+02    0.307306E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.421074E+02    0.327147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.395567E+02    0.334984E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.375317E+02    0.345981E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.362196E+02    0.333540E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.361028E+02    0.316709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.370719E+02    0.300251E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.390915E+02    0.287211E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.413381E+02    0.283525E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.434415E+02    0.289252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.447227E+02    0.303205E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.448387E+02    0.320912E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.437087E+02    0.337751E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.417206E+02    0.349191E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.394738E+02    0.352095E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.371502E+02    0.375723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.343059E+02    0.359114E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.329886E+02    0.332718E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.336317E+02    0.302180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.359768E+02    0.274892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.397593E+02    0.257300E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.437236E+02    0.257315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.469941E+02    0.274220E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133052E+03   -0.487795E+02    0.302421E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133586E+03   -0.478090E+02    0.335404E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.450399E+02    0.362180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.411171E+02    0.376765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.389278E+02    0.455468E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.368860E+02    0.455528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.384113E+02    0.439924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.407146E+02    0.445671E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.406472E+02    0.464857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.382247E+02    0.470753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.362217E+02    0.480418E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.349351E+02    0.467402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.349344E+02    0.450516E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.357131E+02    0.435542E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.376184E+02    0.425013E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.398321E+02    0.422763E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.417907E+02    0.429493E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.431514E+02    0.443046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.434684E+02    0.460045E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.423275E+02    0.475945E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.403515E+02    0.485781E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.381309E+02    0.487307E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.361175E+02    0.508052E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.331258E+02    0.490703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.317572E+02    0.464970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.323329E+02    0.435975E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.346639E+02    0.411809E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.381067E+02    0.399159E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.419945E+02    0.401142E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.453053E+02    0.417839E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132929E+03   -0.471626E+02    0.445043E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133043E+03   -0.465083E+02    0.476054E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.438545E+02    0.500105E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.399492E+02    0.511914E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.396632E+02    0.363693E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.375048E+02    0.364943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.391318E+02    0.348076E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.414550E+02    0.353076E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.412936E+02    0.372968E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.388597E+02    0.379989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.366468E+02    0.391436E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.356402E+02    0.377544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.355335E+02    0.360485E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.365052E+02    0.344292E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.383226E+02    0.333243E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.405524E+02    0.330153E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.426393E+02    0.335864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.439052E+02    0.349425E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.440135E+02    0.367074E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.428765E+02    0.383884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.410046E+02    0.394442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.387723E+02    0.396885E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.366567E+02    0.418449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.336385E+02    0.402762E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.323389E+02    0.376672E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.329031E+02    0.346772E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.352360E+02    0.321294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.388889E+02    0.306049E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.428203E+02    0.306669E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.462820E+02    0.322050E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.477068E+02    0.350289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133259E+03   -0.471822E+02    0.381512E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.444161E+02    0.407312E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.404009E+02    0.420917E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.408579E+02    0.254522E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.386680E+02    0.256777E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.402976E+02    0.238046E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.426673E+02    0.242485E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.425244E+02    0.263787E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.399612E+02    0.272925E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.378279E+02    0.285762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.365032E+02    0.272846E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.364690E+02    0.254119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.375294E+02    0.235773E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.395527E+02    0.221600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.419174E+02    0.216527E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.439443E+02    0.222600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.452486E+02    0.236823E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.452734E+02    0.256308E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.440344E+02    0.275443E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.420415E+02    0.288196E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.397890E+02    0.291752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.375645E+02    0.315799E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.345903E+02    0.300180E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.333360E+02    0.271982E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.339624E+02    0.239199E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.363954E+02    0.209620E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.402913E+02    0.189114E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.444001E+02    0.187322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.476151E+02    0.205231E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133471E+03   -0.491009E+02    0.235962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133600E+03   -0.482620E+02    0.271171E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.453844E+02    0.300811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.414565E+02    0.316419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689160.514124130     
  ps_ts2 prof sum =   688738.385603919     
  trcom prof sum =    688738.385603919     
  ps_ts2 cur sum  =   10939.5262857625     
  trcom cur sum  =    10939.5262857625     
  
  antenna # iant =            2
  powecha_use(iant) =    667071.011381431     
  ps_ts2 prof sum =   666682.460149438     
  trcom prof sum =    666682.460149437     
  ps_ts2 cur sum  =   12634.2430776689     
  trcom cur sum  =    12634.2430776689     
  
  antenna # iant =            3
  powecha_use(iant) =    529279.192296609     
  ps_ts2 prof sum =   528969.125868996     
  trcom prof sum =    528969.125868996     
  ps_ts2 cur sum  =   7335.28340493013     
  trcom cur sum  =    7335.28340493014     
  
  antenna # iant =            4
  powecha_use(iant) =    565858.898700161     
  ps_ts2 prof sum =   565576.226869874     
  trcom prof sum =    565576.226869874     
  ps_ts2 cur sum  =   9804.27368586579     
  trcom cur sum  =    9804.27368586578     
  
  antenna # iant =            5
  powecha_use(iant) =    543540.147561392     
  ps_ts2 prof sum =   543273.127242038     
  trcom prof sum =    543273.127242038     
  ps_ts2 cur sum  =   11306.3653721864     
  trcom cur sum  =    11306.3653721864     
  
  Total ECH heating:      2993239.32573426     
  Total Current Drive:    52019.6918264138     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2665
 TA= 2.95500E+00 CPU TIME= 1.60253E-01 SECONDS.  DT= 2.03258E-03
  
 TEC1=    2.95499999999996     
 TEC2=    2.95999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.20647638888840     
  %check_save_state: izleft hours =    72.7850000000000     
 --> plasma_hash("gframe"): TA= 2.955000E+00 NSTEP=  2665 Hash code:   87814814
 ->PRGCHK: bdy curvature ratio at t= 2.9600E+00 seconds is:  5.6564E-02
% MHDEQ: TG1=     2.955000 ; TG2=     2.960000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6564E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.955000 TO TG2=    2.960000 @ NSTEP     2665
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746344308861D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.12268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.90616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.81354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.25571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.77495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.31404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.76631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.36786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.55142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.18756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.58045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  4.13491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.71294E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.35933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.56254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.51712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.79008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.93575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.23319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.71836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.71836E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9600E+00  2.9650E+00 total power(Watts):  2.9969E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.96000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.391488E+02    0.402458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.369009E+02    0.403681E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.385219E+02    0.387577E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.409369E+02    0.392412E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.407675E+02    0.411611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.383463E+02    0.418021E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.363396E+02    0.428207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.350491E+02    0.415545E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.350410E+02    0.398747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.360111E+02    0.383059E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.378226E+02    0.372221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.400430E+02    0.369393E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.420103E+02    0.375910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.432635E+02    0.389608E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.434784E+02    0.406410E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.423438E+02    0.422420E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.404774E+02    0.432602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.382543E+02    0.434745E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.362409E+02    0.456089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.332379E+02    0.439558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.319506E+02    0.413446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.324281E+02    0.384971E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.346658E+02    0.360107E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.382066E+02    0.345879E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.422078E+02    0.346538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.455299E+02    0.362887E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133217E+03   -0.472770E+02    0.390407E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133259E+03   -0.466351E+02    0.420955E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.437578E+02    0.446474E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.399729E+02    0.459118E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.403640E+02    0.318600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.382901E+02    0.319643E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.398201E+02    0.303061E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.422684E+02    0.307249E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.421159E+02    0.327003E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.395643E+02    0.334819E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.375394E+02    0.345791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.362262E+02    0.333386E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.361092E+02    0.316602E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.370789E+02    0.300206E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.390985E+02    0.287225E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.413457E+02    0.283567E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.434497E+02    0.289269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.447312E+02    0.303173E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.448517E+02    0.320779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.437172E+02    0.337589E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.417277E+02    0.349011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.394812E+02    0.351917E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.371568E+02    0.375567E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.343131E+02    0.358932E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.329947E+02    0.332560E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.336380E+02    0.302117E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.359830E+02    0.274938E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.397667E+02    0.257423E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.437317E+02    0.257457E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134098E+03   -0.470022E+02    0.274333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133030E+03   -0.487891E+02    0.302389E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.478183E+02    0.335254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.450484E+02    0.361998E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.411241E+02    0.376622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.389339E+02    0.455338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.368917E+02    0.455405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.384180E+02    0.439778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.407213E+02    0.445525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.406536E+02    0.464723E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.382348E+02    0.470620E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.362271E+02    0.480273E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.349405E+02    0.467277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.349385E+02    0.450391E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.357182E+02    0.435408E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.376247E+02    0.424868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.398386E+02    0.422630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.417980E+02    0.429339E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.431496E+02    0.442902E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.434753E+02    0.459914E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.422234E+02    0.476015E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.403576E+02    0.485634E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.381368E+02    0.487153E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.361227E+02    0.507878E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.331308E+02    0.490543E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.317649E+02    0.464848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.322478E+02    0.436157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.344809E+02    0.412425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.381132E+02    0.399035E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.420017E+02    0.401024E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133989E+03   -0.453132E+02    0.417707E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132912E+03   -0.471708E+02    0.444874E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133024E+03   -0.465158E+02    0.475926E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.438612E+02    0.499926E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.399552E+02    0.511726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.396740E+02    0.363507E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.375117E+02    0.364763E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.391399E+02    0.347884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.414665E+02    0.352876E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.413011E+02    0.372809E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.388664E+02    0.379845E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.366552E+02    0.391287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.356465E+02    0.377393E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.355394E+02    0.360314E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.365112E+02    0.344116E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.383300E+02    0.333083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.405604E+02    0.329997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.426475E+02    0.335694E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.439138E+02    0.349238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.440217E+02    0.366905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.428845E+02    0.383722E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.410120E+02    0.394295E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.387790E+02    0.396760E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.366627E+02    0.418321E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.336438E+02    0.402643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.323440E+02    0.376527E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.329092E+02    0.346594E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.353356E+02    0.320603E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.389007E+02    0.305966E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.428285E+02    0.306614E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.460663E+02    0.322897E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133504E+03   -0.477164E+02    0.350099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133241E+03   -0.471908E+02    0.381366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.441989E+02    0.407841E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.404075E+02    0.420780E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.407651E+02    0.255316E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.384818E+02    0.258233E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.403066E+02    0.238217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.426752E+02    0.242667E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.425317E+02    0.263913E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.399682E+02    0.273009E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.378343E+02    0.285783E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.365108E+02    0.272893E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.364760E+02    0.254240E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.375366E+02    0.235947E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.395605E+02    0.221825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.419256E+02    0.216776E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.439528E+02    0.222850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.452571E+02    0.237040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.452818E+02    0.256465E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.440424E+02    0.275526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.420493E+02    0.288216E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.397922E+02    0.291757E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.375686E+02    0.315705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.345057E+02    0.300735E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.333410E+02    0.272030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.339692E+02    0.239344E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.364034E+02    0.209843E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.401070E+02    0.191017E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.444091E+02    0.187668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133988E+03   -0.476243E+02    0.205562E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.491099E+02    0.236212E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.482708E+02    0.271298E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.453930E+02    0.300792E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.414645E+02    0.316317E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687771.936041026     
  ps_ts2 prof sum =   687366.638691026     
  trcom prof sum =    687366.638691027     
  ps_ts2 cur sum  =   10924.3902915402     
  trcom cur sum  =    10924.3902915402     
  
  antenna # iant =            2
  powecha_use(iant) =    669270.171761440     
  ps_ts2 prof sum =   668885.572592519     
  trcom prof sum =    668885.572592518     
  ps_ts2 cur sum  =   12670.6109709883     
  trcom cur sum  =    12670.6109709883     
  
  antenna # iant =            3
  powecha_use(iant) =    529832.061830040     
  ps_ts2 prof sum =   529503.455346213     
  trcom prof sum =    529503.455346213     
  ps_ts2 cur sum  =   7353.16790415704     
  trcom cur sum  =    7353.16790415705     
  
  antenna # iant =            4
  powecha_use(iant) =    565919.435960965     
  ps_ts2 prof sum =   565629.636377944     
  trcom prof sum =    565629.636377944     
  ps_ts2 cur sum  =   9806.79440442310     
  trcom cur sum  =    9806.79440442309     
  
  antenna # iant =            5
  powecha_use(iant) =    544112.112545459     
  ps_ts2 prof sum =   543815.177101892     
  trcom prof sum =    543815.177101892     
  ps_ts2 cur sum  =   11304.8661183619     
  trcom cur sum  =    11304.8661183619     
  
  Total ECH heating:      2995200.48010959     
  Total Current Drive:    52059.8296894705     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2668
 TA= 2.96000E+00 CPU TIME= 1.81313E-01 SECONDS.  DT= 5.33382E-04
  
 TEC1=    2.95999999999996     
 TEC2=    2.96499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.22249888888837     
  %check_save_state: izleft hours =    72.7691666666667     
 --> plasma_hash("gframe"): TA= 2.960000E+00 NSTEP=  2668 Hash code:   30139068
 ->PRGCHK: bdy curvature ratio at t= 2.9650E+00 seconds is:  5.6630E-02
% MHDEQ: TG1=     2.960000 ; TG2=     2.965000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7643E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6630E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.960000 TO TG2=    2.965000 @ NSTEP     2668
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746344915560D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  2.9650E+00  2.9700E+00 total power(Watts):  3.0008E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.96500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.391543E+02    0.402363E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.369062E+02    0.403584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.386293E+02    0.387077E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.409423E+02    0.392341E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.407754E+02    0.411514E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.383514E+02    0.417914E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.363446E+02    0.428070E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.350535E+02    0.415439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.349484E+02    0.399055E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.360163E+02    0.382956E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.378285E+02    0.372093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.400498E+02    0.369247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.420169E+02    0.375790E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.432733E+02    0.389508E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.434848E+02    0.406326E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.423500E+02    0.422304E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.404837E+02    0.432458E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.382599E+02    0.434594E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.362451E+02    0.455973E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.332432E+02    0.439412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.319549E+02    0.413338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.324329E+02    0.384861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.346715E+02    0.359959E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.382132E+02    0.345737E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.422152E+02    0.346390E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.455377E+02    0.362733E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133197E+03   -0.472842E+02    0.390316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.466420E+02    0.420851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.437640E+02    0.446335E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.399807E+02    0.459003E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.403708E+02    0.318500E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.382971E+02    0.319541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.398275E+02    0.303033E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.422763E+02    0.307202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.421237E+02    0.326886E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.395718E+02    0.334682E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.375457E+02    0.345647E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.362328E+02    0.333246E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.361159E+02    0.316507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.370858E+02    0.300174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.391056E+02    0.287258E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.413533E+02    0.283633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.434577E+02    0.289315E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.447392E+02    0.303156E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.448599E+02    0.320682E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.437252E+02    0.337454E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.417354E+02    0.348854E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.394881E+02    0.351761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.371624E+02    0.375445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.343187E+02    0.358786E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.330006E+02    0.332421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.336439E+02    0.302074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.359901E+02    0.275012E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.397732E+02    0.257597E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.437396E+02    0.257655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134071E+03   -0.470108E+02    0.274469E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133008E+03   -0.487979E+02    0.302392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133116E+03   -0.480584E+02    0.334225E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.450563E+02    0.361846E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.411306E+02    0.376500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.389388E+02    0.455210E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.368963E+02    0.455280E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.384235E+02    0.439631E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.407269E+02    0.445397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.406579E+02    0.464640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.382306E+02    0.470520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.362317E+02    0.480162E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.349431E+02    0.467200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.349427E+02    0.450270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.357234E+02    0.435260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.376298E+02    0.424730E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.398446E+02    0.422505E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.418040E+02    0.429213E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.431604E+02    0.442765E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.434804E+02    0.459813E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.422285E+02    0.475912E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.403624E+02    0.485513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.381409E+02    0.487027E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.361271E+02    0.507702E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.331342E+02    0.490407E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.317612E+02    0.464751E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.323428E+02    0.435686E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.344859E+02    0.412310E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.381186E+02    0.398953E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.420042E+02    0.400942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.453200E+02    0.417606E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132893E+03   -0.471775E+02    0.444747E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133006E+03   -0.465220E+02    0.475815E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133742E+03   -0.438666E+02    0.499776E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.399589E+02    0.511575E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.396725E+02    0.363384E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.375177E+02    0.364620E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.391471E+02    0.347727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.414739E+02    0.352721E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.413075E+02    0.372687E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.388727E+02    0.379727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.366605E+02    0.391194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.356517E+02    0.377281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.355458E+02    0.360165E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.365184E+02    0.343958E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.383368E+02    0.332946E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.405679E+02    0.329875E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.426510E+02    0.335581E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.439216E+02    0.349085E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.440292E+02    0.366766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.428912E+02    0.383615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.410175E+02    0.394230E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.387844E+02    0.396675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.366676E+02    0.418208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.336485E+02    0.402553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.323490E+02    0.376408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.329155E+02    0.346436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.352491E+02    0.321050E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.389079E+02    0.305914E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.428359E+02    0.306577E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.462996E+02    0.321823E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133487E+03   -0.477250E+02    0.349954E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133222E+03   -0.471982E+02    0.381261E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.442055E+02    0.407757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.404134E+02    0.420664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.407719E+02    0.255511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.384890E+02    0.258393E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.403142E+02    0.238450E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.426827E+02    0.242910E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.424357E+02    0.264699E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.399748E+02    0.273115E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.378414E+02    0.285817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.365157E+02    0.273000E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.364845E+02    0.254386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.375439E+02    0.236167E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.395685E+02    0.222085E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.419350E+02    0.217070E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.439566E+02    0.223184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.452653E+02    0.237319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.452898E+02    0.256675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.440498E+02    0.275649E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.420571E+02    0.288259E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.397995E+02    0.291773E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.375786E+02    0.315597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.345122E+02    0.300701E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.333460E+02    0.272121E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.339754E+02    0.239538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.364076E+02    0.210139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.401163E+02    0.191346E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.443165E+02    0.188809E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.476339E+02    0.205938E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.491188E+02    0.236528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133546E+03   -0.482791E+02    0.271455E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.454013E+02    0.300786E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.414716E+02    0.316230E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692432.215470733     
  ps_ts2 prof sum =   692012.832912427     
  trcom prof sum =    692012.832912428     
  ps_ts2 cur sum  =   11002.4842280401     
  trcom cur sum  =    11002.4842280401     
  
  antenna # iant =            2
  powecha_use(iant) =    668551.072576133     
  ps_ts2 prof sum =   668175.301463400     
  trcom prof sum =    668175.301463399     
  ps_ts2 cur sum  =   12655.7925945945     
  trcom cur sum  =    12655.7925945945     
  
  antenna # iant =            3
  powecha_use(iant) =    530596.039356360     
  ps_ts2 prof sum =   530270.532513774     
  trcom prof sum =    530270.532513775     
  ps_ts2 cur sum  =   7368.78353556952     
  trcom cur sum  =    7368.78353556952     
  
  antenna # iant =            4
  powecha_use(iant) =    566020.258086934     
  ps_ts2 prof sum =   565728.966354936     
  trcom prof sum =    565728.966354936     
  ps_ts2 cur sum  =   9810.62796798543     
  trcom cur sum  =    9810.62796798542     
  
  antenna # iant =            5
  powecha_use(iant) =    543226.856179159     
  ps_ts2 prof sum =   542926.270020998     
  trcom prof sum =    542926.270020997     
  ps_ts2 cur sum  =   11278.8475313658     
  trcom cur sum  =    11278.8475313658     
  
  Total ECH heating:      2999113.90326553     
  Total Current Drive:    52116.5358575554     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2674
 TA= 2.96500E+00 CPU TIME= 1.64256E-01 SECONDS.  DT= 7.78145E-04
  
 TEC1=    2.96499999999996     
 TEC2=    2.96999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.24035749999985     
  %check_save_state: izleft hours =    72.7511111111111     
 --> plasma_hash("gframe"): TA= 2.965000E+00 NSTEP=  2674 Hash code:   42595871
 ->PRGCHK: bdy curvature ratio at t= 2.9700E+00 seconds is:  5.6700E-02
% MHDEQ: TG1=     2.965000 ; TG2=     2.970000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6700E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.965000 TO TG2=    2.970000 @ NSTEP     2674
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746345522259D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.07304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.07209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.69912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.84214E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.66989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.81166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.46615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.57469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.45236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.49803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.73623E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.44221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.83499E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.94420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.16419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.57192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.31317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.45519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.61933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.21844E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.21407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.21407E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9700E+00  2.9750E+00 total power(Watts):  3.0026E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.97000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.391604E+02    0.402241E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.369122E+02    0.403462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.385339E+02    0.387351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.409498E+02    0.392197E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.407821E+02    0.411392E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.383575E+02    0.417779E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.363505E+02    0.427913E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.350589E+02    0.415300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.350511E+02    0.398539E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.360222E+02    0.382818E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.378349E+02    0.371930E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.400567E+02    0.369074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.420244E+02    0.375620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.432773E+02    0.389386E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.434921E+02    0.406199E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.423572E+02    0.422154E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.404901E+02    0.432300E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.382660E+02    0.434436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.362503E+02    0.455838E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.332473E+02    0.439255E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.319590E+02    0.413211E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.324380E+02    0.384727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.346774E+02    0.359779E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.382196E+02    0.345567E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.422232E+02    0.346202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.455461E+02    0.362548E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133179E+03   -0.472924E+02    0.390182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133222E+03   -0.466497E+02    0.420710E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.437711E+02    0.446169E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.399836E+02    0.458877E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.403783E+02    0.318388E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.383041E+02    0.319417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.398347E+02    0.302985E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.422840E+02    0.307140E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.421312E+02    0.326746E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.395786E+02    0.334523E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.375529E+02    0.345467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.362392E+02    0.333089E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.361225E+02    0.316395E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.370925E+02    0.300137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.391147E+02    0.287278E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.413604E+02    0.283698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.434655E+02    0.289354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.447473E+02    0.303123E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.448684E+02    0.320564E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.437334E+02    0.337273E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.417430E+02    0.348669E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.394952E+02    0.351577E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.371689E+02    0.375289E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.343243E+02    0.358601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.330064E+02    0.332261E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.336497E+02    0.302012E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.359963E+02    0.275101E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.397808E+02    0.257767E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.437471E+02    0.257856E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.470185E+02    0.274620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132985E+03   -0.488068E+02    0.302376E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133532E+03   -0.478364E+02    0.334959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.450646E+02    0.361652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.411378E+02    0.376333E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.389446E+02    0.455078E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.369014E+02    0.455162E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.384289E+02    0.439476E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.407333E+02    0.445230E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.406646E+02    0.464497E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.382413E+02    0.470405E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.362360E+02    0.480038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.350459E+02    0.466819E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.349479E+02    0.450129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.357297E+02    0.435096E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.376358E+02    0.424587E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.398509E+02    0.422364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.418109E+02    0.429055E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.431672E+02    0.442609E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.432629E+02    0.460107E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.422347E+02    0.475792E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.403680E+02    0.485380E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.381467E+02    0.486882E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.361319E+02    0.507533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.331384E+02    0.490266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.317699E+02    0.464628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.322571E+02    0.435857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.344908E+02    0.412198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.381248E+02    0.398832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.420151E+02    0.400808E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.453276E+02    0.417473E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132876E+03   -0.471850E+02    0.444594E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132987E+03   -0.465290E+02    0.475697E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133724E+03   -0.438725E+02    0.499630E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.399646E+02    0.511396E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.396841E+02    0.363188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.375242E+02    0.364443E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.391540E+02    0.347547E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.414814E+02    0.352535E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.413148E+02    0.372513E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.388792E+02    0.379578E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.366665E+02    0.391067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.356579E+02    0.377126E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.355519E+02    0.359985E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.365255E+02    0.343771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.383438E+02    0.332787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.405752E+02    0.329729E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.426632E+02    0.335391E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.439299E+02    0.348902E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.440371E+02    0.366573E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.428981E+02    0.383491E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.410242E+02    0.394103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.387906E+02    0.396550E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.366731E+02    0.418071E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.336541E+02    0.402419E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.323534E+02    0.376270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.329212E+02    0.346258E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.353484E+02    0.320361E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.389150E+02    0.305845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.428438E+02    0.306523E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.460835E+02    0.322673E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.477342E+02    0.349766E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.472064E+02    0.381091E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.442128E+02    0.407640E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.404200E+02    0.420527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.407795E+02    0.255688E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.384956E+02    0.258556E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.403211E+02    0.238697E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.426908E+02    0.243152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.424432E+02    0.264859E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.399816E+02    0.273226E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.376553E+02    0.287075E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.365229E+02    0.273087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.364904E+02    0.254555E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.376452E+02    0.235673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.395766E+02    0.222368E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.418421E+02    0.218105E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.439689E+02    0.223467E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.451663E+02    0.238259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.452980E+02    0.256875E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.440574E+02    0.275771E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.420640E+02    0.288311E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.398060E+02    0.291795E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.375854E+02    0.315490E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.345182E+02    0.300651E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.333530E+02    0.272200E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.339813E+02    0.239742E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.364177E+02    0.210398E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.401245E+02    0.191693E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.443257E+02    0.189200E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.476430E+02    0.206321E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133370E+03   -0.491273E+02    0.236846E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133517E+03   -0.482880E+02    0.271615E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.453026E+02    0.301286E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.414793E+02    0.316135E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693095.835992805     
  ps_ts2 prof sum =   692688.965077552     
  trcom prof sum =    692688.965077552     
  ps_ts2 cur sum  =   11020.3309581348     
  trcom cur sum  =    11020.3309581348     
  
  antenna # iant =            2
  powecha_use(iant) =    667957.542029451     
  ps_ts2 prof sum =   667577.699181953     
  trcom prof sum =    667577.699181952     
  ps_ts2 cur sum  =   12640.1449425567     
  trcom cur sum  =    12640.1449425567     
  
  antenna # iant =            3
  powecha_use(iant) =    530775.150168527     
  ps_ts2 prof sum =   530447.049714724     
  trcom prof sum =    530447.049714724     
  ps_ts2 cur sum  =   7381.17095505435     
  trcom cur sum  =    7381.17095505436     
  
  antenna # iant =            4
  powecha_use(iant) =    567569.506571617     
  ps_ts2 prof sum =   567279.002036666     
  trcom prof sum =    567279.002036666     
  ps_ts2 cur sum  =   9839.73711603853     
  trcom cur sum  =    9839.73711603852     
  
  antenna # iant =            5
  powecha_use(iant) =    543177.757960171     
  ps_ts2 prof sum =   542869.639410730     
  trcom prof sum =    542869.639410730     
  ps_ts2 cur sum  =   11263.9843285598     
  trcom cur sum  =    11263.9843285598     
  
  Total ECH heating:      3000862.35542162     
  Total Current Drive:    52145.3683003441     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2679
 TA= 2.97000E+00 CPU TIME= 1.60360E-01 SECONDS.  DT= 6.41887E-04
  
 TEC1=    2.96999999999996     
 TEC2=    2.97499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.25677722222190     
  %check_save_state: izleft hours =    72.7347222222222     
 --> plasma_hash("gframe"): TA= 2.970000E+00 NSTEP=  2679 Hash code:   38873847
 ->PRGCHK: bdy curvature ratio at t= 2.9750E+00 seconds is:  5.6758E-02
% MHDEQ: TG1=     2.970000 ; TG2=     2.975000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7638E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6758E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.970000 TO TG2=    2.975000 @ NSTEP     2679
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746346128958D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9750E+00  2.9800E+00 total power(Watts):  3.0013E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.97500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.391685E+02    0.402167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.370189E+02    0.403007E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.385427E+02    0.387262E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.409576E+02    0.392132E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.407906E+02    0.411310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.383656E+02    0.417676E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.363579E+02    0.427797E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.350661E+02    0.415201E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.350583E+02    0.398459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.360298E+02    0.382724E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.378419E+02    0.371822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.400658E+02    0.368957E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.420340E+02    0.375513E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.432862E+02    0.389313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.435010E+02    0.406138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.423659E+02    0.422059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.404981E+02    0.432186E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.382737E+02    0.434326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.362568E+02    0.455747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.332542E+02    0.439138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.318780E+02    0.413480E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.324451E+02    0.384639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.346855E+02    0.359643E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.383295E+02    0.344921E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.422337E+02    0.346058E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.455570E+02    0.362402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.473027E+02    0.390104E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133204E+03   -0.466594E+02    0.420618E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.437795E+02    0.446062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.399908E+02    0.458787E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.403886E+02    0.318298E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.383138E+02    0.319318E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.398449E+02    0.302953E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.422948E+02    0.307097E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.420361E+02    0.327132E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.395884E+02    0.334395E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.373660E+02    0.346314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.363436E+02    0.332431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.361326E+02    0.316299E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.371018E+02    0.300110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.391225E+02    0.287328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.413707E+02    0.283771E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.434765E+02    0.289402E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.447588E+02    0.303108E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.447696E+02    0.320972E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.437443E+02    0.337146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.417531E+02    0.348530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.395047E+02    0.351435E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.372788E+02    0.374737E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.343322E+02    0.358470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.330149E+02    0.332118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.335694E+02    0.302572E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.360045E+02    0.275194E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.397911E+02    0.257927E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.437586E+02    0.258030E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.470302E+02    0.274765E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133397E+03   -0.485886E+02    0.303381E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.478484E+02    0.334842E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.450752E+02    0.361521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.411468E+02    0.376238E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.389516E+02    0.454984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.369081E+02    0.455064E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.384366E+02    0.439365E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.407411E+02    0.445119E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.406718E+02    0.464416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.382480E+02    0.470320E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.362421E+02    0.479943E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.350518E+02    0.466741E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.347624E+02    0.450592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.358340E+02    0.434664E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.376474E+02    0.424457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.398592E+02    0.422253E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.418193E+02    0.428943E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.431757E+02    0.442495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.432708E+02    0.460015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.422419E+02    0.475717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.403749E+02    0.485285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.381533E+02    0.486777E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.361368E+02    0.507408E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.331437E+02    0.490150E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.317753E+02    0.464541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.322629E+02    0.435739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.344977E+02    0.412103E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.381329E+02    0.398759E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.420241E+02    0.400738E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133933E+03   -0.453370E+02    0.417387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132858E+03   -0.471945E+02    0.444486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132969E+03   -0.465371E+02    0.475625E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133706E+03   -0.438800E+02    0.499507E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.399711E+02    0.511256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.396934E+02    0.363054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.375329E+02    0.364313E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.391636E+02    0.347398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.414914E+02    0.352395E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.413241E+02    0.372405E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.388872E+02    0.379490E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.366744E+02    0.390988E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.356659E+02    0.377024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.355602E+02    0.359845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.365342E+02    0.343629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.383533E+02    0.332658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.405854E+02    0.329600E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.425668E+02    0.335745E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.439406E+02    0.348764E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.440474E+02    0.366448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.429074E+02    0.383390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.409265E+02    0.394399E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.387990E+02    0.396482E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.366808E+02    0.417969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.336605E+02    0.402348E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.323606E+02    0.376166E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.329310E+02    0.346105E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.351715E+02    0.321371E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.389249E+02    0.305798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.428549E+02    0.306486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.460952E+02    0.322585E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.477455E+02    0.349636E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133188E+03   -0.472170E+02    0.381004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.442215E+02    0.407575E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.404284E+02    0.420420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.407901E+02    0.255859E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.385055E+02    0.258707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.403315E+02    0.238914E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.427019E+02    0.243374E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.424546E+02    0.265001E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.399893E+02    0.273349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.376651E+02    0.287107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.365322E+02    0.273180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.364997E+02    0.254711E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.374679E+02    0.237303E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.395877E+02    0.222603E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.418538E+02    0.218367E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.439806E+02    0.223743E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.451780E+02    0.238511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.452014E+02    0.257690E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.440691E+02    0.275885E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.420752E+02    0.288349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.398168E+02    0.291799E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.375949E+02    0.315403E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.345270E+02    0.300617E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.332743E+02    0.272950E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.339881E+02    0.239930E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.364288E+02    0.210626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.401367E+02    0.191986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.443387E+02    0.189534E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133878E+03   -0.476560E+02    0.206662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133338E+03   -0.491399E+02    0.237133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.484127E+02    0.271230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.453107E+02    0.301296E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.414900E+02    0.316045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693651.977670935     
  ps_ts2 prof sum =   693277.315533431     
  trcom prof sum =    693277.315533432     
  ps_ts2 cur sum  =   11047.6997712202     
  trcom cur sum  =    11047.6997712202     
  
  antenna # iant =            2
  powecha_use(iant) =    668294.193814120     
  ps_ts2 prof sum =   667909.385181594     
  trcom prof sum =    667909.385181593     
  ps_ts2 cur sum  =   12657.6507897051     
  trcom cur sum  =    12657.6507897051     
  
  antenna # iant =            3
  powecha_use(iant) =    530534.648562637     
  ps_ts2 prof sum =   530214.124246445     
  trcom prof sum =    530214.124246446     
  ps_ts2 cur sum  =   7393.43302729224     
  trcom cur sum  =    7393.43302729225     
  
  antenna # iant =            4
  powecha_use(iant) =    565639.444893296     
  ps_ts2 prof sum =   565338.974406273     
  trcom prof sum =    565338.974406273     
  ps_ts2 cur sum  =   9819.83584278307     
  trcom cur sum  =    9819.83584278306     
  
  antenna # iant =            5
  powecha_use(iant) =    543178.549348911     
  ps_ts2 prof sum =   542875.430336208     
  trcom prof sum =    542875.430336208     
  ps_ts2 cur sum  =   11265.2576666229     
  trcom cur sum  =    11265.2576666229     
  
  Total ECH heating:      2999615.22970395     
  Total Current Drive:    52183.8770976236     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2684
 TA= 2.97500E+00 CPU TIME= 1.59737E-01 SECONDS.  DT= 1.62390E-03
  
 TEC1=    2.97499999999996     
 TEC2=    2.97999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.27125027777720     
  %check_save_state: izleft hours =    72.7202777777778     
 --> plasma_hash("gframe"): TA= 2.975000E+00 NSTEP=  2684 Hash code:  113989354
 ->PRGCHK: bdy curvature ratio at t= 2.9800E+00 seconds is:  5.6723E-02
% MHDEQ: TG1=     2.975000 ; TG2=     2.980000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7635E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6723E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.975000 TO TG2=    2.980000 @ NSTEP     2684
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746346735657D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.02038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.24807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.57778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.46408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.55847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80663E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.62747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.37147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.54198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.50195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.25757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.29560E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.51691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.25001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.95722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.58186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.03630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.10003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.28375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.20279E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.52538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.52538E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9800E+00  2.9850E+00 total power(Watts):  3.0049E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.98000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.391756E+02    0.402084E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.370253E+02    0.402920E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.385488E+02    0.387176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.408596E+02    0.392398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.407979E+02    0.411210E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.383758E+02    0.417539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.363643E+02    0.427654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.351680E+02    0.414717E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.350638E+02    0.398367E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.358452E+02    0.383465E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.378506E+02    0.371696E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.399700E+02    0.369249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.420422E+02    0.375396E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.432946E+02    0.389201E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.433977E+02    0.406387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.423734E+02    0.421935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.405054E+02    0.432041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.382800E+02    0.434190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.360656E+02    0.456156E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.333520E+02    0.438686E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.318823E+02    0.413378E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.324510E+02    0.384537E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.346921E+02    0.359494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.383376E+02    0.344778E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.422425E+02    0.345916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.456831E+02    0.361849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133144E+03   -0.473117E+02    0.389994E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133186E+03   -0.466680E+02    0.420504E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.437872E+02    0.445927E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.399976E+02    0.458664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.403974E+02    0.318224E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.381249E+02    0.320310E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.398537E+02    0.302945E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.421989E+02    0.307615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.420452E+02    0.327031E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.395970E+02    0.334264E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.373735E+02    0.346168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.363514E+02    0.332303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.361395E+02    0.316223E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.371140E+02    0.300086E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.391316E+02    0.287383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.413805E+02    0.283850E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.434859E+02    0.289485E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.447642E+02    0.303125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.447794E+02    0.320899E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.437532E+02    0.337021E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.417617E+02    0.348385E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.395127E+02    0.351287E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.372788E+02    0.374631E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.342464E+02    0.358809E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.330217E+02    0.331996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.335767E+02    0.302544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.359210E+02    0.275941E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.396025E+02    0.259435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.437682E+02    0.258266E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.470365E+02    0.274961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133374E+03   -0.485993E+02    0.303406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.478590E+02    0.334721E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.451966E+02    0.360964E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.411555E+02    0.376102E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.389581E+02    0.454864E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.369142E+02    0.454938E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.384436E+02    0.439214E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.407482E+02    0.444981E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.406783E+02    0.464310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.382540E+02    0.470212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.362480E+02    0.479813E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.350573E+02    0.466625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.347680E+02    0.450468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.358410E+02    0.434512E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.376456E+02    0.424354E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.398665E+02    0.422120E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.418269E+02    0.428807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.431834E+02    0.442354E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.432781E+02    0.459893E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.422486E+02    0.475610E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.403812E+02    0.485156E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.381591E+02    0.486641E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.361420E+02    0.507253E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.331504E+02    0.490000E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.317795E+02    0.464437E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.322684E+02    0.435596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.345038E+02    0.411988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.381397E+02    0.398675E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.420306E+02    0.400668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.453454E+02    0.417271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132841E+03   -0.472028E+02    0.444342E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132951E+03   -0.465448E+02    0.475513E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133688E+03   -0.438868E+02    0.499361E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.398702E+02    0.511212E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.395983E+02    0.363360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.375397E+02    0.364177E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.390706E+02    0.347734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.414999E+02    0.352247E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.413322E+02    0.372277E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.388946E+02    0.379380E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.367784E+02    0.390499E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.354815E+02    0.377785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.353774E+02    0.360653E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.365423E+02    0.343489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.383614E+02    0.332538E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.405943E+02    0.329480E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.425758E+02    0.335626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.438400E+02    0.349063E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.439454E+02    0.366717E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.429157E+02    0.383285E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.409346E+02    0.394292E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.387038E+02    0.396768E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.366875E+02    0.417835E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.336664E+02    0.402256E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.323667E+02    0.376045E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.329359E+02    0.345966E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.351812E+02    0.321259E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.389334E+02    0.305768E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.428644E+02    0.306472E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.461052E+02    0.322513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133219E+03   -0.478718E+02    0.349070E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133606E+03   -0.469938E+02    0.381624E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.442300E+02    0.407480E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.404359E+02    0.420289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.407959E+02    0.256103E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.385141E+02    0.258907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.401439E+02    0.240549E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.427116E+02    0.243649E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.424639E+02    0.265200E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.400016E+02    0.273472E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.376741E+02    0.287164E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.365407E+02    0.273310E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.364161E+02    0.255584E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.374771E+02    0.237558E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.394038E+02    0.224365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.418637E+02    0.218706E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.439917E+02    0.224075E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.451882E+02    0.238829E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.452115E+02    0.257938E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.440785E+02    0.276046E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.420845E+02    0.288421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.398256E+02    0.291841E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.376032E+02    0.315327E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.345346E+02    0.300601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.332820E+02    0.273061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.339111E+02    0.240866E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.363472E+02    0.211712E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.402429E+02    0.191597E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.443476E+02    0.189978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133839E+03   -0.476674E+02    0.207094E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133089E+03   -0.492635E+02    0.236871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133245E+03   -0.484231E+02    0.271442E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.453207E+02    0.301318E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.414991E+02    0.315983E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    700179.461293045     
  ps_ts2 prof sum =   699791.401711199     
  trcom prof sum =    699791.401711199     
  ps_ts2 cur sum  =   11170.0848760667     
  trcom cur sum  =    11170.0848760667     
  
  antenna # iant =            2
  powecha_use(iant) =    665995.302561110     
  ps_ts2 prof sum =   665580.186975776     
  trcom prof sum =    665580.186975775     
  ps_ts2 cur sum  =   12621.0362622921     
  trcom cur sum  =    12621.0362622920     
  
  antenna # iant =            3
  powecha_use(iant) =    530246.806844451     
  ps_ts2 prof sum =   529934.104760092     
  trcom prof sum =    529934.104760092     
  ps_ts2 cur sum  =   7406.10747303528     
  trcom cur sum  =    7406.10747303529     
  
  antenna # iant =            4
  powecha_use(iant) =    564848.751396599     
  ps_ts2 prof sum =   564516.514151148     
  trcom prof sum =    564516.514151147     
  ps_ts2 cur sum  =   9818.09885016143     
  trcom cur sum  =    9818.09885016142     
  
  antenna # iant =            5
  powecha_use(iant) =    543657.371895028     
  ps_ts2 prof sum =   543343.805132997     
  trcom prof sum =    543343.805132997     
  ps_ts2 cur sum  =   11271.3283868350     
  trcom cur sum  =    11271.3283865893     
  
  Total ECH heating:      3003166.01273121     
  Total Current Drive:    52286.6558481448     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2687
 TA= 2.98000E+00 CPU TIME= 1.60002E-01 SECONDS.  DT= 1.68277E-03
  
 TEC1=    2.97999999999996     
 TEC2=    2.98499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.28762499999971     
  %check_save_state: izleft hours =    72.7038888888889     
 --> plasma_hash("gframe"): TA= 2.980000E+00 NSTEP=  2687 Hash code:   15987337
 ->PRGCHK: bdy curvature ratio at t= 2.9850E+00 seconds is:  5.6693E-02
% MHDEQ: TG1=     2.980000 ; TG2=     2.985000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7632E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6693E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.980000 TO TG2=    2.985000 @ NSTEP     2687
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746347342356D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9850E+00  2.9900E+00 total power(Watts):  3.0080E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.98500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.391808E+02    0.401989E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.370300E+02    0.402821E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.385540E+02    0.387080E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.408653E+02    0.392305E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.408037E+02    0.411091E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.383781E+02    0.417411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.363690E+02    0.427500E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.351729E+02    0.414588E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.350686E+02    0.398267E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.358481E+02    0.383373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.378561E+02    0.371573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.399756E+02    0.369124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.420484E+02    0.375276E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.433002E+02    0.389132E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.434039E+02    0.406284E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.423797E+02    0.421783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.405113E+02    0.431874E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.382856E+02    0.434013E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.360699E+02    0.456019E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.331715E+02    0.439159E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.318868E+02    0.413248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.324550E+02    0.384444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.346969E+02    0.359356E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.383437E+02    0.344626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.422492E+02    0.345779E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.455731E+02    0.362124E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.473182E+02    0.389920E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.466748E+02    0.420364E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134271E+03   -0.437930E+02    0.445764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.400026E+02    0.458530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.404044E+02    0.318118E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.381316E+02    0.320201E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.398607E+02    0.302913E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.422063E+02    0.307555E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.420488E+02    0.326933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.396036E+02    0.334126E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.373796E+02    0.346017E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.363575E+02    0.332161E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.361458E+02    0.316124E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.371112E+02    0.300111E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.391383E+02    0.287428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.413875E+02    0.283932E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.434934E+02    0.289538E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.446668E+02    0.303629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.447872E+02    0.320803E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.437608E+02    0.336887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.417686E+02    0.348228E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.395175E+02    0.351143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.372876E+02    0.374509E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.342512E+02    0.358668E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.330271E+02    0.331853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.335827E+02    0.302496E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.359271E+02    0.276041E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.396094E+02    0.259614E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.437758E+02    0.258483E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133959E+03   -0.470484E+02    0.275112E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133352E+03   -0.486077E+02    0.303400E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133479E+03   -0.478669E+02    0.334598E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133988E+03   -0.452036E+02    0.360813E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.411606E+02    0.376004E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.389632E+02    0.454712E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.369189E+02    0.454799E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.384487E+02    0.439054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.407536E+02    0.444816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.406833E+02    0.464180E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.382583E+02    0.470092E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.362518E+02    0.479677E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.350615E+02    0.466507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.347719E+02    0.450330E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.358444E+02    0.434360E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.376553E+02    0.424185E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.398720E+02    0.421971E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.418328E+02    0.428648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.431893E+02    0.442186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.432837E+02    0.459759E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.422540E+02    0.475462E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.403861E+02    0.485003E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.381639E+02    0.486479E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.361462E+02    0.507069E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.331517E+02    0.489852E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.317830E+02    0.464312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.322723E+02    0.435448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.345087E+02    0.411856E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.381444E+02    0.398577E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.420370E+02    0.400567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.453490E+02    0.417159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132823E+03   -0.472096E+02    0.444170E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132932E+03   -0.465507E+02    0.475386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.436653E+02    0.499437E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.398751E+02    0.511024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.396048E+02    0.363215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.375464E+02    0.364032E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.390768E+02    0.347580E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.415071E+02    0.352088E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.413385E+02    0.372147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.388999E+02    0.379271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.367834E+02    0.390407E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.354865E+02    0.377675E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.353824E+02    0.360515E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.365473E+02    0.343342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.383682E+02    0.332383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.406009E+02    0.329353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.425828E+02    0.335481E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.438474E+02    0.348908E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.439522E+02    0.366588E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.429216E+02    0.383180E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.409405E+02    0.394209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.387091E+02    0.396681E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.366925E+02    0.417704E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.336706E+02    0.402158E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.323719E+02    0.375925E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.329399E+02    0.345819E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.351850E+02    0.321149E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.389402E+02    0.305719E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.428718E+02    0.306417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.461134E+02    0.322414E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133202E+03   -0.478796E+02    0.348917E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.470008E+02    0.381517E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.442362E+02    0.407379E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.404414E+02    0.420154E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.408061E+02    0.256277E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.386175E+02    0.258422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.401511E+02    0.240793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.427191E+02    0.243899E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.424705E+02    0.265384E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.400082E+02    0.273597E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.376806E+02    0.287207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.365468E+02    0.273421E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.364226E+02    0.255756E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.374831E+02    0.237796E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.394113E+02    0.224647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.418715E+02    0.219025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.438955E+02    0.225084E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.451961E+02    0.239119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.452191E+02    0.258163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.440859E+02    0.276181E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.420918E+02    0.288474E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.396320E+02    0.293028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.376097E+02    0.315232E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.345406E+02    0.300567E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.332876E+02    0.273159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.339186E+02    0.241062E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.363547E+02    0.212007E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.402520E+02    0.191950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.443590E+02    0.190377E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134014E+03   -0.475670E+02    0.208195E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133056E+03   -0.492711E+02    0.237214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.484311E+02    0.271636E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.453283E+02    0.301313E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.414020E+02    0.316419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698188.738663728     
  ps_ts2 prof sum =   697778.293824425     
  trcom prof sum =    697778.293824426     
  ps_ts2 cur sum  =   11143.1931947142     
  trcom cur sum  =    11143.1931947142     
  
  antenna # iant =            2
  powecha_use(iant) =    667972.405206116     
  ps_ts2 prof sum =   667553.065617413     
  trcom prof sum =    667553.065617412     
  ps_ts2 cur sum  =   12653.4353036548     
  trcom cur sum  =    12653.4353036547     
  
  antenna # iant =            3
  powecha_use(iant) =    530154.848769600     
  ps_ts2 prof sum =   529835.903670325     
  trcom prof sum =    529835.903670326     
  ps_ts2 cur sum  =   7412.72717180946     
  trcom cur sum  =    7412.72717180947     
  
  antenna # iant =            4
  powecha_use(iant) =    567612.184750045     
  ps_ts2 prof sum =   567279.876845734     
  trcom prof sum =    567279.876845734     
  ps_ts2 cur sum  =   9866.50066947916     
  trcom cur sum  =    9866.50066947915     
  
  antenna # iant =            5
  powecha_use(iant) =    544037.094797944     
  ps_ts2 prof sum =   543714.178971186     
  trcom prof sum =    543714.178971186     
  ps_ts2 cur sum  =   11267.9677924949     
  trcom cur sum  =    11267.9677924949     
  
  Total ECH heating:      3006161.31892908     
  Total Current Drive:    52343.8241321525     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2690
 TA= 2.98500E+00 CPU TIME= 1.86040E-01 SECONDS.  DT= 1.51720E-03
  
 TEC1=    2.98499999999996     
 TEC2=    2.98999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.30383111111109     
  %check_save_state: izleft hours =    72.6877777777778     
 --> plasma_hash("gframe"): TA= 2.985000E+00 NSTEP=  2690 Hash code:   77902022
 ->PRGCHK: bdy curvature ratio at t= 2.9900E+00 seconds is:  5.6667E-02
% MHDEQ: TG1=     2.985000 ; TG2=     2.990000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7630E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6667E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.985000 TO TG2=    2.990000 @ NSTEP     2690
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746347949055D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.97030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.41546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.46236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.05564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.45250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.78091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.17817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.62723E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.45685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.74228E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.15615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.21436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.28768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.76036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.59133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.82181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.76221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.96456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.18790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.50704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.50704E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  2.9900E+00  2.9950E+00 total power(Watts):  3.0018E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.99000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.390817E+02    0.402188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.370339E+02    0.402657E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.385576E+02    0.386922E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.408696E+02    0.392147E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.408078E+02    0.410913E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.383819E+02    0.417210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.363725E+02    0.427270E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.351767E+02    0.414396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.350720E+02    0.398110E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.358511E+02    0.383213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.378603E+02    0.371378E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.399797E+02    0.368928E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.420522E+02    0.375093E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.433051E+02    0.388939E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.434086E+02    0.406107E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.423844E+02    0.421567E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.405156E+02    0.431642E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.382898E+02    0.433774E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.360734E+02    0.455817E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.331749E+02    0.438934E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.318897E+02    0.413054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.324570E+02    0.384287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.347009E+02    0.359141E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.383480E+02    0.344409E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.422540E+02    0.345551E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.456912E+02    0.361490E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133105E+03   -0.473232E+02    0.389739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133149E+03   -0.466802E+02    0.420142E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.437980E+02    0.445527E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.400064E+02    0.458325E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.404090E+02    0.317959E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.381358E+02    0.320029E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.398648E+02    0.302816E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.422109E+02    0.307450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.420574E+02    0.326719E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.396073E+02    0.333924E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.373834E+02    0.345794E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.363616E+02    0.331948E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.362441E+02    0.315406E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.371198E+02    0.300015E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.391413E+02    0.287428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.413911E+02    0.283958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.433911E+02    0.290094E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.446721E+02    0.303540E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.447925E+02    0.320639E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.436567E+02    0.337135E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.417728E+02    0.348012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.395225E+02    0.350920E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.372912E+02    0.374330E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.342551E+02    0.358453E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.330304E+02    0.331655E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.335862E+02    0.302403E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.359305E+02    0.276090E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.397123E+02    0.259100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.437798E+02    0.258642E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.470528E+02    0.275215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133329E+03   -0.486128E+02    0.303352E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133454E+03   -0.478762E+02    0.334374E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.449865E+02    0.361418E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.411648E+02    0.375818E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.389673E+02    0.454503E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.369228E+02    0.454589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.384525E+02    0.438823E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.407588E+02    0.444580E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.406874E+02    0.463972E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.382625E+02    0.469887E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.362553E+02    0.479469E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.350640E+02    0.466317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.347759E+02    0.450109E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.358487E+02    0.434126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.376593E+02    0.423961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.398761E+02    0.421760E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.418380E+02    0.428400E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.431941E+02    0.441949E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.432886E+02    0.459539E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.422590E+02    0.475247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.403909E+02    0.484779E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.381682E+02    0.486259E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.361503E+02    0.506832E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.331557E+02    0.489619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.317868E+02    0.464119E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.322755E+02    0.435224E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.345126E+02    0.411677E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.381479E+02    0.398425E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.420413E+02    0.400392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133658E+03   -0.454715E+02    0.416645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132806E+03   -0.472154E+02    0.443914E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132914E+03   -0.465561E+02    0.475173E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134097E+03   -0.436707E+02    0.499179E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.398798E+02    0.510778E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.396088E+02    0.363008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.375519E+02    0.363827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.390811E+02    0.347359E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.415109E+02    0.351874E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.413430E+02    0.371942E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.389039E+02    0.379100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.367874E+02    0.390244E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.354890E+02    0.377511E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.353862E+02    0.360302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.363591E+02    0.344136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.383722E+02    0.332192E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.406058E+02    0.329156E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.425876E+02    0.335275E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.438520E+02    0.348678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.439572E+02    0.366365E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.429262E+02    0.383006E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.409445E+02    0.394041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.387128E+02    0.396516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.364991E+02    0.418183E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.336736E+02    0.401999E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.323735E+02    0.375767E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.329434E+02    0.345606E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.351884E+02    0.320982E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.389439E+02    0.305623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.428765E+02    0.306324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.461184E+02    0.322244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133185E+03   -0.478853E+02    0.348683E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133569E+03   -0.470059E+02    0.381326E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.442411E+02    0.407209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.404457E+02    0.419943E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.408099E+02    0.256433E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.386210E+02    0.258557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.402537E+02    0.240327E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.427230E+02    0.244116E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.424743E+02    0.265510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.398124E+02    0.274899E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.376816E+02    0.287222E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.365502E+02    0.273485E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.364259E+02    0.255894E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.374880E+02    0.237998E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.394153E+02    0.224919E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.418760E+02    0.219328E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.438994E+02    0.225390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.452001E+02    0.239373E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.452224E+02    0.258349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.440896E+02    0.276269E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.420953E+02    0.288482E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.397354E+02    0.292430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.374194E+02    0.316181E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.345431E+02    0.300500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.332907E+02    0.273212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.339221E+02    0.241237E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.363590E+02    0.212294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.402558E+02    0.192355E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.443634E+02    0.190821E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133973E+03   -0.475713E+02    0.208607E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133018E+03   -0.492755E+02    0.237505E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.482089E+02    0.272875E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.453334E+02    0.301255E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.414068E+02    0.316274E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691592.046404857     
  ps_ts2 prof sum =   691199.898272600     
  trcom prof sum =    691199.898272600     
  ps_ts2 cur sum  =   11050.5767394314     
  trcom cur sum  =    11050.5767394314     
  
  antenna # iant =            2
  powecha_use(iant) =    667473.480340861     
  ps_ts2 prof sum =   667065.632243695     
  trcom prof sum =    667065.632243695     
  ps_ts2 cur sum  =   12643.2049502610     
  trcom cur sum  =    12643.2049502610     
  
  antenna # iant =            3
  powecha_use(iant) =    530683.021407202     
  ps_ts2 prof sum =   530379.175883775     
  trcom prof sum =    530379.175883775     
  ps_ts2 cur sum  =   7434.40525409508     
  trcom cur sum  =    7434.40525409508     
  
  antenna # iant =            4
  powecha_use(iant) =    568563.580202859     
  ps_ts2 prof sum =   568211.596969984     
  trcom prof sum =    568211.596969983     
  ps_ts2 cur sum  =   9889.27917113655     
  trcom cur sum  =    9889.27917113654     
  
  antenna # iant =            5
  powecha_use(iant) =    543527.247685215     
  ps_ts2 prof sum =   543204.254263228     
  trcom prof sum =    543204.254231808     
  ps_ts2 cur sum  =   11245.2227361223     
  trcom cur sum  =    11245.2227361223     
  
  Total ECH heating:      3000060.55760186     
  Total Current Drive:    52262.6888510463     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2693
 TA= 2.99000E+00 CPU TIME= 1.60941E-01 SECONDS.  DT= 1.98287E-03
  
 TEC1=    2.98999999999996     
 TEC2=    2.99499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.32114000000001     
  %check_save_state: izleft hours =    72.6705555555556     
 --> plasma_hash("gframe"): TA= 2.990000E+00 NSTEP=  2693 Hash code:   70516932
 ->PRGCHK: bdy curvature ratio at t= 2.9950E+00 seconds is:  5.6644E-02
% MHDEQ: TG1=     2.990000 ; TG2=     2.995000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7627E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6644E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.990000 TO TG2=    2.995000 @ NSTEP     2693
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746348555753D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  2.9950E+00  3.0000E+00 total power(Watts):  3.0002E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         2.99500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.390849E+02    0.401984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.370370E+02    0.402443E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.385604E+02    0.386722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.408725E+02    0.391943E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.408115E+02    0.410681E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.383853E+02    0.416972E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.363761E+02    0.427020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.351792E+02    0.414172E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.350747E+02    0.397910E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.358537E+02    0.383020E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.378629E+02    0.371156E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.399836E+02    0.368694E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.420559E+02    0.374857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.433082E+02    0.388750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.434123E+02    0.405886E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.423883E+02    0.421313E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.405193E+02    0.431381E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.382931E+02    0.433523E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.360762E+02    0.455611E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.331776E+02    0.438704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.318919E+02    0.412833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.324593E+02    0.384094E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.347025E+02    0.358925E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.383501E+02    0.344191E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.422569E+02    0.345324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.456952E+02    0.361238E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133087E+03   -0.473273E+02    0.389515E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133131E+03   -0.466847E+02    0.419888E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.438026E+02    0.445271E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.400106E+02    0.458102E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.404122E+02    0.317803E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.381393E+02    0.319861E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.398674E+02    0.302725E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.422142E+02    0.307343E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.420598E+02    0.326529E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.396105E+02    0.333710E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.373853E+02    0.345580E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.363639E+02    0.331749E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.362460E+02    0.315258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.371219E+02    0.299928E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.391438E+02    0.287416E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.413934E+02    0.283967E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.433941E+02    0.290076E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.446752E+02    0.303458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.447955E+02    0.320464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.437694E+02    0.336447E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.417761E+02    0.347779E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.395260E+02    0.350685E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.372940E+02    0.374120E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.342562E+02    0.358241E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.330335E+02    0.331451E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.335874E+02    0.302315E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.359310E+02    0.276143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.397121E+02    0.259251E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.437808E+02    0.258806E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.470554E+02    0.275309E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133305E+03   -0.486160E+02    0.303265E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133442E+03   -0.478766E+02    0.334174E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.449879E+02    0.361176E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.411679E+02    0.375601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.389685E+02    0.454286E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.369257E+02    0.454375E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.384561E+02    0.438573E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.407617E+02    0.444343E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.406907E+02    0.463774E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.382660E+02    0.469670E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.362590E+02    0.479234E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.350669E+02    0.466113E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.347787E+02    0.449895E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.358518E+02    0.433881E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.376627E+02    0.423714E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.397747E+02    0.421831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.418417E+02    0.428155E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.431982E+02    0.441692E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.432929E+02    0.459306E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.422643E+02    0.475033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.403999E+02    0.484531E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.381717E+02    0.486028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.361589E+02    0.506572E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.332516E+02    0.489186E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.317892E+02    0.463924E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.322785E+02    0.434979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.345145E+02    0.411466E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.381509E+02    0.398221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.420448E+02    0.400180E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133640E+03   -0.454758E+02    0.416398E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132789E+03   -0.472202E+02    0.443638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.465606E+02    0.474937E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.436753E+02    0.498910E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.398845E+02    0.510502E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.396119E+02    0.362769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.375516E+02    0.363614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.390853E+02    0.347126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.415141E+02    0.351634E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.413461E+02    0.371727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.389064E+02    0.378895E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.367904E+02    0.390039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.354956E+02    0.377291E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.353887E+02    0.360076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.363619E+02    0.343907E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.383745E+02    0.331985E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.406079E+02    0.328960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.425909E+02    0.335059E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.438556E+02    0.348450E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.439605E+02    0.366130E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.429298E+02    0.382786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.409446E+02    0.393844E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.387158E+02    0.396311E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.365020E+02    0.417951E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.336761E+02    0.401800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.323759E+02    0.375562E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.329458E+02    0.345384E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.351907E+02    0.320804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.389470E+02    0.305504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.428797E+02    0.306217E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.461222E+02    0.322062E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.478896E+02    0.348440E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133551E+03   -0.470099E+02    0.381094E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.442449E+02    0.406983E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.404494E+02    0.419693E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.408106E+02    0.256595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.386223E+02    0.258690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.402550E+02    0.240545E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.427234E+02    0.244346E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.424759E+02    0.265628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.398131E+02    0.274980E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.376857E+02    0.287186E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.365508E+02    0.273552E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.364276E+02    0.256018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.374896E+02    0.238206E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.394172E+02    0.225188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.418738E+02    0.219659E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.439006E+02    0.225700E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.452010E+02    0.239634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.452243E+02    0.258520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.440922E+02    0.276333E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.420979E+02    0.288468E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.397381E+02    0.292379E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.374229E+02    0.316021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.345452E+02    0.300408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.332924E+02    0.273253E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.339238E+02    0.241409E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.363609E+02    0.212583E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.402583E+02    0.192732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.443656E+02    0.191248E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.475729E+02    0.209014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133409E+03   -0.490516E+02    0.239042E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.482117E+02    0.272983E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.453360E+02    0.301180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.414099E+02    0.316117E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691541.686712239     
  ps_ts2 prof sum =   691154.062930035     
  trcom prof sum =    691154.062930035     
  ps_ts2 cur sum  =   11058.0313375022     
  trcom cur sum  =    11058.0313375022     
  
  antenna # iant =            2
  powecha_use(iant) =    667403.265714413     
  ps_ts2 prof sum =   667004.360204644     
  trcom prof sum =    667004.360168426     
  ps_ts2 cur sum  =   12636.5360432879     
  trcom cur sum  =    12636.5360432878     
  
  antenna # iant =            3
  powecha_use(iant) =    529972.683100099     
  ps_ts2 prof sum =   529677.761952152     
  trcom prof sum =    529677.761952153     
  ps_ts2 cur sum  =   7436.47831079782     
  trcom cur sum  =    7436.47831079782     
  
  antenna # iant =            4
  powecha_use(iant) =    568415.065463294     
  ps_ts2 prof sum =   568065.728938264     
  trcom prof sum =    568065.728938263     
  ps_ts2 cur sum  =   9888.98068087799     
  trcom cur sum  =    9888.98068087798     
  
  antenna # iant =            5
  powecha_use(iant) =    542900.020588488     
  ps_ts2 prof sum =   542574.934903065     
  trcom prof sum =    542574.934865584     
  ps_ts2 cur sum  =   11216.3799336542     
  trcom cur sum  =    11216.3799336542     
  
  Total ECH heating:      2998476.84885446     
  Total Current Drive:    52236.4063061201     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2696
 TA= 2.99500E+00 CPU TIME= 1.59898E-01 SECONDS.  DT= 6.73183E-04
  
 TEC1=    2.99499999999996     
 TEC2=    2.99999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.33842222222211     
  %check_save_state: izleft hours =    72.6530555555556     
 --> plasma_hash("gframe"): TA= 2.995000E+00 NSTEP=  2696 Hash code:   72809297
 ->PRGCHK: bdy curvature ratio at t= 3.0000E+00 seconds is:  5.6626E-02
% MHDEQ: TG1=     2.995000 ; TG2=     3.000000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6626E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    2.995000 TO TG2=    3.000000 @ NSTEP     2696
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746349162452D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.92022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.58285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.34695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.64720E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.34652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.79708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.93435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.98487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.71247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.41174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.48364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.01670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.91181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.50115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.56350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.60079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.16717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.42439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.64538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.17302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -9.52541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -9.52541E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.0000E+00  3.0050E+00 total power(Watts):  3.0008E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.00000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.390890E+02    0.401728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.370406E+02    0.402193E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.385649E+02    0.386503E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.408736E+02    0.391722E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.408160E+02    0.410409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.383892E+02    0.416697E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.363802E+02    0.426754E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.351827E+02    0.413900E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.348888E+02    0.398463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.358573E+02    0.382817E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.376667E+02    0.371877E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.399878E+02    0.368536E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.420604E+02    0.374678E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.433131E+02    0.388528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.434174E+02    0.405622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.423932E+02    0.421019E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.405237E+02    0.431108E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.382970E+02    0.433265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.361790E+02    0.455145E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.331807E+02    0.438485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.318947E+02    0.412583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.324625E+02    0.383892E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.347063E+02    0.358789E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.383538E+02    0.344096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.422612E+02    0.345234E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133794E+03   -0.457004E+02    0.361100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133068E+03   -0.473329E+02    0.389280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133115E+03   -0.466903E+02    0.419583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.438070E+02    0.445024E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.400143E+02    0.457901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.404156E+02    0.317758E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.381419E+02    0.319817E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.398722E+02    0.302698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.422177E+02    0.307324E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.420642E+02    0.326474E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.396143E+02    0.333635E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.373889E+02    0.345486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.363667E+02    0.331685E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.362507E+02    0.315200E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.371267E+02    0.299907E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.391488E+02    0.287441E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.413985E+02    0.284018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.433990E+02    0.290107E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.446794E+02    0.303452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.448000E+02    0.320430E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.436647E+02    0.336852E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.417805E+02    0.347680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.395299E+02    0.350574E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.372979E+02    0.373938E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.342607E+02    0.358093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.330356E+02    0.331378E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.335901E+02    0.302282E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.359347E+02    0.276210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.397177E+02    0.259399E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.437848E+02    0.259015E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.470602E+02    0.275442E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133279E+03   -0.486211E+02    0.303291E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133419E+03   -0.478813E+02    0.334114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.449929E+02    0.361035E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.411727E+02    0.375407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.389744E+02    0.454082E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.369288E+02    0.454186E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.384599E+02    0.438332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.407657E+02    0.444108E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.406945E+02    0.463582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.382696E+02    0.469471E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.362625E+02    0.479018E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.350700E+02    0.465923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.347817E+02    0.449700E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.358552E+02    0.433636E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.376671E+02    0.423432E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.397792E+02    0.421545E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.418464E+02    0.427865E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.432030E+02    0.441437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.432972E+02    0.459101E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.422671E+02    0.474816E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.403948E+02    0.484318E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.381755E+02    0.485797E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.361537E+02    0.506343E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.332549E+02    0.488961E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.317906E+02    0.463750E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.322815E+02    0.434744E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.345187E+02    0.411190E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.381549E+02    0.397974E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.420496E+02    0.399927E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.454812E+02    0.416102E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132983E+03   -0.471107E+02    0.443619E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132877E+03   -0.465655E+02    0.474725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.436801E+02    0.498654E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.398885E+02    0.510260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.396156E+02    0.362638E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.375553E+02    0.363466E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.390875E+02    0.347037E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.415185E+02    0.351528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.413506E+02    0.371556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.389110E+02    0.378691E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.367941E+02    0.389818E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.354909E+02    0.377127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.353923E+02    0.359936E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.363649E+02    0.343818E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.383782E+02    0.331913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.406143E+02    0.328889E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.425958E+02    0.334988E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.438601E+02    0.348353E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.439624E+02    0.365984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.429346E+02    0.382585E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.409521E+02    0.393601E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.387195E+02    0.396078E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.365058E+02    0.417678E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.337721E+02    0.401145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.323795E+02    0.375381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.329482E+02    0.345288E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.351949E+02    0.320746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.389516E+02    0.305457E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.428831E+02    0.306203E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.461268E+02    0.322033E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133144E+03   -0.478944E+02    0.348344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133532E+03   -0.470152E+02    0.380897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.442504E+02    0.406702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.404540E+02    0.419407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.408150E+02    0.256775E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.386268E+02    0.258846E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.402560E+02    0.240825E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.427276E+02    0.244609E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.424805E+02    0.265780E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.399175E+02    0.274457E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.376896E+02    0.287218E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.366481E+02    0.272997E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.364302E+02    0.256199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.374938E+02    0.238454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.395174E+02    0.224803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.418818E+02    0.220016E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.439050E+02    0.226066E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.452054E+02    0.239941E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.452300E+02    0.258710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.440971E+02    0.276441E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.421030E+02    0.288502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.397429E+02    0.292389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.374266E+02    0.315976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.345491E+02    0.300368E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.332948E+02    0.273333E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.339265E+02    0.241630E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.363651E+02    0.212940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.400708E+02    0.194723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.442675E+02    0.192498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.475772E+02    0.209505E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133372E+03   -0.490570E+02    0.239379E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.482160E+02    0.273140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.453408E+02    0.301184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.414135E+02    0.316077E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690305.273085883     
  ps_ts2 prof sum =   689900.499434229     
  trcom prof sum =    689900.499434229     
  ps_ts2 cur sum  =   11051.9692227366     
  trcom cur sum  =    11051.9692227366     
  
  antenna # iant =            2
  powecha_use(iant) =    669306.004657106     
  ps_ts2 prof sum =   668908.438880439     
  trcom prof sum =    668908.438842118     
  ps_ts2 cur sum  =   12671.7796983180     
  trcom cur sum  =    12671.7796983180     
  
  antenna # iant =            3
  powecha_use(iant) =    529414.592340482     
  ps_ts2 prof sum =   529121.278288753     
  trcom prof sum =    529121.278288753     
  ps_ts2 cur sum  =   7442.90153304702     
  trcom cur sum  =    7442.90153304703     
  
  antenna # iant =            4
  powecha_use(iant) =    568378.629233875     
  ps_ts2 prof sum =   568041.511050761     
  trcom prof sum =    568041.511050760     
  ps_ts2 cur sum  =   9894.60301492738     
  trcom cur sum  =    9894.60301492736     
  
  antenna # iant =            5
  powecha_use(iant) =    543366.364836695     
  ps_ts2 prof sum =   543060.992657065     
  trcom prof sum =    543060.992657065     
  ps_ts2 cur sum  =   11215.9974008127     
  trcom cur sum  =    11215.9974008127     
  
  Total ECH heating:      2999032.72027293     
  Total Current Drive:    52277.2508698417     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2701
 TA= 3.00000E+00 CPU TIME= 1.59256E-01 SECONDS.  DT= 1.39835E-03
  
 TEC1=    2.99999999999996     
 TEC2=    3.00499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.35079611111087     
  %check_save_state: izleft hours =    72.6408333333333     
 --> plasma_hash("gframe"): TA= 3.000000E+00 NSTEP=  2701 Hash code:   79122420
 ->PRGCHK: bdy curvature ratio at t= 3.0050E+00 seconds is:  5.6613E-02
% MHDEQ: TG1=     3.000000 ; TG2=     3.005000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0693E-02 SECONDS
   DATA R*BT AT EDGE:  2.7622E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6613E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.000000 TO TG2=    3.005000 @ NSTEP     2701
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746349769151D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0050E+00  3.0100E+00 total power(Watts):  2.9974E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.00500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.390949E+02    0.401486E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.370464E+02    0.401971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.385711E+02    0.386308E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.408838E+02    0.391504E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.408230E+02    0.410150E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.383949E+02    0.416450E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.363849E+02    0.426526E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.351881E+02    0.413658E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.348934E+02    0.398254E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.358630E+02    0.382633E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.376725E+02    0.371720E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.399938E+02    0.368391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.420671E+02    0.374517E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.433202E+02    0.388327E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.434245E+02    0.405378E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.423998E+02    0.420767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.405296E+02    0.430882E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.383024E+02    0.433057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.361833E+02    0.454997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.331842E+02    0.438297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.318994E+02    0.412347E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.324675E+02    0.383707E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.347117E+02    0.358662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.383596E+02    0.344026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.422682E+02    0.345155E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134212E+03   -0.454815E+02    0.361801E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.473408E+02    0.389077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133536E+03   -0.464647E+02    0.419895E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133979E+03   -0.439262E+02    0.444571E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.400184E+02    0.457765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.404220E+02    0.317730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.382466E+02    0.319246E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.398775E+02    0.302711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.422289E+02    0.307309E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.420709E+02    0.326446E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.396209E+02    0.333583E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.374932E+02    0.344908E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.361811E+02    0.332695E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.362556E+02    0.315163E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.372282E+02    0.299324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.389572E+02    0.288683E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.414043E+02    0.284103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.434051E+02    0.290182E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.446867E+02    0.303466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.448072E+02    0.320415E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.436718E+02    0.336797E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.416809E+02    0.348060E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.394343E+02    0.350945E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.373038E+02    0.373780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.342659E+02    0.357982E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.330397E+02    0.331321E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.335973E+02    0.302261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.359410E+02    0.276296E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.397240E+02    0.259585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.436875E+02    0.259825E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.470672E+02    0.275602E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133039E+03   -0.487443E+02    0.302827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133179E+03   -0.480044E+02    0.333634E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.450003E+02    0.360924E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.411794E+02    0.375241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.389797E+02    0.453921E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.369340E+02    0.454028E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.384647E+02    0.438140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.407718E+02    0.443922E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.407009E+02    0.463411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.382744E+02    0.469311E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.362670E+02    0.478841E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.350745E+02    0.465767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.347862E+02    0.449535E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.358605E+02    0.433427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.376729E+02    0.423187E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.397853E+02    0.421294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.418527E+02    0.427623E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.430975E+02    0.441495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.433030E+02    0.458942E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.422725E+02    0.474656E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.404039E+02    0.484123E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.381799E+02    0.485608E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.361628E+02    0.506129E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.332587E+02    0.488762E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.317943E+02    0.463600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.322857E+02    0.434550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.345234E+02    0.410954E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.381616E+02    0.397733E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.420564E+02    0.399701E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133606E+03   -0.454885E+02    0.415846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.471142E+02    0.443397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132858E+03   -0.465719E+02    0.474559E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134043E+03   -0.436861E+02    0.498438E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.398936E+02    0.510046E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.396220E+02    0.362498E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.375611E+02    0.363332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.390934E+02    0.346958E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.414196E+02    0.351881E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.413571E+02    0.371396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.389169E+02    0.378523E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.367999E+02    0.389616E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.355009E+02    0.376950E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.353973E+02    0.359828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.363704E+02    0.343742E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.383840E+02    0.331868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.406183E+02    0.328857E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.426021E+02    0.334945E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.438672E+02    0.348271E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.439721E+02    0.365847E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.429412E+02    0.382405E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.409590E+02    0.393382E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.387257E+02    0.395862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.365158E+02    0.417417E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.335924E+02    0.401720E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.323843E+02    0.375213E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.329533E+02    0.345199E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.351994E+02    0.320710E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.387582E+02    0.306591E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.428905E+02    0.306202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.461342E+02    0.322017E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.479020E+02    0.348274E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133513E+03   -0.470232E+02    0.380710E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.442572E+02    0.406464E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.404603E+02    0.419152E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.408216E+02    0.256983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.386326E+02    0.259025E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.402655E+02    0.241077E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.426318E+02    0.245528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.424884E+02    0.265941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.399252E+02    0.274551E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.377931E+02    0.286656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.364671E+02    0.274370E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.364365E+02    0.256380E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.374999E+02    0.238715E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.395244E+02    0.225133E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.417887E+02    0.221080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.439122E+02    0.226436E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.452141E+02    0.240246E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.452371E+02    0.258940E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.441034E+02    0.276579E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.420050E+02    0.289133E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.397493E+02    0.292427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.374313E+02    0.315961E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.345558E+02    0.300363E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.333003E+02    0.273421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.339324E+02    0.241853E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.363725E+02    0.213272E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.400789E+02    0.195139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.442760E+02    0.192970E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.475855E+02    0.209968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133336E+03   -0.490649E+02    0.239740E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.482238E+02    0.273319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.453483E+02    0.301209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.414234E+02    0.316049E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687241.248721883     
  ps_ts2 prof sum =   686838.944165237     
  trcom prof sum =    686838.944165237     
  ps_ts2 cur sum  =   11027.1185812494     
  trcom cur sum  =    11027.1185812494     
  
  antenna # iant =            2
  powecha_use(iant) =    668435.652178454     
  ps_ts2 prof sum =   668061.618862389     
  trcom prof sum =    668061.618822693     
  ps_ts2 cur sum  =   12666.1101920970     
  trcom cur sum  =    12666.1101920970     
  
  antenna # iant =            3
  powecha_use(iant) =    530141.070815470     
  ps_ts2 prof sum =   529853.814920532     
  trcom prof sum =    529853.814920533     
  ps_ts2 cur sum  =   7473.93613892807     
  trcom cur sum  =    7473.93613892808     
  
  antenna # iant =            4
  powecha_use(iant) =    568284.120211081     
  ps_ts2 prof sum =   567932.465299345     
  trcom prof sum =    567932.465299345     
  ps_ts2 cur sum  =   9908.87464746218     
  trcom cur sum  =    9908.87464746216     
  
  antenna # iant =            5
  powecha_use(iant) =    543289.709048176     
  ps_ts2 prof sum =   542995.557197904     
  trcom prof sum =    542995.557197904     
  ps_ts2 cur sum  =   11213.9899553067     
  trcom cur sum  =    11213.9899553067     
  
  Total ECH heating:      2995682.40040571     
  Total Current Drive:    52290.0295150434     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2704
 TA= 3.00500E+00 CPU TIME= 1.60089E-01 SECONDS.  DT= 2.31715E-03
  
 TEC1=    3.00499999999996     
 TEC2=    3.00999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.36429972222209     
  %check_save_state: izleft hours =    72.6272222222222     
 --> plasma_hash("gframe"): TA= 3.005000E+00 NSTEP=  2704 Hash code:   41153538
 ->PRGCHK: bdy curvature ratio at t= 3.0100E+00 seconds is:  5.6527E-02
% MHDEQ: TG1=     3.005000 ; TG2=     3.010000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6527E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.005000 TO TG2=    3.010000 @ NSTEP     2704
   GFRAME TG2 MOMENTS CHECKSUM:  2.4752366619406D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.07425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.64947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.29064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.05866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.31628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.78487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.99057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.92865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.72890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.78806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -6.75885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.90868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.80511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.61609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.47721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.61878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15=  2.78924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.16451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.56568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.13797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #      10= -8.54748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #      10= -8.54748E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0100E+00  3.0150E+00 total power(Watts):  2.9932E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.01000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.390772E+02    0.401791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.370297E+02    0.402256E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.385529E+02    0.386575E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.408692E+02    0.391780E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.406972E+02    0.410814E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.383775E+02    0.416764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.362704E+02    0.427132E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.349807E+02    0.414694E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.348768E+02    0.398544E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.359429E+02    0.382461E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.377559E+02    0.371506E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.399756E+02    0.368623E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.419399E+02    0.375172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.431899E+02    0.388965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.434046E+02    0.405686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.423807E+02    0.421080E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.404053E+02    0.431442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.381834E+02    0.433594E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.361685E+02    0.455082E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.331701E+02    0.438485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.318847E+02    0.412654E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.323631E+02    0.384400E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.347890E+02    0.358406E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.383425E+02    0.344245E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.422492E+02    0.345378E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.454606E+02    0.362019E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133301E+03   -0.472025E+02    0.389700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133348E+03   -0.465604E+02    0.419931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.436824E+02    0.445244E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.398971E+02    0.458065E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.403016E+02    0.318593E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.382303E+02    0.319561E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.397591E+02    0.303700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.422058E+02    0.307730E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.420517E+02    0.326726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.396028E+02    0.333835E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.374763E+02    0.345126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.361650E+02    0.332935E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.360510E+02    0.316620E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.370185E+02    0.300936E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.390371E+02    0.288597E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.412823E+02    0.285223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.433853E+02    0.290703E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.446658E+02    0.303917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.447868E+02    0.320744E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.436519E+02    0.337047E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.416621E+02    0.348279E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.394161E+02    0.351169E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.372866E+02    0.374019E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.342502E+02    0.358202E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.329350E+02    0.332130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.335808E+02    0.302680E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.359248E+02    0.276843E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.395091E+02    0.261499E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.436673E+02    0.260492E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.469346E+02    0.276751E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133067E+03   -0.487217E+02    0.303297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133213E+03   -0.479830E+02    0.333906E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.449795E+02    0.361145E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.410540E+02    0.375902E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.389596E+02    0.454031E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.368184E+02    0.454382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.383460E+02    0.438632E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.406473E+02    0.444356E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.405759E+02    0.463707E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.381560E+02    0.469598E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.361529E+02    0.479150E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.348671E+02    0.466324E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.348677E+02    0.449368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.356492E+02    0.434290E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.375544E+02    0.423816E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.397674E+02    0.421600E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.418342E+02    0.427915E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.430795E+02    0.441686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.432855E+02    0.459018E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.422562E+02    0.474718E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.402850E+02    0.484385E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.381644E+02    0.485724E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.360516E+02    0.506423E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.330584E+02    0.489302E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.317817E+02    0.463667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.322713E+02    0.434772E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.346018E+02    0.410899E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.380424E+02    0.398423E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.419287E+02    0.400346E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.452388E+02    0.416764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133006E+03   -0.470946E+02    0.443602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133114E+03   -0.464359E+02    0.474779E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.437821E+02    0.498440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.398777E+02    0.510183E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.396043E+02    0.362721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.373463E+02    0.364467E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.390757E+02    0.347175E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.414004E+02    0.352103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.412320E+02    0.372043E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.387973E+02    0.379179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.367829E+02    0.389886E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.355827E+02    0.376741E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.353813E+02    0.360043E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.364500E+02    0.343455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.382675E+02    0.332632E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.404971E+02    0.329633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.425829E+02    0.335198E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.438472E+02    0.348493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.439575E+02    0.366060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.428124E+02    0.383035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.409355E+02    0.393678E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.387079E+02    0.396144E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.365934E+02    0.417396E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.335773E+02    0.402010E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.322802E+02    0.375914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.328502E+02    0.345940E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.351846E+02    0.321008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.388405E+02    0.306428E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.427649E+02    0.307159E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.462257E+02    0.321862E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133593E+03   -0.476485E+02    0.349331E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133328E+03   -0.471179E+02    0.380600E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134139E+03   -0.443495E+02    0.406445E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.403358E+02    0.419787E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.407036E+02    0.258270E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.384229E+02    0.260949E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.400509E+02    0.243167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.426127E+02    0.246275E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.423655E+02    0.267168E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.399058E+02    0.275128E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.375818E+02    0.288372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.364507E+02    0.274920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.364208E+02    0.257002E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.373895E+02    0.240163E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.393148E+02    0.227386E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.417713E+02    0.221982E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.437889E+02    0.228003E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.450862E+02    0.241699E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.451077E+02    0.260240E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.439762E+02    0.277736E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.419858E+02    0.289658E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.397300E+02    0.292925E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.375124E+02    0.315737E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.344481E+02    0.301386E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.332864E+02    0.273952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.339186E+02    0.242542E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.362671E+02    0.214930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.401588E+02    0.195466E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.442575E+02    0.194136E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.474558E+02    0.211721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133136E+03   -0.491546E+02    0.239996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133334E+03   -0.483148E+02    0.273407E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.453272E+02    0.301669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.414016E+02    0.316408E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690118.138974366     
  ps_ts2 prof sum =   689747.694771883     
  trcom prof sum =    689747.694771884     
  ps_ts2 cur sum  =   11038.3109348346     
  trcom cur sum  =    11038.3109348346     
  
  antenna # iant =            2
  powecha_use(iant) =    665383.667724450     
  ps_ts2 prof sum =   665011.949992080     
  trcom prof sum =    665011.949992079     
  ps_ts2 cur sum  =   12577.9876714394     
  trcom cur sum  =    12577.9876714394     
  
  antenna # iant =            3
  powecha_use(iant) =    529092.483092756     
  ps_ts2 prof sum =   528788.042051258     
  trcom prof sum =    528788.042051259     
  ps_ts2 cur sum  =   7431.21667105838     
  trcom cur sum  =    7431.21667105838     
  
  antenna # iant =            4
  powecha_use(iant) =    565411.848844589     
  ps_ts2 prof sum =   565111.635633434     
  trcom prof sum =    565111.635633433     
  ps_ts2 cur sum  =   9831.75981661525     
  trcom cur sum  =    9831.75981661524     
  
  antenna # iant =            5
  powecha_use(iant) =    543200.574723757     
  ps_ts2 prof sum =   542895.222185601     
  trcom prof sum =    542895.222150643     
  ps_ts2 cur sum  =   11187.6994430628     
  trcom cur sum  =    11187.6994430628     
  
  Total ECH heating:      2991554.54459930     
  Total Current Drive:    52066.9745370105     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2706
 TA= 3.01000E+00 CPU TIME= 1.60286E-01 SECONDS.  DT= 3.35357E-03
  
 TEC1=    3.00999999999996     
 TEC2=    3.01499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.37987722222215     
  %check_save_state: izleft hours =    72.6116666666667     
 --> plasma_hash("gframe"): TA= 3.010000E+00 NSTEP=  2706 Hash code:  105656453
 ->PRGCHK: bdy curvature ratio at t= 3.0150E+00 seconds is:  5.6443E-02
% MHDEQ: TG1=     3.010000 ; TG2=     3.015000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7667E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6443E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.010000 TO TG2=    3.015000 @ NSTEP     2706
   GFRAME TG2 MOMENTS CHECKSUM:  2.4758383469661D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.0150E+00  3.0200E+00 total power(Watts):  2.9970E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.01500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.390603E+02    0.401925E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.369138E+02    0.402775E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.384345E+02    0.387123E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.407411E+02    0.392282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.406794E+02    0.410959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.382585E+02    0.417281E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.362542E+02    0.427344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.349652E+02    0.414866E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.349568E+02    0.398280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.357342E+02    0.383470E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.377392E+02    0.371725E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.398533E+02    0.369297E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.419220E+02    0.375362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.431711E+02    0.389107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.432745E+02    0.406150E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.422521E+02    0.421576E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.403875E+02    0.431653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.381666E+02    0.433795E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.359556E+02    0.455710E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.332478E+02    0.438348E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.317822E+02    0.413195E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.323489E+02    0.384550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.345868E+02    0.359662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.382252E+02    0.345103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.421222E+02    0.346217E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.455530E+02    0.361922E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133336E+03   -0.471826E+02    0.389822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133820E+03   -0.463068E+02    0.420679E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.436634E+02    0.445425E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.398803E+02    0.458163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.402823E+02    0.319031E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.380138E+02    0.321075E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.397399E+02    0.304169E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.420802E+02    0.308733E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.419262E+02    0.327662E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.394820E+02    0.334746E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.372628E+02    0.346480E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.362439E+02    0.332812E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.360331E+02    0.317063E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.370016E+02    0.301394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.390193E+02    0.289087E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.412635E+02    0.285726E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.432582E+02    0.291764E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.445356E+02    0.304931E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.446550E+02    0.321699E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.435221E+02    0.337927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.416425E+02    0.348644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.393941E+02    0.351529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.371717E+02    0.374649E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.342344E+02    0.358496E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.329215E+02    0.332513E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.334764E+02    0.303723E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.358168E+02    0.277958E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.395892E+02    0.261461E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.436471E+02    0.261125E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.469123E+02    0.277325E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133525E+03   -0.484680E+02    0.304787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133675E+03   -0.477296E+02    0.335218E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.448467E+02    0.361865E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.410360E+02    0.376099E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.388428E+02    0.454381E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.368032E+02    0.454483E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.383291E+02    0.438816E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.406296E+02    0.444531E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.405591E+02    0.463780E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.381395E+02    0.469681E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.361371E+02    0.479249E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.349491E+02    0.466158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.346605E+02    0.450069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.357307E+02    0.434175E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.375377E+02    0.424026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.397497E+02    0.421794E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.417065E+02    0.428410E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.430606E+02    0.441872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.431549E+02    0.459342E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.421270E+02    0.474985E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.402628E+02    0.484513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.380447E+02    0.486021E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.360324E+02    0.506559E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.330439E+02    0.489437E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.316784E+02    0.464009E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.321664E+02    0.435293E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.343982E+02    0.411797E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.380256E+02    0.398555E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.419100E+02    0.400478E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133903E+03   -0.453283E+02    0.416640E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133258E+03   -0.469563E+02    0.444020E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133150E+03   -0.464170E+02    0.474832E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.435365E+02    0.498843E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.397539E+02    0.510443E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.394835E+02    0.363448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.374286E+02    0.364278E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.389564E+02    0.348010E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.413811E+02    0.352450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.412137E+02    0.372267E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.387798E+02    0.379363E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.365698E+02    0.390834E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.353731E+02    0.377814E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.352705E+02    0.360811E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.364332E+02    0.343828E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.382498E+02    0.333042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.404777E+02    0.330057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.424555E+02    0.336088E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.437167E+02    0.349308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.438218E+02    0.366747E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.427913E+02    0.383201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.408159E+02    0.394169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.385892E+02    0.396653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.365771E+02    0.417580E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.335623E+02    0.402141E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.322663E+02    0.376099E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.328344E+02    0.346295E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.350744E+02    0.321995E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.388217E+02    0.306896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.427445E+02    0.307626E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.459788E+02    0.323275E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133403E+03   -0.477425E+02    0.349287E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133798E+03   -0.468651E+02    0.381503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.441052E+02    0.407233E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.403179E+02    0.419972E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.406855E+02    0.258874E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.385017E+02    0.260894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.401317E+02    0.243211E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.424916E+02    0.247613E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.423449E+02    0.267760E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.397883E+02    0.276255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.375647E+02    0.288855E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.364351E+02    0.275415E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.363119E+02    0.258258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.373729E+02    0.240872E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.393936E+02    0.227517E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.416519E+02    0.223576E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.437698E+02    0.228866E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.450662E+02    0.242463E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.450868E+02    0.260882E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.439563E+02    0.278273E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.419663E+02    0.290153E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.396116E+02    0.293983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.372996E+02    0.317281E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.344321E+02    0.301843E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.331842E+02    0.275100E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.338161E+02    0.243920E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.362517E+02    0.215814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.399494E+02    0.198055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.441352E+02    0.196021E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.474346E+02    0.212774E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.489025E+02    0.242049E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.480661E+02    0.275067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.451957E+02    0.302687E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.412775E+02    0.317377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694550.974127188     
  ps_ts2 prof sum =   694148.016581152     
  trcom prof sum =    694148.016581152     
  ps_ts2 cur sum  =   11073.9331586954     
  trcom cur sum  =    11073.9331586954     
  
  antenna # iant =            2
  powecha_use(iant) =    666050.039901415     
  ps_ts2 prof sum =   665650.147384229     
  trcom prof sum =    665650.147384228     
  ps_ts2 cur sum  =   12558.8031207022     
  trcom cur sum  =    12558.8031207022     
  
  antenna # iant =            3
  powecha_use(iant) =    529947.292901802     
  ps_ts2 prof sum =   529634.539735746     
  trcom prof sum =    529634.539735747     
  ps_ts2 cur sum  =   7416.15860960387     
  trcom cur sum  =    7416.15860960387     
  
  antenna # iant =            4
  powecha_use(iant) =    563054.000614969     
  ps_ts2 prof sum =   562719.269523507     
  trcom prof sum =    562719.269523506     
  ps_ts2 cur sum  =   9761.91221944713     
  trcom cur sum  =    9761.91221944712     
  
  antenna # iant =            5
  powecha_use(iant) =    543350.432752831     
  ps_ts2 prof sum =   543046.520132897     
  trcom prof sum =    543046.520132897     
  ps_ts2 cur sum  =   11168.0199645894     
  trcom cur sum  =    11168.0199642015     
  
  Total ECH heating:      2995198.49335753     
  Total Current Drive:    51978.8270726501     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2708
 TA= 3.01500E+00 CPU TIME= 1.60332E-01 SECONDS.  DT= 2.05804E-03
  
 TEC1=    3.01499999999996     
 TEC2=    3.01999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.39562611111091     
  %check_save_state: izleft hours =    72.5958333333333     
 --> plasma_hash("gframe"): TA= 3.015000E+00 NSTEP=  2708 Hash code:   68751826
 ->PRGCHK: bdy curvature ratio at t= 3.0200E+00 seconds is:  5.6359E-02
% MHDEQ: TG1=     3.015000 ; TG2=     3.020000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7689E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6359E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.015000 TO TG2=    3.020000 @ NSTEP     2708
   GFRAME TG2 MOMENTS CHECKSUM:  2.4764400388767D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.41917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.29334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.28146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.36010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.76597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.95107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.00653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.67845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.59329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.47780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.83491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.89097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.63188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.50059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.64432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15=  1.87408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.98928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.71957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.08480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.50200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.50200E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0200E+00  3.0250E+00 total power(Watts):  2.9989E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.02000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.389415E+02    0.402400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.368993E+02    0.402892E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.384195E+02    0.387240E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.407250E+02    0.392403E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.405566E+02    0.411430E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.382432E+02    0.417438E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.360426E+02    0.428192E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.350467E+02    0.414658E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.347535E+02    0.399179E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.357204E+02    0.383598E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.376189E+02    0.372391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.398373E+02    0.369527E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.417974E+02    0.375962E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.431545E+02    0.389223E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.432575E+02    0.406250E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.422351E+02    0.421746E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.402645E+02    0.432148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.381510E+02    0.434000E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.360399E+02    0.455578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.330496E+02    0.439174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.317670E+02    0.413356E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.323364E+02    0.384686E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.345718E+02    0.359958E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.382086E+02    0.345469E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.421045E+02    0.346586E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.453078E+02    0.363035E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.470477E+02    0.390285E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133636E+03   -0.464051E+02    0.420544E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.435333E+02    0.445852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.397584E+02    0.458526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.402642E+02    0.319484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.380957E+02    0.320974E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.397223E+02    0.304628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.420612E+02    0.309202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.419075E+02    0.328097E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.394652E+02    0.335150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.373449E+02    0.346344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.360370E+02    0.334260E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.359187E+02    0.318076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.370811E+02    0.301270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.389034E+02    0.290149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.411428E+02    0.286790E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.432391E+02    0.292250E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.445161E+02    0.305407E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.446353E+02    0.322144E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.435028E+02    0.338340E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.415190E+02    0.349457E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.392789E+02    0.352322E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.371569E+02    0.374832E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.341273E+02    0.359284E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.329072E+02    0.332911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.334616E+02    0.304165E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.358015E+02    0.278433E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.395732E+02    0.262019E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.435235E+02    0.262309E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.467817E+02    0.278401E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133769E+03   -0.483311E+02    0.305767E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133486E+03   -0.478241E+02    0.335204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.448278E+02    0.362171E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.409140E+02    0.376679E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.388275E+02    0.454528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.367885E+02    0.454623E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.382108E+02    0.439298E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.406136E+02    0.444704E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.404367E+02    0.464094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.381248E+02    0.469766E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.361230E+02    0.479361E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.347424E+02    0.466745E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.346461E+02    0.450224E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.357160E+02    0.434377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.374225E+02    0.424539E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.396288E+02    0.422294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.416897E+02    0.428601E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.429318E+02    0.442327E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.431380E+02    0.459473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.421115E+02    0.475063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.401401E+02    0.484808E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.380307E+02    0.486138E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.360185E+02    0.506711E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.329376E+02    0.489784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.316666E+02    0.464103E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.321532E+02    0.435489E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.343842E+02    0.411940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.380101E+02    0.398660E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.417848E+02    0.400938E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.450865E+02    0.417360E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133292E+03   -0.469379E+02    0.444207E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133406E+03   -0.462821E+02    0.475078E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.435199E+02    0.498992E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.397387E+02    0.510591E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.394666E+02    0.363732E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.374138E+02    0.364535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.389397E+02    0.348371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.412584E+02    0.353241E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.410905E+02    0.372897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.386625E+02    0.379938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.366535E+02    0.390550E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.353592E+02    0.377979E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.352553E+02    0.361091E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.362253E+02    0.345198E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.380343E+02    0.334473E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.403568E+02    0.330979E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.424368E+02    0.336499E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.436982E+02    0.349672E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.438034E+02    0.367022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.426672E+02    0.383735E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.407998E+02    0.394276E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.385728E+02    0.396771E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.364636E+02    0.418097E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.334520E+02    0.402680E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.322536E+02    0.376268E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.327294E+02    0.347175E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.350588E+02    0.322419E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.387053E+02    0.307912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.426188E+02    0.308629E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.460707E+02    0.323256E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.474897E+02    0.350500E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.469628E+02    0.381301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.440881E+02    0.407328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.403016E+02    0.420156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.405709E+02    0.260082E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.382924E+02    0.262739E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.399176E+02    0.245222E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.424736E+02    0.248299E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.422235E+02    0.268906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.397712E+02    0.276754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.376448E+02    0.288732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.363251E+02    0.276535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.362970E+02    0.258824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.372638E+02    0.242243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.391844E+02    0.229708E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.416348E+02    0.224420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.436475E+02    0.230350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.449401E+02    0.243834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.449601E+02    0.262076E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.438302E+02    0.279367E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.418436E+02    0.291203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.395943E+02    0.294454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.373802E+02    0.317176E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.344169E+02    0.302289E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.331683E+02    0.275581E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.338026E+02    0.244559E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.361470E+02    0.217401E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.400293E+02    0.198330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.440177E+02    0.197807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.473059E+02    0.214431E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.487731E+02    0.243414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133601E+03   -0.481584E+02    0.275078E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.451753E+02    0.303183E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.412589E+02    0.317831E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692611.844894942     
  ps_ts2 prof sum =   692215.807394976     
  trcom prof sum =    692215.807394977     
  ps_ts2 cur sum  =   11013.4783818512     
  trcom cur sum  =    11013.4783818512     
  
  antenna # iant =            2
  powecha_use(iant) =    667041.180005753     
  ps_ts2 prof sum =   666692.230690900     
  trcom prof sum =    666692.230690899     
  ps_ts2 cur sum  =   12551.1485228503     
  trcom cur sum  =    12551.1485228503     
  
  antenna # iant =            3
  powecha_use(iant) =    531031.956655771     
  ps_ts2 prof sum =   530717.128630657     
  trcom prof sum =    530717.128630657     
  ps_ts2 cur sum  =   7407.10765238242     
  trcom cur sum  =    7407.10765238243     
  
  antenna # iant =            4
  powecha_use(iant) =    564857.726690919     
  ps_ts2 prof sum =   564529.786573697     
  trcom prof sum =    564529.786573696     
  ps_ts2 cur sum  =   9769.93348901046     
  trcom cur sum  =    9769.93348901045     
  
  antenna # iant =            5
  powecha_use(iant) =    543340.560999746     
  ps_ts2 prof sum =   543039.995244876     
  trcom prof sum =    543039.995244875     
  ps_ts2 cur sum  =   11148.4296586379     
  trcom cur sum  =    11148.4296586379     
  
  Total ECH heating:      2997194.94853510     
  Total Current Drive:    51890.0977047322     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2711
 TA= 3.02000E+00 CPU TIME= 1.47339E-01 SECONDS.  DT= 4.61760E-04
  
 TEC1=    3.01999999999996     
 TEC2=    3.02499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.40903916666616     
  %check_save_state: izleft hours =    72.5825000000000     
 --> plasma_hash("gframe"): TA= 3.020000E+00 NSTEP=  2711 Hash code:  104678215
 ->PRGCHK: bdy curvature ratio at t= 3.0250E+00 seconds is:  5.6276E-02
% MHDEQ: TG1=     3.020000 ; TG2=     3.025000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7711E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6276E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.020000 TO TG2=    3.025000 @ NSTEP     2711
   GFRAME TG2 MOMENTS CHECKSUM:  2.4770417307874D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0250E+00  3.0300E+00 total power(Watts):  2.9887E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.02500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.389247E+02    0.402507E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.366854E+02    0.403754E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.383017E+02    0.387771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.407078E+02    0.392528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.405395E+02    0.411552E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.381248E+02    0.417925E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.361258E+02    0.428030E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.348404E+02    0.415524E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.347375E+02    0.399294E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.358015E+02    0.383324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.376073E+02    0.372574E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.398201E+02    0.369743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.417793E+02    0.376148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.430245E+02    0.389712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.431282E+02    0.406685E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.421074E+02    0.422209E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.402474E+02    0.432322E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.380326E+02    0.434483E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.360254E+02    0.455684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.330354E+02    0.439343E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.317554E+02    0.413499E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.322335E+02    0.385266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.344632E+02    0.360703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.380913E+02    0.346290E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.419781E+02    0.347387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.454011E+02    0.362901E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.470283E+02    0.390407E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.461526E+02    0.421251E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.435155E+02    0.446011E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.397421E+02    0.458625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.401428E+02    0.320403E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.378804E+02    0.322434E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.396026E+02    0.305600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.419359E+02    0.310150E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.417818E+02    0.328978E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.393450E+02    0.336017E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.371311E+02    0.347664E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.361160E+02    0.334096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.359055E+02    0.318448E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.368718E+02    0.302842E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.388851E+02    0.290589E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.411235E+02    0.287247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.431121E+02    0.293252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.443848E+02    0.306361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.445038E+02    0.323039E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.433733E+02    0.339174E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.414997E+02    0.349791E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.392611E+02    0.352635E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.369431E+02    0.375887E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.341122E+02    0.359552E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.328030E+02    0.333817E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.333569E+02    0.305165E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.356906E+02    0.279528E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.394563E+02    0.263200E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.435031E+02    0.262898E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.467584E+02    0.278914E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.484236E+02    0.305718E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133732E+03   -0.476863E+02    0.336029E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.446960E+02    0.362849E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.408962E+02    0.376861E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.387078E+02    0.454894E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.366737E+02    0.454994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.381948E+02    0.439469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.404895E+02    0.445125E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.404212E+02    0.464166E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.380064E+02    0.470071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.360080E+02    0.479662E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.347276E+02    0.466818E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.347286E+02    0.450055E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.355054E+02    0.435187E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.374059E+02    0.424697E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.396119E+02    0.422449E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.415630E+02    0.429068E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.429141E+02    0.442483E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.430086E+02    0.459801E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.419841E+02    0.475319E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.401249E+02    0.484877E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.379125E+02    0.486424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.359050E+02    0.506990E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.329244E+02    0.489904E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.315623E+02    0.464462E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.321396E+02    0.435654E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.342740E+02    0.412454E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.378934E+02    0.399141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.417673E+02    0.401042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.451824E+02    0.417187E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133545E+03   -0.468007E+02    0.444604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133443E+03   -0.462646E+02    0.475126E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.433894E+02    0.499243E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.396162E+02    0.510855E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.394491E+02    0.363984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.372975E+02    0.365239E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.388206E+02    0.349173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.412392E+02    0.353561E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.410726E+02    0.373111E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.386463E+02    0.380094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.364413E+02    0.391489E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.354397E+02    0.377709E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.353347E+02    0.360881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.363048E+02    0.345029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.381159E+02    0.334326E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.403378E+02    0.331362E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.423098E+02    0.337347E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.435681E+02    0.350448E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.436735E+02    0.367671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.426492E+02    0.383872E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.406762E+02    0.394766E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.385569E+02    0.396873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.364483E+02    0.418248E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.334419E+02    0.402776E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.321508E+02    0.376901E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.327165E+02    0.347486E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.349494E+02    0.323354E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.386869E+02    0.308317E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.425986E+02    0.309046E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.458241E+02    0.324614E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133670E+03   -0.475892E+02    0.350404E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134085E+03   -0.467107E+02    0.382183E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.439568E+02    0.407766E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.401784E+02    0.420615E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.405493E+02    0.260672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.383715E+02    0.262646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.399981E+02    0.245247E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.423509E+02    0.249611E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.422036E+02    0.269446E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.395522E+02    0.278446E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.374341E+02    0.290359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.363084E+02    0.277004E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.361878E+02    0.260043E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.372472E+02    0.242927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.392640E+02    0.229802E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.415155E+02    0.225977E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.436274E+02    0.231195E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.448123E+02    0.245196E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.449390E+02    0.262679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.438096E+02    0.279850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.418239E+02    0.291653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.393750E+02    0.296033E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.373626E+02    0.317572E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.343098E+02    0.303292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.330681E+02    0.276678E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.337013E+02    0.245898E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.361312E+02    0.218276E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.398203E+02    0.200887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.439946E+02    0.198973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.472839E+02    0.215474E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133831E+03   -0.487502E+02    0.244204E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.479091E+02    0.276705E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.450434E+02    0.304134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.411350E+02    0.318758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.58 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689321.037044323     
  ps_ts2 prof sum =   688931.710487395     
  trcom prof sum =    688931.710487395     
  ps_ts2 cur sum  =   10923.3933325099     
  trcom cur sum  =    10923.3933325099     
  
  antenna # iant =            2
  powecha_use(iant) =    664261.232858435     
  ps_ts2 prof sum =   663858.332266042     
  trcom prof sum =    663858.332266041     
  ps_ts2 cur sum  =   12463.0111860954     
  trcom cur sum  =    12463.0111860954     
  
  antenna # iant =            3
  powecha_use(iant) =    529814.460555890     
  ps_ts2 prof sum =   529494.827697103     
  trcom prof sum =    529494.827697103     
  ps_ts2 cur sum  =   7363.36596294524     
  trcom cur sum  =    7363.36596294525     
  
  antenna # iant =            4
  powecha_use(iant) =    560998.225077850     
  ps_ts2 prof sum =   560694.780400906     
  trcom prof sum =    560694.780400905     
  ps_ts2 cur sum  =   9671.55056436526     
  trcom cur sum  =    9671.55056436524     
  
  antenna # iant =            5
  powecha_use(iant) =    544280.772482026     
  ps_ts2 prof sum =   543970.331815835     
  trcom prof sum =    543970.331815835     
  ps_ts2 cur sum  =   11140.6255568682     
  trcom cur sum  =    11140.6255568682     
  
  Total ECH heating:      2986949.98266728     
  Total Current Drive:    51561.9466027839     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2717
 TA= 3.02500E+00 CPU TIME= 1.63172E-01 SECONDS.  DT= 1.51290E-03
  
 TEC1=    3.02499999999996     
 TEC2=    3.02999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.42562611111089     
  %check_save_state: izleft hours =    72.5658333333333     
 --> plasma_hash("gframe"): TA= 3.025000E+00 NSTEP=  2717 Hash code:   28918774
 ->PRGCHK: bdy curvature ratio at t= 3.0300E+00 seconds is:  5.6193E-02
% MHDEQ: TG1=     3.025000 ; TG2=     3.030000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7733E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6193E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.025000 TO TG2=    3.030000 @ NSTEP     2717
   GFRAME TG2 MOMENTS CHECKSUM:  2.4776434226980D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.79054E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.58115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.29625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.52136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.40727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.74561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.90855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.09037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.62414E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.38357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.91972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.75548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.98341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.64889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.52576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.67183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      15=  1.32320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.80061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.88527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.02756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.50108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.50108E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  3.0300E+00  3.0350E+00 total power(Watts):  2.9975E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.03000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.388058E+02    0.402989E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.367690E+02    0.403497E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.382861E+02    0.387924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.405849E+02    0.393034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.405247E+02    0.411660E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.381091E+02    0.418072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.361109E+02    0.428203E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.349218E+02    0.415308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.346294E+02    0.399813E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.355937E+02    0.384335E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.374919E+02    0.373229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.396994E+02    0.370417E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.417618E+02    0.376356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.430086E+02    0.389851E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.431106E+02    0.406791E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.420901E+02    0.422357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.402308E+02    0.432495E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.380168E+02    0.434651E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.359127E+02    0.456053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.329292E+02    0.439835E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.316529E+02    0.414032E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.322199E+02    0.385424E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.344481E+02    0.360991E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.380743E+02    0.346647E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.419592E+02    0.347752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.451552E+02    0.364001E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.468923E+02    0.390908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.462485E+02    0.421117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.433852E+02    0.446416E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.397273E+02    0.458726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.401244E+02    0.320848E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.379620E+02    0.322332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.395852E+02    0.306060E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.419168E+02    0.310616E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.417628E+02    0.329410E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.393274E+02    0.336415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.372129E+02    0.347519E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.359085E+02    0.335541E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.357948E+02    0.319431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.369515E+02    0.302726E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.387693E+02    0.291650E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.410025E+02    0.288330E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.430931E+02    0.293752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.443645E+02    0.306853E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.444836E+02    0.323494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.433539E+02    0.339572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.413750E+02    0.350600E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.391417E+02    0.353435E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.370265E+02    0.375655E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.340047E+02    0.360329E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.327884E+02    0.334203E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.333420E+02    0.305614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.356761E+02    0.280034E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.394397E+02    0.263803E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.433788E+02    0.264137E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.466259E+02    0.280039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134041E+03   -0.481708E+02    0.307202E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.474332E+02    0.337338E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.446765E+02    0.363152E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.408787E+02    0.377074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.386926E+02    0.455008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.366593E+02    0.455104E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.380764E+02    0.439932E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.404731E+02    0.445285E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.402977E+02    0.464478E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.379925E+02    0.470111E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.359959E+02    0.479737E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.348106E+02    0.466642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.345199E+02    0.450761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.355890E+02    0.435033E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.373904E+02    0.424864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.394904E+02    0.422927E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.415459E+02    0.429240E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.427847E+02    0.442901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.429922E+02    0.459888E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.419684E+02    0.475374E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.401097E+02    0.484960E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.378979E+02    0.486521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.358915E+02    0.507116E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.330051E+02    0.489803E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.315509E+02    0.464526E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.320358E+02    0.436161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.342600E+02    0.412592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.378777E+02    0.399266E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.416421E+02    0.401506E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.449346E+02    0.417918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.467822E+02    0.444763E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133700E+03   -0.461300E+02    0.475340E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.433733E+02    0.499347E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.396016E+02    0.510968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.393296E+02    0.364704E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.372815E+02    0.365506E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.388034E+02    0.349520E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.411152E+02    0.354348E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.409489E+02    0.373746E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.386301E+02    0.380276E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.365246E+02    0.391212E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.352336E+02    0.378776E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.351297E+02    0.362113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.360951E+02    0.346392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.378999E+02    0.335744E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.402162E+02    0.332281E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.422908E+02    0.337750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.435489E+02    0.350802E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.436549E+02    0.367933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.425221E+02    0.384428E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.406596E+02    0.394895E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.384389E+02    0.397389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.362353E+02    0.419099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.334282E+02    0.402897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.321370E+02    0.377094E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.327021E+02    0.347825E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.349336E+02    0.323774E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.385702E+02    0.309328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.424728E+02    0.310045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.459159E+02    0.324595E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.473311E+02    0.351614E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.468078E+02    0.382004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.439386E+02    0.407876E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.401619E+02    0.420762E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.404319E+02    0.261920E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.381620E+02    0.264518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.397840E+02    0.247294E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.423332E+02    0.250331E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.420816E+02    0.270630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.396351E+02    0.278376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.375140E+02    0.290251E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.361990E+02    0.278147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.361724E+02    0.260652E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.371381E+02    0.244333E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.390548E+02    0.232035E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.414991E+02    0.226881E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.435051E+02    0.232744E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.447933E+02    0.245988E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.448114E+02    0.263918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.436830E+02    0.280967E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.417010E+02    0.292716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.394550E+02    0.295950E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.371495E+02    0.319105E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.342945E+02    0.303747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.330528E+02    0.277188E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.336878E+02    0.246573E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.360264E+02    0.219920E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.397085E+02    0.202731E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.438748E+02    0.200858E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.471553E+02    0.217221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.486164E+02    0.245641E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134301E+03   -0.477746E+02    0.277840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.450229E+02    0.304636E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.411163E+02    0.319209E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691596.490890312     
  ps_ts2 prof sum =   691217.245022150     
  trcom prof sum =    691217.245022150     
  ps_ts2 cur sum  =   10928.4371973988     
  trcom cur sum  =    10928.4371973987     
  
  antenna # iant =            2
  powecha_use(iant) =    665054.343806293     
  ps_ts2 prof sum =   664685.304843541     
  trcom prof sum =    664685.304843539     
  ps_ts2 cur sum  =   12449.7295696661     
  trcom cur sum  =    12449.7295696661     
  
  antenna # iant =            3
  powecha_use(iant) =    530845.193245745     
  ps_ts2 prof sum =   530549.759761475     
  trcom prof sum =    530549.759761475     
  ps_ts2 cur sum  =   7353.50671266735     
  trcom cur sum  =    7353.50671266736     
  
  antenna # iant =            4
  powecha_use(iant) =    566357.101959433     
  ps_ts2 prof sum =   566020.707780409     
  trcom prof sum =    566020.707780408     
  ps_ts2 cur sum  =   9739.76289589252     
  trcom cur sum  =    9739.76289589251     
  
  antenna # iant =            5
  powecha_use(iant) =    543695.364632867     
  ps_ts2 prof sum =   543355.969494668     
  trcom prof sum =    543355.969494668     
  ps_ts2 cur sum  =   11109.1635927728     
  trcom cur sum  =    11109.1635927728     
  
  Total ECH heating:      2995828.98690224     
  Total Current Drive:    51580.5999683975     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2720
 TA= 3.03000E+00 CPU TIME= 1.59442E-01 SECONDS.  DT= 1.99498E-03
  
 TEC1=    3.02999999999996     
 TEC2=    3.03499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.43736499999955     
  %check_save_state: izleft hours =    72.5541666666667     
 --> plasma_hash("gframe"): TA= 3.030000E+00 NSTEP=  2720 Hash code:   86902940
 ->PRGCHK: bdy curvature ratio at t= 3.0350E+00 seconds is:  5.6111E-02
% MHDEQ: TG1=     3.030000 ; TG2=     3.035000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7755E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6111E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.030000 TO TG2=    3.035000 @ NSTEP     2720
   GFRAME TG2 MOMENTS CHECKSUM:  2.4782451146086D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.0350E+00  3.0400E+00 total power(Watts):  2.5373E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.03500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.387912E+02    0.403118E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.365563E+02    0.404388E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.382715E+02    0.388085E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.405694E+02    0.393194E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.404011E+02    0.412147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.379921E+02    0.418586E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.359986E+02    0.428721E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.347167E+02    0.416197E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.346150E+02    0.399962E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.356769E+02    0.384078E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.374775E+02    0.373445E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.396797E+02    0.370664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.416381E+02    0.376966E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.428816E+02    0.390391E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.429828E+02    0.407265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.419642E+02    0.422833E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.401089E+02    0.432985E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.378999E+02    0.435153E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.358995E+02    0.456190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.329167E+02    0.440020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.316410E+02    0.414188E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138455E+03   -0.321183E+02    0.386027E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.343411E+02    0.361747E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.378591E+02    0.347957E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.418352E+02    0.348553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.450240E+02    0.364692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.468750E+02    0.391058E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.459999E+02    0.421829E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.433691E+02    0.446596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.396066E+02    0.459101E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.400052E+02    0.321782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.379464E+02    0.322736E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.394679E+02    0.307044E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.417940E+02    0.311577E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.416395E+02    0.330302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.392093E+02    0.337286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.371980E+02    0.347851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.358971E+02    0.335890E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.357799E+02    0.319833E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.367444E+02    0.304303E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.387538E+02    0.292106E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.409860E+02    0.288800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.429689E+02    0.294769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.442374E+02    0.307805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.443547E+02    0.324402E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.432269E+02    0.340410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.413584E+02    0.350929E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.391262E+02    0.353749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.368146E+02    0.376728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.339913E+02    0.360607E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138439E+03   -0.326860E+02    0.335116E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.333285E+02    0.306031E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.355692E+02    0.281126E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.393256E+02    0.265000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.432560E+02    0.265334E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.464953E+02    0.281115E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.482664E+02    0.307180E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.475297E+02    0.337291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.445461E+02    0.363854E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.407574E+02    0.377673E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.385741E+02    0.455409E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.365459E+02    0.455508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.380621E+02    0.440120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.403507E+02    0.445732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.402833E+02    0.464589E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.378757E+02    0.470432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.358838E+02    0.480050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.346058E+02    0.467231E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.346059E+02    0.450622E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.353802E+02    0.435866E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.372752E+02    0.425376E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.394758E+02    0.423099E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.414211E+02    0.429722E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.427692E+02    0.443096E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.428643E+02    0.460246E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.418420E+02    0.475665E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.399879E+02    0.485244E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.377810E+02    0.486823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.357792E+02    0.507409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.328067E+02    0.490346E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.315399E+02    0.464628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.320236E+02    0.436353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.343410E+02    0.412372E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.377631E+02    0.399778E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.416269E+02    0.401637E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.450326E+02    0.417769E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133836E+03   -0.466469E+02    0.445187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.461138E+02    0.475424E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.432443E+02    0.499615E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.395877E+02    0.511114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.393141E+02    0.364967E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.371684E+02    0.366208E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.387879E+02    0.349847E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.410988E+02    0.354663E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.409334E+02    0.373960E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.385135E+02    0.380869E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.363140E+02    0.392182E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.353158E+02    0.378526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.352107E+02    0.361907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.361780E+02    0.346221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.379838E+02    0.335610E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.401996E+02    0.332660E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.421660E+02    0.338604E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.434211E+02    0.351580E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.435269E+02    0.368599E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.425060E+02    0.384602E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.406441E+02    0.395052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.384246E+02    0.397520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.363202E+02    0.418918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.333238E+02    0.403426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138479E+03   -0.320358E+02    0.377745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.325996E+02    0.348661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.349193E+02    0.324167E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.385547E+02    0.309750E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.424552E+02    0.310484E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.456715E+02    0.325959E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.474283E+02    0.351539E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.465577E+02    0.382899E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.438097E+02    0.408331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.400403E+02    0.421250E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.404162E+02    0.262511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.382439E+02    0.264446E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.398672E+02    0.247338E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.422136E+02    0.251646E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.420651E+02    0.271180E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.394196E+02    0.280076E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.373059E+02    0.291888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.361858E+02    0.278619E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.360655E+02    0.261884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.371241E+02    0.245026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.391370E+02    0.232160E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.413829E+02    0.228431E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.434882E+02    0.233602E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.446688E+02    0.247353E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.447940E+02    0.264531E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.436656E+02    0.281477E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.416841E+02    0.293181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.392409E+02    0.297533E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.372338E+02    0.318958E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.341896E+02    0.304758E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.329531E+02    0.278305E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.335883E+02    0.247914E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.360136E+02    0.220791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.397904E+02    0.203055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.438588E+02    0.201991E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.470280E+02    0.218914E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.487100E+02    0.245852E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.477556E+02    0.278385E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.448946E+02    0.305590E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.409947E+02    0.320141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    231535.255810201     
  ps_ts2 prof sum =   231389.830093393     
  trcom prof sum =    231389.830093393     
  ps_ts2 cur sum  =   3650.75252040351     
  trcom cur sum  =    3650.75252040351     
  
  antenna # iant =            2
  powecha_use(iant) =    666170.915799981     
  ps_ts2 prof sum =   665780.702583309     
  trcom prof sum =    665780.702583309     
  ps_ts2 cur sum  =   12451.8368844950     
  trcom cur sum  =    12451.8368844950     
  
  antenna # iant =            3
  powecha_use(iant) =    529348.634831116     
  ps_ts2 prof sum =   529037.331603579     
  trcom prof sum =    529037.331603580     
  ps_ts2 cur sum  =   7311.01137007794     
  trcom cur sum  =    7311.01137007795     
  
  antenna # iant =            4
  powecha_use(iant) =    567031.037419326     
  ps_ts2 prof sum =   566729.899580778     
  trcom prof sum =    566729.899580778     
  ps_ts2 cur sum  =   9733.64248232990     
  trcom cur sum  =    9733.64248232989     
  
  antenna # iant =            5
  powecha_use(iant) =    543176.848274794     
  ps_ts2 prof sum =   542882.303591854     
  trcom prof sum =    542882.303591853     
  ps_ts2 cur sum  =   11085.4475573961     
  trcom cur sum  =    11085.4475573961     
  
  Total ECH heating:      2535820.06745291     
  Total Current Drive:    44232.6908147024     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2723
 TA= 3.03500E+00 CPU TIME= 1.60243E-01 SECONDS.  DT= 6.39126E-04
  
 TEC1=    3.03499999999996     
 TEC2=    3.03999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.45130888888843     
  %check_save_state: izleft hours =    72.5402777777778     
 --> plasma_hash("gframe"): TA= 3.035000E+00 NSTEP=  2723 Hash code:    8393095
 ->PRGCHK: bdy curvature ratio at t= 3.0400E+00 seconds is:  5.6030E-02
% MHDEQ: TG1=     3.035000 ; TG2=     3.040000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7777E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6030E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.035000 TO TG2=    3.040000 @ NSTEP     2723
   GFRAME TG2 MOMENTS CHECKSUM:  2.4788468065192D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.14869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.54699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.29906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.75271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.45277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.72598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.86754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.17123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.57176E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.18132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.34590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.67888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.07257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.66529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.55003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.69835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16= -3.51564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.61867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.04507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.97235E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.74875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.74875E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.0400E+00  3.0450E+00 total power(Watts):  2.3061E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.04000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.399896E+02    0.322186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.378328E+02    0.323672E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.394522E+02    0.307480E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.417776E+02    0.312005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.416229E+02    0.330694E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.391938E+02    0.337657E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.370855E+02    0.348659E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.357843E+02    0.336787E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.358611E+02    0.319682E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.368259E+02    0.304162E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.385404E+02    0.293722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.408668E+02    0.289841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.429518E+02    0.295229E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.442195E+02    0.308254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.443369E+02    0.324816E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.432098E+02    0.340777E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.412360E+02    0.351710E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.390088E+02    0.354517E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.368998E+02    0.376485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.338836E+02    0.361364E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.326733E+02    0.335475E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138450E+03   -0.332264E+02    0.307039E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.355560E+02    0.281602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.393101E+02    0.265602E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.432364E+02    0.265955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.464773E+02    0.281652E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.480159E+02    0.308610E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.472789E+02    0.338558E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.445292E+02    0.364126E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.407422E+02    0.377864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.385623E+02    0.455464E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.365345E+02    0.455563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.380496E+02    0.440225E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.403374E+02    0.445828E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.401678E+02    0.464825E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.378650E+02    0.470426E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.358738E+02    0.480056E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.346929E+02    0.466986E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.344030E+02    0.451272E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.354659E+02    0.435662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.372626E+02    0.425480E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.393568E+02    0.423519E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.414072E+02    0.429816E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.426433E+02    0.443462E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.428515E+02    0.460275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.418304E+02    0.475638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.399762E+02    0.485263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.377703E+02    0.486836E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.357696E+02    0.507477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.327973E+02    0.490391E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138449E+03   -0.314396E+02    0.464922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.319228E+02    0.436797E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.341447E+02    0.413180E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.377496E+02    0.399878E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.416125E+02    0.401718E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.447880E+02    0.418435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.466323E+02    0.445257E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.459832E+02    0.475569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.432327E+02    0.499643E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.394703E+02    0.511296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.391966E+02    0.365654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.371551E+02    0.366449E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.386715E+02    0.350640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.409768E+02    0.355419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.408113E+02    0.374594E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.384999E+02    0.381029E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.363995E+02    0.391893E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.351121E+02    0.379569E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.350077E+02    0.363117E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.359712E+02    0.347549E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.377697E+02    0.336994E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.400802E+02    0.333544E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.421491E+02    0.338979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.434042E+02    0.351905E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.435105E+02    0.368844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.424907E+02    0.384752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.405233E+02    0.395524E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.383087E+02    0.398002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.361099E+02    0.419713E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.333122E+02    0.403513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138518E+03   -0.320249E+02    0.377911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.325870E+02    0.348971E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.348123E+02    0.325115E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.384395E+02    0.310732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.423321E+02    0.311430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.455405E+02    0.326849E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.471773E+02    0.352700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.466576E+02    0.382699E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.437948E+02    0.408399E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.400268E+02    0.421339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.402995E+02    0.263751E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.380352E+02    0.266296E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.396550E+02    0.249344E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.421972E+02    0.252352E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.419451E+02    0.272330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.395050E+02    0.279974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.373880E+02    0.291745E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.360776E+02    0.279740E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.360522E+02    0.262460E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.370169E+02    0.246401E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.389293E+02    0.234338E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.413679E+02    0.229311E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.433677E+02    0.235107E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.446513E+02    0.248123E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.446685E+02    0.265740E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.435420E+02    0.282546E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.415638E+02    0.294190E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.393261E+02    0.297408E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.370242E+02    0.320451E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.341761E+02    0.305176E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138498E+03   -0.329409E+02    0.278780E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.335764E+02    0.248563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.359107E+02    0.222399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.395840E+02    0.205596E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.437402E+02    0.203850E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.470104E+02    0.219962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.484655E+02    0.247830E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.476234E+02    0.279485E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.447661E+02    0.306555E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.409787E+02    0.320555E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    667437.803340449     
  ps_ts2 prof sum =   667072.056945291     
  trcom prof sum =    667072.056945290     
  ps_ts2 cur sum  =   12464.5457619764     
  trcom cur sum  =    12464.5457619764     
  
  antenna # iant =            3
  powecha_use(iant) =    529721.819675924     
  ps_ts2 prof sum =   529411.322637718     
  trcom prof sum =    529411.322637719     
  ps_ts2 cur sum  =   7300.43906168291     
  trcom cur sum  =    7300.43906168292     
  
  antenna # iant =            4
  powecha_use(iant) =    566676.560927194     
  ps_ts2 prof sum =   566323.274611749     
  trcom prof sum =    566323.274611748     
  ps_ts2 cur sum  =   9713.88086708503     
  trcom cur sum  =    9713.88086708502     
  
  antenna # iant =            5
  powecha_use(iant) =    542271.928523718     
  ps_ts2 prof sum =   541941.743255458     
  trcom prof sum =    541941.743255457     
  ps_ts2 cur sum  =   11064.4490174764     
  trcom cur sum  =    11064.4490174764     
  
  Total ECH heating:      2304748.39745022     
  Total Current Drive:    40543.3147082207     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2728
 TA= 3.04000E+00 CPU TIME= 1.59355E-01 SECONDS.  DT= 1.64380E-03
  
 TEC1=    3.03999999999996     
 TEC2=    3.04499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.46547472222210     
  %check_save_state: izleft hours =    72.5261111111111     
 --> plasma_hash("gframe"): TA= 3.040000E+00 NSTEP=  2728 Hash code:   16189994
 ->PRGCHK: bdy curvature ratio at t= 3.0450E+00 seconds is:  5.5950E-02
% MHDEQ: TG1=     3.040000 ; TG2=     3.045000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1210E-03 SECONDS
   DATA R*BT AT EDGE:  2.7799E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5950E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.040000 TO TG2=    3.045000 @ NSTEP     2728
   GFRAME TG2 MOMENTS CHECKSUM:  2.4794484984298D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0450E+00  3.0500E+00 total power(Watts):  2.8949E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.04500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.386622E+02    0.403629E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.366318E+02    0.404150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.381431E+02    0.388711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.404355E+02    0.393746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.402676E+02    0.412602E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.379671E+02    0.418724E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.357778E+02    0.429575E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.345975E+02    0.416718E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.344969E+02    0.400514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.355547E+02    0.384755E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.373503E+02    0.374229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.395511E+02    0.371457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.415003E+02    0.377692E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.427413E+02    0.390964E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.429539E+02    0.407366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.418267E+02    0.423281E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.399763E+02    0.433460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.377730E+02    0.435648E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.357798E+02    0.456559E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.328039E+02    0.440527E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138672E+03   -0.315313E+02    0.414732E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138534E+03   -0.320954E+02    0.386273E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.343177E+02    0.362188E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.377299E+02    0.349000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.416964E+02    0.349567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.448772E+02    0.365550E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.464924E+02    0.392274E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.458533E+02    0.422209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.432295E+02    0.447005E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.394772E+02    0.459420E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.398714E+02    0.322971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.378182E+02    0.323929E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.393363E+02    0.308332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.416558E+02    0.312822E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.415011E+02    0.331442E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.390773E+02    0.338398E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.370714E+02    0.348895E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.357704E+02    0.337040E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.356580E+02    0.321048E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.366202E+02    0.305610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.386239E+02    0.293547E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.408511E+02    0.290272E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.428283E+02    0.296169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.440928E+02    0.309088E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.442096E+02    0.325559E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.430837E+02    0.341490E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.412207E+02    0.351932E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.389937E+02    0.354734E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.368868E+02    0.376615E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138342E+03   -0.338733E+02    0.361556E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138738E+03   -0.325722E+02    0.336259E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138487E+03   -0.332144E+02    0.307327E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.354495E+02    0.282697E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.391957E+02    0.266836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.431158E+02    0.267181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.463465E+02    0.282734E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.481130E+02    0.308463E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.473767E+02    0.338377E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.444004E+02    0.364723E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.406219E+02    0.378393E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.385514E+02    0.455517E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.363234E+02    0.456157E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.379360E+02    0.440610E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.402177E+02    0.446174E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.401527E+02    0.464852E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.378553E+02    0.470440E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.356655E+02    0.480512E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.344892E+02    0.467517E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.344890E+02    0.451056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.352593E+02    0.436388E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.371497E+02    0.425882E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.393441E+02    0.423585E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.412850E+02    0.430182E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.426305E+02    0.443528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.427270E+02    0.460538E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.417094E+02    0.475827E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.398582E+02    0.485464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.377603E+02    0.486879E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.357609E+02    0.507571E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.326950E+02    0.490659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.314317E+02    0.464948E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138514E+03   -0.319130E+02    0.436896E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.341303E+02    0.413251E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.376359E+02    0.400321E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.414901E+02    0.402130E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.448884E+02    0.418159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.465002E+02    0.445556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134037E+03   -0.459734E+02    0.475560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.431082E+02    0.499829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.394608E+02    0.511388E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.391820E+02    0.365839E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.369425E+02    0.367535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.386573E+02    0.350863E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.409621E+02    0.355624E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.407974E+02    0.374724E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.383842E+02    0.381564E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.363873E+02    0.391979E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.350989E+02    0.379703E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.349944E+02    0.363310E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.360571E+02    0.347268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.378554E+02    0.336732E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.400653E+02    0.333796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.420255E+02    0.339697E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.432778E+02    0.352571E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.433837E+02    0.369428E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.423663E+02    0.385243E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.405100E+02    0.395592E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.382964E+02    0.398060E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.361974E+02    0.419422E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.332075E+02    0.403992E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138557E+03   -0.320125E+02    0.378055E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138711E+03   -0.324858E+02    0.349717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.347993E+02    0.325365E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.384256E+02    0.311018E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.423156E+02    0.311738E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.455272E+02    0.327094E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.472762E+02    0.352507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.464087E+02    0.383527E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.436682E+02    0.408756E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.399069E+02    0.421738E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.402835E+02    0.264387E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.381171E+02    0.266273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.397381E+02    0.249420E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.420769E+02    0.253700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.419283E+02    0.272919E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.392894E+02    0.281665E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.371807E+02    0.293314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.360635E+02    0.280230E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.359487E+02    0.263695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.370024E+02    0.247119E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.390111E+02    0.234469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.412514E+02    0.230840E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.433507E+02    0.235952E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.445261E+02    0.249509E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.446501E+02    0.266403E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.435246E+02    0.283063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.415490E+02    0.294585E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.391102E+02    0.298896E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.371072E+02    0.320177E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.341638E+02    0.305476E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.329285E+02    0.279265E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.334767E+02    0.249934E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.358973E+02    0.223246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.396645E+02    0.205901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.436202E+02    0.205627E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.468781E+02    0.221630E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.483320E+02    0.249252E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.477177E+02    0.279522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.447486E+02    0.306890E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.408585E+02    0.321336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    591094.219820499     
  ps_ts2 prof sum =   590728.597005349     
  trcom prof sum =    590728.597005349     
  ps_ts2 cur sum  =   9289.91260215308     
  trcom cur sum  =    9289.91260215308     
  
  antenna # iant =            2
  powecha_use(iant) =    665592.366013989     
  ps_ts2 prof sum =   665214.470062376     
  trcom prof sum =    665214.470062375     
  ps_ts2 cur sum  =   12418.0521716373     
  trcom cur sum  =    12418.0521716373     
  
  antenna # iant =            3
  powecha_use(iant) =    528758.337564976     
  ps_ts2 prof sum =   528417.762174411     
  trcom prof sum =    528417.762174412     
  ps_ts2 cur sum  =   7273.03967861826     
  trcom cur sum  =    7273.03967861827     
  
  antenna # iant =            4
  powecha_use(iant) =    565928.288157801     
  ps_ts2 prof sum =   565614.060094092     
  trcom prof sum =    565614.060094092     
  ps_ts2 cur sum  =   9688.75428751576     
  trcom cur sum  =    9688.75428751575     
  
  antenna # iant =            5
  powecha_use(iant) =    543515.056363114     
  ps_ts2 prof sum =   543233.744270996     
  trcom prof sum =    543233.744270996     
  ps_ts2 cur sum  =   11081.8238353883     
  trcom cur sum  =    11081.8238353883     
  
  Total ECH heating:      2893208.63360722     
  Total Current Drive:    49751.5825753127     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2731
 TA= 3.04500E+00 CPU TIME= 1.46716E-01 SECONDS.  DT= 1.62681E-03
  
 TEC1=    3.04499999999996     
 TEC2=    3.04999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.48047944444397     
  %check_save_state: izleft hours =    72.5111111111111     
 --> plasma_hash("gframe"): TA= 3.045000E+00 NSTEP=  2731 Hash code:   13259861
 ->PRGCHK: bdy curvature ratio at t= 3.0500E+00 seconds is:  5.5870E-02
% MHDEQ: TG1=     3.045000 ; TG2=     3.050000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7821E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5870E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.045000 TO TG2=    3.050000 @ NSTEP     2731
   GFRAME TG2 MOMENTS CHECKSUM:  2.4800501903404D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.50683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.51284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.30186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.98405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.49826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.70635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.82653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.25209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.51937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.97907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.77208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.60228E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.16172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.68169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.57430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.72488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17=  5.07643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.43672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.20486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.91715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.66626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.66626E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0500E+00  3.0550E+00 total power(Watts):  2.9857E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.05000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.385464E+02    0.404065E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.365206E+02    0.404600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.380289E+02    0.389208E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.403156E+02    0.394215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.402545E+02    0.412662E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.378526E+02    0.419127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.358654E+02    0.429330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.345870E+02    0.416777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.345808E+02    0.400193E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.353498E+02    0.385724E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.371374E+02    0.375262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.394332E+02    0.372053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.414860E+02    0.377838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.427271E+02    0.391054E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.428294E+02    0.407760E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.418138E+02    0.423323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.399641E+02    0.433539E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.377614E+02    0.435740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.355753E+02    0.457161E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.327935E+02    0.440642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138714E+03   -0.315214E+02    0.414801E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138815E+03   -0.319920E+02    0.386846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.342097E+02    0.362877E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.378169E+02    0.348738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.416816E+02    0.349790E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.448612E+02    0.365745E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.465941E+02    0.392011E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.459562E+02    0.421959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.431035E+02    0.447332E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.394661E+02    0.459481E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.398566E+02    0.323227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.377059E+02    0.324707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.393219E+02    0.308642E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.416402E+02    0.313121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.414852E+02    0.331690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.390621E+02    0.338638E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.369601E+02    0.349606E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.358537E+02    0.336750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.357398E+02    0.320749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.367023E+02    0.305368E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.385109E+02    0.294532E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.407327E+02    0.291295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.428121E+02    0.296584E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.440762E+02    0.309410E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.441929E+02    0.325817E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.430680E+02    0.341717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.411001E+02    0.352602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.388781E+02    0.355411E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.367751E+02    0.377197E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.338608E+02    0.361750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138776E+03   -0.325605E+02    0.336492E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.331151E+02    0.308203E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.354366E+02    0.283201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.389824E+02    0.268708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.430990E+02    0.267844E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.463286E+02    0.283303E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.478638E+02    0.309762E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.471275E+02    0.339489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.443844E+02    0.364920E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.406080E+02    0.378538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.384359E+02    0.455849E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.364132E+02    0.455956E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.379237E+02    0.440701E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.402057E+02    0.446266E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.401414E+02    0.464901E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.377408E+02    0.470706E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.357557E+02    0.480330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.345767E+02    0.467305E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.342865E+02    0.451720E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.353463E+02    0.436167E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.371381E+02    0.425958E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.392264E+02    0.423974E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.412721E+02    0.430254E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.425058E+02    0.443877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.427150E+02    0.460596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.416975E+02    0.475857E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.398480E+02    0.485494E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.376470E+02    0.487107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.356526E+02    0.507821E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.326865E+02    0.490727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.314230E+02    0.464999E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.319012E+02    0.437007E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.340248E+02    0.413701E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.376197E+02    0.400411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.414767E+02    0.402191E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.446449E+02    0.418799E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.464865E+02    0.445633E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.458416E+02    0.475743E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.430975E+02    0.499886E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.393439E+02    0.511613E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.390646E+02    0.366474E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.370287E+02    0.367267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.385425E+02    0.351559E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.408411E+02    0.356289E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.406791E+02    0.375287E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.383710E+02    0.381701E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.361783E+02    0.392885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.349908E+02    0.380282E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.348858E+02    0.363984E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.358490E+02    0.348502E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.376412E+02    0.337987E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.399460E+02    0.334540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.420104E+02    0.339927E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.432623E+02    0.352789E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.433685E+02    0.369611E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.423520E+02    0.385357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.403900E+02    0.396044E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.381813E+02    0.398523E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.361861E+02    0.419490E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.331968E+02    0.404068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138826E+03   -0.319127E+02    0.378659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138749E+03   -0.324750E+02    0.349935E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.346934E+02    0.326159E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.382123E+02    0.312405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.421932E+02    0.312547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.453934E+02    0.327835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.470264E+02    0.353556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.465095E+02    0.383289E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.436541E+02    0.408810E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.398952E+02    0.421788E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.401672E+02    0.265656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.379088E+02    0.268165E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.395250E+02    0.251453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.420602E+02    0.254451E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.418074E+02    0.274130E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.393740E+02    0.281610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.372642E+02    0.293144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.359553E+02    0.281377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.359315E+02    0.264364E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.368949E+02    0.248525E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.387995E+02    0.236656E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.410349E+02    0.233024E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.432299E+02    0.237448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.445082E+02    0.250313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.445209E+02    0.267684E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.434000E+02    0.284172E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.414272E+02    0.295566E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.391957E+02    0.298720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.368992E+02    0.321516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.340599E+02    0.306382E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.328291E+02    0.280417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.334645E+02    0.250631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.357935E+02    0.224819E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.394593E+02    0.208335E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.436047E+02    0.206706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.467557E+02    0.223234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.483127E+02    0.250081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.474719E+02    0.281198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.446210E+02    0.307742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.408429E+02    0.321603E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682842.986747113     
  ps_ts2 prof sum =   682445.046294587     
  trcom prof sum =    682445.046294587     
  ps_ts2 cur sum  =   10715.6584284834     
  trcom cur sum  =    10715.6584284833     
  
  antenna # iant =            2
  powecha_use(iant) =    665794.303934152     
  ps_ts2 prof sum =   665459.149808232     
  trcom prof sum =    665459.149808232     
  ps_ts2 cur sum  =   12410.9784869058     
  trcom cur sum  =    12410.9784869058     
  
  antenna # iant =            3
  powecha_use(iant) =    528235.757301678     
  ps_ts2 prof sum =   527935.809934220     
  trcom prof sum =    527935.809934220     
  ps_ts2 cur sum  =   7251.91161603809     
  trcom cur sum  =    7251.91161603809     
  
  antenna # iant =            4
  powecha_use(iant) =    565758.276002960     
  ps_ts2 prof sum =   565397.871046738     
  trcom prof sum =    565397.871046738     
  ps_ts2 cur sum  =   9674.68419811562     
  trcom cur sum  =    9674.68419811560     
  
  antenna # iant =            5
  powecha_use(iant) =    543104.961324052     
  ps_ts2 prof sum =   542777.054071926     
  trcom prof sum =    542777.054071925     
  ps_ts2 cur sum  =   11066.6658994728     
  trcom cur sum  =    11066.6658994728     
  
  Total ECH heating:      2984014.93115570     
  Total Current Drive:    51119.8986290156     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2734
 TA= 3.05000E+00 CPU TIME= 1.59059E-01 SECONDS.  DT= 1.67459E-03
  
 TEC1=    3.04999999999996     
 TEC2=    3.05499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.49449694444456     
  %check_save_state: izleft hours =    72.4969444444444     
 --> plasma_hash("gframe"): TA= 3.050000E+00 NSTEP=  2734 Hash code:   12213116
 ->PRGCHK: bdy curvature ratio at t= 3.0550E+00 seconds is:  5.5791E-02
% MHDEQ: TG1=     3.050000 ; TG2=     3.055000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7843E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5791E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.050000 TO TG2=    3.055000 @ NSTEP     2734
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806518822511D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0550E+00  3.0600E+00 total power(Watts):  2.9808E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.05500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.385351E+02    0.404140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.365099E+02    0.404683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.380171E+02    0.389332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.403034E+02    0.394315E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.401360E+02    0.413077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.378410E+02    0.419225E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.356572E+02    0.430126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.346720E+02    0.416517E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138416E+03   -0.343800E+02    0.401082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.353390E+02    0.385855E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.372259E+02    0.374994E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.394209E+02    0.372227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.413648E+02    0.378413E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.426034E+02    0.391536E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.427054E+02    0.408159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.416915E+02    0.423735E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.398456E+02    0.433963E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.376480E+02    0.436174E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.356609E+02    0.456987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138664E+03   -0.326916E+02    0.441100E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138985E+03   -0.314220E+02    0.415296E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138844E+03   -0.319857E+02    0.386954E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138472E+03   -0.341992E+02    0.363080E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.376036E+02    0.349937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.415594E+02    0.350485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.447331E+02    0.366353E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.463459E+02    0.392805E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.457086E+02    0.422623E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.430917E+02    0.447462E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.393494E+02    0.459803E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.397406E+02    0.324018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.376927E+02    0.324982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.392068E+02    0.309527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.415206E+02    0.313960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.413653E+02    0.332437E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.389472E+02    0.339373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.369483E+02    0.349832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.356490E+02    0.338040E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.355371E+02    0.322135E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.364979E+02    0.306842E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.384985E+02    0.294957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.407192E+02    0.291757E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.426901E+02    0.297550E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.439521E+02    0.310255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.440677E+02    0.326579E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.429442E+02    0.342421E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.410863E+02    0.352826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.388654E+02    0.355629E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.367636E+02    0.377367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.337579E+02    0.362438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138814E+03   -0.325492E+02    0.336732E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138785E+03   -0.331033E+02    0.308530E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.353311E+02    0.284321E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.390679E+02    0.268734E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.429781E+02    0.269119E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.461997E+02    0.284420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.477319E+02    0.310603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.472283E+02    0.339286E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.442577E+02    0.365521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.404887E+02    0.379111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.384255E+02    0.455942E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.364036E+02    0.456048E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.378099E+02    0.441130E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.400871E+02    0.446660E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.400236E+02    0.465181E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.377318E+02    0.470741E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.357474E+02    0.480351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.345683E+02    0.467352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.342769E+02    0.451837E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.353365E+02    0.436302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.370259E+02    0.426407E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.392151E+02    0.424074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.411508E+02    0.430666E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.424938E+02    0.444002E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.425942E+02    0.460889E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.415763E+02    0.476075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.397308E+02    0.485701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.376385E+02    0.487135E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.356439E+02    0.507917E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.327725E+02    0.490574E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138805E+03   -0.313254E+02    0.465328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138825E+03   -0.318032E+02    0.437478E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.340148E+02    0.413787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.375111E+02    0.400859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.413556E+02    0.402624E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.447469E+02    0.418577E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.463555E+02    0.445989E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.458306E+02    0.475755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.429739E+02    0.500060E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.393350E+02    0.511703E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.390521E+02    0.366673E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.368178E+02    0.368376E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.385296E+02    0.351783E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.408278E+02    0.356514E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.406635E+02    0.375475E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.382570E+02    0.382264E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.362663E+02    0.392581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.349801E+02    0.380440E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.348758E+02    0.364181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.359329E+02    0.348233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.377285E+02    0.337724E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.399330E+02    0.334787E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.418890E+02    0.340639E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.431378E+02    0.353452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.432434E+02    0.370196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.422290E+02    0.385878E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.403777E+02    0.396137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.381750E+02    0.398595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.360756E+02    0.419946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.330944E+02    0.404556E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138866E+03   -0.319029E+02    0.378813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.139016E+03   -0.323751E+02    0.350674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.346811E+02    0.326423E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.382987E+02    0.312183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.421791E+02    0.312881E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.453784E+02    0.328107E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.468944E+02    0.354194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.463784E+02    0.383804E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.435284E+02    0.409203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.397768E+02    0.422202E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.400529E+02    0.266942E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.379922E+02    0.268173E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.396100E+02    0.251564E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.419422E+02    0.255815E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.417937E+02    0.274740E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.392613E+02    0.282736E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.370576E+02    0.294754E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.359441E+02    0.281901E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.358262E+02    0.265655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.368816E+02    0.249273E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.386927E+02    0.238117E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.411213E+02    0.233224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.431099E+02    0.238941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.443860E+02    0.251709E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.444007E+02    0.268925E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.432774E+02    0.285278E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.413091E+02    0.296544E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.390818E+02    0.299683E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.369839E+02    0.321256E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138571E+03   -0.340510E+02    0.306693E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138812E+03   -0.328185E+02    0.280924E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138885E+03   -0.333652E+02    0.252023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.357829E+02    0.225645E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.393511E+02    0.210058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.434874E+02    0.208476E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.467401E+02    0.224221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.481825E+02    0.251505E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.473407E+02    0.282338E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.446064E+02    0.308089E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.407248E+02    0.322398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674841.597930899     
  ps_ts2 prof sum =   674426.080601428     
  trcom prof sum =    674426.080601429     
  ps_ts2 cur sum  =   10578.8610650712     
  trcom cur sum  =    10578.8610650712     
  
  antenna # iant =            2
  powecha_use(iant) =    664342.701884360     
  ps_ts2 prof sum =   663981.198921343     
  trcom prof sum =    663981.198921342     
  ps_ts2 cur sum  =   12380.9076082293     
  trcom cur sum  =    12380.9076082292     
  
  antenna # iant =            3
  powecha_use(iant) =    528850.676056935     
  ps_ts2 prof sum =   528566.272965193     
  trcom prof sum =    528566.272965194     
  ps_ts2 cur sum  =   7247.40044169662     
  trcom cur sum  =    7247.40044169663     
  
  antenna # iant =            4
  powecha_use(iant) =    568208.761299023     
  ps_ts2 prof sum =   567894.622521258     
  trcom prof sum =    567894.622521258     
  ps_ts2 cur sum  =   9711.05809879443     
  trcom cur sum  =    9711.05809879442     
  
  antenna # iant =            5
  powecha_use(iant) =    544592.798077674     
  ps_ts2 prof sum =   544303.846088799     
  trcom prof sum =    544303.846088799     
  ps_ts2 cur sum  =   11096.7960172678     
  trcom cur sum  =    11096.7960172678     
  
  Total ECH heating:      2979172.02109802     
  Total Current Drive:    51015.0232310593     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2737
 TA= 3.05500E+00 CPU TIME= 1.69029E-01 SECONDS.  DT= 1.54021E-03
  
 TEC1=    3.05499999999996     
 TEC2=    3.05999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.51370916666656     
  %check_save_state: izleft hours =    72.4777777777778     
 --> plasma_hash("gframe"): TA= 3.055000E+00 NSTEP=  2737 Hash code:   99476478
 ->PRGCHK: bdy curvature ratio at t= 3.0600E+00 seconds is:  5.5726E-02
% MHDEQ: TG1=     3.055000 ; TG2=     3.060000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7823E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5726E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.055000 TO TG2=    3.060000 @ NSTEP     2737
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806621074233D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.46549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.44629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.35542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.47998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.53939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.71624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.67484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.36472E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.45812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.58037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.24052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.62605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.13878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.60528E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.71091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.69820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -1.31412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.71748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.35383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.86390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.12917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.12917E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0600E+00  3.0650E+00 total power(Watts):  2.9725E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.06000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.385152E+02    0.403875E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.364912E+02    0.404426E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.379974E+02    0.389093E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.402827E+02    0.394052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.402229E+02    0.412447E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.378226E+02    0.418942E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.358369E+02    0.429206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.345584E+02    0.416633E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.344573E+02    0.400440E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.355138E+02    0.384784E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.373058E+02    0.374360E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.393997E+02    0.372037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.414462E+02    0.377797E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.426924E+02    0.390896E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.427955E+02    0.407535E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.417812E+02    0.423124E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.399333E+02    0.433375E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.377324E+02    0.435593E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.357434E+02    0.456429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.327680E+02    0.440534E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138769E+03   -0.314958E+02    0.414673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138857E+03   -0.319684E+02    0.386751E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.341799E+02    0.362919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.377828E+02    0.348814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.416441E+02    0.349854E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.448230E+02    0.365726E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.465536E+02    0.391832E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.459211E+02    0.421702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.430714E+02    0.447150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.394380E+02    0.459244E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.398211E+02    0.323386E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.376715E+02    0.324872E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.392862E+02    0.308899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.416028E+02    0.313350E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.414486E+02    0.331807E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.390279E+02    0.338726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.368280E+02    0.350173E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.358208E+02    0.336868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.357069E+02    0.320935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.366684E+02    0.305664E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.384760E+02    0.294951E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.406954E+02    0.291770E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.427769E+02    0.296990E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.440369E+02    0.309669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.441540E+02    0.325961E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.430302E+02    0.341793E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.410639E+02    0.352657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.388443E+02    0.355460E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.367440E+02    0.377162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.338319E+02    0.361793E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138824E+03   -0.325304E+02    0.336612E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.330841E+02    0.308477E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.354034E+02    0.283752E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.389456E+02    0.269475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.430584E+02    0.268674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.462847E+02    0.283940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.479367E+02    0.309553E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.470865E+02    0.339548E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.443471E+02    0.364892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.405738E+02    0.378482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.384076E+02    0.455643E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.363865E+02    0.455759E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.378947E+02    0.440559E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.401759E+02    0.446095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.401134E+02    0.464618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.377149E+02    0.470421E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.357314E+02    0.480033E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.344553E+02    0.467308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.344532E+02    0.450984E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.352208E+02    0.436366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.371087E+02    0.425809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.391958E+02    0.423790E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.412402E+02    0.430073E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.424738E+02    0.443695E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.426848E+02    0.460330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.416696E+02    0.475518E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.398215E+02    0.485169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.376219E+02    0.486806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.356289E+02    0.507621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.326645E+02    0.490492E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.314006E+02    0.464776E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.318779E+02    0.436905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.339973E+02    0.413540E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.375936E+02    0.400215E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.414437E+02    0.401983E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.446098E+02    0.418572E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.464525E+02    0.445406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.458108E+02    0.475378E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.430701E+02    0.499568E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.393185E+02    0.511393E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.390310E+02    0.366481E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.369966E+02    0.367281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.385084E+02    0.351618E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.408056E+02    0.356329E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.406420E+02    0.375267E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.383392E+02    0.381624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.361485E+02    0.392753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.351531E+02    0.379355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.348568E+02    0.364014E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.358158E+02    0.348586E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.378071E+02    0.337077E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.399107E+02    0.334650E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.419731E+02    0.340017E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.432248E+02    0.352825E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.433317E+02    0.369569E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.423171E+02    0.385242E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.403571E+02    0.395873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.381506E+02    0.398348E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.361577E+02    0.419315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.331702E+02    0.403908E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138878E+03   -0.318855E+02    0.378626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138799E+03   -0.324462E+02    0.350020E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.346610E+02    0.326320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.382770E+02    0.312100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.421553E+02    0.312801E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.453533E+02    0.327967E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.471023E+02    0.353164E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.464713E+02    0.383170E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.436200E+02    0.408560E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.398637E+02    0.421596E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.401299E+02    0.266477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.378729E+02    0.268917E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.395859E+02    0.251787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.419177E+02    0.256025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.417690E+02    0.274841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.393383E+02    0.282201E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.372292E+02    0.293581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.359225E+02    0.281958E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.358976E+02    0.265158E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.368596E+02    0.249496E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.388637E+02    0.237060E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.410972E+02    0.233536E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.431895E+02    0.238598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.443593E+02    0.251950E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.444823E+02    0.268506E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.433594E+02    0.284772E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.413894E+02    0.295992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.391597E+02    0.299087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.368650E+02    0.321701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.340302E+02    0.306653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138817E+03   -0.327988E+02    0.280989E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.334323E+02    0.251545E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.357616E+02    0.225993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.395205E+02    0.209091E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.434615E+02    0.208970E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.467115E+02    0.224649E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.481536E+02    0.251766E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.474266E+02    0.281878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.445812E+02    0.308018E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.408068E+02    0.321768E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.17 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669696.752815502     
  ps_ts2 prof sum =   669336.682319044     
  trcom prof sum =    669336.682319044     
  ps_ts2 cur sum  =   10469.0771029273     
  trcom cur sum  =    10469.0771029273     
  
  antenna # iant =            2
  powecha_use(iant) =    663417.484011380     
  ps_ts2 prof sum =   663082.355674034     
  trcom prof sum =    663082.355674034     
  ps_ts2 cur sum  =   12320.9541454807     
  trcom cur sum  =    12320.9541454807     
  
  antenna # iant =            3
  powecha_use(iant) =    529016.355609900     
  ps_ts2 prof sum =   528700.928089986     
  trcom prof sum =    528700.928089987     
  ps_ts2 cur sum  =   7234.17359347271     
  trcom cur sum  =    7234.17359347272     
  
  antenna # iant =            4
  powecha_use(iant) =    567260.327162852     
  ps_ts2 prof sum =   566938.322919599     
  trcom prof sum =    566938.322919598     
  ps_ts2 cur sum  =   9664.10048228893     
  trcom cur sum  =    9664.10048228892     
  
  antenna # iant =            5
  powecha_use(iant) =    543111.737297801     
  ps_ts2 prof sum =   542820.807775868     
  trcom prof sum =    542820.807775868     
  ps_ts2 cur sum  =   11022.6065496211     
  trcom cur sum  =    11022.6065496211     
  
  Total ECH heating:      2970879.09677853     
  Total Current Drive:    50710.9118737907     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2740
 TA= 3.06000E+00 CPU TIME= 1.46437E-01 SECONDS.  DT= 1.91815E-03
  
 TEC1=    3.05999999999996     
 TEC2=    3.06499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    7.52623249999942     
  %check_save_state: izleft hours =    72.4652777777778     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  3.0600000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 3.060000E+00 NSTEP=  2740 Hash code:   24826925
 ->PRGCHK: bdy curvature ratio at t= 3.0650E+00 seconds is:  5.5666E-02
% MHDEQ: TG1=     3.060000 ; TG2=     3.065000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7803E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5666E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.060000 TO TG2=    3.065000 @ NSTEP     2740
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806723325955D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0650E+00  3.0700E+00 total power(Watts):  2.9660E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.06500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.385989E+02    0.403207E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.365719E+02    0.403758E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.380795E+02    0.388417E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.403683E+02    0.393378E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.402027E+02    0.412142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.379060E+02    0.418301E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.359185E+02    0.428571E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.347327E+02    0.415617E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.344396E+02    0.400172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.353979E+02    0.384974E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.372854E+02    0.374128E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.394822E+02    0.371360E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.414299E+02    0.377504E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.426703E+02    0.390598E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.428857E+02    0.406872E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.418708E+02    0.422487E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.399138E+02    0.433070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.378165E+02    0.434994E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.357267E+02    0.456131E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.327516E+02    0.440266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138783E+03   -0.314795E+02    0.414414E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.320402E+02    0.386075E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.342545E+02    0.362243E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.378611E+02    0.348138E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.416209E+02    0.349648E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.450259E+02    0.364658E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.466536E+02    0.391118E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.460154E+02    0.421062E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.431643E+02    0.446560E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.394194E+02    0.458923E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.397978E+02    0.323242E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.377485E+02    0.324201E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.392627E+02    0.308809E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.415774E+02    0.313239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.414248E+02    0.331636E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.391050E+02    0.338066E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.370041E+02    0.349010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.357043E+02    0.337229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.355910E+02    0.321358E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.365523E+02    0.306137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.385518E+02    0.294336E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.407740E+02    0.291179E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.427475E+02    0.296947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.440112E+02    0.309554E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.441286E+02    0.325795E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.431153E+02    0.341132E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.411475E+02    0.351990E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.389253E+02    0.354786E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.368230E+02    0.376485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.338130E+02    0.361602E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.326005E+02    0.335926E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.331534E+02    0.307807E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.353814E+02    0.283776E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.391196E+02    0.268339E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.430322E+02    0.268760E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.462569E+02    0.283953E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.480248E+02    0.308937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.472922E+02    0.338460E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.443230E+02    0.364645E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.405520E+02    0.378224E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.384942E+02    0.455068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.364700E+02    0.455189E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.378763E+02    0.440261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.401568E+02    0.445782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.400952E+02    0.464283E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.378014E+02    0.469858E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.358147E+02    0.479502E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.346328E+02    0.466491E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.343403E+02    0.450993E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.353993E+02    0.435442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.371921E+02    0.425168E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.392818E+02    0.423155E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.413274E+02    0.429455E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.425657E+02    0.443101E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.427781E+02    0.459755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.417623E+02    0.474962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.399119E+02    0.484638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.377088E+02    0.486286E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.357129E+02    0.507185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.327431E+02    0.490000E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.313858E+02    0.464493E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138623E+03   -0.318619E+02    0.436649E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.340745E+02    0.412892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.376756E+02    0.399544E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.414225E+02    0.401674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.447031E+02    0.417917E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.463125E+02    0.445295E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.459093E+02    0.474801E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.432776E+02    0.498927E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.394089E+02    0.510957E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.391129E+02    0.365811E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.368769E+02    0.367522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.385888E+02    0.350944E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.408889E+02    0.355666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.407267E+02    0.374599E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.383185E+02    0.381371E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.363271E+02    0.391661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.350380E+02    0.379560E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.349325E+02    0.363339E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.358920E+02    0.347910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.377854E+02    0.336909E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.399913E+02    0.333985E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.419494E+02    0.339831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.432003E+02    0.352615E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.434195E+02    0.368915E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.422950E+02    0.384957E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.404429E+02    0.395199E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.382334E+02    0.397678E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.361386E+02    0.419042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.332454E+02    0.403244E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138663E+03   -0.319568E+02    0.377949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.325164E+02    0.349343E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.347336E+02    0.325651E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.383541E+02    0.311439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.422372E+02    0.312157E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.454403E+02    0.327320E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.471930E+02    0.352503E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.463306E+02    0.383228E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.435981E+02    0.408240E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.399498E+02    0.420963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.400034E+02    0.267184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.380393E+02    0.267796E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.396599E+02    0.251331E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.419938E+02    0.255575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.418475E+02    0.274321E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.392143E+02    0.282814E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.371110E+02    0.294123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.359943E+02    0.281378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.358751E+02    0.265265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.369307E+02    0.249008E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.387419E+02    0.237979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.411713E+02    0.233160E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.431614E+02    0.238867E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.444389E+02    0.251528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.444550E+02    0.268600E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.433330E+02    0.284783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.414697E+02    0.295375E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.390361E+02    0.299588E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.370383E+02    0.320488E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.341009E+02    0.305988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.328651E+02    0.280395E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138661E+03   -0.334118E+02    0.251697E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.358298E+02    0.225572E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.393991E+02    0.210194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.435368E+02    0.208725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.467908E+02    0.224379E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134575E+03   -0.482365E+02    0.251396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.473980E+02    0.281903E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.446656E+02    0.307406E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.408854E+02    0.321122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659006.779977083     
  ps_ts2 prof sum =   658650.281694461     
  trcom prof sum =    658650.281694461     
  ps_ts2 cur sum  =   10274.7325582469     
  trcom cur sum  =    10274.7325582469     
  
  antenna # iant =            2
  powecha_use(iant) =    666105.995233447     
  ps_ts2 prof sum =   665736.310222885     
  trcom prof sum =    665736.310222884     
  ps_ts2 cur sum  =   12320.6429690435     
  trcom cur sum  =    12320.6429690435     
  
  antenna # iant =            3
  powecha_use(iant) =    528885.465620483     
  ps_ts2 prof sum =   528591.038804131     
  trcom prof sum =    528591.038804131     
  ps_ts2 cur sum  =   7216.03278346879     
  trcom cur sum  =    7216.03278346879     
  
  antenna # iant =            4
  powecha_use(iant) =    567920.560664538     
  ps_ts2 prof sum =   567599.432610544     
  trcom prof sum =    567599.432610544     
  ps_ts2 cur sum  =   9642.82572444812     
  trcom cur sum  =    9642.82572444811     
  
  antenna # iant =            5
  powecha_use(iant) =    544063.924372999     
  ps_ts2 prof sum =   543741.498785657     
  trcom prof sum =    543741.498785656     
  ps_ts2 cur sum  =   10990.6055928005     
  trcom cur sum  =    10990.6055928005     
  
  Total ECH heating:      2964318.56211768     
  Total Current Drive:    50444.8396280078     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2743
 TA= 3.06500E+00 CPU TIME= 1.66266E-01 SECONDS.  DT= 8.55196E-04
  
 TEC1=    3.06499999999996     
 TEC2=    3.06999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.54461083333285     
  %check_save_state: izleft hours =    72.4469444444444     
 --> plasma_hash("gframe"): TA= 3.065000E+00 NSTEP=  2743 Hash code:  121375656
 ->PRGCHK: bdy curvature ratio at t= 3.0700E+00 seconds is:  5.5610E-02
% MHDEQ: TG1=     3.065000 ; TG2=     3.070000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7783E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5610E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.065000 TO TG2=    3.070000 @ NSTEP     2743
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806825538192D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.02770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.34804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.45900E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.24905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.57590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.75539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.41427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.50812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.38849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.00320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.73384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.74934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  3.00469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.43722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.95813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.61886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      13= -3.92370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.45581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.49101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.81297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.87243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.87243E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0700E+00  3.0750E+00 total power(Watts):  2.9663E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.07000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.386811E+02    0.402516E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.366509E+02    0.403071E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.381595E+02    0.387717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.404526E+02    0.392673E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.402882E+02    0.411453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.378863E+02    0.417984E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.358989E+02    0.428286E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.346186E+02    0.415683E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.345155E+02    0.399484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.355706E+02    0.383845E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.373637E+02    0.373424E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.395633E+02    0.370664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.415133E+02    0.376823E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.427574E+02    0.389895E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.428625E+02    0.406521E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.418483E+02    0.422139E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.399999E+02    0.432433E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.377968E+02    0.434681E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.358078E+02    0.455544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.328268E+02    0.439665E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.315513E+02    0.413743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.320218E+02    0.385822E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.342338E+02    0.362027E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.378429E+02    0.347913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.417031E+02    0.348960E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.448864E+02    0.364770E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.465076E+02    0.391135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.458749E+02    0.420965E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.432560E+02    0.445944E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.395066E+02    0.458326E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.398753E+02    0.322572E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.376255E+02    0.324577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.393388E+02    0.308142E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.416627E+02    0.312548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.415054E+02    0.330953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.390861E+02    0.337850E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.368831E+02    0.349291E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.358734E+02    0.336008E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.356633E+02    0.320669E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.366248E+02    0.305473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.384281E+02    0.294850E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.408507E+02    0.290573E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.428264E+02    0.296344E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.440928E+02    0.308925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.442118E+02    0.325127E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.430892E+02    0.340910E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.412285E+02    0.351301E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.390044E+02    0.354090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.367027E+02    0.376666E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138228E+03   -0.338852E+02    0.360905E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138620E+03   -0.325797E+02    0.335765E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138586E+03   -0.331318E+02    0.307717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.354511E+02    0.283165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.391918E+02    0.267803E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.431090E+02    0.268252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.463384E+02    0.283420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.478789E+02    0.309278E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.473798E+02    0.337781E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.444099E+02    0.363952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.406351E+02    0.377527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.384753E+02    0.454739E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.364519E+02    0.454873E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.379598E+02    0.439646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.402443E+02    0.445171E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.401837E+02    0.463696E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.377831E+02    0.469513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.356974E+02    0.479400E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.345190E+02    0.466436E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.345149E+02    0.450109E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.352828E+02    0.435471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.371718E+02    0.424870E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.393660E+02    0.422499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.413121E+02    0.429110E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.426563E+02    0.442482E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.427574E+02    0.459391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.417427E+02    0.474585E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.398934E+02    0.484270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.377947E+02    0.485741E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.355974E+02    0.507037E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.327279E+02    0.489689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.314599E+02    0.463918E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.319354E+02    0.436037E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.342453E+02    0.411840E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.376547E+02    0.399242E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.415087E+02    0.400977E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.449097E+02    0.416921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.465265E+02    0.444419E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.460061E+02    0.474202E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.431511E+02    0.498696E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.394985E+02    0.510501E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.390899E+02    0.365561E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.370534E+02    0.366366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.385642E+02    0.350737E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.408647E+02    0.355424E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.408099E+02    0.373891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.383988E+02    0.380662E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.362074E+02    0.391797E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.352093E+02    0.378415E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.351017E+02    0.362160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.360629E+02    0.346712E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.378616E+02    0.336215E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.400704E+02    0.333291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.420313E+02    0.339145E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.432849E+02    0.351924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.433944E+02    0.368630E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.423811E+02    0.384251E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.404207E+02    0.394879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.383147E+02    0.396984E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.362135E+02    0.418379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.332267E+02    0.402964E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138676E+03   -0.319379E+02    0.377714E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138595E+03   -0.324954E+02    0.349160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.347116E+02    0.325499E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.382291E+02    0.311879E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.422103E+02    0.312026E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.455251E+02    0.326652E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.470488E+02    0.352656E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.465381E+02    0.382153E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.436877E+02    0.407546E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.399286E+02    0.420629E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.401781E+02    0.266050E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.379217E+02    0.268469E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.395342E+02    0.252115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.420689E+02    0.255104E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.418196E+02    0.274367E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.393882E+02    0.281650E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.372794E+02    0.292913E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.359707E+02    0.281389E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.359436E+02    0.264711E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.369050E+02    0.249178E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.388120E+02    0.237533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.410431E+02    0.234051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.432361E+02    0.238464E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.445156E+02    0.251095E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.445334E+02    0.268106E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.434121E+02    0.284213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.414425E+02    0.295321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.392117E+02    0.298389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.369176E+02    0.320881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.340787E+02    0.305905E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.328436E+02    0.280404E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.334755E+02    0.251178E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.358043E+02    0.225842E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.395643E+02    0.209162E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.436094E+02    0.208464E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.467585E+02    0.224708E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.483166E+02    0.251005E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.474805E+02    0.281373E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.447477E+02    0.306782E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.408649E+02    0.320942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660635.101801492     
  ps_ts2 prof sum =   660245.149116384     
  trcom prof sum =    660245.149116384     
  ps_ts2 cur sum  =   10261.6344585328     
  trcom cur sum  =    10261.6344585328     
  
  antenna # iant =            2
  powecha_use(iant) =    664316.360245923     
  ps_ts2 prof sum =   663914.862747888     
  trcom prof sum =    663914.862747887     
  ps_ts2 cur sum  =   12231.2867474497     
  trcom cur sum  =    12231.2867474497     
  
  antenna # iant =            3
  powecha_use(iant) =    529832.523480882     
  ps_ts2 prof sum =   529503.711687386     
  trcom prof sum =    529503.711687387     
  ps_ts2 cur sum  =   7206.15317288888     
  trcom cur sum  =    7206.15317288889     
  
  antenna # iant =            4
  powecha_use(iant) =    568307.294446961     
  ps_ts2 prof sum =   567973.436310931     
  trcom prof sum =    567973.436310931     
  ps_ts2 cur sum  =   9610.42611578401     
  trcom cur sum  =    9610.42611578400     
  
  antenna # iant =            5
  powecha_use(iant) =    543180.844926076     
  ps_ts2 prof sum =   542855.582975695     
  trcom prof sum =    542855.582975695     
  ps_ts2 cur sum  =   10915.1872867147     
  trcom cur sum  =    10915.1872867147     
  
  Total ECH heating:      2964492.74283828     
  Total Current Drive:    50224.6877813700     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2748
 TA= 3.07000E+00 CPU TIME= 1.59285E-01 SECONDS.  DT= 8.65753E-05
  
 TEC1=    3.06999999999996     
 TEC2=    3.07499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.55882194444416     
  %check_save_state: izleft hours =    72.4327777777778     
 --> plasma_hash("gframe"): TA= 3.070000E+00 NSTEP=  2748 Hash code:  114103696
 ->PRGCHK: bdy curvature ratio at t= 3.0750E+00 seconds is:  5.5559E-02
% MHDEQ: TG1=     3.070000 ; TG2=     3.075000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7764E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5559E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.070000 TO TG2=    3.075000 @ NSTEP     2748
   GFRAME TG2 MOMENTS CHECKSUM:  2.4806927750429D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.0750E+00  3.0800E+00 total power(Watts):  2.9683E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.07500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.386551E+02    0.402204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.366296E+02    0.402756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.381373E+02    0.387411E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.404290E+02    0.392354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.403722E+02    0.410761E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.379668E+02    0.417300E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.359776E+02    0.427633E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.346946E+02    0.415006E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.346852E+02    0.398380E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.354523E+02    0.384008E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.372407E+02    0.373611E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.395390E+02    0.370401E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.415963E+02    0.376120E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.428432E+02    0.389179E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.429497E+02    0.405819E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.419354E+02    0.421459E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.400851E+02    0.431779E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.378788E+02    0.434038E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.356901E+02    0.455492E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.329003E+02    0.439048E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.316220E+02    0.413065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.320917E+02    0.385118E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.343056E+02    0.361326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.379142E+02    0.347239E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.417840E+02    0.348273E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.449723E+02    0.364087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.467150E+02    0.390064E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.460841E+02    0.419963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.432335E+02    0.445572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.395931E+02    0.457711E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.399520E+02    0.321907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.377988E+02    0.323363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.394127E+02    0.307515E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.417360E+02    0.311921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.415847E+02    0.330281E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.391602E+02    0.337177E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.370567E+02    0.348105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.357544E+02    0.336366E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.358283E+02    0.319455E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.367919E+02    0.304260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.385998E+02    0.293677E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.408229E+02    0.290559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.429045E+02    0.295752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.441730E+02    0.308303E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.442936E+02    0.324473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.431712E+02    0.340232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.412024E+02    0.351075E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.389792E+02    0.353870E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.368782E+02    0.375523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.338637E+02    0.360688E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.326471E+02    0.335072E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.331980E+02    0.307053E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.355185E+02    0.282590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.390662E+02    0.268515E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.431840E+02    0.267797E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.464184E+02    0.282917E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134219E+03   -0.479629E+02    0.308680E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.472339E+02    0.337999E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.444955E+02    0.363261E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.407171E+02    0.376823E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.385598E+02    0.454123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.365332E+02    0.454262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.380422E+02    0.439016E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.403307E+02    0.444548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.402714E+02    0.463079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.378675E+02    0.468907E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.358795E+02    0.478575E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.346949E+02    0.465573E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.344003E+02    0.450095E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.354589E+02    0.434509E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.372525E+02    0.424200E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.393445E+02    0.422150E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.413948E+02    0.428445E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.426339E+02    0.442112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.428484E+02    0.458766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.418338E+02    0.473966E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.399824E+02    0.483675E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.377771E+02    0.485363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.357797E+02    0.506394E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.328050E+02    0.489149E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.314435E+02    0.463600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.319179E+02    0.435753E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.341307E+02    0.411923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.377340E+02    0.398541E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.415936E+02    0.400273E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.447705E+02    0.416840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.466209E+02    0.443764E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.458661E+02    0.473946E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.432403E+02    0.498147E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.394804E+02    0.510147E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.391692E+02    0.364860E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.371295E+02    0.365665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.386412E+02    0.350044E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.409450E+02    0.354732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.407852E+02    0.373612E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.384778E+02    0.379960E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.362846E+02    0.391086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.350921E+02    0.378608E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.349845E+02    0.362419E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.359431E+02    0.347023E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.377374E+02    0.336550E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.400445E+02    0.333110E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.421119E+02    0.338456E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.433681E+02    0.351239E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.434789E+02    0.367938E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.424659E+02    0.383545E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.405036E+02    0.394176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.382922E+02    0.396671E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.362969E+02    0.417707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.332994E+02    0.402271E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.320071E+02    0.377010E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.325633E+02    0.348465E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.347820E+02    0.324815E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.384024E+02    0.310679E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.422851E+02    0.311397E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.454957E+02    0.326476E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.471361E+02    0.351970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.466273E+02    0.381446E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.437760E+02    0.406844E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.400129E+02    0.419947E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.402498E+02    0.265572E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.379911E+02    0.267954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.397005E+02    0.251054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.420392E+02    0.255274E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.418939E+02    0.273861E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.394605E+02    0.281096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.373498E+02    0.292305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.360391E+02    0.280820E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.360111E+02    0.264189E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.369726E+02    0.248714E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.389774E+02    0.236469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.412138E+02    0.233050E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.433095E+02    0.238105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.444839E+02    0.251304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.446104E+02    0.267649E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.434893E+02    0.283681E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.415189E+02    0.294734E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.392854E+02    0.297778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.369904E+02    0.320211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.341461E+02    0.305246E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.329077E+02    0.279815E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.335390E+02    0.250673E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.358695E+02    0.225448E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.394397E+02    0.210292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.435785E+02    0.208914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.468339E+02    0.224463E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.482827E+02    0.251222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.475613E+02    0.280900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.447179E+02    0.306679E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.409389E+02    0.320306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661216.395254730     
  ps_ts2 prof sum =   660820.764362061     
  trcom prof sum =    660820.764362062     
  ps_ts2 cur sum  =   10226.4567085157     
  trcom cur sum  =    10226.4567085157     
  
  antenna # iant =            2
  powecha_use(iant) =    666014.479600799     
  ps_ts2 prof sum =   665654.802425259     
  trcom prof sum =    665654.802425259     
  ps_ts2 cur sum  =   12203.5654090216     
  trcom cur sum  =    12203.5654090216     
  
  antenna # iant =            3
  powecha_use(iant) =    529650.294630523     
  ps_ts2 prof sum =   529320.718453730     
  trcom prof sum =    529320.718453730     
  ps_ts2 cur sum  =   7177.87231534407     
  trcom cur sum  =    7177.87231534408     
  
  antenna # iant =            4
  powecha_use(iant) =    566892.485347197     
  ps_ts2 prof sum =   566535.326066154     
  trcom prof sum =    566535.326066154     
  ps_ts2 cur sum  =   9542.81635372095     
  trcom cur sum  =    9542.81635372094     
  
  antenna # iant =            5
  powecha_use(iant) =    544487.365573950     
  ps_ts2 prof sum =   544196.002349498     
  trcom prof sum =    544196.002317409     
  ps_ts2 cur sum  =   10883.0896607317     
  trcom cur sum  =    10883.0896607317     
  
  Total ECH heating:      2966527.61362461     
  Total Current Drive:    50033.8004473340     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2761
 TA= 3.07500E+00 CPU TIME= 1.59546E-01 SECONDS.  DT= 3.83692E-04
  
 TEC1=    3.07499999999996     
 TEC2=    3.07999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.57191083333282     
  %check_save_state: izleft hours =    72.4197222222222     
 --> plasma_hash("gframe"): TA= 3.075000E+00 NSTEP=  2761 Hash code:  107587479
 ->PRGCHK: bdy curvature ratio at t= 3.0800E+00 seconds is:  5.5512E-02
% MHDEQ: TG1=     3.075000 ; TG2=     3.080000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7744E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5512E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.075000 TO TG2=    3.080000 @ NSTEP     2761
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807029962666D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.58381E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.24841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.56402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.00095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.61292E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.79509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.65352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.31789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -3.33538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.29404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.87435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.86872E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.26682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.20880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.53842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  1.41180E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.20443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.63010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.76133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  9.02834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  9.02834E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0800E+00  3.0850E+00 total power(Watts):  2.9759E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.08000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.387450E+02    0.401464E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.367103E+02    0.402049E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.382191E+02    0.386696E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.405146E+02    0.391636E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.403522E+02    0.410409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.380512E+02    0.416593E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.358616E+02    0.427645E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.348689E+02    0.413933E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.345723E+02    0.398486E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.355300E+02    0.383293E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.374204E+02    0.372457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.396216E+02    0.369696E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.415742E+02    0.375825E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.428212E+02    0.388841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.430400E+02    0.405093E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.420257E+02    0.420757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.400661E+02    0.431416E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.379634E+02    0.433380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.358719E+02    0.454592E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.328901E+02    0.438727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.316058E+02    0.412767E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.321642E+02    0.384405E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.343797E+02    0.360621E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.379929E+02    0.346538E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.417605E+02    0.348045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.450615E+02    0.363392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.468084E+02    0.389339E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.461792E+02    0.419246E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.433271E+02    0.444925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.395756E+02    0.457351E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.399285E+02    0.321745E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.378752E+02    0.322679E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.393888E+02    0.307409E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.417112E+02    0.311791E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.415607E+02    0.330096E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.391379E+02    0.336989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.371338E+02    0.347405E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.358285E+02    0.335681E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.357124E+02    0.319865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.366737E+02    0.304746E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.386745E+02    0.293069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.409005E+02    0.289970E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.428786E+02    0.295698E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.441468E+02    0.308185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.442679E+02    0.324292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.432560E+02    0.339550E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.412860E+02    0.350379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.390596E+02    0.353181E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.369572E+02    0.374811E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.339366E+02    0.359993E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138415E+03   -0.326277E+02    0.334921E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.332668E+02    0.306375E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.354963E+02    0.282615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.392387E+02    0.267401E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.431567E+02    0.267907E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.463897E+02    0.282940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133790E+03   -0.481655E+02    0.307586E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.474392E+02    0.336876E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.445838E+02    0.362561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.406954E+02    0.376531E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.386466E+02    0.453503E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.366171E+02    0.453638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.380243E+02    0.438675E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.403123E+02    0.444184E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.402540E+02    0.462701E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.379546E+02    0.468295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.359637E+02    0.477987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.347767E+02    0.464959E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.344806E+02    0.449475E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.355395E+02    0.433862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.372345E+02    0.423854E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.394308E+02    0.421463E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.414845E+02    0.427752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.427265E+02    0.441460E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.429424E+02    0.458137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.419273E+02    0.473348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.400733E+02    0.483093E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.378652E+02    0.484782E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.358647E+02    0.505916E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.329776E+02    0.488388E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.315192E+02    0.462996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.319928E+02    0.435115E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.342078E+02    0.411231E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.378160E+02    0.397813E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.415727E+02    0.399921E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.448639E+02    0.416126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133619E+03   -0.467173E+02    0.443091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.460832E+02    0.473120E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.434514E+02    0.497431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.395723E+02    0.509671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.392507E+02    0.364157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.370100E+02    0.365876E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.387208E+02    0.349346E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.410281E+02    0.354047E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.408698E+02    0.372905E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.384574E+02    0.379672E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.364626E+02    0.389953E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.351688E+02    0.377894E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.350598E+02    0.361712E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.361150E+02    0.345819E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.379144E+02    0.335345E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.401250E+02    0.332424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.420878E+02    0.338252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.434541E+02    0.350549E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.435667E+02    0.367232E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.424439E+02    0.383219E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.405895E+02    0.393456E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.383751E+02    0.395955E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.362796E+02    0.417361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.332819E+02    0.401974E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.320785E+02    0.376297E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.325443E+02    0.348281E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.348543E+02    0.324122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.384785E+02    0.310016E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.423712E+02    0.310732E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.455820E+02    0.325810E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.473429E+02    0.350861E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.464869E+02    0.381468E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.439803E+02    0.405778E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.401003E+02    0.419242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.402251E+02    0.265679E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.381601E+02    0.266818E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.395809E+02    0.251855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.421153E+02    0.254851E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.419713E+02    0.273358E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.394358E+02    0.281126E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.372301E+02    0.292859E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.361101E+02    0.280244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.359880E+02    0.264317E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.371360E+02    0.247611E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.388560E+02    0.237404E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.412874E+02    0.232711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.432816E+02    0.238392E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.445620E+02    0.250928E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.445817E+02    0.267777E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.434624E+02    0.283692E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.415972E+02    0.294137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.391620E+02    0.298276E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.371631E+02    0.318983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.341253E+02    0.305165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.328870E+02    0.279853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.335174E+02    0.250862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.358465E+02    0.225772E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.395113E+02    0.210009E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.436530E+02    0.208704E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.468036E+02    0.224861E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.483642E+02    0.250893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.477584E+02    0.279886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.448016E+02    0.306056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.410198E+02    0.319628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    668372.687773887     
  ps_ts2 prof sum =   667989.619802178     
  trcom prof sum =    667989.619802178     
  ps_ts2 cur sum  =   10309.0999757470     
  trcom cur sum  =    10309.0999757470     
  
  antenna # iant =            2
  powecha_use(iant) =    666735.092934276     
  ps_ts2 prof sum =   666360.851005399     
  trcom prof sum =    666360.850968354     
  ps_ts2 cur sum  =   12172.3553839006     
  trcom cur sum  =    12172.3553839006     
  
  antenna # iant =            3
  powecha_use(iant) =    528114.041387545     
  ps_ts2 prof sum =   527835.241989767     
  trcom prof sum =    527835.241989767     
  ps_ts2 cur sum  =   7139.41282783704     
  trcom cur sum  =    7139.41282783704     
  
  antenna # iant =            4
  powecha_use(iant) =    569164.334335067     
  ps_ts2 prof sum =   568850.034237426     
  trcom prof sum =    568850.034237426     
  ps_ts2 cur sum  =   9550.92521277280     
  trcom cur sum  =    9550.92521277279     
  
  antenna # iant =            5
  powecha_use(iant) =    543523.114805788     
  ps_ts2 prof sum =   543215.077192470     
  trcom prof sum =    543215.077192470     
  ps_ts2 cur sum  =   10817.8519859322     
  trcom cur sum  =    10817.8519859322     
  
  Total ECH heating:      2974250.82419020     
  Total Current Drive:    49989.6453861896     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2768
 TA= 3.08000E+00 CPU TIME= 1.59778E-01 SECONDS.  DT= 8.50110E-04
  
 TEC1=    3.07999999999996     
 TEC2=    3.08499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.58681916666615     
  %check_save_state: izleft hours =    72.4047222222222     
 --> plasma_hash("gframe"): TA= 3.080000E+00 NSTEP=  2768 Hash code:   29160041
 ->PRGCHK: bdy curvature ratio at t= 3.0850E+00 seconds is:  5.5470E-02
% MHDEQ: TG1=     3.080000 ; TG2=     3.085000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7724E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5470E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.080000 TO TG2=    3.085000 @ NSTEP     2768
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807132174903D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0850E+00  3.0900E+00 total power(Watts):  2.9734E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.08500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.388276E+02    0.400780E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.365933E+02    0.402136E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.382001E+02    0.386402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.405976E+02    0.390940E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.404401E+02    0.409720E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.380336E+02    0.416268E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.360423E+02    0.426644E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.347567E+02    0.414011E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.346505E+02    0.397786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.357054E+02    0.382153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.375011E+02    0.371757E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.396015E+02    0.369437E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.416613E+02    0.375126E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.429111E+02    0.388141E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.430200E+02    0.404743E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.420072E+02    0.420393E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.401549E+02    0.430770E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.379463E+02    0.433058E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.359547E+02    0.453993E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.329636E+02    0.438117E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.316795E+02    0.412091E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.321478E+02    0.384154E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.343612E+02    0.360416E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.379725E+02    0.346336E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.418456E+02    0.347357E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.450386E+02    0.363120E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.466692E+02    0.389341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134200E+03   -0.460418E+02    0.419154E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.434215E+02    0.444298E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.396654E+02    0.456744E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.400094E+02    0.321069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.378539E+02    0.322541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.394694E+02    0.306744E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.417931E+02    0.311149E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.416445E+02    0.329420E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.392182E+02    0.336306E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.370151E+02    0.347707E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.360000E+02    0.334459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.358831E+02    0.318625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.368445E+02    0.303521E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.386522E+02    0.293028E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.408770E+02    0.289946E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.429605E+02    0.295100E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.442316E+02    0.307548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.443543E+02    0.323634E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.432329E+02    0.339338E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.412642E+02    0.350155E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.390391E+02    0.352951E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.369384E+02    0.374557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.340112E+02    0.359292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.326982E+02    0.334218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.332462E+02    0.306303E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.355683E+02    0.282022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.391168E+02    0.268100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.432366E+02    0.267420E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.464745E+02    0.282412E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134012E+03   -0.480235E+02    0.307941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.475299E+02    0.336207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.445605E+02    0.362301E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.407813E+02    0.375832E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.386306E+02    0.453165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.366009E+02    0.453320E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.381104E+02    0.438050E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.404020E+02    0.443570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.403452E+02    0.462094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.379390E+02    0.467939E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.359490E+02    0.477643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.346650E+02    0.464903E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.346577E+02    0.448569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.354260E+02    0.433887E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.373184E+02    0.423193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.395180E+02    0.420790E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.414660E+02    0.427403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.428199E+02    0.440822E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.429246E+02    0.457769E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.419107E+02    0.472960E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.400537E+02    0.482714E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.378502E+02    0.484426E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.358461E+02    0.505606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.328713E+02    0.488287E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.315951E+02    0.462407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.320682E+02    0.434489E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.341916E+02    0.410935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.377977E+02    0.397508E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.416617E+02    0.399216E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.450735E+02    0.415109E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.467043E+02    0.442705E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133540E+03   -0.461833E+02    0.472494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.433208E+02    0.497209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.396644E+02    0.509198E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.392304E+02    0.363912E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.371892E+02    0.364718E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.387003E+02    0.349139E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.410066E+02    0.353816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.409554E+02    0.372206E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.385402E+02    0.378975E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.363455E+02    0.390099E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.353423E+02    0.376748E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.350413E+02    0.361495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.359992E+02    0.346138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.379934E+02    0.334657E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.402064E+02    0.331745E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.421729E+02    0.337575E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.434314E+02    0.350310E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.435431E+02    0.366960E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.425327E+02    0.382519E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.405701E+02    0.393141E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.384590E+02    0.395252E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.363614E+02    0.416681E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.333582E+02    0.401283E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.320619E+02    0.376063E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.326158E+02    0.347582E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.348362E+02    0.323975E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.383595E+02    0.310439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.423471E+02    0.310609E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.456700E+02    0.325151E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.474348E+02    0.350181E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.466973E+02    0.380386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.438472E+02    0.405762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.400818E+02    0.418905E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.403015E+02    0.265175E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.380410E+02    0.267530E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.397530E+02    0.250772E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.420902E+02    0.255008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.419466E+02    0.273419E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.395118E+02    0.280567E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.374015E+02    0.291658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.360888E+02    0.280273E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.360590E+02    0.263785E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.370201E+02    0.248444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.390253E+02    0.236333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.412598E+02    0.232998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.433594E+02    0.238021E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.445354E+02    0.251112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.446632E+02    0.267311E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.435449E+02    0.283150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.415743E+02    0.294084E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.393402E+02    0.297083E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.370440E+02    0.319410E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.341963E+02    0.304499E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.329545E+02    0.279250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.334978E+02    0.251010E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.359152E+02    0.225364E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.394872E+02    0.210411E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.436265E+02    0.209141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.468837E+02    0.224604E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133682E+03   -0.485600E+02    0.249971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134214E+03   -0.476176E+02    0.280427E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.448871E+02    0.305432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.409970E+02    0.319482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662887.938862939     
  ps_ts2 prof sum =   662490.284959777     
  trcom prof sum =    662490.284959778     
  ps_ts2 cur sum  =   10201.1652332940     
  trcom cur sum  =    10201.1652332940     
  
  antenna # iant =            2
  powecha_use(iant) =    667319.840943347     
  ps_ts2 prof sum =   666966.274663640     
  trcom prof sum =    666966.274663639     
  ps_ts2 cur sum  =   12146.0877063383     
  trcom cur sum  =    12146.0877063383     
  
  antenna # iant =            3
  powecha_use(iant) =    528977.264526481     
  ps_ts2 prof sum =   528663.381481635     
  trcom prof sum =    528663.381481635     
  ps_ts2 cur sum  =   7137.14609413843     
  trcom cur sum  =    7137.14609413844     
  
  antenna # iant =            4
  powecha_use(iant) =    570905.503975092     
  ps_ts2 prof sum =   570567.531115526     
  trcom prof sum =    570567.531115526     
  ps_ts2 cur sum  =   9555.34137476460     
  trcom cur sum  =    9555.34137476459     
  
  antenna # iant =            5
  powecha_use(iant) =    543358.285050430     
  ps_ts2 prof sum =   543071.069155528     
  trcom prof sum =    543071.069155527     
  ps_ts2 cur sum  =   10775.0946755356     
  trcom cur sum  =    10775.0946755356     
  
  Total ECH heating:      2971758.54137611     
  Total Current Drive:    49814.8350840709     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2773
 TA= 3.08500E+00 CPU TIME= 1.60662E-01 SECONDS.  DT= 1.23230E-04
  
 TEC1=    3.08499999999996     
 TEC2=    3.08999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.60196472222196     
  %check_save_state: izleft hours =    72.3897222222222     
 --> plasma_hash("gframe"): TA= 3.085000E+00 NSTEP=  2773 Hash code:   53040221
 ->PRGCHK: bdy curvature ratio at t= 3.0900E+00 seconds is:  5.5432E-02
% MHDEQ: TG1=     3.085000 ; TG2=     3.090000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5432E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.085000 TO TG2=    3.090000 @ NSTEP     2773
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807234387140D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.14297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.14947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.66833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.76143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.83451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.79791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.24778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.20510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.64482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.99850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.73370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.38608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.45774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.45853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  1.97650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.94791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.76823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.71005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.66138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.66138E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0900E+00  3.0950E+00 total power(Watts):  2.9669E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.09000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.388093E+02    0.400308E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.367744E+02    0.400900E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.382827E+02    0.385574E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.405837E+02    0.390466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.405284E+02    0.408862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.381191E+02    0.415430E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.361252E+02    0.425834E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.349321E+02    0.412810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.346335E+02    0.397368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.355902E+02    0.382220E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.374812E+02    0.371400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.396844E+02    0.368635E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.416396E+02    0.374730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.430006E+02    0.387291E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.431115E+02    0.403876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.420991E+02    0.419531E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.402448E+02    0.429949E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.380335E+02    0.432251E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.359412E+02    0.453533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.329494E+02    0.437700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.316646E+02    0.411673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.322202E+02    0.383339E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.344353E+02    0.359638E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.380500E+02    0.345590E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.419291E+02    0.346608E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.451273E+02    0.362329E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.468805E+02    0.388116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.462559E+02    0.417963E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.434045E+02    0.443778E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.397572E+02    0.455976E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.399850E+02    0.320915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.379288E+02    0.321860E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.394447E+02    0.306670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.418721E+02    0.310531E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.417251E+02    0.328729E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.392967E+02    0.335582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.371904E+02    0.346461E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.358831E+02    0.334787E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.357664E+02    0.319047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.367253E+02    0.304040E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.387270E+02    0.292462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.409534E+02    0.289418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.429338E+02    0.295099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.442042E+02    0.307462E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.443276E+02    0.323458E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.433173E+02    0.338621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.413471E+02    0.349401E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.391192E+02    0.352193E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.370179E+02    0.373747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.339913E+02    0.359013E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.327663E+02    0.333493E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.333151E+02    0.305647E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.355455E+02    0.282103E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.392874E+02    0.267058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.432078E+02    0.267599E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.464445E+02    0.282522E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133582E+03   -0.482246E+02    0.306885E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133995E+03   -0.473822E+02    0.336414E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.446488E+02    0.361519E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.407598E+02    0.375434E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.387203E+02    0.452404E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.366872E+02    0.452568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.380948E+02    0.437577E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.404936E+02    0.442785E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.403307E+02    0.461584E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.380287E+02    0.467206E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.360361E+02    0.476927E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.348463E+02    0.463895E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.345479E+02    0.448431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.356065E+02    0.432765E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.374026E+02    0.422372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.395001E+02    0.420295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.415578E+02    0.426565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.428029E+02    0.440300E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.430215E+02    0.456986E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.420065E+02    0.472205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.401548E+02    0.481995E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.379413E+02    0.483727E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.359412E+02    0.505022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.330471E+02    0.487410E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.315833E+02    0.461975E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.320545E+02    0.434074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.342698E+02    0.410097E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.378808E+02    0.396662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.416420E+02    0.398730E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.449388E+02    0.414881E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133427E+03   -0.467989E+02    0.441878E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.461681E+02    0.471897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.434216E+02    0.496526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.396530E+02    0.508751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.393121E+02    0.363127E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.372678E+02    0.363926E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.387785E+02    0.348382E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.410896E+02    0.353049E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.409338E+02    0.371829E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.385203E+02    0.378587E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.365248E+02    0.388838E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.352265E+02    0.376848E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.351156E+02    0.360729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.360744E+02    0.345391E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.379706E+02    0.334452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.401823E+02    0.331543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.422555E+02    0.336857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.435170E+02    0.349560E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.436366E+02    0.366151E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.425113E+02    0.382082E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.406569E+02    0.392292E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.384404E+02    0.394803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.362465E+02    0.416581E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.335274E+02    0.400037E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.321337E+02    0.375255E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.325965E+02    0.347353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.349078E+02    0.323277E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.385341E+02    0.309251E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.424264E+02    0.310000E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.456428E+02    0.324962E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.472921E+02    0.350273E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.467905E+02    0.379542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.439400E+02    0.404887E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.401716E+02    0.418045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.402743E+02    0.265364E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.382085E+02    0.266471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.396283E+02    0.251657E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.421652E+02    0.254647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.420223E+02    0.272988E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.394862E+02    0.280665E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.372808E+02    0.292264E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.361587E+02    0.279757E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.360354E+02    0.263967E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.371827E+02    0.247401E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.389035E+02    0.237305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.413376E+02    0.232679E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.433308E+02    0.238360E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.446124E+02    0.250800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.446342E+02    0.267484E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.436235E+02    0.282682E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.416519E+02    0.293538E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.394156E+02    0.296504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.372175E+02    0.318176E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.341743E+02    0.304451E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.329329E+02    0.279353E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.335616E+02    0.250582E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.358916E+02    0.225726E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.396525E+02    0.209494E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.437004E+02    0.208973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.468529E+02    0.225040E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133888E+03   -0.484156E+02    0.250831E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.478124E+02    0.279515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.448592E+02    0.305359E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.410768E+02    0.318807E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658858.732024554     
  ps_ts2 prof sum =   658491.367244518     
  trcom prof sum =    658491.367244518     
  ps_ts2 cur sum  =   10113.9284068438     
  trcom cur sum  =    10113.9284068438     
  
  antenna # iant =            2
  powecha_use(iant) =    666432.060914843     
  ps_ts2 prof sum =   666050.275584472     
  trcom prof sum =    666050.275584471     
  ps_ts2 cur sum  =   12087.5171105184     
  trcom cur sum  =    12087.5171105184     
  
  antenna # iant =            3
  powecha_use(iant) =    529550.808466133     
  ps_ts2 prof sum =   529245.964586179     
  trcom prof sum =    529245.964586180     
  ps_ts2 cur sum  =   7130.96988106202     
  trcom cur sum  =    7130.96988106203     
  
  antenna # iant =            4
  powecha_use(iant) =    569873.713012716     
  ps_ts2 prof sum =   569547.877438819     
  trcom prof sum =    569547.877438819     
  ps_ts2 cur sum  =   9510.57687640480     
  trcom cur sum  =    9510.57687640479     
  
  antenna # iant =            5
  powecha_use(iant) =    542229.358358114     
  ps_ts2 prof sum =   541942.792575279     
  trcom prof sum =    541942.792575279     
  ps_ts2 cur sum  =   10708.8778287990     
  trcom cur sum  =    10708.8778287990     
  
  Total ECH heating:      2965278.27742927     
  Total Current Drive:    49551.8701036281     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2784
 TA= 3.09000E+00 CPU TIME= 1.60675E-01 SECONDS.  DT= 1.12779E-03
  
 TEC1=    3.08999999999996     
 TEC2=    3.09499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.61426111111109     
  %check_save_state: izleft hours =    72.3772222222222     
 --> plasma_hash("gframe"): TA= 3.090000E+00 NSTEP=  2784 Hash code:   57398603
 ->PRGCHK: bdy curvature ratio at t= 3.0950E+00 seconds is:  5.5399E-02
% MHDEQ: TG1=     3.090000 ; TG2=     3.095000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5399E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.090000 TO TG2=    3.095000 @ NSTEP     2784
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807336599377D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.0950E+00  3.1000E+00 total power(Watts):  2.9725E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.09500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.388935E+02    0.399435E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.368556E+02    0.400032E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.383643E+02    0.384717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.406671E+02    0.389606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.405093E+02    0.408347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.382033E+02    0.414576E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.361088E+02    0.425356E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.348194E+02    0.412731E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.347107E+02    0.396522E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.357644E+02    0.380929E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.375601E+02    0.370575E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.397662E+02    0.367810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.417250E+02    0.373880E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.429786E+02    0.386803E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.432023E+02    0.402980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.421899E+02    0.418671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.402279E+02    0.429421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.380171E+02    0.431761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.360258E+02    0.452771E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.330275E+02    0.436932E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.317381E+02    0.410837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.322021E+02    0.382966E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.344154E+02    0.359325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.380280E+02    0.345301E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.419040E+02    0.346305E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.453286E+02    0.361082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.469740E+02    0.387219E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.463521E+02    0.417062E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.435002E+02    0.442947E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.397408E+02    0.455486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.400615E+02    0.320218E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.378076E+02    0.322205E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.395197E+02    0.306020E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.418454E+02    0.310389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.416991E+02    0.328500E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.392726E+02    0.335332E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.370697E+02    0.346678E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.360515E+02    0.333502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.358378E+02    0.318336E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.367954E+02    0.303398E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.386014E+02    0.293033E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.410279E+02    0.288878E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.430115E+02    0.294536E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.442841E+02    0.306846E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.444103E+02    0.322748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.432912E+02    0.338333E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.414287E+02    0.348620E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.391993E+02    0.351387E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.368983E+02    0.373819E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.340648E+02    0.358211E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.327507E+02    0.333255E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.332930E+02    0.305562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.356133E+02    0.281563E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.391618E+02    0.267839E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.432830E+02    0.267206E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.465239E+02    0.282071E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133368E+03   -0.483085E+02    0.306277E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.475916E+02    0.335190E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.448465E+02    0.360269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.408444E+02    0.374587E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.388093E+02    0.451628E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.366726E+02    0.452093E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.381817E+02    0.436772E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.404720E+02    0.442279E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.404233E+02    0.460810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.381181E+02    0.466445E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.359244E+02    0.476667E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.347362E+02    0.463686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.347259E+02    0.447364E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.354929E+02    0.432649E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.373859E+02    0.421876E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.395877E+02    0.419435E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.416488E+02    0.425705E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.428969E+02    0.439486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.432302E+02    0.455943E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.421039E+02    0.471422E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.401394E+02    0.481444E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.380319E+02    0.483002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.358294E+02    0.504757E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.329423E+02    0.487191E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.316603E+02    0.461247E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.321306E+02    0.433292E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.344426E+02    0.408863E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.378617E+02    0.396195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.417302E+02    0.397847E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.450335E+02    0.413977E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133225E+03   -0.468985E+02    0.441022E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.462705E+02    0.471078E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.436360E+02    0.495652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.397482E+02    0.508137E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.393928E+02    0.362307E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.372423E+02    0.363592E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.387611E+02    0.348061E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.411725E+02    0.352232E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.410180E+02    0.370990E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.386018E+02    0.377742E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.366042E+02    0.387981E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.354038E+02    0.375529E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.352852E+02    0.359430E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.362452E+02    0.344099E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.380464E+02    0.333701E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.402607E+02    0.330802E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.422294E+02    0.336587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.434913E+02    0.349228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.437192E+02    0.365330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.425987E+02    0.381217E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.407421E+02    0.391420E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.385234E+02    0.393934E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.364268E+02    0.415368E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.334176E+02    0.400023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.321157E+02    0.374908E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.326660E+02    0.346556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.348853E+02    0.323104E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.386082E+02    0.308583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.425055E+02    0.309343E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.457268E+02    0.324259E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.474975E+02    0.349047E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.466497E+02    0.379423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.439190E+02    0.404342E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.401530E+02    0.417532E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.403464E+02    0.264952E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.380852E+02    0.267260E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.397972E+02    0.250684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.422382E+02    0.254311E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.419932E+02    0.273125E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.395586E+02    0.280154E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.374441E+02    0.291113E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.361341E+02    0.279843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.361028E+02    0.263520E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.370632E+02    0.248334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.390684E+02    0.236353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.413067E+02    0.233085E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.434040E+02    0.238119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.445810E+02    0.251106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.447100E+02    0.267120E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.435934E+02    0.282760E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.416239E+02    0.293525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.393891E+02    0.296472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.370963E+02    0.318561E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.342422E+02    0.303792E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.329972E+02    0.278804E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.336252E+02    0.250159E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.359570E+02    0.225428E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.395294E+02    0.210705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.436704E+02    0.209524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.469286E+02    0.224920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133660E+03   -0.484931E+02    0.250615E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.476676E+02    0.280125E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.449395E+02    0.304757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.410499E+02    0.318641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666229.481779271     
  ps_ts2 prof sum =   665858.730171936     
  trcom prof sum =    665858.730171936     
  ps_ts2 cur sum  =   10197.4877647391     
  trcom cur sum  =    10197.4877647391     
  
  antenna # iant =            2
  powecha_use(iant) =    664019.371869373     
  ps_ts2 prof sum =   663608.185452238     
  trcom prof sum =    663608.185452238     
  ps_ts2 cur sum  =   11998.0817033215     
  trcom cur sum  =    11998.0817033215     
  
  antenna # iant =            3
  powecha_use(iant) =    529807.636014843     
  ps_ts2 prof sum =   529489.278095314     
  trcom prof sum =    529489.278095314     
  ps_ts2 cur sum  =   7117.73632663710     
  trcom cur sum  =    7117.73632663710     
  
  antenna # iant =            4
  powecha_use(iant) =    569394.799801581     
  ps_ts2 prof sum =   569092.522116856     
  trcom prof sum =    569092.522116856     
  ps_ts2 cur sum  =   9470.25502316338     
  trcom cur sum  =    9470.25502316337     
  
  antenna # iant =            5
  powecha_use(iant) =    543005.514899120     
  ps_ts2 prof sum =   542699.862333743     
  trcom prof sum =    542699.862333743     
  ps_ts2 cur sum  =   10676.8897806771     
  trcom cur sum  =    10676.8897806771     
  
  Total ECH heating:      2970748.57817009     
  Total Current Drive:    49460.4505985381     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2788
 TA= 3.09500E+00 CPU TIME= 1.59425E-01 SECONDS.  DT= 8.75389E-04
  
 TEC1=    3.09499999999996     
 TEC2=    3.09999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.62714749999941     
  %check_save_state: izleft hours =    72.3644444444444     
 --> plasma_hash("gframe"): TA= 3.095000E+00 NSTEP=  2788 Hash code:   54039694
 ->PRGCHK: bdy curvature ratio at t= 3.1000E+00 seconds is:  5.5370E-02
% MHDEQ: TG1=     3.095000 ; TG2=     3.100000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5370E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.095000 TO TG2=    3.100000 @ NSTEP     2788
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807438811614D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.70213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.05053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.77263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2=  8.10264E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.22666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.94231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.17766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.80026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.99561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.12265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.59867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.40147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.70669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.37865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      12=  2.54120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.69139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.90637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.65876E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.60637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.60637E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1000E+00  3.1050E+00 total power(Watts):  2.9821E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.10000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.388770E+02    0.399017E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.368397E+02    0.399618E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.383471E+02    0.384340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.406492E+02    0.389198E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.405994E+02    0.407530E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.381880E+02    0.414142E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.361923E+02    0.424582E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.349966E+02    0.411550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.348860E+02    0.395290E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.356513E+02    0.381031E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.374423E+02    0.370713E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.397472E+02    0.367488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.418134E+02    0.373104E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.430703E+02    0.385994E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.431844E+02    0.402522E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.421734E+02    0.418194E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.403192E+02    0.428646E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.381048E+02    0.431004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.359141E+02    0.452654E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.332000E+02    0.435864E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.317246E+02    0.410458E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.322766E+02    0.382177E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.344912E+02    0.358578E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.381077E+02    0.344576E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.419900E+02    0.345574E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.451939E+02    0.361172E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.468369E+02    0.387124E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.462173E+02    0.416857E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.435977E+02    0.442191E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.398341E+02    0.454763E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.400414E+02    0.320064E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.379847E+02    0.320982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.394981E+02    0.305938E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.419289E+02    0.309763E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.417832E+02    0.327811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.393538E+02    0.334634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.372473E+02    0.345448E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.359384E+02    0.333842E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.358178E+02    0.318212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.367760E+02    0.303329E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.387769E+02    0.291887E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.410046E+02    0.288896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.430940E+02    0.293977E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.443705E+02    0.306232E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.444971E+02    0.322090E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.433780E+02    0.337635E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.414080E+02    0.348356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.391785E+02    0.351137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.370788E+02    0.372584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.340471E+02    0.357953E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.328200E+02    0.332552E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.333634E+02    0.304906E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.355926E+02    0.281633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.393391E+02    0.266759E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.432578E+02    0.267373E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.464974E+02    0.282152E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.481673E+02    0.306662E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.476811E+02    0.334516E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.447184E+02    0.360355E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.409318E+02    0.373804E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.387958E+02    0.451193E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.367599E+02    0.451381E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.382707E+02    0.436023E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.405716E+02    0.441530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.405171E+02    0.460086E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.381052E+02    0.465995E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.361119E+02    0.475751E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.349175E+02    0.462730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.346171E+02    0.447282E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.356745E+02    0.431552E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.374723E+02    0.421088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.396778E+02    0.418627E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.416328E+02    0.425238E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.429932E+02    0.438724E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.431032E+02    0.455709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.420906E+02    0.470931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.402350E+02    0.480758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.380196E+02    0.482555E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.360183E+02    0.504024E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.330253E+02    0.486563E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.316505E+02    0.460847E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.321180E+02    0.432918E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.343335E+02    0.408859E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.379467E+02    0.395389E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.418211E+02    0.397027E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.452455E+02    0.412814E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133242E+03   -0.468818E+02    0.440501E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133153E+03   -0.463742E+02    0.470333E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.435097E+02    0.495323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.397372E+02    0.507722E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.393733E+02    0.362006E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.373287E+02    0.362810E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.388380E+02    0.347348E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.411509E+02    0.351978E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.409988E+02    0.370649E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.386861E+02    0.376955E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.365878E+02    0.387609E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.352874E+02    0.375687E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.351731E+02    0.359648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.361304E+02    0.344384E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.379280E+02    0.334022E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.402395E+02    0.330615E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.423149E+02    0.335884E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.435797E+02    0.348494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.436987E+02    0.364978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.426891E+02    0.380424E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.407305E+02    0.390976E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.385066E+02    0.393529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.365111E+02    0.414575E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.334958E+02    0.399221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.321894E+02    0.374130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.327395E+02    0.345815E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.349591E+02    0.322413E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.385871E+02    0.308491E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.424835E+02    0.309231E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.457025E+02    0.324081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.473578E+02    0.349174E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133545E+03   -0.468616E+02    0.378252E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.440137E+02    0.403520E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.402433E+02    0.416729E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.403229E+02    0.265115E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.382556E+02    0.266182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.396762E+02    0.251528E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.422138E+02    0.254528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.420722E+02    0.272677E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.395357E+02    0.280237E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.373323E+02    0.291680E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.362061E+02    0.279315E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.360814E+02    0.263678E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.372283E+02    0.247266E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.389503E+02    0.237290E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.413830E+02    0.232762E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.433793E+02    0.238414E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.446615E+02    0.250768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.447915E+02    0.266726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.436749E+02    0.282280E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.417038E+02    0.292980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.394672E+02    0.295875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.372706E+02    0.317339E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.343142E+02    0.303140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.329782E+02    0.278884E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.336055E+02    0.250370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.359358E+02    0.225780E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.396986E+02    0.209763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.437469E+02    0.209352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.469012E+02    0.225333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133658E+03   -0.484623E+02    0.250896E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.477533E+02    0.279695E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.449155E+02    0.304671E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.411338E+02    0.317967E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670992.828714513     
  ps_ts2 prof sum =   670586.405614804     
  trcom prof sum =    670586.405614804     
  ps_ts2 cur sum  =   10253.1676846898     
  trcom cur sum  =    10253.1676846898     
  
  antenna # iant =            2
  powecha_use(iant) =    668315.109744674     
  ps_ts2 prof sum =   667932.717098928     
  trcom prof sum =    667932.717098927     
  ps_ts2 cur sum  =   12050.7944625320     
  trcom cur sum  =    12050.7944625320     
  
  antenna # iant =            3
  powecha_use(iant) =    529450.826711094     
  ps_ts2 prof sum =   529137.727063926     
  trcom prof sum =    529137.727063927     
  ps_ts2 cur sum  =   7099.82040747129     
  trcom cur sum  =    7099.82040747129     
  
  antenna # iant =            4
  powecha_use(iant) =    568852.676020024     
  ps_ts2 prof sum =   568508.395277207     
  trcom prof sum =    568508.395277207     
  ps_ts2 cur sum  =   9443.82334334526     
  trcom cur sum  =    9443.82334334525     
  
  antenna # iant =            5
  powecha_use(iant) =    544473.759333313     
  ps_ts2 prof sum =   544187.054648796     
  trcom prof sum =    544187.054648796     
  ps_ts2 cur sum  =   10679.7804429897     
  trcom cur sum  =    10679.7804429897     
  
  Total ECH heating:      2980352.29970366     
  Total Current Drive:    49527.3863410281     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2792
 TA= 3.10000E+00 CPU TIME= 1.60907E-01 SECONDS.  DT= 2.07823E-03
  
 TEC1=    3.09999999999996     
 TEC2=    3.10499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.64186527777770     
  %check_save_state: izleft hours =    72.3497222222222     
 --> plasma_hash("gframe"): TA= 3.100000E+00 NSTEP=  2792 Hash code:  114188170
 ->PRGCHK: bdy curvature ratio at t= 3.1050E+00 seconds is:  5.5258E-02
% MHDEQ: TG1=     3.100000 ; TG2=     3.105000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3940E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5258E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.100000 TO TG2=    3.105000 @ NSTEP     2792
   GFRAME TG2 MOMENTS CHECKSUM:  2.4807541023851D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.1050E+00  3.1100E+00 total power(Watts):  2.9728E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.10500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.389640E+02    0.398178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.369232E+02    0.398791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.384321E+02    0.383507E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.407384E+02    0.388353E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.405830E+02    0.407051E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.382749E+02    0.413309E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.360853E+02    0.424501E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.348868E+02    0.411516E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.347757E+02    0.395318E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.358282E+02    0.379768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.376243E+02    0.369457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.398323E+02    0.366692E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.417942E+02    0.372722E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.430517E+02    0.385547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.432783E+02    0.401667E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.422674E+02    0.417347E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.403042E+02    0.428169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.381933E+02    0.430218E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.360998E+02    0.451630E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.330950E+02    0.435810E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.318003E+02    0.409652E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.322619E+02    0.381825E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.344745E+02    0.358293E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.380884E+02    0.344319E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.419688E+02    0.345302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.452857E+02    0.360384E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133330E+03   -0.470507E+02    0.385904E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133394E+03   -0.464336E+02    0.415669E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.435823E+02    0.441699E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.398210E+02    0.454298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.401223E+02    0.319389E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.378653E+02    0.321374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.395762E+02    0.305319E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.419059E+02    0.309656E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.417563E+02    0.327643E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.393341E+02    0.334403E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.371301E+02    0.345693E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.361099E+02    0.332586E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.359864E+02    0.316981E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.369466E+02    0.302142E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.386557E+02    0.292495E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.409812E+02    0.288946E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.430691E+02    0.293991E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.443458E+02    0.306154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.444731E+02    0.321923E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.433556E+02    0.337396E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.414936E+02    0.347597E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.392610E+02    0.350374E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.371603E+02    0.371784E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.341229E+02    0.357178E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.328020E+02    0.332375E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.333446E+02    0.304852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.356642E+02    0.281123E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.392144E+02    0.267565E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.433379E+02    0.266994E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.465822E+02    0.281724E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.483712E+02    0.305612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133363E+03   -0.476566E+02    0.334262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.448071E+02    0.359578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.409128E+02    0.373429E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.388868E+02    0.450462E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.368478E+02    0.450653E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.382569E+02    0.435574E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.405557E+02    0.441073E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.405043E+02    0.459622E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.381974E+02    0.465264E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.362003E+02    0.475047E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.348103E+02    0.462573E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.347977E+02    0.446243E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.357589E+02    0.430778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.374576E+02    0.420634E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.396624E+02    0.418158E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.417261E+02    0.424411E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.429781E+02    0.438231E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.432012E+02    0.454969E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.421889E+02    0.470201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.403307E+02    0.480061E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.381120E+02    0.481871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.361078E+02    0.503462E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.330159E+02    0.486149E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.317286E+02    0.460158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.321962E+02    0.432165E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.345082E+02    0.407645E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.379305E+02    0.394964E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.418040E+02    0.396563E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.451106E+02    0.412618E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133041E+03   -0.469842E+02    0.439690E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133171E+03   -0.463607E+02    0.469777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.436121E+02    0.494660E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.398341E+02    0.507148E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.394570E+02    0.361221E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.373092E+02    0.362508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.389197E+02    0.346591E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.412366E+02    0.351215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.410860E+02    0.369844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.386683E+02    0.376579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.366697E+02    0.386780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.354623E+02    0.374420E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.353458E+02    0.358377E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.363046E+02    0.343126E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.381070E+02    0.332773E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.403223E+02    0.329903E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.422930E+02    0.335655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.435580E+02    0.348208E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.437890E+02    0.364187E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.426656E+02    0.380031E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.408146E+02    0.390152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.385928E+02    0.392682E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.364964E+02    0.414126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.334808E+02    0.398834E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.321738E+02    0.373812E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.327225E+02    0.345594E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.349392E+02    0.322278E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.384654E+02    0.308964E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.425665E+02    0.308615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.457909E+02    0.323413E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133329E+03   -0.475669E+02    0.347996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133342E+03   -0.469574E+02    0.377414E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.441091E+02    0.402649E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.403343E+02    0.415891E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.403993E+02    0.264718E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.381370E+02    0.266982E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.398491E+02    0.250568E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.421888E+02    0.254812E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.420482E+02    0.272825E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.396129E+02    0.279747E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.375018E+02    0.290551E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.361852E+02    0.279422E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.360603E+02    0.263882E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.371131E+02    0.248207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.391188E+02    0.236356E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.413586E+02    0.233160E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.434571E+02    0.238178E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.446352E+02    0.251078E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.447657E+02    0.266926E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.436500E+02    0.282373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.416801E+02    0.292989E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.394448E+02    0.295873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.371525E+02    0.317759E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.342950E+02    0.303095E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.330462E+02    0.278349E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.335853E+02    0.250641E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.359147E+02    0.226178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.395795E+02    0.210967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.437220E+02    0.209905E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.469816E+02    0.225227E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133203E+03   -0.486635E+02    0.250115E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133770E+03   -0.477254E+02    0.279832E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.450008E+02    0.304095E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.411114E+02    0.317829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667345.415774348     
  ps_ts2 prof sum =   666938.587694040     
  trcom prof sum =    666938.587694041     
  ps_ts2 cur sum  =   10178.5715200939     
  trcom cur sum  =    10178.5715200939     
  
  antenna # iant =            2
  powecha_use(iant) =    666344.586370947     
  ps_ts2 prof sum =   665958.927724945     
  trcom prof sum =    665958.927724944     
  ps_ts2 cur sum  =   11985.2558075511     
  trcom cur sum  =    11985.2558075511     
  
  antenna # iant =            3
  powecha_use(iant) =    528201.594052593     
  ps_ts2 prof sum =   527896.686902274     
  trcom prof sum =    527896.686902275     
  ps_ts2 cur sum  =   7070.99063584565     
  trcom cur sum  =    7070.99063584566     
  
  antenna # iant =            4
  powecha_use(iant) =    567249.833498388     
  ps_ts2 prof sum =   566947.931495470     
  trcom prof sum =    566947.931495470     
  ps_ts2 cur sum  =   9398.36687922290     
  trcom cur sum  =    9398.36687922289     
  
  antenna # iant =            5
  powecha_use(iant) =    543624.686513563     
  ps_ts2 prof sum =   543318.184470871     
  trcom prof sum =    543318.184470870     
  ps_ts2 cur sum  =   10631.2949054277     
  trcom cur sum  =    10631.2949054277     
  
  Total ECH heating:      2971060.31828760     
  Total Current Drive:    49264.4797481413     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2795
 TA= 3.10500E+00 CPU TIME= 1.60183E-01 SECONDS.  DT= 4.04991E-04
  
 TEC1=    3.10499999999996     
 TEC2=    3.10999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.65637805555548     
  %check_save_state: izleft hours =    72.3352777777778     
 --> plasma_hash("gframe"): TA= 3.105000E+00 NSTEP=  2795 Hash code:   90261543
 ->PRGCHK: bdy curvature ratio at t= 3.1100E+00 seconds is:  5.5340E-02
% MHDEQ: TG1=     3.105000 ; TG2=     3.110000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5340E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.105000 TO TG2=    3.110000 @ NSTEP     2795
   GFRAME TG2 MOMENTS CHECKSUM:  2.4803550473031D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.38966E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.97440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.93113E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -3.00003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.89194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.18985E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.00756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.13890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.52327E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.24810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.46409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.45626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.85403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.32426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.64650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.11483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.01660E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.54398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.63401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.63401E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1100E+00  3.1150E+00 total power(Watts):  2.9745E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.11000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.389785E+02    0.397730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.369374E+02    0.398348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.384460E+02    0.383084E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.407530E+02    0.387919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.405990E+02    0.406578E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.382908E+02    0.412833E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.361952E+02    0.423643E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.349009E+02    0.411063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.347885E+02    0.394902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.358407E+02    0.379353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.376374E+02    0.369056E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.398460E+02    0.366287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.418087E+02    0.372298E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.430670E+02    0.385108E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.432949E+02    0.401188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.421746E+02    0.417189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.403216E+02    0.427644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.381074E+02    0.430030E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.361168E+02    0.451109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.331101E+02    0.435299E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.318132E+02    0.409217E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.322736E+02    0.381428E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.344861E+02    0.357930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.381006E+02    0.344006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.419820E+02    0.344976E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.454145E+02    0.359546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133309E+03   -0.470677E+02    0.385426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133374E+03   -0.464528E+02    0.415129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.436021E+02    0.441097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.398396E+02    0.453748E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.401331E+02    0.319218E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.379749E+02    0.320646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.395871E+02    0.305214E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.419167E+02    0.309550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.417741E+02    0.327390E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.393462E+02    0.334143E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.371420E+02    0.345377E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.361203E+02    0.332337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.359968E+02    0.316812E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.369571E+02    0.302035E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.387656E+02    0.291846E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.409925E+02    0.288905E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.430806E+02    0.293943E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.443581E+02    0.306053E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.444864E+02    0.321732E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.433687E+02    0.337115E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.415067E+02    0.347262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.392745E+02    0.350026E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.369752E+02    0.372296E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.341346E+02    0.356814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.328107E+02    0.332129E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.333541E+02    0.304728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.356738E+02    0.281085E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.393240E+02    0.267028E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.432449E+02    0.267658E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134067E+03   -0.465946E+02    0.281755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.481541E+02    0.306483E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133339E+03   -0.476691E+02    0.334000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.447082E+02    0.359626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.409271E+02    0.373006E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.389045E+02    0.449908E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.367648E+02    0.450421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.382740E+02    0.435028E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.405741E+02    0.440506E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.405239E+02    0.459072E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.381123E+02    0.465026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.360192E+02    0.475095E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.348265E+02    0.462094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.348134E+02    0.445716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.355793E+02    0.430964E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.374732E+02    0.420153E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.396783E+02    0.417666E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.416350E+02    0.424218E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.429973E+02    0.437651E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.432221E+02    0.454377E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.422152E+02    0.469663E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.402434E+02    0.479792E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.381320E+02    0.481391E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.360279E+02    0.503152E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.330319E+02    0.485727E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.317438E+02    0.459694E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.322105E+02    0.431667E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.345222E+02    0.407202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.379446E+02    0.394517E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.418197E+02    0.396100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134103E+03   -0.451312E+02    0.412103E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133023E+03   -0.470056E+02    0.439060E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133152E+03   -0.463832E+02    0.469210E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.436347E+02    0.494143E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.398559E+02    0.506632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.393676E+02    0.361291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.373223E+02    0.362106E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.388328E+02    0.346750E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.412502E+02    0.350864E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.411001E+02    0.369429E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.386818E+02    0.376159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.364862E+02    0.387223E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.354768E+02    0.374002E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.353573E+02    0.358020E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.361238E+02    0.343850E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.381184E+02    0.332522E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.403347E+02    0.329658E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.423059E+02    0.335377E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.435718E+02    0.347861E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.436928E+02    0.364208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.426851E+02    0.379567E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.408269E+02    0.389712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.386071E+02    0.392246E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.365113E+02    0.413663E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.334938E+02    0.398402E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.321851E+02    0.373423E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.327321E+02    0.345280E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.349495E+02    0.322081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.385757E+02    0.308285E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.424711E+02    0.309039E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.458037E+02    0.323229E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133304E+03   -0.475819E+02    0.347644E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.467407E+02    0.377728E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.440131E+02    0.402528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.402440E+02    0.415755E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.404108E+02    0.264809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.382446E+02    0.266429E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.398603E+02    0.250744E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.422008E+02    0.254981E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.420600E+02    0.272874E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.396237E+02    0.279736E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.373203E+02    0.291648E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.361954E+02    0.279394E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.360708E+02    0.263944E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.372170E+02    0.247737E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.389387E+02    0.237897E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.413725E+02    0.233443E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.433657E+02    0.239092E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.446475E+02    0.251308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.447780E+02    0.267038E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.436624E+02    0.282373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.416918E+02    0.292930E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.394558E+02    0.295796E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.371626E+02    0.317596E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.343046E+02    0.302981E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.330556E+02    0.278324E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.335955E+02    0.250764E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.359260E+02    0.226440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.396879E+02    0.210626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.437359E+02    0.210300E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.468868E+02    0.226232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.484490E+02    0.251496E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.477379E+02    0.279876E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.450135E+02    0.304000E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.411231E+02    0.317664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    668052.075771546     
  ps_ts2 prof sum =   667684.395920662     
  trcom prof sum =    667684.395920662     
  ps_ts2 cur sum  =   10218.2073472893     
  trcom cur sum  =    10218.2073472893     
  
  antenna # iant =            2
  powecha_use(iant) =    666553.660607616     
  ps_ts2 prof sum =   666199.864595441     
  trcom prof sum =    666199.864595440     
  ps_ts2 cur sum  =   12011.5076474277     
  trcom cur sum  =    12011.5076474276     
  
  antenna # iant =            3
  powecha_use(iant) =    529498.615021044     
  ps_ts2 prof sum =   529171.501599310     
  trcom prof sum =    529171.501599310     
  ps_ts2 cur sum  =   7111.22092606326     
  trcom cur sum  =    7111.22092606327     
  
  antenna # iant =            4
  powecha_use(iant) =    567959.310042976     
  ps_ts2 prof sum =   567627.804503602     
  trcom prof sum =    567627.804503602     
  ps_ts2 cur sum  =   9432.81844252153     
  trcom cur sum  =    9432.81844252151     
  
  antenna # iant =            5
  powecha_use(iant) =    542388.130026479     
  ps_ts2 prof sum =   542100.406122715     
  trcom prof sum =    542100.406122715     
  ps_ts2 cur sum  =   10619.6446268294     
  trcom cur sum  =    10619.6446268294     
  
  Total ECH heating:      2972783.97274173     
  Total Current Drive:    49393.3989901311     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2802
 TA= 3.11000E+00 CPU TIME= 1.61407E-01 SECONDS.  DT= 5.50364E-04
  
 TEC1=    3.10999999999996     
 TEC2=    3.11499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.66984722222196     
  %check_save_state: izleft hours =    72.3216666666667     
 --> plasma_hash("gframe"): TA= 3.110000E+00 NSTEP=  2802 Hash code:    8815070
 ->PRGCHK: bdy curvature ratio at t= 3.1150E+00 seconds is:  5.5422E-02
% MHDEQ: TG1=     3.110000 ; TG2=     3.115000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5422E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.110000 TO TG2=    3.115000 @ NSTEP     2802
   GFRAME TG2 MOMENTS CHECKSUM:  2.4799559922212D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1150E+00  3.1200E+00 total power(Watts):  2.9775E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.11500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.389963E+02    0.397233E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.367511E+02    0.398710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.383559E+02    0.383066E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.407661E+02    0.387443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.406135E+02    0.406076E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.382025E+02    0.412705E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.362089E+02    0.423136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.349137E+02    0.410588E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.348954E+02    0.394027E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.358521E+02    0.378913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.376486E+02    0.368617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.397536E+02    0.366309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.418212E+02    0.371838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.430807E+02    0.384619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.433099E+02    0.400678E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.421899E+02    0.416651E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.403376E+02    0.427087E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.381226E+02    0.429480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.361326E+02    0.450566E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.331233E+02    0.434767E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.318248E+02    0.408759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.322840E+02    0.381010E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.344951E+02    0.357549E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.381112E+02    0.343670E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.419931E+02    0.344631E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.452005E+02    0.359978E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.470829E+02    0.384912E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.464702E+02    0.414552E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.436206E+02    0.440485E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.398575E+02    0.453170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.401428E+02    0.319022E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.379836E+02    0.320446E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.395961E+02    0.305097E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.419264E+02    0.309418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.417845E+02    0.327147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.393557E+02    0.333854E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.372510E+02    0.344535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.359388E+02    0.333123E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.358170E+02    0.317737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.369652E+02    0.301935E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.387740E+02    0.291788E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.410015E+02    0.288861E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.430898E+02    0.293897E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.443669E+02    0.305970E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.444964E+02    0.321533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.433799E+02    0.336808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.414115E+02    0.347372E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.391824E+02    0.350134E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.370855E+02    0.371398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.340517E+02    0.356937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.328202E+02    0.331853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.333611E+02    0.304616E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.355895E+02    0.281663E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.393329E+02    0.267087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.432543E+02    0.267751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.466042E+02    0.281783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.481644E+02    0.306397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133307E+03   -0.476824E+02    0.333706E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.447210E+02    0.359196E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.409395E+02    0.372552E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.388173E+02    0.449637E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.367807E+02    0.449872E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.382897E+02    0.434461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.405912E+02    0.439911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.405420E+02    0.458511E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.381296E+02    0.464505E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.361359E+02    0.474361E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.348423E+02    0.461599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.348291E+02    0.445165E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.355937E+02    0.430429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.374879E+02    0.419634E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.396940E+02    0.417131E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.416514E+02    0.423666E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.430152E+02    0.437040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.433538E+02    0.453510E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.421171E+02    0.469376E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.402576E+02    0.479308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.380466E+02    0.481137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.360429E+02    0.502636E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.330491E+02    0.485260E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.316692E+02    0.459495E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.322237E+02    0.431144E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.345352E+02    0.406723E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.379572E+02    0.394061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.418335E+02    0.395614E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.451480E+02    0.411546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132997E+03   -0.470286E+02    0.438401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133131E+03   -0.464044E+02    0.468614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133865E+03   -0.437708E+02    0.493416E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.398764E+02    0.506103E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.393785E+02    0.360883E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.373326E+02    0.361706E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.388414E+02    0.346398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.411555E+02    0.350950E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.411124E+02    0.368987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.386938E+02    0.375708E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.364981E+02    0.386781E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.354857E+02    0.373585E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.351771E+02    0.358609E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.361329E+02    0.343511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.379286E+02    0.333283E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.402397E+02    0.329917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.423168E+02    0.335089E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.435833E+02    0.347495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.437051E+02    0.363776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.426986E+02    0.379087E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.407356E+02    0.389650E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.386194E+02    0.391786E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.365251E+02    0.413170E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.335055E+02    0.397963E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.321955E+02    0.373007E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.327409E+02    0.344950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.349587E+02    0.321868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.385847E+02    0.308152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.424786E+02    0.308922E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.458148E+02    0.323012E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133278E+03   -0.475945E+02    0.347263E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.467553E+02    0.377228E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.440283E+02    0.402020E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.402591E+02    0.415235E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.403202E+02    0.265481E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.382534E+02    0.266476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.396690E+02    0.252180E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.422104E+02    0.255147E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.420692E+02    0.272917E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.394333E+02    0.280894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.373282E+02    0.291594E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.362035E+02    0.279379E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.360783E+02    0.264013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.370394E+02    0.249183E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.389473E+02    0.238155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.413801E+02    0.233752E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.433751E+02    0.239390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.446574E+02    0.251526E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.447876E+02    0.267147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.436716E+02    0.282374E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.417014E+02    0.292868E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.394638E+02    0.295728E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.371716E+02    0.317409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.343117E+02    0.302875E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.329758E+02    0.278922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.336032E+02    0.250895E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.359364E+02    0.226706E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.396986E+02    0.210990E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.436442E+02    0.211372E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.468975E+02    0.226629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.484591E+02    0.251762E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133694E+03   -0.477475E+02    0.279928E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.449123E+02    0.304438E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.411316E+02    0.317497E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666970.283022389     
  ps_ts2 prof sum =   666591.773391733     
  trcom prof sum =    666591.773391734     
  ps_ts2 cur sum  =   10224.4352610668     
  trcom cur sum  =    10224.4352610668     
  
  antenna # iant =            2
  powecha_use(iant) =    668234.998513899     
  ps_ts2 prof sum =   667860.860742411     
  trcom prof sum =    667860.860742410     
  ps_ts2 cur sum  =   12055.2927297991     
  trcom cur sum  =    12055.2927297991     
  
  antenna # iant =            3
  powecha_use(iant) =    528644.970968717     
  ps_ts2 prof sum =   528333.197235561     
  trcom prof sum =    528333.197235562     
  ps_ts2 cur sum  =   7120.44718939825     
  trcom cur sum  =    7120.44718939826     
  
  antenna # iant =            4
  powecha_use(iant) =    571083.113636641     
  ps_ts2 prof sum =   570726.645372592     
  trcom prof sum =    570726.645372591     
  ps_ts2 cur sum  =   9501.18366834586     
  trcom cur sum  =    9501.18366834585     
  
  antenna # iant =            5
  powecha_use(iant) =    542583.986879112     
  ps_ts2 prof sum =   542261.740296221     
  trcom prof sum =    542261.740296220     
  ps_ts2 cur sum  =   10625.7631955988     
  trcom cur sum  =    10625.7631955988     
  
  Total ECH heating:      2975774.21703852     
  Total Current Drive:    49527.1220442088     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2808
 TA= 3.11500E+00 CPU TIME= 1.61656E-01 SECONDS.  DT= 6.03928E-04
  
 TEC1=    3.11499999999996     
 TEC2=    3.11999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.68488861111064     
  %check_save_state: izleft hours =    72.3066666666667     
 --> plasma_hash("gframe"): TA= 3.115000E+00 NSTEP=  2808 Hash code:  113925905
 ->PRGCHK: bdy curvature ratio at t= 3.1200E+00 seconds is:  5.5504E-02
% MHDEQ: TG1=     3.115000 ; TG2=     3.120000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5504E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.115000 TO TG2=    3.120000 @ NSTEP     2808
   GFRAME TG2 MOMENTS CHECKSUM:  2.4795569363587D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.17975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.91359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.17362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -6.37703E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.00276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.99171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.13046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.21317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.42390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.28917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.31119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.42357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.90617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.29131E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.30415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.23272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.11047E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.34073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.43211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.43211E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1200E+00  3.1250E+00 total power(Watts):  2.9716E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.12000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.390052E+02    0.396768E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.368632E+02    0.397821E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.383675E+02    0.382613E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.406722E+02    0.387380E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.406276E+02    0.405566E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.382164E+02    0.412194E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.362229E+02    0.422600E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.349260E+02    0.410102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.349069E+02    0.393562E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.358634E+02    0.378481E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.376598E+02    0.368188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.397651E+02    0.365875E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.418377E+02    0.371359E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.430939E+02    0.384138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.432128E+02    0.400531E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.422058E+02    0.416107E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.403533E+02    0.426518E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.381378E+02    0.428916E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.361484E+02    0.450012E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.331329E+02    0.434230E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.318361E+02    0.408289E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.322944E+02    0.380583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.345041E+02    0.357163E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.381208E+02    0.343314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.420040E+02    0.344271E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.452128E+02    0.359543E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133264E+03   -0.470978E+02    0.384384E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133331E+03   -0.464870E+02    0.413987E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.436386E+02    0.439852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.398746E+02    0.452600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.400486E+02    0.319346E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.379915E+02    0.320236E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.395035E+02    0.305517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.419324E+02    0.309284E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.417935E+02    0.326898E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.393619E+02    0.333583E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.372599E+02    0.344180E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.359473E+02    0.332842E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.358249E+02    0.317540E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.367814E+02    0.302951E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.387822E+02    0.291708E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.410098E+02    0.288798E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.429927E+02    0.294354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.443763E+02    0.305845E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.445060E+02    0.321320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.433898E+02    0.336501E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.414223E+02    0.347003E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.391924E+02    0.349757E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.370966E+02    0.370966E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.340599E+02    0.356561E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.328280E+02    0.331578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.333680E+02    0.304477E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.355969E+02    0.281599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.393406E+02    0.267117E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.432630E+02    0.267804E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.465023E+02    0.282301E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.481733E+02    0.306297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133277E+03   -0.476938E+02    0.333405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.447337E+02    0.358755E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.409514E+02    0.372100E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.388338E+02    0.449063E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.367968E+02    0.449311E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.383050E+02    0.433887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.406081E+02    0.439302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.405593E+02    0.457947E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.381462E+02    0.463983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.361519E+02    0.473893E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.348575E+02    0.461099E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.348433E+02    0.444620E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.357056E+02    0.429525E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.375020E+02    0.419109E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.397082E+02    0.416609E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.416724E+02    0.423101E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.430327E+02    0.436415E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.431468E+02    0.453436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.421366E+02    0.468819E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.402812E+02    0.478778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.380649E+02    0.480634E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.360657E+02    0.502124E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.330651E+02    0.484793E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.316831E+02    0.459015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.321460E+02    0.430980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.343576E+02    0.407068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.379700E+02    0.393583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.418473E+02    0.395117E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.451641E+02    0.410995E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132983E+03   -0.470446E+02    0.437734E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133111E+03   -0.464252E+02    0.468018E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.437919E+02    0.492869E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.398969E+02    0.505557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.393899E+02    0.360463E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.373432E+02    0.361290E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.388511E+02    0.346041E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.411659E+02    0.350560E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.411242E+02    0.368537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.387053E+02    0.375261E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.365095E+02    0.386331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.353046E+02    0.374092E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.351868E+02    0.358219E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.361421E+02    0.343175E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.379378E+02    0.333004E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.402502E+02    0.329642E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.423265E+02    0.334787E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.435947E+02    0.347122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.437173E+02    0.363329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.427111E+02    0.378622E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.407487E+02    0.389164E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.386321E+02    0.391306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.365336E+02    0.412671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.335165E+02    0.397506E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.322041E+02    0.372604E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.327493E+02    0.344608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.349667E+02    0.321648E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.385928E+02    0.308006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.424894E+02    0.308770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.457118E+02    0.323278E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133252E+03   -0.476068E+02    0.346865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.467692E+02    0.376725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.440432E+02    0.401494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.402738E+02    0.414706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.403278E+02    0.265526E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.382605E+02    0.266514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.396807E+02    0.252292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.422187E+02    0.255271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.420774E+02    0.272936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.395410E+02    0.280277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.373361E+02    0.291506E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.362109E+02    0.279328E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.360858E+02    0.264042E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.370476E+02    0.249318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.390517E+02    0.237739E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.412883E+02    0.234656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.433842E+02    0.239637E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.446656E+02    0.251713E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.446892E+02    0.267768E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.436801E+02    0.282351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.417098E+02    0.292802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.394720E+02    0.295639E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.372776E+02    0.316671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.343188E+02    0.302747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.329821E+02    0.278864E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.336117E+02    0.250978E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.359446E+02    0.226957E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.395184E+02    0.212651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.436543E+02    0.211744E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.469068E+02    0.227003E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133507E+03   -0.484684E+02    0.251993E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.478701E+02    0.279421E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.449217E+02    0.304329E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.411373E+02    0.317314E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.81 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663120.043704700     
  ps_ts2 prof sum =   662760.365679445     
  trcom prof sum =    662760.365679446     
  ps_ts2 cur sum  =   10186.8047742428     
  trcom cur sum  =    10186.8047742428     
  
  antenna # iant =            2
  powecha_use(iant) =    667690.405613293     
  ps_ts2 prof sum =   667298.912483632     
  trcom prof sum =    667298.912483631     
  ps_ts2 cur sum  =   12055.9927056786     
  trcom cur sum  =    12055.9927056786     
  
  antenna # iant =            3
  powecha_use(iant) =    528456.869072017     
  ps_ts2 prof sum =   528138.803033021     
  trcom prof sum =    528138.803033021     
  ps_ts2 cur sum  =   7137.07788905109     
  trcom cur sum  =    7137.07788905109     
  
  antenna # iant =            4
  powecha_use(iant) =    569737.826196879     
  ps_ts2 prof sum =   569378.313214656     
  trcom prof sum =    569378.313214657     
  ps_ts2 cur sum  =   9492.98474875992     
  trcom cur sum  =    9492.98474875991     
  
  antenna # iant =            5
  powecha_use(iant) =    542610.678189262     
  ps_ts2 prof sum =   542320.805623502     
  trcom prof sum =    542320.805623501     
  ps_ts2 cur sum  =   10626.5064902449     
  trcom cur sum  =    10626.5064902449     
  
  Total ECH heating:      2969897.20003426     
  Total Current Drive:    49499.3666079772     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2814
 TA= 3.12000E+00 CPU TIME= 1.59900E-01 SECONDS.  DT= 5.44334E-05
  
 TEC1=    3.11999999999996     
 TEC2=    3.12499999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.70027861111066     
  %check_save_state: izleft hours =    72.2913888888889     
 --> plasma_hash("gframe"): TA= 3.120000E+00 NSTEP=  2814 Hash code:   48784893
 ->PRGCHK: bdy curvature ratio at t= 3.1250E+00 seconds is:  5.5586E-02
% MHDEQ: TG1=     3.120000 ; TG2=     3.125000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5586E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.120000 TO TG2=    3.125000 @ NSTEP     2814
   GFRAME TG2 MOMENTS CHECKSUM:  2.4791578804961D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1250E+00  3.1300E+00 total power(Watts):  2.9650E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.12500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.389167E+02    0.396704E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.368774E+02    0.397365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.383814E+02    0.382173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.406874E+02    0.386924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.406447E+02    0.405063E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.382321E+02    0.411688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.362387E+02    0.422075E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.350366E+02    0.409224E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.349210E+02    0.393117E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.356819E+02    0.378970E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.375724E+02    0.368241E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.397784E+02    0.365462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.418480E+02    0.370947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.431097E+02    0.383675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.432297E+02    0.400031E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.422281E+02    0.415559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.403711E+02    0.425954E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.381548E+02    0.428357E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.359671E+02    0.450113E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.330593E+02    0.434052E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.317599E+02    0.408256E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.323053E+02    0.380182E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.345160E+02    0.356792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.381325E+02    0.342996E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.420166E+02    0.343949E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.452274E+02    0.359142E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133676E+03   -0.468803E+02    0.384652E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.462720E+02    0.414074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.436587E+02    0.439236E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.398936E+02    0.452051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.400645E+02    0.319138E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.380033E+02    0.320037E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.395141E+02    0.305405E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.418412E+02    0.309669E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.418055E+02    0.326674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.393772E+02    0.333295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.372718E+02    0.343855E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.359577E+02    0.332590E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.358350E+02    0.317362E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.367913E+02    0.302853E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.387939E+02    0.291634E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.410209E+02    0.288755E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.430037E+02    0.294308E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.442788E+02    0.306256E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.444079E+02    0.321632E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.434030E+02    0.336219E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.414349E+02    0.346674E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.392054E+02    0.349406E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.371092E+02    0.370549E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.340718E+02    0.356189E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.327487E+02    0.331885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.332881E+02    0.304946E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.356065E+02    0.281556E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.391545E+02    0.268353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.432745E+02    0.267873E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.465147E+02    0.282305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133241E+03   -0.483013E+02    0.305737E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133682E+03   -0.474756E+02    0.334048E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.447480E+02    0.358352E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.409659E+02    0.371669E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.388525E+02    0.448503E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.368143E+02    0.448777E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.383226E+02    0.433311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.406269E+02    0.438713E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.405788E+02    0.457415E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.381649E+02    0.463493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.361699E+02    0.473439E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.349717E+02    0.460331E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.346668E+02    0.444746E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.357218E+02    0.428978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.375182E+02    0.418585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.396199E+02    0.416444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.416850E+02    0.422552E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.430527E+02    0.435800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.431672E+02    0.452859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.421567E+02    0.468325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.403016E+02    0.478294E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.380841E+02    0.480179E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.360854E+02    0.501650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.330824E+02    0.484356E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.316985E+02    0.458569E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.321604E+02    0.430462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.343714E+02    0.406602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.379848E+02    0.393123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.418632E+02    0.394639E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.452979E+02    0.410107E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133183E+03   -0.469475E+02    0.437374E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133090E+03   -0.464480E+02    0.467454E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134271E+03   -0.435838E+02    0.492717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.398114E+02    0.505224E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.394029E+02    0.360068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.373556E+02    0.360899E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.388637E+02    0.345703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.411795E+02    0.350204E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.410321E+02    0.368549E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.387192E+02    0.374831E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.366220E+02    0.385450E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.353165E+02    0.373683E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.351982E+02    0.357850E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.361537E+02    0.342865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.380481E+02    0.332230E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.402620E+02    0.329402E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.423396E+02    0.334506E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.436083E+02    0.346767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.437323E+02    0.362905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.427262E+02    0.378167E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.407639E+02    0.388703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.385438E+02    0.391271E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.365536E+02    0.412166E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.335302E+02    0.397070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.322154E+02    0.372211E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.326702E+02    0.344830E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.349768E+02    0.321450E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.386034E+02    0.307886E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.425013E+02    0.308646E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.457249E+02    0.323078E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133659E+03   -0.473887E+02    0.347396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.469024E+02    0.375862E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.440603E+02    0.400987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.402908E+02    0.414183E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.403385E+02    0.265593E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.380787E+02    0.267755E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.397900E+02    0.251828E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.421275E+02    0.256007E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.419853E+02    0.273535E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.395516E+02    0.280250E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.374430E+02    0.290853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.361282E+02    0.279892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.360961E+02    0.264077E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.370581E+02    0.249453E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.390630E+02    0.237971E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.413006E+02    0.234930E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.433956E+02    0.239915E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.445715E+02    0.252482E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.447011E+02    0.267845E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.435883E+02    0.282874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.416164E+02    0.293302E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.393826E+02    0.296131E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.372881E+02    0.316493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.342330E+02    0.303242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.329911E+02    0.278816E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.335335E+02    0.251748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.359558E+02    0.227213E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.395307E+02    0.212994E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.436676E+02    0.212141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.469207E+02    0.227371E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133246E+03   -0.485930E+02    0.251691E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133835E+03   -0.476567E+02    0.280486E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.449336E+02    0.304238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.411523E+02    0.317123E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659533.294873199     
  ps_ts2 prof sum =   659138.599501317     
  trcom prof sum =    659138.599455735     
  ps_ts2 cur sum  =   10162.9096036097     
  trcom cur sum  =    10162.9096036097     
  
  antenna # iant =            2
  powecha_use(iant) =    667393.840769028     
  ps_ts2 prof sum =   666994.239855973     
  trcom prof sum =    666994.239855972     
  ps_ts2 cur sum  =   12067.8055601185     
  trcom cur sum  =    12067.8055601185     
  
  antenna # iant =            3
  powecha_use(iant) =    527609.352742051     
  ps_ts2 prof sum =   527296.206079882     
  trcom prof sum =    527296.206079883     
  ps_ts2 cur sum  =   7153.41418982042     
  trcom cur sum  =    7153.41418982042     
  
  antenna # iant =            4
  powecha_use(iant) =    566990.873350590     
  ps_ts2 prof sum =   566669.285466496     
  trcom prof sum =    566669.285466496     
  ps_ts2 cur sum  =   9469.60826126681     
  trcom cur sum  =    9469.60826126680     
  
  antenna # iant =            5
  powecha_use(iant) =    543468.513778399     
  ps_ts2 prof sum =   543175.852104237     
  trcom prof sum =    543175.852104236     
  ps_ts2 cur sum  =   10647.9236953110     
  trcom cur sum  =    10647.9236953110     
  
  Total ECH heating:      2963274.18296232     
  Total Current Drive:    49501.6613101264     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2829
 TA= 3.12500E+00 CPU TIME= 1.63556E-01 SECONDS.  DT= 3.33801E-04
  
 TEC1=    3.12499999999996     
 TEC2=    3.12999999999996     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.71566194444449     
  %check_save_state: izleft hours =    72.2758333333333     
 --> plasma_hash("gframe"): TA= 3.125000E+00 NSTEP=  2829 Hash code:    1160337
 ->PRGCHK: bdy curvature ratio at t= 3.1300E+00 seconds is:  5.5668E-02
% MHDEQ: TG1=     3.125000 ; TG2=     3.130000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5668E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.125000 TO TG2=    3.130000 @ NSTEP     2829
   GFRAME TG2 MOMENTS CHECKSUM:  2.4787588246336D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.97698E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.85486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.40787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -9.63928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.66387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.85599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.97640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.94758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.59373E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.35931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.16347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.42597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.95654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.25949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.85456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.34661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.20115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.14438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.59751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.59751E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1300E+00  3.1350E+00 total power(Watts):  2.9751E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.13000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.389296E+02    0.396253E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.368901E+02    0.396922E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.383937E+02    0.381743E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.407005E+02    0.386478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.406583E+02    0.404586E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.382454E+02    0.411212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.362521E+02    0.421568E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.350487E+02    0.408767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.347408E+02    0.393574E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.356927E+02    0.378567E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.375829E+02    0.367843E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.397895E+02    0.365052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.418602E+02    0.370516E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.431232E+02    0.383217E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.432437E+02    0.399558E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.422384E+02    0.415057E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.403874E+02    0.425401E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.381691E+02    0.427816E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.359816E+02    0.449603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.330720E+02    0.433535E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.317696E+02    0.407836E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.323145E+02    0.379792E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.345253E+02    0.356438E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.381422E+02    0.342689E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.420277E+02    0.343614E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.452396E+02    0.358741E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.468943E+02    0.384197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133724E+03   -0.462881E+02    0.413540E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134391E+03   -0.436759E+02    0.438637E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.399097E+02    0.451514E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.400699E+02    0.318987E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.380118E+02    0.319858E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.395231E+02    0.305312E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.418508E+02    0.309561E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.417096E+02    0.326962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.393871E+02    0.333032E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.372816E+02    0.343535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.359671E+02    0.332335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.358432E+02    0.317204E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.367996E+02    0.302758E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.386041E+02    0.292733E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.410299E+02    0.288720E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.430132E+02    0.294264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.442886E+02    0.306176E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.444179E+02    0.321456E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.434140E+02    0.335932E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.414461E+02    0.346333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.392161E+02    0.349065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.371198E+02    0.370151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.340811E+02    0.355842E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.327568E+02    0.331639E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.332960E+02    0.304838E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.356111E+02    0.281539E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.391641E+02    0.268380E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.432841E+02    0.267939E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.465246E+02    0.282332E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133198E+03   -0.483154E+02    0.305659E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133653E+03   -0.474871E+02    0.333779E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.447600E+02    0.357962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.409755E+02    0.371247E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.388683E+02    0.447962E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.368294E+02    0.448253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.383373E+02    0.432760E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.406426E+02    0.438145E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.405959E+02    0.456886E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.381817E+02    0.462995E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.361860E+02    0.472985E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.349822E+02    0.459868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.346807E+02    0.444232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.357354E+02    0.428450E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.375312E+02    0.418095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.396342E+02    0.415943E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.417002E+02    0.422014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.429569E+02    0.435521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.431807E+02    0.452304E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.421746E+02    0.467819E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.403193E+02    0.477820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.381012E+02    0.479703E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.361035E+02    0.501144E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.330972E+02    0.483908E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.317118E+02    0.458116E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.321724E+02    0.429960E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.343831E+02    0.406158E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.379984E+02    0.392682E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.418766E+02    0.394177E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133796E+03   -0.453134E+02    0.409586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133162E+03   -0.469658E+02    0.436742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133069E+03   -0.464678E+02    0.466891E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.436067E+02    0.492177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.398307E+02    0.504701E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.394133E+02    0.359688E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.373661E+02    0.360516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.388739E+02    0.345373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.411902E+02    0.349853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.410433E+02    0.368140E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.387302E+02    0.374411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.366331E+02    0.385037E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.353267E+02    0.373288E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.352090E+02    0.357480E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.362594E+02    0.342044E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.380581E+02    0.331970E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.402720E+02    0.329167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.423497E+02    0.334248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.436194E+02    0.346439E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.437439E+02    0.362501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.427395E+02    0.377720E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.407771E+02    0.388251E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.385565E+02    0.390836E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.363675E+02    0.412485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.335409E+02    0.396646E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.322247E+02    0.371820E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.326796E+02    0.344510E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.349848E+02    0.321258E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.386122E+02    0.307775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.425108E+02    0.308546E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.457351E+02    0.322904E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133632E+03   -0.474004E+02    0.347049E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133445E+03   -0.469159E+02    0.375408E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.440707E+02    0.400500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.403047E+02    0.413694E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.403485E+02    0.265642E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.380876E+02    0.267784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.398004E+02    0.251953E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.421374E+02    0.256153E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.419947E+02    0.273556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.395607E+02    0.280234E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.374513E+02    0.290802E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.361358E+02    0.279865E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.361054E+02    0.264111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.370679E+02    0.249587E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.388815E+02    0.239457E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.413108E+02    0.235203E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.433034E+02    0.240761E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.445819E+02    0.252663E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.447110E+02    0.267930E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.435944E+02    0.282887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.416261E+02    0.293248E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.393915E+02    0.296063E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.372965E+02    0.316333E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.342451E+02    0.303122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.329993E+02    0.278777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.335441E+02    0.251811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.358751E+02    0.228139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.395417E+02    0.213350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.436794E+02    0.212555E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.469312E+02    0.227781E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.483797E+02    0.253005E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133797E+03   -0.476669E+02    0.280522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.449433E+02    0.304173E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.411623E+02    0.316964E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673316.478476259     
  ps_ts2 prof sum =   672905.866955986     
  trcom prof sum =    672905.866911347     
  ps_ts2 cur sum  =   10394.7383923999     
  trcom cur sum  =    10394.7383923999     
  
  antenna # iant =            2
  powecha_use(iant) =    665163.251124309     
  ps_ts2 prof sum =   664758.153069872     
  trcom prof sum =    664758.153069870     
  ps_ts2 cur sum  =   12044.7965807859     
  trcom cur sum  =    12044.7965807859     
  
  antenna # iant =            3
  powecha_use(iant) =    526993.440830001     
  ps_ts2 prof sum =   526684.360873292     
  trcom prof sum =    526684.360873292     
  ps_ts2 cur sum  =   7160.77753580374     
  trcom cur sum  =    7160.77753580374     
  
  antenna # iant =            4
  powecha_use(iant) =    566078.314307728     
  ps_ts2 prof sum =   565761.340061824     
  trcom prof sum =    565761.340061823     
  ps_ts2 cur sum  =   9470.24401646892     
  trcom cur sum  =    9470.24401646891     
  
  antenna # iant =            5
  powecha_use(iant) =    543563.926847743     
  ps_ts2 prof sum =   543254.336417317     
  trcom prof sum =    543254.336417317     
  ps_ts2 cur sum  =   10660.4532744157     
  trcom cur sum  =    10660.4532744158     
  
  Total ECH heating:      2973364.05733365     
  Total Current Drive:    49731.0097998742     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2836
 TA= 3.13000E+00 CPU TIME= 1.59581E-01 SECONDS.  DT= 1.55226E-03
  
 TEC1=    3.12999999999996     
 TEC2=    3.13499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.73013833333289     
  %check_save_state: izleft hours =    72.2613888888889     
 --> plasma_hash("gframe"): TA= 3.130000E+00 NSTEP=  2836 Hash code:    4968639
 ->PRGCHK: bdy curvature ratio at t= 3.1350E+00 seconds is:  5.5751E-02
% MHDEQ: TG1=     3.130000 ; TG2=     3.135000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1640E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5751E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.130000 TO TG2=    3.135000 @ NSTEP     2836
   GFRAME TG2 MOMENTS CHECKSUM:  2.4783597687711D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1350E+00  3.1400E+00 total power(Watts):  2.9816E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.13500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.389433E+02    0.395784E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.369046E+02    0.396452E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.384068E+02    0.381287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.407140E+02    0.386009E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.406734E+02    0.404083E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.382599E+02    0.410711E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.362666E+02    0.421028E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.350662E+02    0.408276E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.347530E+02    0.393132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.357044E+02    0.378131E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.375951E+02    0.367404E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.398022E+02    0.364613E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.417647E+02    0.370508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.431376E+02    0.382738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.432592E+02    0.399054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.422552E+02    0.414502E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.404027E+02    0.424830E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.381849E+02    0.427249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.360988E+02    0.448762E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.330864E+02    0.432995E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.317817E+02    0.407373E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.323258E+02    0.379366E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.346301E+02    0.355529E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.379531E+02    0.343347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.419322E+02    0.343736E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.452530E+02    0.358308E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133413E+03   -0.470276E+02    0.383296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133485E+03   -0.464232E+02    0.412643E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.438085E+02    0.437700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.399277E+02    0.450961E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.400800E+02    0.318763E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.378242E+02    0.320710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.395325E+02    0.305165E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.418607E+02    0.309397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.417205E+02    0.326701E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.392956E+02    0.333248E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.372923E+02    0.343185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.360726E+02    0.331509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.358524E+02    0.316989E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.369041E+02    0.302052E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.387120E+02    0.292051E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.409370E+02    0.289180E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.430231E+02    0.294161E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.442989E+02    0.306030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.444297E+02    0.321221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.434257E+02    0.335612E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.414579E+02    0.345959E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.392274E+02    0.348681E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.371318E+02    0.369712E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.340920E+02    0.355448E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.327657E+02    0.331357E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.333032E+02    0.304687E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.356235E+02    0.281426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.392722E+02    0.267753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.431895E+02    0.268485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.465353E+02    0.282274E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133173E+03   -0.483229E+02    0.305525E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133409E+03   -0.476157E+02    0.333013E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.447732E+02    0.357536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.408836E+02    0.371242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.388855E+02    0.447410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.368453E+02    0.447721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.382503E+02    0.432525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.406602E+02    0.437542E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.405058E+02    0.456637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.381993E+02    0.462509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.362034E+02    0.472525E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.350026E+02    0.459380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.346958E+02    0.443705E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.357503E+02    0.427897E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.375462E+02    0.417562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.396491E+02    0.415417E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.417170E+02    0.421441E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.429751E+02    0.434911E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.432039E+02    0.451716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.421944E+02    0.467301E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.403386E+02    0.477337E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.381153E+02    0.479243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.361222E+02    0.500663E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.332075E+02    0.483203E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.317263E+02    0.457659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.321857E+02    0.429427E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.343954E+02    0.405698E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.380100E+02    0.392226E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.417826E+02    0.394086E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.453307E+02    0.409027E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133144E+03   -0.469859E+02    0.436084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133049E+03   -0.464893E+02    0.466335E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.436288E+02    0.491652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.398514E+02    0.504194E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.394258E+02    0.359258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.371788E+02    0.361069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.388854E+02    0.345007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.412021E+02    0.349458E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.410558E+02    0.367699E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.386401E+02    0.374425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.366455E+02    0.384594E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.353384E+02    0.372857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.352193E+02    0.357080E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.362697E+02    0.341696E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.380683E+02    0.331682E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.402827E+02    0.328888E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.422540E+02    0.334426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.436325E+02    0.346051E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.437571E+02    0.362070E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.426430E+02    0.377676E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.407910E+02    0.387792E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.385697E+02    0.390374E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.364810E+02    0.411590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.334600E+02    0.396644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.321473E+02    0.371888E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.326885E+02    0.344171E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.349008E+02    0.321584E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.384227E+02    0.308716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.425209E+02    0.308387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.457468E+02    0.322661E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133390E+03   -0.475307E+02    0.346203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133426E+03   -0.469297E+02    0.374903E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.440906E+02    0.399991E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.403210E+02    0.413151E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.403578E+02    0.265626E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.381936E+02    0.267143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.398097E+02    0.252030E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.421479E+02    0.256203E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.420048E+02    0.273509E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.395699E+02    0.280152E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.374607E+02    0.290685E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.361441E+02    0.279782E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.360238E+02    0.264697E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.370782E+02    0.249640E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.388916E+02    0.239612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.413204E+02    0.235411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.433138E+02    0.240947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.445928E+02    0.252766E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.447213E+02    0.267932E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.436043E+02    0.282821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.416361E+02    0.293148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.394006E+02    0.295947E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.371115E+02    0.317219E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.342531E+02    0.302975E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.330074E+02    0.278671E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.335524E+02    0.251846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.358851E+02    0.228341E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.396471E+02    0.212984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.435888E+02    0.213525E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.468342E+02    0.228678E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133592E+03   -0.483902E+02    0.253158E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.476778E+02    0.280480E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.449538E+02    0.304032E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.410680E+02    0.317274E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.25 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674516.439783158     
  ps_ts2 prof sum =   674147.390423963     
  trcom prof sum =    674147.390381045     
  ps_ts2 cur sum  =   10437.2326868834     
  trcom cur sum  =    10437.2326868834     
  
  antenna # iant =            2
  powecha_use(iant) =    668093.302151228     
  ps_ts2 prof sum =   667736.701162910     
  trcom prof sum =    667736.701162909     
  ps_ts2 cur sum  =   12113.3821920270     
  trcom cur sum  =    12113.3821920270     
  
  antenna # iant =            3
  powecha_use(iant) =    528838.929466553     
  ps_ts2 prof sum =   528542.829395648     
  trcom prof sum =    528542.829395648     
  ps_ts2 cur sum  =   7205.68195774865     
  trcom cur sum  =    7205.68195774865     
  
  antenna # iant =            4
  powecha_use(iant) =    567489.373894685     
  ps_ts2 prof sum =   567146.226117729     
  trcom prof sum =    567146.226117728     
  ps_ts2 cur sum  =   9511.13011931685     
  trcom cur sum  =    9511.13011931684     
  
  antenna # iant =            5
  powecha_use(iant) =    542624.580424730     
  ps_ts2 prof sum =   542331.601530985     
  trcom prof sum =    542331.601530985     
  ps_ts2 cur sum  =   10648.6393861237     
  trcom cur sum  =    10648.6393861237     
  
  Total ECH heating:      2979904.74858832     
  Total Current Drive:    49916.0663420995     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2839
 TA= 3.13500E+00 CPU TIME= 1.62598E-01 SECONDS.  DT= 1.88426E-03
  
 TEC1=    3.13499999999995     
 TEC2=    3.13999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.74528361111061     
  %check_save_state: izleft hours =    72.2463888888889     
 --> plasma_hash("gframe"): TA= 3.135000E+00 NSTEP=  2839 Hash code:    9238738
 ->PRGCHK: bdy curvature ratio at t= 3.1400E+00 seconds is:  5.5833E-02
% MHDEQ: TG1=     3.135000 ; TG2=     3.140000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7649E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5833E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.135000 TO TG2=    3.140000 @ NSTEP     2839
   GFRAME TG2 MOMENTS CHECKSUM:  2.4779607129085D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.79044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.80082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.62336E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.88081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.80103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.96232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.11480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.78329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.74997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.42383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.02758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.50822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.00288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.23021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.28086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.45139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.28457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.96375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.33092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.33092E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1400E+00  3.1450E+00 total power(Watts):  2.9770E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.14000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.389570E+02    0.395272E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.369163E+02    0.395958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.384220E+02    0.380776E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.407277E+02    0.385493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.405810E+02    0.403946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.382751E+02    0.410172E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.360829E+02    0.421243E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.350749E+02    0.407781E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.347653E+02    0.392650E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.358141E+02    0.377166E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.376074E+02    0.366897E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.398154E+02    0.364080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.417780E+02    0.369970E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.431515E+02    0.382209E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.432698E+02    0.398505E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.422709E+02    0.413952E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.403119E+02    0.424592E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.382008E+02    0.426673E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.361124E+02    0.448261E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.331001E+02    0.432467E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.317941E+02    0.406883E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.322468E+02    0.379379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.344530E+02    0.356068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.380637E+02    0.342381E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.419438E+02    0.343259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.452666E+02    0.357758E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133392E+03   -0.470433E+02    0.382725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133465E+03   -0.464410E+02    0.412046E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.435997E+02    0.437701E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.399452E+02    0.450431E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.400893E+02    0.318425E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.378330E+02    0.320365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.395413E+02    0.304880E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.418700E+02    0.309099E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.417308E+02    0.326308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.393058E+02    0.332831E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.371055E+02    0.343757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.360818E+02    0.331111E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.359556E+02    0.316106E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.369121E+02    0.301783E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.387195E+02    0.291810E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.409455E+02    0.288942E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.430319E+02    0.293918E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.443084E+02    0.305752E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.444401E+02    0.320862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.433275E+02    0.335656E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.414700E+02    0.345462E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.392381E+02    0.348190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.371444E+02    0.369202E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.341019E+02    0.354969E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.327741E+02    0.330971E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.333102E+02    0.304421E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.356308E+02    0.281195E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.392799E+02    0.267563E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.431973E+02    0.268300E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134067E+03   -0.465442E+02    0.282061E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.481022E+02    0.306209E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133383E+03   -0.476283E+02    0.332573E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.447871E+02    0.356985E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.408974E+02    0.370698E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.389024E+02    0.446871E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.368613E+02    0.447206E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.382666E+02    0.431951E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.406773E+02    0.436957E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.405236E+02    0.456131E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.382160E+02    0.462055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.362202E+02    0.472096E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.350183E+02    0.458931E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.347110E+02    0.443185E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.357649E+02    0.427341E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.374596E+02    0.417392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.396648E+02    0.414869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.417338E+02    0.420856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.429930E+02    0.434301E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.432227E+02    0.451163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.422132E+02    0.466822E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.403575E+02    0.476883E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.381373E+02    0.478798E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.361405E+02    0.500198E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.330362E+02    0.483287E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.317405E+02    0.457230E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.321997E+02    0.428893E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.344082E+02    0.405204E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.379214E+02    0.392148E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.417972E+02    0.393553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.451165E+02    0.409172E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.470060E+02    0.435422E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133017E+03   -0.465154E+02    0.465813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.436498E+02    0.491157E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.398735E+02    0.503713E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.394384E+02    0.358737E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.371900E+02    0.360567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.388965E+02    0.344533E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.412134E+02    0.348967E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.410697E+02    0.367152E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.386531E+02    0.373901E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.366581E+02    0.384092E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.354465E+02    0.371877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.353248E+02    0.356091E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.362797E+02    0.341248E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.380783E+02    0.331271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.402930E+02    0.328489E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.422653E+02    0.333989E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.435340E+02    0.346026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.437710E+02    0.361508E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.426567E+02    0.377143E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.408047E+02    0.387266E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.385830E+02    0.389866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.364950E+02    0.411070E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.334720E+02    0.396168E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.321579E+02    0.371410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.326980E+02    0.343727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.349091E+02    0.321244E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.385306E+02    0.307873E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.424238E+02    0.308613E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.457576E+02    0.322290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133367E+03   -0.475444E+02    0.345689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133402E+03   -0.469464E+02    0.374330E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.441065E+02    0.399434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.403359E+02    0.412612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.401666E+02    0.266607E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.382014E+02    0.266948E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.396215E+02    0.253122E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.421563E+02    0.256070E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.420133E+02    0.273299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.395780E+02    0.279923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.372744E+02    0.291617E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.361522E+02    0.279542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.360294E+02    0.264509E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.369914E+02    0.250174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.389949E+02    0.238948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.412298E+02    0.236017E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.433215E+02    0.240938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.446015E+02    0.252671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.447302E+02    0.267748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.436136E+02    0.282587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.416439E+02    0.292909E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.394088E+02    0.295699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.371201E+02    0.316895E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.342599E+02    0.302719E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.330143E+02    0.278442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.335594E+02    0.251709E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.358920E+02    0.228363E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.394644E+02    0.214413E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.435966E+02    0.213673E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.468418E+02    0.228781E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133555E+03   -0.483993E+02    0.253083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133730E+03   -0.476872E+02    0.280262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.448530E+02    0.304268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.410775E+02    0.316946E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672743.562787238     
  ps_ts2 prof sum =   672350.975355819     
  trcom prof sum =    672350.975355820     
  ps_ts2 cur sum  =   10434.3531097047     
  trcom cur sum  =    10434.3531097047     
  
  antenna # iant =            2
  powecha_use(iant) =    664782.294403726     
  ps_ts2 prof sum =   664430.742058090     
  trcom prof sum =    664430.742058089     
  ps_ts2 cur sum  =   12072.7259350562     
  trcom cur sum  =    12072.7259350562     
  
  antenna # iant =            3
  powecha_use(iant) =    527070.729605012     
  ps_ts2 prof sum =   526760.062880355     
  trcom prof sum =    526760.062880356     
  ps_ts2 cur sum  =   7198.48136025259     
  trcom cur sum  =    7198.48136025260     
  
  antenna # iant =            4
  powecha_use(iant) =    567742.950600484     
  ps_ts2 prof sum =   567439.912763258     
  trcom prof sum =    567439.912763258     
  ps_ts2 cur sum  =   9535.93980115728     
  trcom cur sum  =    9535.93980115727     
  
  antenna # iant =            5
  powecha_use(iant) =    544673.419390417     
  ps_ts2 prof sum =   544345.811571032     
  trcom prof sum =    544345.811571031     
  ps_ts2 cur sum  =   10699.2877376676     
  trcom cur sum  =    10699.2877376676     
  
  Total ECH heating:      2975327.50462855     
  Total Current Drive:    49940.7879438383     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2842
 TA= 3.14000E+00 CPU TIME= 1.60201E-01 SECONDS.  DT= 9.50520E-04
  
 TEC1=    3.13999999999995     
 TEC2=    3.14499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.76071805555534     
  %check_save_state: izleft hours =    72.2308333333333     
 --> plasma_hash("gframe"): TA= 3.140000E+00 NSTEP=  2842 Hash code:   34695428
 ->PRGCHK: bdy curvature ratio at t= 3.1450E+00 seconds is:  5.5916E-02
% MHDEQ: TG1=     3.140000 ; TG2=     3.145000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5916E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.140000 TO TG2=    3.145000 @ NSTEP     2842
   GFRAME TG2 MOMENTS CHECKSUM:  2.4775616570460D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1450E+00  3.1500E+00 total power(Watts):  2.9872E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.14500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.389692E+02    0.394765E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.369277E+02    0.395455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.384305E+02    0.380271E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.407400E+02    0.384962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.405942E+02    0.403406E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.382879E+02    0.409631E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.360964E+02    0.420676E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.348940E+02    0.408094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.347759E+02    0.392165E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.358243E+02    0.376675E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.376177E+02    0.366362E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.398261E+02    0.363537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.417899E+02    0.369418E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.430531E+02    0.382074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.432891E+02    0.397941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.422861E+02    0.413356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.403267E+02    0.423993E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.382151E+02    0.426079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.361271E+02    0.447735E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.331127E+02    0.431915E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.318052E+02    0.406385E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.322567E+02    0.378895E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.344617E+02    0.355554E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.380732E+02    0.341864E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.419541E+02    0.342718E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.453929E+02    0.356722E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133370E+03   -0.470571E+02    0.382145E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.464575E+02    0.411420E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.436212E+02    0.437051E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.398546E+02    0.450181E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.400979E+02    0.317984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.379370E+02    0.319400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.395446E+02    0.304553E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.418783E+02    0.308718E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.417402E+02    0.325830E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.393152E+02    0.332323E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.371147E+02    0.343239E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.360899E+02    0.330627E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.359632E+02    0.315688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.369192E+02    0.301450E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.387262E+02    0.291550E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.409504E+02    0.288710E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.430394E+02    0.293648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.443170E+02    0.305388E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.444497E+02    0.320398E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.433397E+02    0.335119E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.414803E+02    0.344917E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.392481E+02    0.347654E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.371547E+02    0.368685E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.341107E+02    0.354459E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.327812E+02    0.330511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.333172E+02    0.304074E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.355452E+02    0.281600E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.392857E+02    0.267445E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.432043E+02    0.268199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.464404E+02    0.282399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133546E+03   -0.481111E+02    0.305856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133360E+03   -0.476394E+02    0.332026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.449120E+02    0.355952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.409088E+02    0.370150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.389182E+02    0.446310E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.368762E+02    0.446665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.382809E+02    0.431356E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.406933E+02    0.436345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.405407E+02    0.455596E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.382324E+02    0.461564E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.362361E+02    0.471635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.348375E+02    0.459082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.348216E+02    0.442305E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.357787E+02    0.426764E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.374735E+02    0.416822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.396790E+02    0.414293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.417490E+02    0.420252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.430097E+02    0.433664E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.432403E+02    0.450573E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.422315E+02    0.466308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.403756E+02    0.476387E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.381545E+02    0.478318E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.361582E+02    0.499715E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.330507E+02    0.482845E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.317538E+02    0.456776E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.322117E+02    0.428347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.345184E+02    0.404261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.379333E+02    0.391639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.418102E+02    0.393016E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.451319E+02    0.408580E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133106E+03   -0.470242E+02    0.434750E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133007E+03   -0.465300E+02    0.465256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134177E+03   -0.436700E+02    0.490633E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.398912E+02    0.503208E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.394488E+02    0.358190E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.372994E+02    0.359549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.388043E+02    0.344507E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.412239E+02    0.348419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.410809E+02    0.366602E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.386642E+02    0.373373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.366689E+02    0.383591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.354563E+02    0.371383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.353344E+02    0.355565E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.362888E+02    0.340739E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.380868E+02    0.330786E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.403022E+02    0.327997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.422752E+02    0.333474E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.435449E+02    0.345468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.437827E+02    0.360935E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.426689E+02    0.376594E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.408171E+02    0.386736E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.385949E+02    0.389352E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.365078E+02    0.410532E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.334824E+02    0.395689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.321657E+02    0.370931E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.327060E+02    0.343232E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.349163E+02    0.320816E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.385384E+02    0.307500E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.424322E+02    0.308236E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.457676E+02    0.321814E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.475560E+02    0.345102E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133381E+03   -0.469597E+02    0.373739E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.441211E+02    0.398863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.403501E+02    0.412042E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.402723E+02    0.265925E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.382070E+02    0.266831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.396274E+02    0.253087E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.421619E+02    0.256030E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.420242E+02    0.273139E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.393853E+02    0.280892E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.372809E+02    0.291366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.361579E+02    0.279365E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.360347E+02    0.264407E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.369964E+02    0.250149E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.390003E+02    0.238978E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.412352E+02    0.236087E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.433270E+02    0.240994E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.446069E+02    0.252677E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.446289E+02    0.268207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.436205E+02    0.282402E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.416511E+02    0.292646E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.394159E+02    0.295413E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.371279E+02    0.316477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.342671E+02    0.302382E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.329328E+02    0.278888E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.335641E+02    0.251660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.358967E+02    0.228429E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.394698E+02    0.214565E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.436025E+02    0.213857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134062E+03   -0.468475E+02    0.228936E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133513E+03   -0.484055E+02    0.253103E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133693E+03   -0.476939E+02    0.280110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.448614E+02    0.303925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.410862E+02    0.316512E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685279.477337707     
  ps_ts2 prof sum =   684872.027450572     
  trcom prof sum =    684872.027450573     
  ps_ts2 cur sum  =   10644.1495775478     
  trcom cur sum  =    10644.1495775478     
  
  antenna # iant =            2
  powecha_use(iant) =    664699.660577125     
  ps_ts2 prof sum =   664363.119458689     
  trcom prof sum =    664363.119458688     
  ps_ts2 cur sum  =   12082.8244989163     
  trcom cur sum  =    12082.8244989163     
  
  antenna # iant =            3
  powecha_use(iant) =    527486.727981435     
  ps_ts2 prof sum =   527189.422006476     
  trcom prof sum =    527189.422006476     
  ps_ts2 cur sum  =   7216.62325839701     
  trcom cur sum  =    7216.62325839702     
  
  antenna # iant =            4
  powecha_use(iant) =    566576.519618795     
  ps_ts2 prof sum =   566291.441340977     
  trcom prof sum =    566291.441340976     
  ps_ts2 cur sum  =   9528.72239402160     
  trcom cur sum  =    9528.72239402159     
  
  antenna # iant =            5
  powecha_use(iant) =    543196.614385794     
  ps_ts2 prof sum =   542876.475666402     
  trcom prof sum =    542876.475666401     
  ps_ts2 cur sum  =   10674.2250501240     
  trcom cur sum  =    10674.2250501240     
  
  Total ECH heating:      2985592.48592312     
  Total Current Drive:    50146.5447790067     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2846
 TA= 3.14500E+00 CPU TIME= 1.61814E-01 SECONDS.  DT= 1.72018E-03
  
 TEC1=    3.14499999999995     
 TEC2=    3.14999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.77389638888894     
  %check_save_state: izleft hours =    72.2177777777778     
 --> plasma_hash("gframe"): TA= 3.145000E+00 NSTEP=  2846 Hash code:   21774727
 ->PRGCHK: bdy curvature ratio at t= 3.1500E+00 seconds is:  5.5999E-02
% MHDEQ: TG1=     3.145000 ; TG2=     3.150000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5999E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.145000 TO TG2=    3.150000 @ NSTEP     2846
   GFRAME TG2 MOMENTS CHECKSUM:  2.4771626013251D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.57319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.73789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.87433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.63111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.87677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  4.94796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.94592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.10606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.42737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.93192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.49898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.86933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.40285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.05684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.19611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.26946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.57340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.38173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.75339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.62516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.62516E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1500E+00  3.1550E+00 total power(Watts):  2.9959E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.15000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.389827E+02    0.394251E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.369404E+02    0.394960E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.384421E+02    0.379770E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.407526E+02    0.384448E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.406080E+02    0.402881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.383016E+02    0.409103E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.361098E+02    0.420129E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.349064E+02    0.407592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.347870E+02    0.391699E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.358344E+02    0.376188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.376284E+02    0.365852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.398373E+02    0.363005E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.418022E+02    0.368872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.430661E+02    0.381544E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.433031E+02    0.397420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.423014E+02    0.412787E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.403419E+02    0.423408E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.381250E+02    0.425867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.361417E+02    0.447232E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.331259E+02    0.431378E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.318160E+02    0.405907E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.322662E+02    0.378436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.344710E+02    0.355055E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.380835E+02    0.341355E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.419671E+02    0.342183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.454055E+02    0.356146E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133349E+03   -0.470716E+02    0.381575E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133424E+03   -0.464741E+02    0.410829E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.436339E+02    0.436444E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.398709E+02    0.449654E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.401072E+02    0.317575E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.379491E+02    0.318971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.394563E+02    0.304766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.418874E+02    0.308375E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.417502E+02    0.325369E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.393250E+02    0.331845E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.371239E+02    0.342744E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.360979E+02    0.330173E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.357817E+02    0.316427E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.367341E+02    0.302313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.387339E+02    0.291339E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.409601E+02    0.288522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.429412E+02    0.293967E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.443263E+02    0.305073E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.444613E+02    0.319964E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.433485E+02    0.334630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.414907E+02    0.344397E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.392590E+02    0.347132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.369662E+02    0.369133E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.341197E+02    0.353959E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.327893E+02    0.330062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.333246E+02    0.303766E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.355519E+02    0.281458E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.392925E+02    0.267389E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.432116E+02    0.268158E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.464485E+02    0.282283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133516E+03   -0.481210E+02    0.305538E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133337E+03   -0.476512E+02    0.331511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.446982E+02    0.356286E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.409205E+02    0.369622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.389336E+02    0.445781E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.366890E+02    0.446814E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.382963E+02    0.430774E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.406012E+02    0.436086E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.405532E+02    0.455100E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.382486E+02    0.461096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.360518E+02    0.471736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.348527E+02    0.458627E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.348355E+02    0.441786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.355956E+02    0.426956E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.374873E+02    0.416271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.396981E+02    0.413724E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.417645E+02    0.419659E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.430267E+02    0.433043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.432580E+02    0.450015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.422493E+02    0.465818E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.402851E+02    0.476159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.381719E+02    0.477848E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.359751E+02    0.499654E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.330662E+02    0.482398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.317669E+02    0.456338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.322241E+02    0.427813E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.345269E+02    0.403778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.379453E+02    0.391155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.418235E+02    0.392510E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.451478E+02    0.408009E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133087E+03   -0.470430E+02    0.434080E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133204E+03   -0.464309E+02    0.464965E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.436905E+02    0.490109E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.399105E+02    0.502712E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.394598E+02    0.357658E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.373097E+02    0.359033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.388137E+02    0.344003E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.411335E+02    0.348351E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.410927E+02    0.366066E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.386754E+02    0.372867E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.366801E+02    0.383105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.354665E+02    0.370884E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.353441E+02    0.355057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.361044E+02    0.341298E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.380967E+02    0.330305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.403120E+02    0.327532E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.422857E+02    0.332981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.435560E+02    0.344933E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.436834E+02    0.360827E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.426815E+02    0.376062E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.408298E+02    0.386222E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.386070E+02    0.388858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.365209E+02    0.410008E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.334933E+02    0.395223E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.321749E+02    0.370463E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.327136E+02    0.342755E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.349245E+02    0.320407E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.385457E+02    0.307175E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.424413E+02    0.307900E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.458911E+02    0.320885E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133324E+03   -0.475686E+02    0.344530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133360E+03   -0.469737E+02    0.373161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.442492E+02    0.397945E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.403604E+02    0.411486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.402792E+02    0.265883E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.380211E+02    0.267977E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.397317E+02    0.252514E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.421688E+02    0.256052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.419234E+02    0.273650E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.394926E+02    0.280184E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.372884E+02    0.291155E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.361650E+02    0.279236E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.360409E+02    0.264356E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.370026E+02    0.250177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.390068E+02    0.239063E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.412421E+02    0.236203E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.433340E+02    0.241104E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.445080E+02    0.253294E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.446363E+02    0.268177E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.436283E+02    0.282267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.416593E+02    0.292432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.394238E+02    0.295167E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.371364E+02    0.316092E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.342745E+02    0.302084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.329415E+02    0.278738E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.335699E+02    0.251656E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.359030E+02    0.228536E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.394769E+02    0.214754E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.436100E+02    0.214093E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.468550E+02    0.229143E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133253E+03   -0.485248E+02    0.252663E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133440E+03   -0.478156E+02    0.279489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.448707E+02    0.303626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.410955E+02    0.316114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693242.905195985     
  ps_ts2 prof sum =   692842.536727183     
  trcom prof sum =    692842.536727184     
  ps_ts2 cur sum  =   10787.8462813590     
  trcom cur sum  =    10787.8462813590     
  
  antenna # iant =            2
  powecha_use(iant) =    663998.551135283     
  ps_ts2 prof sum =   663606.337952476     
  trcom prof sum =    663606.337952475     
  ps_ts2 cur sum  =   12089.0055043415     
  trcom cur sum  =    12089.0055043415     
  
  antenna # iant =            3
  powecha_use(iant) =    527562.879186881     
  ps_ts2 prof sum =   527214.413604463     
  trcom prof sum =    527214.413604463     
  ps_ts2 cur sum  =   7229.93383165144     
  trcom cur sum  =    7229.93383165145     
  
  antenna # iant =            4
  powecha_use(iant) =    566768.063360556     
  ps_ts2 prof sum =   566480.686776765     
  trcom prof sum =    566480.686776764     
  ps_ts2 cur sum  =   9549.48285233103     
  trcom cur sum  =    9549.48285233102     
  
  antenna # iant =            5
  powecha_use(iant) =    544365.607093566     
  ps_ts2 prof sum =   544075.990309455     
  trcom prof sum =    544075.990309454     
  ps_ts2 cur sum  =   10706.3068799570     
  trcom cur sum  =    10706.3068799570     
  
  Total ECH heating:      2994219.96537034     
  Total Current Drive:    50362.5753496400     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2849
 TA= 3.15000E+00 CPU TIME= 1.62665E-01 SECONDS.  DT= 1.41199E-03
  
 TEC1=    3.14999999999995     
 TEC2=    3.15499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.78739388888880     
  %check_save_state: izleft hours =    72.2041666666667     
 --> plasma_hash("gframe"): TA= 3.150000E+00 NSTEP=  2849 Hash code:   62472514
 ->PRGCHK: bdy curvature ratio at t= 3.1550E+00 seconds is:  5.6082E-02
% MHDEQ: TG1=     3.150000 ; TG2=     3.155000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6082E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.150000 TO TG2=    3.155000 @ NSTEP     2849
   GFRAME TG2 MOMENTS CHECKSUM:  2.4767635456043D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1550E+00  3.1600E+00 total power(Watts):  2.9902E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.15500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.389984E+02    0.393808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.367549E+02    0.395405E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.383544E+02    0.379786E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.406610E+02    0.384443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.406247E+02    0.402414E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.382149E+02    0.409015E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.362254E+02    0.419224E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.349212E+02    0.407132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.348971E+02    0.390823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.358487E+02    0.375753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.376424E+02    0.365398E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.397474E+02    0.363014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.418178E+02    0.368403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.430826E+02    0.381085E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.432086E+02    0.397343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.422088E+02    0.412638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.403603E+02    0.422864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.381440E+02    0.425332E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.361591E+02    0.446767E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.331415E+02    0.430874E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.318297E+02    0.405468E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.322787E+02    0.378023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.344836E+02    0.354609E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.380957E+02    0.340915E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.419800E+02    0.341726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.451940E+02    0.356543E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133329E+03   -0.470897E+02    0.381088E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.464941E+02    0.410281E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.436542E+02    0.435867E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.398900E+02    0.449170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.400179E+02    0.317741E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.379620E+02    0.318600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.394692E+02    0.304483E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.417955E+02    0.308598E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.417645E+02    0.324964E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.393387E+02    0.331419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.372357E+02    0.341778E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.359201E+02    0.330833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.357938E+02    0.316078E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.367465E+02    0.302044E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.385483E+02    0.292282E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.409727E+02    0.288355E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.429545E+02    0.293769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.442310E+02    0.305312E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.443642E+02    0.320088E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.433642E+02    0.334178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.413987E+02    0.344421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.391705E+02    0.347165E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.370797E+02    0.368203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.340391E+02    0.354036E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.328012E+02    0.329657E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.333353E+02    0.303488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.355630E+02    0.281312E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.391076E+02    0.268516E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.432241E+02    0.268121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.464622E+02    0.282176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133272E+03   -0.482519E+02    0.304774E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.474347E+02    0.332002E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.447145E+02    0.355791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.409358E+02    0.369160E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.388466E+02    0.445613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.368076E+02    0.446003E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.383139E+02    0.430239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.406198E+02    0.435542E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.405767E+02    0.454626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.381627E+02    0.460969E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.361705E+02    0.471050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.348696E+02    0.458221E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.348515E+02    0.441313E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.356119E+02    0.426441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.375040E+02    0.415759E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.397109E+02    0.413224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.416731E+02    0.419478E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.430464E+02    0.432474E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.433920E+02    0.449212E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.421582E+02    0.465650E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.403053E+02    0.475734E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.380869E+02    0.477681E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.360947E+02    0.499018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.330839E+02    0.481988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.316916E+02    0.456278E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.322390E+02    0.427319E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.343507E+02    0.404195E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379605E+02    0.390720E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.418401E+02    0.392055E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.451668E+02    0.407491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133069E+03   -0.470646E+02    0.433478E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133184E+03   -0.464529E+02    0.464503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.438280E+02    0.489433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.399318E+02    0.502256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.393706E+02    0.357676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.373232E+02    0.358571E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.388279E+02    0.343539E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.411433E+02    0.347901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.411080E+02    0.365598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.386900E+02    0.372420E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.364937E+02    0.383602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.352866E+02    0.371429E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.351661E+02    0.355632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.361174E+02    0.340861E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.380101E+02    0.330417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.402222E+02    0.327638E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.423004E+02    0.332545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.435715E+02    0.344459E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.436994E+02    0.360340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.426978E+02    0.375597E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.407383E+02    0.386212E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.386224E+02    0.388424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.365367E+02    0.409522E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.335068E+02    0.394812E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.321869E+02    0.370042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.327257E+02    0.342325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.349364E+02    0.320035E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.385593E+02    0.306869E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.424552E+02    0.307597E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.456808E+02    0.321470E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133303E+03   -0.475857E+02    0.344040E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.467569E+02    0.373494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.440403E+02    0.398232E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.402751E+02    0.411370E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.402910E+02    0.265842E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.380323E+02    0.267920E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.397433E+02    0.252531E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.420805E+02    0.256634E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.419357E+02    0.273580E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.395047E+02    0.280066E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.373965E+02    0.290382E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.360829E+02    0.279711E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.360517E+02    0.264307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.370141E+02    0.250167E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.388267E+02    0.240372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.412540E+02    0.236294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.432422E+02    0.241776E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.445203E+02    0.253346E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.446492E+02    0.268148E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.435346E+02    0.282686E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.415681E+02    0.292783E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.393358E+02    0.295511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.372420E+02    0.315209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.341948E+02    0.302408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.329496E+02    0.278621E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.334934E+02    0.252296E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.358225E+02    0.229287E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.395853E+02    0.214252E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.435224E+02    0.214901E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.467606E+02    0.229880E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133648E+03   -0.483143E+02    0.253793E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.476077E+02    0.280427E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.448850E+02    0.303366E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.411093E+02    0.315758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684738.295466021     
  ps_ts2 prof sum =   684345.310594971     
  trcom prof sum =    684345.310594971     
  ps_ts2 cur sum  =   10689.4966923368     
  trcom cur sum  =    10689.4966923368     
  
  antenna # iant =            2
  powecha_use(iant) =    666745.545211251     
  ps_ts2 prof sum =   666333.472523425     
  trcom prof sum =    666333.472523424     
  ps_ts2 cur sum  =   12173.6334834576     
  trcom cur sum  =    12173.6334834576     
  
  antenna # iant =            3
  powecha_use(iant) =    527587.650151523     
  ps_ts2 prof sum =   527263.213973505     
  trcom prof sum =    527263.213973505     
  ps_ts2 cur sum  =   7253.39662616487     
  trcom cur sum  =    7253.39662616488     
  
  antenna # iant =            4
  powecha_use(iant) =    567177.262804964     
  ps_ts2 prof sum =   566832.919913256     
  trcom prof sum =    566832.919875336     
  ps_ts2 cur sum  =   9586.44784650906     
  trcom cur sum  =    9586.44784650905     
  
  antenna # iant =            5
  powecha_use(iant) =    543930.538803254     
  ps_ts2 prof sum =   543629.959010849     
  trcom prof sum =    543629.959010850     
  ps_ts2 cur sum  =   10722.0950435306     
  trcom cur sum  =    10722.0950435306     
  
  Total ECH heating:      2988404.87597809     
  Total Current Drive:    50425.0696919990     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2852
 TA= 3.15500E+00 CPU TIME= 1.61619E-01 SECONDS.  DT= 2.27877E-03
  
 TEC1=    3.15499999999995     
 TEC2=    3.15999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.80307111111051     
  %check_save_state: izleft hours =    72.1880555555556     
 --> plasma_hash("gframe"): TA= 3.155000E+00 NSTEP=  2852 Hash code:   20769388
 ->PRGCHK: bdy curvature ratio at t= 3.1600E+00 seconds is:  5.6115E-02
% MHDEQ: TG1=     3.155000 ; TG2=     3.160000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6115E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.155000 TO TG2=    3.160000 @ NSTEP     2852
   GFRAME TG2 MOMENTS CHECKSUM:  2.4764140160589D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.46311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.71404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.98582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.60702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.86495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  2.30375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.92588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.10558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -3.83157E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.96595E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.50199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.79012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.46660E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.05637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.19462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.26955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.52594E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.43101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.65662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.96440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.96440E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.1600E+00  3.1650E+00 total power(Watts):  2.9901E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.16000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.389040E+02    0.393803E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.368655E+02    0.394528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.383639E+02    0.379351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.406715E+02    0.383995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.406353E+02    0.401951E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.382263E+02    0.408541E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.362371E+02    0.418743E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.349315E+02    0.406692E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.349062E+02    0.390405E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.356629E+02    0.376290E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.375507E+02    0.365444E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.397566E+02    0.362565E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.418276E+02    0.367947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.430935E+02    0.380620E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.432209E+02    0.396859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.422217E+02    0.412140E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.403732E+02    0.422347E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.381565E+02    0.424831E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.361719E+02    0.446317E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.331526E+02    0.430413E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.317492E+02    0.405487E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.322867E+02    0.377626E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.344912E+02    0.354192E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.381042E+02    0.340497E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.419887E+02    0.341295E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.452041E+02    0.356065E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.468659E+02    0.381398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.465038E+02    0.409760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.436690E+02    0.435327E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.399041E+02    0.448700E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.400252E+02    0.317414E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.379691E+02    0.318271E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.394759E+02    0.304241E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.418027E+02    0.308326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.416660E+02    0.325111E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.393465E+02    0.331031E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.372436E+02    0.341367E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.359272E+02    0.330469E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.358002E+02    0.315770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.367529E+02    0.301815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.386528E+02    0.291559E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.408761E+02    0.288779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.429609E+02    0.293603E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.442383E+02    0.305063E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.443723E+02    0.319744E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.433725E+02    0.333772E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.414076E+02    0.343985E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.391789E+02    0.346736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.370884E+02    0.367779E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.340466E+02    0.353622E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.327183E+02    0.329861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.332519E+02    0.303844E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.355683E+02    0.281218E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.392112E+02    0.267923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.431246E+02    0.268692E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.464682E+02    0.282114E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133254E+03   -0.482599E+02    0.304524E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.474440E+02    0.331583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.447246E+02    0.355308E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.409455E+02    0.368710E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.388602E+02    0.445142E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.368206E+02    0.445553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.383269E+02    0.429735E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.406335E+02    0.435033E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.405910E+02    0.454170E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.381769E+02    0.460543E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.361845E+02    0.470639E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.349798E+02    0.457500E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.346697E+02    0.441559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.357221E+02    0.425575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.375158E+02    0.415276E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.397232E+02    0.412734E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.416862E+02    0.418958E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.430615E+02    0.431935E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.431802E+02    0.449303E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.421738E+02    0.465204E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.403211E+02    0.475296E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.381018E+02    0.477258E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.361101E+02    0.498609E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.330973E+02    0.481589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.317031E+02    0.455891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.321586E+02    0.427252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.343611E+02    0.403767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.379712E+02    0.390278E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.418569E+02    0.391566E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.452960E+02    0.406610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133061E+03   -0.470806E+02    0.432897E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133174E+03   -0.464703E+02    0.464012E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133903E+03   -0.438460E+02    0.488960E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.399491E+02    0.501826E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.393779E+02    0.357238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.373318E+02    0.358135E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.388365E+02    0.343110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.411522E+02    0.347460E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.410103E+02    0.365608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.386994E+02    0.371977E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.366047E+02    0.382714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.352950E+02    0.371010E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.351739E+02    0.355210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.361246E+02    0.340458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.380177E+02    0.330044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.402300E+02    0.327263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.423054E+02    0.332161E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.435807E+02    0.344011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.437095E+02    0.359863E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.427084E+02    0.375134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.407489E+02    0.385763E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.385294E+02    0.388426E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.365480E+02    0.409059E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.335163E+02    0.394395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.321941E+02    0.369642E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.326428E+02    0.342481E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.349429E+02    0.319708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.385660E+02    0.306605E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.424624E+02    0.307331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.456892E+02    0.321112E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133725E+03   -0.473619E+02    0.344467E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133546E+03   -0.468856E+02    0.372582E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.440521E+02    0.397763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.402873E+02    0.410881E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.402965E+02    0.265853E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.381339E+02    0.267316E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.395522E+02    0.253824E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.420835E+02    0.256741E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.419414E+02    0.273555E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.395108E+02    0.279977E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.374024E+02    0.290228E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.360878E+02    0.279629E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.359639E+02    0.264937E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.371117E+02    0.249655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.388320E+02    0.240533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.411603E+02    0.237097E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.432489E+02    0.241960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.445263E+02    0.253459E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.446550E+02    0.268173E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.435408E+02    0.282611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.415741E+02    0.292624E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.393421E+02    0.295324E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.372531E+02    0.314877E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.342003E+02    0.302181E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.329543E+02    0.278530E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.334980E+02    0.252351E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.358295E+02    0.229471E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.394009E+02    0.215855E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.435284E+02    0.215255E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.467664E+02    0.230184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133618E+03   -0.483201E+02    0.253948E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.476096E+02    0.280394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.448924E+02    0.303124E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.410120E+02    0.315969E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685982.376535320     
  ps_ts2 prof sum =   685589.219197262     
  trcom prof sum =    685589.219197263     
  ps_ts2 cur sum  =   10727.8773287873     
  trcom cur sum  =    10727.8773287873     
  
  antenna # iant =            2
  powecha_use(iant) =    665763.455763127     
  ps_ts2 prof sum =   665385.816508634     
  trcom prof sum =    665385.816508633     
  ps_ts2 cur sum  =   12177.3069346111     
  trcom cur sum  =    12177.3069346111     
  
  antenna # iant =            3
  powecha_use(iant) =    527289.967929762     
  ps_ts2 prof sum =   526985.616261343     
  trcom prof sum =    526985.616261343     
  ps_ts2 cur sum  =   7260.21884982161     
  trcom cur sum  =    7260.21884982162     
  
  antenna # iant =            4
  powecha_use(iant) =    567076.199971597     
  ps_ts2 prof sum =   566754.484538394     
  trcom prof sum =    566754.484538394     
  ps_ts2 cur sum  =   9602.31199366285     
  trcom cur sum  =    9602.31199366284     
  
  antenna # iant =            5
  powecha_use(iant) =    543939.032277845     
  ps_ts2 prof sum =   543651.042666321     
  trcom prof sum =    543651.042666321     
  ps_ts2 cur sum  =   10736.9861703272     
  trcom cur sum  =    10736.9861703272     
  
  Total ECH heating:      2988366.17917196     
  Total Current Drive:    50504.7012772101     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2854
 TA= 3.16000E+00 CPU TIME= 1.58796E-01 SECONDS.  DT= 3.40154E-03
  
 TEC1=    3.15999999999995     
 TEC2=    3.16499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.81517666666650     
  %check_save_state: izleft hours =    72.1763888888889     
 --> plasma_hash("gframe"): TA= 3.160000E+00 NSTEP=  2854 Hash code:   29581848
 ->PRGCHK: bdy curvature ratio at t= 3.1650E+00 seconds is:  5.6134E-02
% MHDEQ: TG1=     3.160000 ; TG2=     3.165000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7662E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6134E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.160000 TO TG2=    3.165000 @ NSTEP     2854
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760644865134D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1650E+00  3.1700E+00 total power(Watts):  2.9998E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.16500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.389150E+02    0.393360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.368754E+02    0.394107E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.383740E+02    0.378915E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.406823E+02    0.383547E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.406485E+02    0.401478E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.382381E+02    0.408067E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.362488E+02    0.418258E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.350388E+02    0.405815E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.347206E+02    0.390916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.356721E+02    0.375865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.375599E+02    0.365015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.397661E+02    0.362114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.417292E+02    0.367942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.431055E+02    0.380154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.432328E+02    0.396395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.422349E+02    0.411630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.403865E+02    0.421831E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.381693E+02    0.424327E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.359856E+02    0.446548E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.330704E+02    0.430339E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.317588E+02    0.405062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.322952E+02    0.377227E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.344991E+02    0.353771E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.379114E+02    0.341121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.418900E+02    0.341356E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.452146E+02    0.355583E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133526E+03   -0.469962E+02    0.380498E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.462863E+02    0.409938E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.437984E+02    0.434461E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.399182E+02    0.448241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.400328E+02    0.317084E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.377780E+02    0.319035E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.394828E+02    0.303987E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.418102E+02    0.308051E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.416743E+02    0.324742E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.392522E+02    0.331166E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.372519E+02    0.340950E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.360304E+02    0.329542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.359016E+02    0.314898E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.368546E+02    0.301019E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.386580E+02    0.291396E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.408826E+02    0.288638E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.429678E+02    0.293430E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.442460E+02    0.304808E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.443807E+02    0.319398E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.432716E+02    0.333853E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.414166E+02    0.343548E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.391876E+02    0.346299E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.370974E+02    0.367344E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.340543E+02    0.353205E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.327250E+02    0.329499E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.332575E+02    0.303604E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.354803E+02    0.281729E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.392169E+02    0.267910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.431307E+02    0.268695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.463636E+02    0.282559E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.480367E+02    0.305247E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133506E+03   -0.475702E+02    0.330695E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.447349E+02    0.354830E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.408484E+02    0.368715E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.388745E+02    0.444671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.368339E+02    0.445096E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.383397E+02    0.429236E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.406477E+02    0.434521E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.406063E+02    0.453723E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.381961E+02    0.460123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.361988E+02    0.470237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.349929E+02    0.457101E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.346815E+02    0.441121E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.357341E+02    0.425090E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.375275E+02    0.414793E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.396295E+02    0.412631E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.416997E+02    0.418439E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.429625E+02    0.431740E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.431955E+02    0.448818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.421898E+02    0.464767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.403371E+02    0.474866E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.381173E+02    0.476844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.361257E+02    0.498211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.332043E+02    0.480942E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.317193E+02    0.455499E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.321694E+02    0.426793E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.343713E+02    0.403335E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.379817E+02    0.389845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.417487E+02    0.391569E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133892E+03   -0.453099E+02    0.406091E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133271E+03   -0.469774E+02    0.432635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133164E+03   -0.464880E+02    0.463539E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.436341E+02    0.488918E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.398580E+02    0.501600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.393881E+02    0.356790E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.371414E+02    0.358692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.388451E+02    0.342684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.411611E+02    0.347016E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.410202E+02    0.365143E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.386063E+02    0.372005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.366144E+02    0.382290E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.353039E+02    0.370585E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.351820E+02    0.354786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.362294E+02    0.339519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.380253E+02    0.329658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.402381E+02    0.326886E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.422096E+02    0.332244E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.434797E+02    0.344041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.437198E+02    0.359388E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.426085E+02    0.375107E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.407598E+02    0.385321E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.385397E+02    0.387985E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.363595E+02    0.409421E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.334314E+02    0.394444E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.322026E+02    0.369231E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.326498E+02    0.342085E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.348563E+02    0.319948E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.384733E+02    0.306896E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.423632E+02    0.307589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.456980E+02    0.320755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133493E+03   -0.474917E+02    0.343535E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.468975E+02    0.372080E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.440648E+02    0.397275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.402999E+02    0.410388E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.402022E+02    0.266438E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.381395E+02    0.267299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.396558E+02    0.253303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.420893E+02    0.256808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.419473E+02    0.273515E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.393195E+02    0.281029E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.372153E+02    0.291235E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.360940E+02    0.279530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.359692E+02    0.264928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.369304E+02    0.250978E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.389329E+02    0.240069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.411652E+02    0.237287E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.432548E+02    0.242131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.444260E+02    0.254131E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.445533E+02    0.268734E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.435475E+02    0.282517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.415809E+02    0.292456E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.393480E+02    0.295141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.370650E+02    0.315680E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.342060E+02    0.301950E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.328727E+02    0.279060E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.335015E+02    0.252411E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.358349E+02    0.229652E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.394062E+02    0.216142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.435338E+02    0.215599E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134123E+03   -0.467727E+02    0.230468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133371E+03   -0.484384E+02    0.253563E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133574E+03   -0.477298E+02    0.279823E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.447897E+02    0.303405E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.410197E+02    0.315648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690083.459308535     
  ps_ts2 prof sum =   689666.838142836     
  trcom prof sum =    689666.838142836     
  ps_ts2 cur sum  =   10814.1943825313     
  trcom cur sum  =    10814.1943825313     
  
  antenna # iant =            2
  powecha_use(iant) =    668169.044838749     
  ps_ts2 prof sum =   667810.328312878     
  trcom prof sum =    667810.328312877     
  ps_ts2 cur sum  =   12244.4843573811     
  trcom cur sum  =    12244.4843573811     
  
  antenna # iant =            3
  powecha_use(iant) =    527938.098517633     
  ps_ts2 prof sum =   527639.022995690     
  trcom prof sum =    527639.022995690     
  ps_ts2 cur sum  =   7281.61464587095     
  trcom cur sum  =    7281.61464587096     
  
  antenna # iant =            4
  powecha_use(iant) =    569190.382962910     
  ps_ts2 prof sum =   568844.448959448     
  trcom prof sum =    568844.448959448     
  ps_ts2 cur sum  =   9658.41823353075     
  trcom cur sum  =    9658.41823353073     
  
  antenna # iant =            5
  powecha_use(iant) =    544447.549350298     
  ps_ts2 prof sum =   544151.922462465     
  trcom prof sum =    544151.922462465     
  ps_ts2 cur sum  =   10761.3420078781     
  trcom cur sum  =    10761.3420078781     
  
  Total ECH heating:      2998112.56087332     
  Total Current Drive:    50760.0536271921     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2856
 TA= 3.16500E+00 CPU TIME= 1.59956E-01 SECONDS.  DT= 1.99808E-03
  
 TEC1=    3.16499999999995     
 TEC2=    3.16999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.82887805555515     
  %check_save_state: izleft hours =    72.1627777777778     
 --> plasma_hash("gframe"): TA= 3.165000E+00 NSTEP=  2856 Hash code:   10018615
 ->PRGCHK: bdy curvature ratio at t= 3.1700E+00 seconds is:  5.6153E-02
% MHDEQ: TG1=     3.165000 ; TG2=     3.170000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7668E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6153E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.165000 TO TG2=    3.170000 @ NSTEP     2856
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757149569680D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.44576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.72429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.97608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2= -1.79371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.57683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.84605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  6.65392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.90229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.11239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -2.82791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.87002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.44140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.77936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -5.78740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.00785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.22189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.47744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.32813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.43889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.65848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.74372E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.74372E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1700E+00  3.1750E+00 total power(Watts):  2.9981E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.17000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.389254E+02    0.392911E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.368855E+02    0.393665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.383835E+02    0.378477E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.406927E+02    0.383090E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.405523E+02    0.401410E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.382496E+02    0.407581E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.360609E+02    0.418565E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.350492E+02    0.405355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.347333E+02    0.390484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.357778E+02    0.374961E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.375708E+02    0.364563E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.397748E+02    0.361662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.417388E+02    0.367470E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.430039E+02    0.380112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.432447E+02    0.395908E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.422479E+02    0.411101E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.402919E+02    0.421676E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.381816E+02    0.423821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.360983E+02    0.445754E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.330814E+02    0.429872E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.317681E+02    0.404628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.322128E+02    0.377314E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.344120E+02    0.353869E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.380200E+02    0.340169E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.418986E+02    0.340909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.453386E+02    0.354632E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133517E+03   -0.470081E+02    0.379987E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133595E+03   -0.464184E+02    0.409025E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.435847E+02    0.434581E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.398255E+02    0.448107E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.400398E+02    0.316749E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.378838E+02    0.318151E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.393878E+02    0.304292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.418169E+02    0.307774E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.416819E+02    0.324365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.392597E+02    0.330765E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.370617E+02    0.341579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.360373E+02    0.329159E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.357174E+02    0.315713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.366681E+02    0.301935E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.386644E+02    0.291230E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.408883E+02    0.288499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.428673E+02    0.293795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.441455E+02    0.305068E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.443885E+02    0.319043E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.432798E+02    0.333437E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.414247E+02    0.343103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.391958E+02    0.345852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.371061E+02    0.366894E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.340615E+02    0.352777E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.327306E+02    0.329136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.332627E+02    0.303364E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.354850E+02    0.281631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.390251E+02    0.269075E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.431357E+02    0.268703E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.463700E+02    0.282480E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133435E+03   -0.481600E+02    0.304505E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133494E+03   -0.475793E+02    0.330261E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.446312E+02    0.354802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.408579E+02    0.368248E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.388883E+02    0.444195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.368473E+02    0.444637E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.382473E+02    0.429116E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.406617E+02    0.433996E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.405120E+02    0.453565E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.382023E+02    0.459707E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.362163E+02    0.469819E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.350054E+02    0.456701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.346935E+02    0.440668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.357459E+02    0.424597E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.374371E+02    0.414698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.396415E+02    0.412121E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.417131E+02    0.417902E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.429768E+02    0.431194E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.432107E+02    0.448321E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.422057E+02    0.464323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.403529E+02    0.474427E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.381325E+02    0.476415E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.361411E+02    0.497806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.330292E+02    0.481087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.317229E+02    0.455132E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.321802E+02    0.426324E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.343809E+02    0.402894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.378890E+02    0.389851E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.417643E+02    0.391088E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.450911E+02    0.406317E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.469934E+02    0.432048E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133156E+03   -0.465060E+02    0.463039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.436521E+02    0.488454E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.398751E+02    0.501173E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.393972E+02    0.356323E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.372492E+02    0.357748E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.387509E+02    0.342765E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.411697E+02    0.346556E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.410296E+02    0.364680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.386155E+02    0.371556E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.366237E+02    0.381858E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.354087E+02    0.369669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.352850E+02    0.353834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.362367E+02    0.339101E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.380326E+02    0.329268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.402456E+02    0.326500E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.422176E+02    0.331832E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.434885E+02    0.343581E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.437296E+02    0.358901E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.426192E+02    0.374631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.407703E+02    0.384864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.385505E+02    0.387544E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.364704E+02    0.408529E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.334404E+02    0.394028E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.321208E+02    0.369330E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.326598E+02    0.341658E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.348624E+02    0.319614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.384795E+02    0.306628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.423700E+02    0.307317E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.458194E+02    0.319889E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.474992E+02    0.343058E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.469089E+02    0.371571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.440770E+02    0.396783E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.403120E+02    0.409880E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.402077E+02    0.266439E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.379515E+02    0.268479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.396608E+02    0.253380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.419916E+02    0.257451E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.418490E+02    0.274046E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.394223E+02    0.280378E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.372203E+02    0.291079E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.361921E+02    0.278843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.359738E+02    0.264924E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.369355E+02    0.251054E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.387461E+02    0.241455E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.411700E+02    0.237469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.431564E+02    0.242887E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.444311E+02    0.254243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.445587E+02    0.268745E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.434462E+02    0.282973E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.415864E+02    0.292298E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.393539E+02    0.294950E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.370713E+02    0.315364E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.342112E+02    0.301717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.328773E+02    0.278972E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.335069E+02    0.252455E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.357509E+02    0.230483E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.395055E+02    0.215798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.434347E+02    0.216545E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.466702E+02    0.231317E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.482198E+02    0.254756E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.475093E+02    0.280782E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.447963E+02    0.303165E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.410267E+02    0.315322E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687311.031885634     
  ps_ts2 prof sum =   686911.607693417     
  trcom prof sum =    686911.607693417     
  ps_ts2 cur sum  =   10790.0169238143     
  trcom cur sum  =    10790.0169238143     
  
  antenna # iant =            2
  powecha_use(iant) =    668628.820401124     
  ps_ts2 prof sum =   668235.490079547     
  trcom prof sum =    668235.490079546     
  ps_ts2 cur sum  =   12271.6126767772     
  trcom cur sum  =    12271.6126767772     
  
  antenna # iant =            3
  powecha_use(iant) =    527850.237935157     
  ps_ts2 prof sum =   527541.150544780     
  trcom prof sum =    527541.150544780     
  ps_ts2 cur sum  =   7290.99136825880     
  trcom cur sum  =    7290.99136825881     
  
  antenna # iant =            4
  powecha_use(iant) =    570488.681800236     
  ps_ts2 prof sum =   570207.578704903     
  trcom prof sum =    570207.578704903     
  ps_ts2 cur sum  =   9697.52155446326     
  trcom cur sum  =    9697.52155446324     
  
  antenna # iant =            5
  powecha_use(iant) =    543777.156118962     
  ps_ts2 prof sum =   543468.801783543     
  trcom prof sum =    543468.801783544     
  ps_ts2 cur sum  =   10759.5412925187     
  trcom cur sum  =    10759.5412925187     
  
  Total ECH heating:      2996364.62880619     
  Total Current Drive:    50809.6838158322     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2859
 TA= 3.17000E+00 CPU TIME= 1.60889E-01 SECONDS.  DT= 6.30404E-04
  
 TEC1=    3.16999999999995     
 TEC2=    3.17499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.84875444444424     
  %check_save_state: izleft hours =    72.1427777777778     
 --> plasma_hash("gframe"): TA= 3.170000E+00 NSTEP=  2859 Hash code:   82089767
 ->PRGCHK: bdy curvature ratio at t= 3.1750E+00 seconds is:  5.6173E-02
% MHDEQ: TG1=     3.170000 ; TG2=     3.175000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6173E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.170000 TO TG2=    3.175000 @ NSTEP     2859
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753654274226D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1750E+00  3.1800E+00 total power(Watts):  2.9919E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.17500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.389367E+02    0.392483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.366956E+02    0.394139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.382910E+02    0.378519E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.407039E+02    0.382658E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.405646E+02    0.400955E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.381583E+02    0.407531E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.361726E+02    0.417689E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.348664E+02    0.405785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.347432E+02    0.390085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.357873E+02    0.374556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.375779E+02    0.364138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.396797E+02    0.361719E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.417494E+02    0.367025E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.430154E+02    0.379669E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.432574E+02    0.395451E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.421502E+02    0.410996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.403060E+02    0.421165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.380909E+02    0.423710E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.361117E+02    0.445322E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.330930E+02    0.429419E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.317797E+02    0.404201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.322213E+02    0.376932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.344202E+02    0.353463E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.380288E+02    0.339766E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.419080E+02    0.340488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.451209E+02    0.355084E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.470208E+02    0.379512E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.464333E+02    0.408502E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.436002E+02    0.434056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.398387E+02    0.447648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.399449E+02    0.316979E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.378917E+02    0.317845E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.393951E+02    0.304066E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.417192E+02    0.308059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.416907E+02    0.324009E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.392683E+02    0.330388E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.371692E+02    0.340645E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.358529E+02    0.329900E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.357251E+02    0.315421E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.366760E+02    0.301723E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.384735E+02    0.292232E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.407917E+02    0.288948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.428749E+02    0.293651E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.441515E+02    0.304851E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.442865E+02    0.319225E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.432894E+02    0.333030E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.413273E+02    0.343175E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.391017E+02    0.345947E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.369156E+02    0.367462E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.341628E+02    0.351841E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.327374E+02    0.328787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.332689E+02    0.303147E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.354911E+02    0.281555E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.391297E+02    0.268502E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.430373E+02    0.269289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.463774E+02    0.282433E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133418E+03   -0.481690E+02    0.304281E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.473564E+02    0.330801E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.446418E+02    0.354344E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.408683E+02    0.367809E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.389022E+02    0.443739E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.367594E+02    0.444535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.382612E+02    0.428609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.405674E+02    0.433842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.405271E+02    0.453125E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.381152E+02    0.459610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.360220E+02    0.470020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.348231E+02    0.456957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.348041E+02    0.439861E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.355602E+02    0.424906E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.374492E+02    0.414221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.396541E+02    0.411645E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.416170E+02    0.417764E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.429921E+02    0.430675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.432267E+02    0.447840E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.422225E+02    0.463887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.402601E+02    0.474277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.381479E+02    0.476005E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.359553E+02    0.497858E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.330436E+02    0.480704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.317383E+02    0.454749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.321914E+02    0.425871E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.344872E+02    0.402024E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.379000E+02    0.389430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.417762E+02    0.390646E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.451050E+02    0.405819E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133257E+03   -0.470101E+02    0.431480E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133365E+03   -0.464046E+02    0.462831E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.436706E+02    0.488004E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.398927E+02    0.500762E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.393028E+02    0.356384E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.372580E+02    0.357330E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.387599E+02    0.342354E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.410725E+02    0.346626E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.410400E+02    0.364238E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.386255E+02    0.371144E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.364349E+02    0.382395E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.354178E+02    0.369264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.351019E+02    0.354471E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.360511E+02    0.339781E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.378408E+02    0.329976E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.401501E+02    0.326675E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.422269E+02    0.331443E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.434985E+02    0.343148E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.436283E+02    0.358908E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.426301E+02    0.374190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.406739E+02    0.384869E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.385614E+02    0.387116E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.364818E+02    0.408075E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.334487E+02    0.393642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.321290E+02    0.368940E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.326642E+02    0.341286E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.348708E+02    0.319294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.384869E+02    0.306386E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.423782E+02    0.307073E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.456022E+02    0.320549E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133478E+03   -0.475102E+02    0.342601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.466860E+02    0.371942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.439755E+02    0.396722E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.402173E+02    0.409796E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.402134E+02    0.266467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.379574E+02    0.268486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.396674E+02    0.253480E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.419984E+02    0.257547E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.418559E+02    0.274032E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.394280E+02    0.280328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.373232E+02    0.290357E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.360105E+02    0.279991E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.358876E+02    0.265555E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.369416E+02    0.251154E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.387525E+02    0.241627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.409775E+02    0.238892E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.431633E+02    0.243095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.444378E+02    0.254387E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.445663E+02    0.268786E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.434536E+02    0.282915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.414895E+02    0.292705E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.392606E+02    0.295348E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.371765E+02    0.314514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.341266E+02    0.302102E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.328838E+02    0.278899E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.334249E+02    0.253186E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.357572E+02    0.230692E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.393236E+02    0.217392E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.434460E+02    0.216896E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.466775E+02    0.231637E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133745E+03   -0.482269E+02    0.254935E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.475166E+02    0.280769E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.448046E+02    0.302951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.410350E+02    0.315023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.27 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683399.865827820     
  ps_ts2 prof sum =   682990.919092009     
  trcom prof sum =    682990.919092010     
  ps_ts2 cur sum  =   10751.6941898252     
  trcom cur sum  =    10751.6941898252     
  
  antenna # iant =            2
  powecha_use(iant) =    666675.651312462     
  ps_ts2 prof sum =   666273.056682340     
  trcom prof sum =    666273.056640104     
  ps_ts2 cur sum  =   12260.5996324669     
  trcom cur sum  =    12260.5996324669     
  
  antenna # iant =            3
  powecha_use(iant) =    528035.061373172     
  ps_ts2 prof sum =   527699.909288272     
  trcom prof sum =    527699.909288272     
  ps_ts2 cur sum  =   7308.15728084696     
  trcom cur sum  =    7308.15728084697     
  
  antenna # iant =            4
  powecha_use(iant) =    569817.779636644     
  ps_ts2 prof sum =   569465.083154049     
  trcom prof sum =    569465.083154049     
  ps_ts2 cur sum  =   9706.53271389865     
  trcom cur sum  =    9706.53271389863     
  
  antenna # iant =            5
  powecha_use(iant) =    544005.494315767     
  ps_ts2 prof sum =   543695.706965731     
  trcom prof sum =    543695.706928809     
  ps_ts2 cur sum  =   10779.9988437282     
  trcom cur sum  =    10779.9988437282     
  
  Total ECH heating:      2990124.67510324     
  Total Current Drive:    50806.9826607659     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2864
 TA= 3.17500E+00 CPU TIME= 1.59504E-01 SECONDS.  DT= 1.70666E-03
  
 TEC1=    3.17499999999995     
 TEC2=    3.17999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.86230083333294     
  %check_save_state: izleft hours =    72.1291666666667     
 --> plasma_hash("gframe"): TA= 3.175000E+00 NSTEP=  2864 Hash code:   40507015
 ->PRGCHK: bdy curvature ratio at t= 3.1800E+00 seconds is:  5.6194E-02
% MHDEQ: TG1=     3.175000 ; TG2=     3.180000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7679E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6194E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.175000 TO TG2=    3.180000 @ NSTEP     2864
   GFRAME TG2 MOMENTS CHECKSUM:  2.4750158978772D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.42656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.73563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.96530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       2=  9.77594E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.54343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.82515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.32649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.87620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.11991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -1.71764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.76389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.37437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.76745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -4.04033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.95418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.25205E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.85688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.10930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.44759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.66053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.44999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.44999E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1800E+00  3.1850E+00 total power(Watts):  2.9968E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.18000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.389456E+02    0.392046E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.368044E+02    0.393269E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.382989E+02    0.378092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.406047E+02    0.382670E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.405746E+02    0.400486E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.381728E+02    0.407043E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.361826E+02    0.417207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.348749E+02    0.405343E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.348457E+02    0.389226E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.355981E+02    0.375125E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.373833E+02    0.364698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.396872E+02    0.361263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.417575E+02    0.366565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.430241E+02    0.379221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.431545E+02    0.395398E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.421613E+02    0.410485E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.403167E+02    0.420656E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.381017E+02    0.423210E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.361223E+02    0.444906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.331025E+02    0.428959E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.317857E+02    0.403783E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.322275E+02    0.376544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.344262E+02    0.353041E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.380351E+02    0.339335E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.419150E+02    0.340040E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.451265E+02    0.354597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.467942E+02    0.379855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133579E+03   -0.464456E+02    0.407958E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.436130E+02    0.433521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.398516E+02    0.447184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.399506E+02    0.316639E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.378972E+02    0.317496E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.394001E+02    0.303805E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.417245E+02    0.307777E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.416925E+02    0.323651E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.392745E+02    0.329983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.371754E+02    0.340216E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.358583E+02    0.329514E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.357299E+02    0.315104E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.366800E+02    0.301485E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.385771E+02    0.291472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.407965E+02    0.288776E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.428800E+02    0.293458E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.441569E+02    0.304586E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.442929E+02    0.318868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.432962E+02    0.332604E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.413342E+02    0.342725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.391088E+02    0.345500E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.370227E+02    0.366540E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.339820E+02    0.352484E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.327430E+02    0.328401E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.331839E+02    0.303482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.354948E+02    0.281430E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.391372E+02    0.268429E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.430414E+02    0.269252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.462703E+02    0.282846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.479431E+02    0.304997E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.473638E+02    0.330371E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.446498E+02    0.353860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.408762E+02    0.367354E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.388086E+02    0.443611E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.367706E+02    0.444102E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.382726E+02    0.428106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.405793E+02    0.433333E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.405399E+02    0.452688E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.381276E+02    0.459195E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.361388E+02    0.469327E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.348345E+02    0.456571E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.348147E+02    0.439415E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.355706E+02    0.424428E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.374577E+02    0.413742E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.396647E+02    0.411141E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.416280E+02    0.417253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.430046E+02    0.430137E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.431263E+02    0.447661E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.421238E+02    0.463732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.402740E+02    0.473855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.380564E+02    0.475867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.360696E+02    0.497250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.330551E+02    0.480322E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.316568E+02    0.454727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.322005E+02    0.425412E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.343040E+02    0.402487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.379084E+02    0.389004E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.417859E+02    0.390185E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.452329E+02    0.404920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133249E+03   -0.470240E+02    0.430910E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133355E+03   -0.464198E+02    0.462363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.438017E+02    0.487334E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.399077E+02    0.500356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.393103E+02    0.355922E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.372649E+02    0.356890E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.387664E+02    0.341916E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.410796E+02    0.346168E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.410478E+02    0.363779E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.386331E+02    0.370700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.364425E+02    0.381983E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.352320E+02    0.369838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.351080E+02    0.354044E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.360569E+02    0.339365E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.379467E+02    0.329042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.401562E+02    0.326286E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.422334E+02    0.331025E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.435060E+02    0.342686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.436363E+02    0.358431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.426437E+02    0.373712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.406824E+02    0.384432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.384654E+02    0.387151E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.364912E+02    0.407607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.334584E+02    0.393230E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.321351E+02    0.368542E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.326695E+02    0.340879E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.348747E+02    0.318962E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.384917E+02    0.306116E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.423836E+02    0.306796E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.456087E+02    0.320176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.472836E+02    0.343040E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133725E+03   -0.468130E+02    0.371017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.439863E+02    0.396246E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.402276E+02    0.409306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.400172E+02    0.267589E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.380578E+02    0.267837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.394746E+02    0.254706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.420025E+02    0.257572E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.418614E+02    0.273954E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.394319E+02    0.280217E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.373325E+02    0.290154E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.360142E+02    0.279877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.358918E+02    0.265506E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.368519E+02    0.251806E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.388522E+02    0.241108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.410807E+02    0.238422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.431671E+02    0.243209E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.444418E+02    0.254444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.444626E+02    0.269302E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.434581E+02    0.282796E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.414942E+02    0.292516E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.392652E+02    0.295137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.371816E+02    0.314191E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.341307E+02    0.301857E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.328858E+02    0.278787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.334282E+02    0.253194E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.357608E+02    0.230822E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.393271E+02    0.217613E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.434496E+02    0.217163E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.466819E+02    0.231852E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133500E+03   -0.483431E+02    0.254498E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.475218E+02    0.280663E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.448101E+02    0.302699E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.409359E+02    0.315220E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690089.270504868     
  ps_ts2 prof sum =   689672.803049075     
  trcom prof sum =    689672.803049074     
  ps_ts2 cur sum  =   10875.5216911377     
  trcom cur sum  =    10875.5216911376     
  
  antenna # iant =            2
  powecha_use(iant) =    665972.947900596     
  ps_ts2 prof sum =   665586.992828740     
  trcom prof sum =    665586.992828739     
  ps_ts2 cur sum  =   12264.5496630014     
  trcom cur sum  =    12264.5496630014     
  
  antenna # iant =            3
  powecha_use(iant) =    527750.591356078     
  ps_ts2 prof sum =   527430.146641754     
  trcom prof sum =    527430.146641754     
  ps_ts2 cur sum  =   7315.27320774647     
  trcom cur sum  =    7315.27320774648     
  
  antenna # iant =            4
  powecha_use(iant) =    569766.403141435     
  ps_ts2 prof sum =   569431.281940758     
  trcom prof sum =    569431.281940757     
  ps_ts2 cur sum  =   9721.50183150465     
  trcom cur sum  =    9721.50183150463     
  
  antenna # iant =            5
  powecha_use(iant) =    543223.810714334     
  ps_ts2 prof sum =   542939.053237421     
  trcom prof sum =    542939.053203799     
  ps_ts2 cur sum  =   10774.7724206928     
  trcom cur sum  =    10774.7724206928     
  
  Total ECH heating:      2995060.27766412     
  Total Current Drive:    50951.6188140830     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2867
 TA= 3.18000E+00 CPU TIME= 1.67529E-01 SECONDS.  DT= 1.45001E-03
  
 TEC1=    3.17999999999995     
 TEC2=    3.18499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.87562472222203     
  %check_save_state: izleft hours =    72.1158333333333     
 --> plasma_hash("gframe"): TA= 3.180000E+00 NSTEP=  2867 Hash code:   39505907
 ->PRGCHK: bdy curvature ratio at t= 3.1850E+00 seconds is:  5.6215E-02
% MHDEQ: TG1=     3.180000 ; TG2=     3.185000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3090E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6215E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.180000 TO TG2=    3.185000 @ NSTEP     2867
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746663683318D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.1850E+00  3.1900E+00 total power(Watts):  2.9977E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.18500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.388507E+02    0.392078E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.368136E+02    0.392864E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.383073E+02    0.377697E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.406142E+02    0.382256E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.405852E+02    0.400048E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.381750E+02    0.406627E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.361935E+02    0.416741E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.349819E+02    0.404475E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.348546E+02    0.388839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.356069E+02    0.374731E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.374923E+02    0.363774E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.396953E+02    0.360826E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.416573E+02    0.366595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.430339E+02    0.378790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.431656E+02    0.394958E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.421728E+02    0.410005E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.403286E+02    0.420165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.381131E+02    0.422736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.359339E+02    0.445178E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.332061E+02    0.428124E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.317044E+02    0.403836E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.322347E+02    0.376172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.344332E+02    0.352624E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.380419E+02    0.338920E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.418150E+02    0.340103E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.451376E+02    0.354132E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.469232E+02    0.378973E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.462216E+02    0.408197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.436266E+02    0.433009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.398644E+02    0.446753E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.399575E+02    0.316293E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.377048E+02    0.318259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.394064E+02    0.303534E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.417312E+02    0.307483E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.415976E+02    0.323768E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.391791E+02    0.330112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.371822E+02    0.339803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.358650E+02    0.329126E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.357359E+02    0.314781E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.367820E+02    0.300658E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.385832E+02    0.291284E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.408023E+02    0.288610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.428862E+02    0.293259E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.441638E+02    0.304312E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.443006E+02    0.318494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.433043E+02    0.332176E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.413424E+02    0.342273E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.391158E+02    0.345057E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.370307E+02    0.366126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.339888E+02    0.352070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.326596E+02    0.328600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.331889E+02    0.303230E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.354066E+02    0.281897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.391388E+02    0.268389E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.430469E+02    0.269198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.462764E+02    0.282727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.479505E+02    0.304722E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.474923E+02    0.329445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.446639E+02    0.353375E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.408850E+02    0.366931E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.388202E+02    0.443177E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.367825E+02    0.443679E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.382844E+02    0.427627E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.405919E+02    0.432846E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.405533E+02    0.452265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.381407E+02    0.458801E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.361519E+02    0.468934E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.349443E+02    0.455867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.346312E+02    0.439728E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.356776E+02    0.423575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.374702E+02    0.413264E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.395690E+02    0.411078E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.416400E+02    0.416754E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.430179E+02    0.429626E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.431402E+02    0.447201E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.421385E+02    0.463307E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.402886E+02    0.473441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.380710E+02    0.475451E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.360838E+02    0.496868E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.330681E+02    0.479937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.316683E+02    0.454358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.321190E+02    0.425385E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.343133E+02    0.402070E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.379176E+02    0.388602E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.417958E+02    0.389771E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134077E+03   -0.452437E+02    0.404429E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133457E+03   -0.469187E+02    0.430691E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.464360E+02    0.461900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.435872E+02    0.487337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.398147E+02    0.500157E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.393184E+02    0.355480E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.372731E+02    0.356453E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.387738E+02    0.341484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.410881E+02    0.345711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.409481E+02    0.363832E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.386418E+02    0.370278E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.365502E+02    0.381120E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.352396E+02    0.369442E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.351151E+02    0.353625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.361610E+02    0.338406E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.379537E+02    0.328646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.401634E+02    0.325891E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.421331E+02    0.331117E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.435146E+02    0.342230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.436453E+02    0.357967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.426443E+02    0.373305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.406920E+02    0.384018E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.384747E+02    0.386749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.365017E+02    0.407159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.334665E+02    0.392851E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.321420E+02    0.368159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.325855E+02    0.341038E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.347872E+02    0.319188E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.382982E+02    0.306951E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.422834E+02    0.307040E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.456166E+02    0.319793E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.474098E+02    0.342109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.468233E+02    0.370557E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.439975E+02    0.395796E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.402386E+02    0.408841E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.401225E+02    0.266968E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.378699E+02    0.268973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.395772E+02    0.254133E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.419053E+02    0.258154E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.417631E+02    0.274431E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.393376E+02    0.280664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.371402E+02    0.291155E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.360191E+02    0.279756E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.358960E+02    0.265458E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.368573E+02    0.251823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.388572E+02    0.241191E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.410819E+02    0.238547E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.430692E+02    0.243880E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.443409E+02    0.255038E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.444682E+02    0.269260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.433568E+02    0.283205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.415009E+02    0.292315E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.392716E+02    0.294923E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.369920E+02    0.314988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.341360E+02    0.301608E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.328029E+02    0.279279E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.334324E+02    0.253190E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.357638E+02    0.230951E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.394273E+02    0.217188E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.433538E+02    0.218005E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.465794E+02    0.232604E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.481242E+02    0.255608E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.474144E+02    0.281076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.447061E+02    0.302954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.409428E+02    0.314883E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688257.066665732     
  ps_ts2 prof sum =   687867.826325093     
  trcom prof sum =    687867.826325094     
  ps_ts2 cur sum  =   10866.5291052412     
  trcom cur sum  =    10866.5291052412     
  
  antenna # iant =            2
  powecha_use(iant) =    667996.807772240     
  ps_ts2 prof sum =   667626.399733169     
  trcom prof sum =    667626.399733168     
  ps_ts2 cur sum  =   12326.9586485658     
  trcom cur sum  =    12326.9586485658     
  
  antenna # iant =            3
  powecha_use(iant) =    528046.335477112     
  ps_ts2 prof sum =   527730.841862543     
  trcom prof sum =    527730.841862543     
  ps_ts2 cur sum  =   7331.02455335624     
  trcom cur sum  =    7331.02455335625     
  
  antenna # iant =            4
  powecha_use(iant) =    569609.530598850     
  ps_ts2 prof sum =   569289.835994077     
  trcom prof sum =    569289.835994077     
  ps_ts2 cur sum  =   9738.59424669031     
  trcom cur sum  =    9738.59424669030     
  
  antenna # iant =            5
  powecha_use(iant) =    543767.993406181     
  ps_ts2 prof sum =   543449.218061408     
  trcom prof sum =    543449.218030118     
  ps_ts2 cur sum  =   10803.8809574271     
  trcom cur sum  =    10803.8809574271     
  
  Total ECH heating:      2995964.12194500     
  Total Current Drive:    51066.9875112807     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2870
 TA= 3.18500E+00 CPU TIME= 1.60076E-01 SECONDS.  DT= 2.17184E-03
  
 TEC1=    3.18499999999995     
 TEC2=    3.18999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.88951444444433     
  %check_save_state: izleft hours =    72.1019444444444     
 --> plasma_hash("gframe"): TA= 3.185000E+00 NSTEP=  2870 Hash code:  100572411
 ->PRGCHK: bdy curvature ratio at t= 3.1900E+00 seconds is:  5.6237E-02
% MHDEQ: TG1=     3.185000 ; TG2=     3.190000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7690E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6237E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.185000 TO TG2=    3.190000 @ NSTEP     2870
   GFRAME TG2 MOMENTS CHECKSUM:  2.4743168387864D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.40850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.74630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.95516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -1.33111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.51200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.80548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.85046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.85164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9=  3.50797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.66401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.31128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.75624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -2.39599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.90367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.28044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.33161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.90335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.45579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.66247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.05624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.05624E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1900E+00  3.1950E+00 total power(Watts):  2.9870E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.19000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.388572E+02    0.391694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.368197E+02    0.392495E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.383133E+02    0.377301E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.406207E+02    0.381857E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.405925E+02    0.399628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.381858E+02    0.406190E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.362029E+02    0.416301E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.349891E+02    0.404072E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.346683E+02    0.389408E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.356122E+02    0.374354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.374975E+02    0.363356E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.397001E+02    0.360385E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.416637E+02    0.366150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.429287E+02    0.378810E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.431734E+02    0.394538E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.421814E+02    0.409557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.403371E+02    0.419713E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.381213E+02    0.422293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.360425E+02    0.444452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.330256E+02    0.428521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.317099E+02    0.403458E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.322391E+02    0.375811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.345322E+02    0.351647E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.378454E+02    0.339496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.418203E+02    0.339605E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.451447E+02    0.353611E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.469309E+02    0.378522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.463494E+02    0.407344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.437510E+02    0.432197E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.398742E+02    0.446346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.399617E+02    0.315845E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.378084E+02    0.317259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.392069E+02    0.304259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.417353E+02    0.307062E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.416024E+02    0.323292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.391838E+02    0.329634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.371873E+02    0.339320E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.359653E+02    0.328111E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.358349E+02    0.313787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.367853E+02    0.300278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.385862E+02    0.290931E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.408056E+02    0.288264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.427828E+02    0.293427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.440580E+02    0.304418E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.443055E+02    0.318020E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.431993E+02    0.332178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.413480E+02    0.341778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.391208E+02    0.344580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.370360E+02    0.365709E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.339932E+02    0.351630E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.326636E+02    0.328157E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.331917E+02    0.302857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.354088E+02    0.281593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.389434E+02    0.269288E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.430501E+02    0.268913E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.462794E+02    0.282399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133585E+03   -0.480711E+02    0.303795E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.474950E+02    0.328933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.446605E+02    0.352899E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.407836E+02    0.366968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.388300E+02    0.442766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.367911E+02    0.443285E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.382929E+02    0.427185E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.406011E+02    0.432398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.405625E+02    0.451885E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.381502E+02    0.458442E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.361612E+02    0.468583E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.349534E+02    0.455507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.346389E+02    0.439341E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.356879E+02    0.423138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.374778E+02    0.412830E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.395771E+02    0.410639E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.416487E+02    0.416294E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.429142E+02    0.429504E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.431505E+02    0.446774E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.421492E+02    0.462921E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.402995E+02    0.473051E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.380812E+02    0.475079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.360944E+02    0.496514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.331693E+02    0.479320E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.316761E+02    0.454026E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.321258E+02    0.424979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.343201E+02    0.401682E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.379239E+02    0.388222E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.416928E+02    0.389803E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.450214E+02    0.404748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133447E+03   -0.469294E+02    0.430188E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133333E+03   -0.464476E+02    0.461494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.435993E+02    0.486930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.398256E+02    0.499801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.393224E+02    0.355030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.370765E+02    0.357041E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.387814E+02    0.340990E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.410930E+02    0.345226E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.409543E+02    0.363378E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.385438E+02    0.370352E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.365560E+02    0.380736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.352439E+02    0.369057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.351199E+02    0.353185E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.361656E+02    0.337938E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.379582E+02    0.328176E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.401681E+02    0.325411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.421383E+02    0.330625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.434085E+02    0.342219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.436515E+02    0.357475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.425435E+02    0.373323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.407029E+02    0.383610E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.384813E+02    0.386363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.363082E+02    0.407607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.333784E+02    0.392964E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.321463E+02    0.367782E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.325896E+02    0.340591E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.347910E+02    0.318757E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.384016E+02    0.305989E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.422875E+02    0.306615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.457348E+02    0.318821E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.474163E+02    0.341563E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.468309E+02    0.370075E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.440054E+02    0.395380E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.402467E+02    0.408403E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.401242E+02    0.266697E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.378715E+02    0.268703E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.395775E+02    0.253913E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.419068E+02    0.257921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.417652E+02    0.274140E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.393403E+02    0.280356E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.371431E+02    0.290814E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.361146E+02    0.278853E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.358979E+02    0.265201E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.368571E+02    0.251619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.386658E+02    0.242231E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.410875E+02    0.238355E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.430704E+02    0.243695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.443424E+02    0.254815E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.444706E+02    0.268977E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.433597E+02    0.282880E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.415041E+02    0.291958E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.392749E+02    0.294561E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.369960E+02    0.314564E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.341389E+02    0.301237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.328048E+02    0.278989E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.334331E+02    0.252973E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.356750E+02    0.231448E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.394280E+02    0.217098E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.433537E+02    0.217928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.465805E+02    0.232471E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.481264E+02    0.255372E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.474174E+02    0.280751E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.447102E+02    0.302544E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.409471E+02    0.314443E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685891.080514596     
  ps_ts2 prof sum =   685513.892020554     
  trcom prof sum =    685513.892020554     
  ps_ts2 cur sum  =   10843.8269719415     
  trcom cur sum  =    10843.8269719415     
  
  antenna # iant =            2
  powecha_use(iant) =    668470.990886588     
  ps_ts2 prof sum =   668116.573997235     
  trcom prof sum =    668116.573997234     
  ps_ts2 cur sum  =   12362.2399516959     
  trcom cur sum  =    12362.2399516959     
  
  antenna # iant =            3
  powecha_use(iant) =    528792.603206385     
  ps_ts2 prof sum =   528491.540119798     
  trcom prof sum =    528491.540119799     
  ps_ts2 cur sum  =   7348.41506437980     
  trcom cur sum  =    7348.41506437981     
  
  antenna # iant =            4
  powecha_use(iant) =    560106.522671723     
  ps_ts2 prof sum =   559786.985172320     
  trcom prof sum =    559786.985172319     
  ps_ts2 cur sum  =   9593.82668102724     
  trcom cur sum  =    9593.82668102722     
  
  antenna # iant =            5
  powecha_use(iant) =    543695.296423605     
  ps_ts2 prof sum =   543401.006120859     
  trcom prof sum =    543401.006120859     
  ps_ts2 cur sum  =   10825.3146851980     
  trcom cur sum  =    10825.3146849216     
  
  Total ECH heating:      2985309.99743077     
  Total Current Drive:    50973.6233539660     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2873
 TA= 3.19000E+00 CPU TIME= 1.59162E-01 SECONDS.  DT= 1.41713E-04
  
 TEC1=    3.18999999999995     
 TEC2=    3.19499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.91196555555530     
  %check_save_state: izleft hours =    72.0797222222222     
 --> plasma_hash("gframe"): TA= 3.190000E+00 NSTEP=  2873 Hash code:  109363721
 ->PRGCHK: bdy curvature ratio at t= 3.1950E+00 seconds is:  5.6260E-02
% MHDEQ: TG1=     3.190000 ; TG2=     3.195000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7695E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6260E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.190000 TO TG2=    3.195000 @ NSTEP     2873
   GFRAME TG2 MOMENTS CHECKSUM:  2.4739673092409D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.1950E+00  3.2000E+00 total power(Watts):  2.9973E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.19500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.388649E+02    0.391275E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.368275E+02    0.392069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.383203E+02    0.376901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.406321E+02    0.381430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.404928E+02    0.399603E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.381941E+02    0.405733E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.360094E+02    0.416693E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.348022E+02    0.404530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.346749E+02    0.389021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.357159E+02    0.373475E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.375037E+02    0.362960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.397069E+02    0.359964E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.416705E+02    0.365732E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.429370E+02    0.378384E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.431823E+02    0.394087E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.421907E+02    0.409069E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.402381E+02    0.419625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.381305E+02    0.421828E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.360510E+02    0.444081E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.330333E+02    0.428111E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.317171E+02    0.403043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.321537E+02    0.375957E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.343483E+02    0.352337E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.379518E+02    0.338569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.418261E+02    0.339200E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.450372E+02    0.353635E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.469396E+02    0.378070E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133764E+03   -0.463597E+02    0.406837E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.435322E+02    0.432417E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.397760E+02    0.446299E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.398636E+02    0.316025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.378134E+02    0.316900E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.393131E+02    0.303374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.416344E+02    0.307260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.416075E+02    0.322912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.391892E+02    0.329246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.369942E+02    0.340001E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.359703E+02    0.327735E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.356489E+02    0.314591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.365968E+02    0.301128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.383919E+02    0.291797E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.408102E+02    0.287987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.427876E+02    0.293133E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.440634E+02    0.304081E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.441996E+02    0.318162E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.432056E+02    0.331773E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.413541E+02    0.341356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.391265E+02    0.344177E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.368420E+02    0.366322E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.339984E+02    0.351250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.326677E+02    0.327791E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.331961E+02    0.302545E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.354120E+02    0.281348E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.390456E+02    0.268506E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.429478E+02    0.269285E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.462841E+02    0.282148E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.480764E+02    0.303459E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.472679E+02    0.329473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.445584E+02    0.352914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.407905E+02    0.366549E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.388434E+02    0.442380E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.368005E+02    0.442897E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.381976E+02    0.427118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.406075E+02    0.431956E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.404633E+02    0.451837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.381603E+02    0.458090E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.361712E+02    0.468232E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.349624E+02    0.455170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.346473E+02    0.438957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.356964E+02    0.422693E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.373838E+02    0.412787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.395859E+02    0.410173E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.416583E+02    0.415808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.429245E+02    0.429026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.431618E+02    0.446357E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.421605E+02    0.462547E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.403105E+02    0.472689E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.380920E+02    0.474722E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.361054E+02    0.496172E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.329918E+02    0.479528E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.316840E+02    0.453706E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.321328E+02    0.424568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.343270E+02    0.401265E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.378285E+02    0.388273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.417010E+02    0.389372E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.450313E+02    0.404244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133436E+03   -0.469409E+02    0.429673E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.463402E+02    0.461363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.436116E+02    0.486549E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.398381E+02    0.499439E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.393293E+02    0.354614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.371833E+02    0.356123E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.386817E+02    0.341129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.409922E+02    0.345317E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.409615E+02    0.362955E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.385506E+02    0.369952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.365627E+02    0.380343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.353466E+02    0.368170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.352202E+02    0.352264E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.361708E+02    0.337548E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.379634E+02    0.327794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.400703E+02    0.325556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.421442E+02    0.330226E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.434148E+02    0.341798E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.435469E+02    0.357517E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.425513E+02    0.372898E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.407013E+02    0.383213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.384887E+02    0.385951E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.364162E+02    0.406730E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.333854E+02    0.392572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.320605E+02    0.367948E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.325944E+02    0.340209E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.347953E+02    0.318410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.384067E+02    0.305648E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.422881E+02    0.306303E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.455142E+02    0.319429E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133651E+03   -0.474235E+02    0.341119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.466030E+02    0.370510E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.439001E+02    0.395330E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.402557E+02    0.407929E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.401280E+02    0.266505E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.379727E+02    0.267906E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.395823E+02    0.253759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.419102E+02    0.257761E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.417684E+02    0.273937E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.393443E+02    0.280111E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.371481E+02    0.290534E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.359310E+02    0.279820E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.358082E+02    0.265625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.368602E+02    0.251478E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.386690E+02    0.242126E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.409907E+02    0.238869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.430738E+02    0.243598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.443462E+02    0.254671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.444750E+02    0.268772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.433643E+02    0.282614E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.414041E+02    0.292219E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.391788E+02    0.294826E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.370985E+02    0.313652E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.341443E+02    0.300926E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.328080E+02    0.278757E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.333496E+02    0.253462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.356777E+02    0.231372E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.392412E+02    0.218335E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.433571E+02    0.217928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.465839E+02    0.232432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.481305E+02    0.255238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.474221E+02    0.280508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.447155E+02    0.302218E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.409524E+02    0.314082E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689501.450217092     
  ps_ts2 prof sum =   689084.855720054     
  trcom prof sum =    689084.855720054     
  ps_ts2 cur sum  =   10920.6856595552     
  trcom cur sum  =    10920.6856595552     
  
  antenna # iant =            2
  powecha_use(iant) =    667353.667042567     
  ps_ts2 prof sum =   666943.614466343     
  trcom prof sum =    666943.614466342     
  ps_ts2 cur sum  =   12368.8236326574     
  trcom cur sum  =    12368.8236326574     
  
  antenna # iant =            3
  powecha_use(iant) =    528299.267311443     
  ps_ts2 prof sum =   527995.210046827     
  trcom prof sum =    527995.210046828     
  ps_ts2 cur sum  =   7351.39431416905     
  trcom cur sum  =    7351.39431416906     
  
  antenna # iant =            4
  powecha_use(iant) =    568556.969840123     
  ps_ts2 prof sum =   568252.984926210     
  trcom prof sum =    568252.984926210     
  ps_ts2 cur sum  =   9758.57590022760     
  trcom cur sum  =    9758.57590022758     
  
  antenna # iant =            5
  powecha_use(iant) =    543594.543043135     
  ps_ts2 prof sum =   543308.654148062     
  trcom prof sum =    543308.654148062     
  ps_ts2 cur sum  =   10847.0410525327     
  trcom cur sum  =    10847.0410525327     
  
  Total ECH heating:      2995585.31930750     
  Total Current Drive:    51246.5205591420     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2884
 TA= 3.19500E+00 CPU TIME= 1.59728E-01 SECONDS.  DT= 3.59558E-04
  
 TEC1=    3.19499999999995     
 TEC2=    3.19999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.92909166666641     
  %check_save_state: izleft hours =    72.0625000000000     
 --> plasma_hash("gframe"): TA= 3.195000E+00 NSTEP=  2884 Hash code:   16839397
 ->PRGCHK: bdy curvature ratio at t= 3.2000E+00 seconds is:  5.6283E-02
% MHDEQ: TG1=     3.195000 ; TG2=     3.200000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7701E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6283E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.195000 TO TG2=    3.200000 @ NSTEP     2884
   GFRAME TG2 MOMENTS CHECKSUM:  2.4736177844529D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.39002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.75722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.94478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.04861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.47984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.78535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.38647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.82652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.13425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       9= -2.06681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.56183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.24675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.74477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      11=  3.47575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.85199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.30948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.02280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.69267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.46417E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.66445E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.47757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.47757E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2000E+00  3.2050E+00 total power(Watts):  3.0067E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.20000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.388737E+02    0.390761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.366340E+02    0.392504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.382250E+02    0.376907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.405286E+02    0.381404E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.405018E+02    0.399070E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.380990E+02    0.405635E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.361180E+02    0.415776E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.348093E+02    0.404040E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.346820E+02    0.388548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.357228E+02    0.373034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.375102E+02    0.362545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.396087E+02    0.360046E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.416779E+02    0.365291E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.429450E+02    0.377891E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.430783E+02    0.393975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.420889E+02    0.408914E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.402478E+02    0.419110E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.380355E+02    0.421738E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.360603E+02    0.443708E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.330413E+02    0.427687E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.317242E+02    0.402558E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.321591E+02    0.375539E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.343542E+02    0.351957E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.379565E+02    0.338198E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.418320E+02    0.338805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.450446E+02    0.353210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134100E+03   -0.467119E+02    0.378403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.463707E+02    0.406237E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.435423E+02    0.431943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.397864E+02    0.445906E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.398684E+02    0.315662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.378180E+02    0.316541E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.393175E+02    0.303012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.416394E+02    0.306892E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.416127E+02    0.322536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.391944E+02    0.328877E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.370982E+02    0.339101E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.357821E+02    0.328502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.356530E+02    0.314242E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.366012E+02    0.300785E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.384953E+02    0.290887E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.407112E+02    0.288209E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.427917E+02    0.292790E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.440678E+02    0.303712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.442051E+02    0.317773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.432112E+02    0.331383E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.412522E+02    0.341488E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.390290E+02    0.344311E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.369486E+02    0.365405E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.339104E+02    0.351415E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.326718E+02    0.327456E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.331111E+02    0.302809E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.354150E+02    0.281064E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.390501E+02    0.268245E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.429512E+02    0.269035E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.461763E+02    0.282359E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.478497E+02    0.304052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134067E+03   -0.472740E+02    0.329072E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.445655E+02    0.352501E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.407978E+02    0.366108E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.388451E+02    0.441979E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.367072E+02    0.442887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.382069E+02    0.426651E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.405117E+02    0.431851E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.404750E+02    0.451446E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.380657E+02    0.458054E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.360810E+02    0.468178E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.347753E+02    0.455506E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.347539E+02    0.438192E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.355066E+02    0.423044E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.373926E+02    0.412273E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.395955E+02    0.409630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.415574E+02    0.415660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.429351E+02    0.428528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.432872E+02    0.445630E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.420618E+02    0.462468E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.402128E+02    0.472587E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.381028E+02    0.474359E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.360152E+02    0.496064E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.330018E+02    0.479190E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.316925E+02    0.453381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.321404E+02    0.424131E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.344307E+02    0.400308E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.378366E+02    0.387784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.417099E+02    0.388851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.450416E+02    0.403674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133427E+03   -0.469526E+02    0.429141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133525E+03   -0.463530E+02    0.460958E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.437407E+02    0.485919E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.398504E+02    0.499080E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.392312E+02    0.354720E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.371894E+02    0.355726E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.386869E+02    0.340754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.409981E+02    0.344921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.409687E+02    0.362526E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.385577E+02    0.369512E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.363707E+02    0.380845E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.353530E+02    0.367751E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.350343E+02    0.352947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.359812E+02    0.338281E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.378681E+02    0.327979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.400743E+02    0.325197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.421495E+02    0.329848E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.434212E+02    0.341397E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.435535E+02    0.357090E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.425593E+02    0.372429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.406066E+02    0.383156E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.384966E+02    0.385462E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.364244E+02    0.406219E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.333926E+02    0.392090E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.320661E+02    0.367545E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.325991E+02    0.339862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.347995E+02    0.318058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.384108E+02    0.305289E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.422974E+02    0.305908E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.455193E+02    0.319050E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134068E+03   -0.471954E+02    0.341636E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.467296E+02    0.369581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.439097E+02    0.394784E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.401573E+02    0.407797E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.400308E+02    0.266850E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.379743E+02    0.267673E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.393879E+02    0.254774E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.419129E+02    0.257570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.417723E+02    0.273661E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.393485E+02    0.279806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.372484E+02    0.289624E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.359339E+02    0.279535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.358105E+02    0.265400E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.367688E+02    0.251926E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.387670E+02    0.241389E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.409925E+02    0.238759E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.430758E+02    0.243475E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.442421E+02    0.255059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.443701E+02    0.269078E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.433682E+02    0.282303E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.414082E+02    0.291879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.391826E+02    0.294485E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.371030E+02    0.313297E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.340564E+02    0.301186E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.328096E+02    0.278478E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.333526E+02    0.253276E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.356795E+02    0.231279E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.392433E+02    0.218294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.433591E+02    0.217901E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.464783E+02    0.232917E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134058E+03   -0.480207E+02    0.255602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.475397E+02    0.279693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.447201E+02    0.301843E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.408527E+02    0.314252E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690593.303102590     
  ps_ts2 prof sum =   690168.547048599     
  trcom prof sum =    690168.547048599     
  ps_ts2 cur sum  =   10957.9246113223     
  trcom cur sum  =    10957.9246113223     
  
  antenna # iant =            2
  powecha_use(iant) =    669399.433765653     
  ps_ts2 prof sum =   669006.163167296     
  trcom prof sum =    669006.163167295     
  ps_ts2 cur sum  =   12431.5109567864     
  trcom cur sum  =    12431.5109567864     
  
  antenna # iant =            3
  powecha_use(iant) =    529846.979394593     
  ps_ts2 prof sum =   529541.336966467     
  trcom prof sum =    529541.336966467     
  ps_ts2 cur sum  =   7382.35518874622     
  trcom cur sum  =    7382.35518874623     
  
  antenna # iant =            4
  powecha_use(iant) =    574099.158206846     
  ps_ts2 prof sum =   573766.930809800     
  trcom prof sum =    573766.930809799     
  ps_ts2 cur sum  =   9873.34289582829     
  trcom cur sum  =    9873.34289582827     
  
  antenna # iant =            5
  powecha_use(iant) =    542795.019971518     
  ps_ts2 prof sum =   542518.782042781     
  trcom prof sum =    542518.782042781     
  ps_ts2 cur sum  =   10852.1596929382     
  trcom cur sum  =    10852.1596929382     
  
  Total ECH heating:      3005001.76003494     
  Total Current Drive:    51497.2933456214     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2891
 TA= 3.20000E+00 CPU TIME= 1.59230E-01 SECONDS.  DT= 1.18976E-03
  
 TEC1=    3.19999999999995     
 TEC2=    3.20499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.94260999999983     
  %check_save_state: izleft hours =    72.0488888888889     
 --> plasma_hash("gframe"): TA= 3.200000E+00 NSTEP=  2891 Hash code:   65289838
 ->PRGCHK: bdy curvature ratio at t= 3.2050E+00 seconds is:  5.6307E-02
% MHDEQ: TG1=     3.200000 ; TG2=     3.205000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7706E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6307E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.200000 TO TG2=    3.205000 @ NSTEP     2891
   GFRAME TG2 MOMENTS CHECKSUM:  2.4732682596649D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2050E+00  3.2100E+00 total power(Watts):  3.0002E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.20500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.387759E+02    0.390728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.367426E+02    0.391563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.382332E+02    0.376462E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.405374E+02    0.380929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.405115E+02    0.398547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.381081E+02    0.405131E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.361266E+02    0.415306E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.348176E+02    0.403554E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.347864E+02    0.387609E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.355340E+02    0.373619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.374163E+02    0.362645E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.396162E+02    0.359650E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.415771E+02    0.365341E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.429541E+02    0.377416E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.430885E+02    0.393452E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.420994E+02    0.408381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.402579E+02    0.418615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.380451E+02    0.421269E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.360699E+02    0.443358E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.330499E+02    0.427280E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.317316E+02    0.402089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.321657E+02    0.375131E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.343594E+02    0.351605E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.379646E+02    0.337845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.417305E+02    0.338952E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.450529E+02    0.352805E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.468405E+02    0.377477E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.461446E+02    0.406447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.435535E+02    0.431483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.397959E+02    0.445563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.398736E+02    0.315329E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.376238E+02    0.317340E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.393231E+02    0.302687E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.416443E+02    0.306561E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.415119E+02    0.322715E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.390926E+02    0.329100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.371039E+02    0.338754E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.357872E+02    0.328174E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.356579E+02    0.313921E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.367025E+02    0.299891E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.385002E+02    0.290589E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.407161E+02    0.287918E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.426867E+02    0.293030E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.440741E+02    0.303372E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.442111E+02    0.317431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.431074E+02    0.331537E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.412591E+02    0.341120E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.390355E+02    0.343951E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.369556E+02    0.365000E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.339161E+02    0.351061E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.325865E+02    0.327717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.331154E+02    0.302503E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.353268E+02    0.281404E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.390542E+02    0.268033E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.429560E+02    0.268822E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.461812E+02    0.282089E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.479720E+02    0.303211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133837E+03   -0.473983E+02    0.328214E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.445740E+02    0.352087E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.408062E+02    0.365680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.387538E+02    0.441950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.367169E+02    0.442531E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.382166E+02    0.426208E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.405220E+02    0.431418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.404849E+02    0.451108E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.380766E+02    0.457709E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.360914E+02    0.467841E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.348823E+02    0.454856E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.347629E+02    0.437828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.356148E+02    0.422188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.374021E+02    0.411780E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.396054E+02    0.409115E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.415677E+02    0.415144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.429460E+02    0.428059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.430700E+02    0.445885E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.420708E+02    0.462117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.402239E+02    0.472225E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.380089E+02    0.474289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.360293E+02    0.495740E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.330112E+02    0.478866E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.316095E+02    0.453433E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.321482E+02    0.423722E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.342461E+02    0.400744E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.378449E+02    0.387307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.417194E+02    0.388352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.451692E+02    0.402719E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133636E+03   -0.468424E+02    0.428994E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133513E+03   -0.463659E+02    0.460582E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.437540E+02    0.485535E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.398630E+02    0.498734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.392384E+02    0.354341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.371963E+02    0.355349E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.386932E+02    0.340402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.410051E+02    0.344548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.408687E+02    0.362599E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.385659E+02    0.369087E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.364783E+02    0.379916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.351668E+02    0.368359E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.350400E+02    0.352591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.359859E+02    0.337952E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.378734E+02    0.327645E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.400805E+02    0.324848E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.420471E+02    0.330014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.434284E+02    0.341020E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.435613E+02    0.356688E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.424564E+02    0.372442E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.406156E+02    0.382683E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.384012E+02    0.385454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.364332E+02    0.405724E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.334001E+02    0.391630E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.320735E+02    0.367146E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.326037E+02    0.339534E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.348980E+02    0.317166E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.382159E+02    0.306106E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.421954E+02    0.306116E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.455263E+02    0.318687E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.473214E+02    0.340764E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.467393E+02    0.369104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.439198E+02    0.394258E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.401671E+02    0.407276E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.400350E+02    0.266641E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.377868E+02    0.268638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.394900E+02    0.254031E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.418143E+02    0.257985E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.416730E+02    0.273988E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.392531E+02    0.280121E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.370594E+02    0.290503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.359380E+02    0.279279E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.358136E+02    0.265210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.367719E+02    0.251792E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.385777E+02    0.242514E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.409965E+02    0.238664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.429763E+02    0.243950E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.442472E+02    0.254910E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.443749E+02    0.268870E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.432657E+02    0.282587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.414133E+02    0.291572E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.391878E+02    0.294171E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.369121E+02    0.314108E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.340652E+02    0.300859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.327259E+02    0.278862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.333546E+02    0.253128E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.355931E+02    0.231844E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.393415E+02    0.217658E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.432612E+02    0.218500E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.464818E+02    0.232886E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.480251E+02    0.255471E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.473178E+02    0.280449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.446154E+02    0.302033E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.408577E+02    0.313916E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684236.136143893     
  ps_ts2 prof sum =   683842.556914687     
  trcom prof sum =    683842.556914687     
  ps_ts2 cur sum  =   10881.3585023786     
  trcom cur sum  =    10881.3585023786     
  
  antenna # iant =            2
  powecha_use(iant) =    669012.157061794     
  ps_ts2 prof sum =   668639.739380760     
  trcom prof sum =    668639.739380759     
  ps_ts2 cur sum  =   12456.6901895374     
  trcom cur sum  =    12456.6901895374     
  
  antenna # iant =            3
  powecha_use(iant) =    531778.587065677     
  ps_ts2 prof sum =   531486.290886778     
  trcom prof sum =    531486.290886779     
  ps_ts2 cur sum  =   7420.00555233656     
  trcom cur sum  =    7420.00555233657     
  
  antenna # iant =            4
  powecha_use(iant) =    571543.080042110     
  ps_ts2 prof sum =   571226.963155017     
  trcom prof sum =    571226.963155017     
  ps_ts2 cur sum  =   9853.64753677193     
  trcom cur sum  =    9853.64753677192     
  
  antenna # iant =            5
  powecha_use(iant) =    543677.662591749     
  ps_ts2 prof sum =   543359.203267531     
  trcom prof sum =    543359.203267531     
  ps_ts2 cur sum  =   10896.7859961873     
  trcom cur sum  =    10896.7859961873     
  
  Total ECH heating:      2998554.75360477     
  Total Current Drive:    51508.4877772118     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2895
 TA= 3.20500E+00 CPU TIME= 1.63209E-01 SECONDS.  DT= 5.80045E-04
  
 TEC1=    3.20499999999995     
 TEC2=    3.20999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.95755194444428     
  %check_save_state: izleft hours =    72.0338888888889     
 --> plasma_hash("gframe"): TA= 3.205000E+00 NSTEP=  2895 Hash code:   13783014
 ->PRGCHK: bdy curvature ratio at t= 3.2100E+00 seconds is:  5.6285E-02
% MHDEQ: TG1=     3.205000 ; TG2=     3.210000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2200E-03 SECONDS
   DATA R*BT AT EDGE:  2.7701E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6285E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.205000 TO TG2=    3.210000 @ NSTEP     2895
   GFRAME TG2 MOMENTS CHECKSUM:  2.4735422915834D+04
 %MFRCHK - LABEL "RMC12", #       1= -3.64058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.84135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.83631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.78605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.45208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.75007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.02924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.69167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.20327E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  4.38705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.32671E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.12018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.57359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.49614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.69137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.30930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.47096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.48313E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.28462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.89585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.51939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.51939E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  3.2100E+00  3.2150E+00 total power(Watts):  2.9893E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.21000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.388609E+02    0.390221E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.366217E+02    0.391996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.382105E+02    0.376365E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.405164E+02    0.380835E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.404897E+02    0.398533E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.380882E+02    0.405137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.361083E+02    0.415298E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.347984E+02    0.403582E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.346706E+02    0.388048E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.357092E+02    0.372509E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.374954E+02    0.361998E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.395929E+02    0.359476E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.416621E+02    0.364696E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.429300E+02    0.377282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.430653E+02    0.393392E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.420775E+02    0.408373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.402380E+02    0.418575E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.380261E+02    0.421233E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.360536E+02    0.443170E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.330334E+02    0.427225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.317139E+02    0.402119E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.321478E+02    0.375052E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.343382E+02    0.351462E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.379394E+02    0.337669E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.418135E+02    0.338236E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.450267E+02    0.352583E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.466960E+02    0.377745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133782E+03   -0.463582E+02    0.405635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.435339E+02    0.431349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.397789E+02    0.445337E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.398484E+02    0.315181E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.377987E+02    0.316072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.392962E+02    0.302588E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.416175E+02    0.306430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.414858E+02    0.322537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.391756E+02    0.328355E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.370811E+02    0.338582E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.357648E+02    0.328018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.356348E+02    0.313798E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.365810E+02    0.300386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.384740E+02    0.290507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.406887E+02    0.287830E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.427684E+02    0.292368E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.440451E+02    0.303244E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.441833E+02    0.317248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.431920E+02    0.330809E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.412341E+02    0.340924E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.390115E+02    0.343770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.369342E+02    0.364861E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.338942E+02    0.350927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.326555E+02    0.326996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.330931E+02    0.302432E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.353948E+02    0.280741E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.390258E+02    0.267977E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.429267E+02    0.268725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.461503E+02    0.281966E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.478249E+02    0.303549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133878E+03   -0.473698E+02    0.327968E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.445478E+02    0.351870E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.407828E+02    0.365520E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.388449E+02    0.441416E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.367007E+02    0.442343E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.381980E+02    0.426136E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.404977E+02    0.431316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.404671E+02    0.450880E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.380597E+02    0.457513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.359742E+02    0.468012E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.347684E+02    0.455009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.347456E+02    0.437695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.354980E+02    0.422568E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.373827E+02    0.411785E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.395845E+02    0.409117E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.415465E+02    0.415131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.429257E+02    0.427958E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.432796E+02    0.445005E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.421655E+02    0.461607E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.402073E+02    0.472086E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.380977E+02    0.473889E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.359093E+02    0.495929E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.329971E+02    0.478797E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.316866E+02    0.452896E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.321322E+02    0.423685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.344193E+02    0.399845E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.378237E+02    0.387253E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.416964E+02    0.388273E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.450287E+02    0.403090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.469425E+02    0.428520E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.463466E+02    0.460319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.436202E+02    0.485659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.398467E+02    0.498666E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.392149E+02    0.354161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.371740E+02    0.355189E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.386697E+02    0.340208E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.409804E+02    0.344353E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.409531E+02    0.361942E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.385436E+02    0.368954E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.363570E+02    0.380322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.353381E+02    0.367227E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.350185E+02    0.352443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.359638E+02    0.337779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.378501E+02    0.327471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.400531E+02    0.324693E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.421298E+02    0.329290E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.434024E+02    0.340800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.435343E+02    0.356487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.425436E+02    0.371824E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.405931E+02    0.382590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.384835E+02    0.384918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.364137E+02    0.405736E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.333814E+02    0.391615E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.320534E+02    0.367054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.325829E+02    0.339386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.347819E+02    0.317619E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.383906E+02    0.304860E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.421686E+02    0.305977E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.454976E+02    0.318489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.471756E+02    0.340998E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133924E+03   -0.467131E+02    0.368900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.438961E+02    0.394194E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.401459E+02    0.407279E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.400083E+02    0.266562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.379514E+02    0.267398E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.394622E+02    0.254003E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.418891E+02    0.257346E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.417487E+02    0.273320E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.391259E+02    0.280626E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.372276E+02    0.289256E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.359132E+02    0.279219E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.357892E+02    0.265170E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.367461E+02    0.251784E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.387426E+02    0.241318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.409672E+02    0.238719E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.429458E+02    0.243963E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.442162E+02    0.254871E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.443447E+02    0.268767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.433439E+02    0.281930E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.413854E+02    0.291475E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.391615E+02    0.294083E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.370838E+02    0.312840E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.340379E+02    0.300807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.327906E+02    0.278190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.333308E+02    0.253127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.356573E+02    0.231303E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.393122E+02    0.217853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.432298E+02    0.218700E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.464489E+02    0.232975E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.479921E+02    0.255406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.472859E+02    0.280330E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.445859E+02    0.301898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.408314E+02    0.313765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682669.794115106     
  ps_ts2 prof sum =   682245.342404998     
  trcom prof sum =    682245.342404997     
  ps_ts2 cur sum  =   10833.7726741263     
  trcom cur sum  =    10833.7726741262     
  
  antenna # iant =            2
  powecha_use(iant) =    664485.158292140     
  ps_ts2 prof sum =   664102.798799306     
  trcom prof sum =    664102.798799306     
  ps_ts2 cur sum  =   12361.4268569306     
  trcom cur sum  =    12361.4268569305     
  
  antenna # iant =            3
  powecha_use(iant) =    529580.581333359     
  ps_ts2 prof sum =   529248.746602437     
  trcom prof sum =    529248.746602438     
  ps_ts2 cur sum  =   7368.23196459847     
  trcom cur sum  =    7368.23196459848     
  
  antenna # iant =            4
  powecha_use(iant) =    569021.680791181     
  ps_ts2 prof sum =   568687.249586237     
  trcom prof sum =    568687.249586236     
  ps_ts2 cur sum  =   9796.56854506398     
  trcom cur sum  =    9796.56854506397     
  
  antenna # iant =            5
  powecha_use(iant) =    543497.447172711     
  ps_ts2 prof sum =   543215.358063659     
  trcom prof sum =    543215.358063659     
  ps_ts2 cur sum  =   10886.0584042305     
  trcom cur sum  =    10886.0584042305     
  
  Total ECH heating:      2987499.49545664     
  Total Current Drive:    51246.0584449498     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2901
 TA= 3.21000E+00 CPU TIME= 1.59884E-01 SECONDS.  DT= 2.99440E-04
  
 TEC1=    3.20999999999995     
 TEC2=    3.21499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.97000777777748     
  %check_save_state: izleft hours =    72.0216666666667     
 --> plasma_hash("gframe"): TA= 3.210000E+00 NSTEP=  2901 Hash code:   68263030
 ->PRGCHK: bdy curvature ratio at t= 3.2150E+00 seconds is:  5.6265E-02
% MHDEQ: TG1=     3.210000 ; TG2=     3.215000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7696E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6265E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.210000 TO TG2=    3.215000 @ NSTEP     2901
   GFRAME TG2 MOMENTS CHECKSUM:  2.4738163235019D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.2150E+00  3.2200E+00 total power(Watts):  2.9989E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.21500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.388393E+02    0.389997E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.368029E+02    0.390856E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.382920E+02    0.375648E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.405998E+02    0.380110E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.404679E+02    0.398336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.381717E+02    0.404560E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.361896E+02    0.414773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.349741E+02    0.402542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.346508E+02    0.387852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.356890E+02    0.372295E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.374728E+02    0.361815E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.396742E+02    0.358794E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.416377E+02    0.364475E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.429060E+02    0.377007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.431547E+02    0.392714E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.421670E+02    0.407807E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.402171E+02    0.418467E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.381108E+02    0.420720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.360371E+02    0.442976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.330167E+02    0.427116E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.316962E+02    0.402009E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.321287E+02    0.374865E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.343162E+02    0.351343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.379143E+02    0.337568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.417865E+02    0.338101E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.449992E+02    0.352388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.469076E+02    0.376575E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.463342E+02    0.405429E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.435131E+02    0.431177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.398684E+02    0.444775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.398204E+02    0.315065E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.377724E+02    0.315970E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.392684E+02    0.302466E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.415885E+02    0.306290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.415647E+02    0.321881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.391498E+02    0.328247E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.369575E+02    0.339019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.359335E+02    0.326806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.356092E+02    0.313718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.365547E+02    0.300280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.383467E+02    0.290960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.406590E+02    0.287685E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.427375E+02    0.292220E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.440142E+02    0.303084E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.441531E+02    0.317107E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.431636E+02    0.330669E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.412076E+02    0.340792E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.390902E+02    0.343110E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.370112E+02    0.364174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.339665E+02    0.350263E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.326377E+02    0.326901E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.331584E+02    0.301740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.353699E+02    0.280615E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.389973E+02    0.267856E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.428943E+02    0.268594E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.462290E+02    0.281245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133612E+03   -0.480243E+02    0.302358E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.472196E+02    0.328298E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.445207E+02    0.351688E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.407584E+02    0.365308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.388234E+02    0.441217E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.367854E+02    0.441785E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.381790E+02    0.426015E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.405930E+02    0.430772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.404496E+02    0.450619E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.381476E+02    0.456966E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.361602E+02    0.467242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.349492E+02    0.454108E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.346324E+02    0.437903E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.356781E+02    0.421638E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.374656E+02    0.411245E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.395636E+02    0.408985E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.416360E+02    0.414600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.429043E+02    0.427818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.431456E+02    0.445086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.421469E+02    0.461370E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.402992E+02    0.471635E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.380809E+02    0.473753E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.360966E+02    0.495390E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.331767E+02    0.478112E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.316719E+02    0.452703E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.321158E+02    0.423599E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.343047E+02    0.400165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.378026E+02    0.387029E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.416736E+02    0.388020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.449996E+02    0.402900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.469203E+02    0.428332E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133375E+03   -0.464466E+02    0.459748E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.436016E+02    0.485542E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.398299E+02    0.498598E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.392949E+02    0.353497E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.371546E+02    0.355026E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.386447E+02    0.340100E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.409547E+02    0.344209E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.409288E+02    0.361730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.385209E+02    0.368742E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.365361E+02    0.379121E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.353189E+02    0.367030E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.351887E+02    0.351240E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.361347E+02    0.336576E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.379249E+02    0.326823E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.400278E+02    0.324559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.421018E+02    0.329164E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.433748E+02    0.340650E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.435101E+02    0.356288E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.425194E+02    0.371568E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.406783E+02    0.381879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.384620E+02    0.384674E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.363941E+02    0.405612E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.333620E+02    0.391446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.320343E+02    0.366890E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.325611E+02    0.339307E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.347569E+02    0.317539E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.383629E+02    0.304753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.422459E+02    0.305297E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.454669E+02    0.318338E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.473816E+02    0.339856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.465684E+02    0.369074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.441014E+02    0.393092E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.402327E+02    0.406711E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.400784E+02    0.265867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.379237E+02    0.267279E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.393351E+02    0.254523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.418571E+02    0.257265E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.417181E+02    0.273166E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.392971E+02    0.279327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.372001E+02    0.289136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.358864E+02    0.279102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.357618E+02    0.265069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.369044E+02    0.250500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.387122E+02    0.241327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.409356E+02    0.238729E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.430163E+02    0.243370E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.442894E+02    0.254226E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.443117E+02    0.268621E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.433119E+02    0.281765E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.413553E+02    0.291329E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.391334E+02    0.293953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.370578E+02    0.312743E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.341043E+02    0.300114E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.327670E+02    0.278082E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.333051E+02    0.253088E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.356281E+02    0.231381E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.391862E+02    0.218655E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.432966E+02    0.218287E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.464132E+02    0.233025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.479562E+02    0.255296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.473654E+02    0.279611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.446651E+02    0.301210E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.409081E+02    0.313099E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688000.920639298     
  ps_ts2 prof sum =   687609.732960314     
  trcom prof sum =    687609.732960314     
  ps_ts2 cur sum  =   10890.0942421884     
  trcom cur sum  =    10890.0942421884     
  
  antenna # iant =            2
  powecha_use(iant) =    667929.857636800     
  ps_ts2 prof sum =   667528.311491799     
  trcom prof sum =    667528.311491798     
  ps_ts2 cur sum  =   12401.2416020543     
  trcom cur sum  =    12401.2416020543     
  
  antenna # iant =            3
  powecha_use(iant) =    528424.388022579     
  ps_ts2 prof sum =   528124.175850143     
  trcom prof sum =    528124.175850144     
  ps_ts2 cur sum  =   7329.48916599545     
  trcom cur sum  =    7329.48916599546     
  
  antenna # iant =            4
  powecha_use(iant) =    570729.269069162     
  ps_ts2 prof sum =   570428.869612982     
  trcom prof sum =    570428.869612981     
  ps_ts2 cur sum  =   9803.35845216138     
  trcom cur sum  =    9803.35845216137     
  
  antenna # iant =            5
  powecha_use(iant) =    543826.986987559     
  ps_ts2 prof sum =   543550.575567906     
  trcom prof sum =    543550.575567906     
  ps_ts2 cur sum  =   10874.8397010149     
  trcom cur sum  =    10874.8397010149     
  
  Total ECH heating:      2997241.66548314     
  Total Current Drive:    51299.0231634144     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2909
 TA= 3.21500E+00 CPU TIME= 1.59212E-01 SECONDS.  DT= 6.07996E-04
  
 TEC1=    3.21499999999995     
 TEC2=    3.21999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    7.98599027777755     
  %check_save_state: izleft hours =    72.0055555555556     
 --> plasma_hash("gframe"): TA= 3.215000E+00 NSTEP=  2909 Hash code:   98076439
 ->PRGCHK: bdy curvature ratio at t= 3.2200E+00 seconds is:  5.6246E-02
% MHDEQ: TG1=     3.215000 ; TG2=     3.220000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7691E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6246E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.215000 TO TG2=    3.220000 @ NSTEP     2909
   GFRAME TG2 MOMENTS CHECKSUM:  2.4740903554203D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.19860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.01055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.61425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.60842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.42658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.69564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.98983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.42859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.34390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.16276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.93003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.91676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.21793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.01137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.40113E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.27806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.09571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.25670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.88991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.39098E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.90427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.90427E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2200E+00  3.2250E+00 total power(Watts):  2.9943E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.22000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.388162E+02    0.389715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.367807E+02    0.390594E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.382679E+02    0.375388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.405750E+02    0.379818E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.405524E+02    0.397636E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.381493E+02    0.404359E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.361686E+02    0.414637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.348561E+02    0.402808E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.348225E+02    0.386625E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.355704E+02    0.372568E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.374481E+02    0.361631E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.396483E+02    0.358616E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.417205E+02    0.363765E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.429917E+02    0.376258E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.431291E+02    0.392406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.421426E+02    0.407598E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.403027E+02    0.417914E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.380884E+02    0.420597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.361176E+02    0.442430E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.330922E+02    0.426591E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.317658E+02    0.401370E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.321990E+02    0.374127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.343869E+02    0.350715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.379884E+02    0.336960E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.417571E+02    0.338017E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.450844E+02    0.351747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.468796E+02    0.376229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133642E+03   -0.464267E+02    0.404763E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.436036E+02    0.430657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.398476E+02    0.444560E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.398939E+02    0.314428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.376447E+02    0.316472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.393401E+02    0.301780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.416627E+02    0.305625E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.415321E+02    0.321810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.391211E+02    0.328189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.371298E+02    0.337871E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.358100E+02    0.327329E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.356771E+02    0.313076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.367192E+02    0.299002E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.385152E+02    0.289665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.407304E+02    0.286963E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.427046E+02    0.292050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.440904E+02    0.302404E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.442316E+02    0.316473E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.431327E+02    0.330581E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.412863E+02    0.340181E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.390669E+02    0.343013E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.369883E+02    0.363969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.339425E+02    0.350189E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.326086E+02    0.326912E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.331322E+02    0.301667E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.353406E+02    0.280506E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.388707E+02    0.268315E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.429665E+02    0.267871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.461930E+02    0.281054E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.479884E+02    0.302172E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133731E+03   -0.474224E+02    0.327192E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.446048E+02    0.351048E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.408402E+02    0.364594E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.388028E+02    0.441027E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.367649E+02    0.441611E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.382620E+02    0.425491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.405705E+02    0.430626E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.405382E+02    0.450053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.381282E+02    0.456736E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.361420E+02    0.467058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.348335E+02    0.454237E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.348091E+02    0.436963E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.356572E+02    0.421524E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.374459E+02    0.411083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.396476E+02    0.408378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.416121E+02    0.414427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.429941E+02    0.427281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.431229E+02    0.444862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.421260E+02    0.461123E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.402793E+02    0.471450E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.380621E+02    0.473586E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.360797E+02    0.495310E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.330604E+02    0.478319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.316548E+02    0.452514E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.321891E+02    0.423071E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.342837E+02    0.399965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.378828E+02    0.386274E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.417591E+02    0.387264E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.452126E+02    0.401789E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133311E+03   -0.470154E+02    0.427788E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133414E+03   -0.464238E+02    0.459461E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.438127E+02    0.484914E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.399204E+02    0.498278E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.392696E+02    0.353354E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.372264E+02    0.354388E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.387197E+02    0.339494E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.410336E+02    0.343596E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.409020E+02    0.361538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.385999E+02    0.368013E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.365130E+02    0.378872E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.351991E+02    0.367349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.350687E+02    0.351685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.361086E+02    0.336533E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.378967E+02    0.326767E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.401024E+02    0.323949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.420714E+02    0.329082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.434560E+02    0.340041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.435941E+02    0.355620E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.426041E+02    0.370826E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.406535E+02    0.381568E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.384389E+02    0.384401E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.364735E+02    0.404983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.334352E+02    0.390725E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.321039E+02    0.366170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.325376E+02    0.339274E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.349182E+02    0.316327E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.383338E+02    0.304648E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.422135E+02    0.305172E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.455469E+02    0.317701E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.473490E+02    0.339721E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.467760E+02    0.367878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.439609E+02    0.393200E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.402094E+02    0.406513E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.400458E+02    0.265757E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.377972E+02    0.267771E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.394984E+02    0.253279E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.418233E+02    0.257181E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.416850E+02    0.273021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.392661E+02    0.279179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.370790E+02    0.289579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.359514E+02    0.278369E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.358252E+02    0.264363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.367805E+02    0.251095E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.385841E+02    0.241965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.410011E+02    0.238177E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.429814E+02    0.243374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.442536E+02    0.254152E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.443847E+02    0.267912E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.432787E+02    0.281587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.414283E+02    0.290610E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.392038E+02    0.293241E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.369316E+02    0.313249E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.340774E+02    0.300030E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.327401E+02    0.277977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.333646E+02    0.252409E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.355974E+02    0.231485E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.391521E+02    0.218867E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.432603E+02    0.218501E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.464820E+02    0.232577E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.480295E+02    0.254692E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.473291E+02    0.279398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.446313E+02    0.301045E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.408773E+02    0.313002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681372.047999764     
  ps_ts2 prof sum =   680990.051780881     
  trcom prof sum =    680990.051780881     
  ps_ts2 cur sum  =   10752.2299225556     
  trcom cur sum  =    10752.2299225556     
  
  antenna # iant =            2
  powecha_use(iant) =    668225.546293933     
  ps_ts2 prof sum =   667835.742918757     
  trcom prof sum =    667835.742918756     
  ps_ts2 cur sum  =   12375.2128877350     
  trcom cur sum  =    12375.2128877350     
  
  antenna # iant =            3
  powecha_use(iant) =    528914.319814247     
  ps_ts2 prof sum =   528611.309947356     
  trcom prof sum =    528611.309947357     
  ps_ts2 cur sum  =   7308.18824715816     
  trcom cur sum  =    7308.18824715817     
  
  antenna # iant =            4
  powecha_use(iant) =    571946.122285577     
  ps_ts2 prof sum =   571641.525113767     
  trcom prof sum =    571641.525113766     
  ps_ts2 cur sum  =   9795.80642639765     
  trcom cur sum  =    9795.80642639764     
  
  antenna # iant =            5
  powecha_use(iant) =    543869.494670435     
  ps_ts2 prof sum =   543542.585167145     
  trcom prof sum =    543542.585167144     
  ps_ts2 cur sum  =   10853.3262752969     
  trcom cur sum  =    10853.3262752969     
  
  Total ECH heating:      2992621.21492790     
  Total Current Drive:    51084.7637591433     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2915
 TA= 3.22000E+00 CPU TIME= 1.67666E-01 SECONDS.  DT= 1.26981E-05
  
 TEC1=    3.21999999999995     
 TEC2=    3.22499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.00029916666654     
  %check_save_state: izleft hours =    71.9913888888889     
 --> plasma_hash("gframe"): TA= 3.220000E+00 NSTEP=  2915 Hash code:   96096885
 ->PRGCHK: bdy curvature ratio at t= 3.2250E+00 seconds is:  5.6228E-02
% MHDEQ: TG1=     3.220000 ; TG2=     3.225000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6228E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.220000 TO TG2=    3.225000 @ NSTEP     2915
   GFRAME TG2 MOMENTS CHECKSUM:  2.4743643873388D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2250E+00  3.2300E+00 total power(Watts):  2.9882E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.22500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.389004E+02    0.388975E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.366600E+02    0.390811E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.382473E+02    0.375115E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.406607E+02    0.379051E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.405313E+02    0.397375E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.382333E+02    0.403725E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.361497E+02    0.414512E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.348375E+02    0.402626E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.347069E+02    0.386868E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.357435E+02    0.371323E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.375313E+02    0.360903E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.396249E+02    0.358424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.416965E+02    0.363524E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.429684E+02    0.375937E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.432200E+02    0.391651E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.421210E+02    0.407384E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.402824E+02    0.417765E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.380703E+02    0.420453E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.361007E+02    0.442259E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.330752E+02    0.426497E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.317498E+02    0.401198E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.321805E+02    0.373908E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.343655E+02    0.350605E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.379639E+02    0.336865E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.418388E+02    0.337373E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.450570E+02    0.351560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133602E+03   -0.469733E+02    0.375425E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133682E+03   -0.464034E+02    0.404493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.435831E+02    0.430479E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.398294E+02    0.444363E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.398662E+02    0.314341E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.378171E+02    0.315267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.393126E+02    0.301667E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.416328E+02    0.305511E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.415054E+02    0.321707E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.391974E+02    0.327552E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.371058E+02    0.337781E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.357861E+02    0.327273E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.356518E+02    0.313013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.365963E+02    0.299491E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.384872E+02    0.289543E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.407007E+02    0.286827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.427815E+02    0.291346E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.440620E+02    0.302243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.442014E+02    0.316349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.432138E+02    0.329969E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.412602E+02    0.340058E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.390383E+02    0.342923E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.369667E+02    0.363760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.339215E+02    0.350082E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.326761E+02    0.326283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.331083E+02    0.301597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.354072E+02    0.279786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.390358E+02    0.267027E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.429347E+02    0.267743E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.461583E+02    0.280872E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.478391E+02    0.302494E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133767E+03   -0.473914E+02    0.327040E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.445779E+02    0.350866E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.408167E+02    0.364355E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.388912E+02    0.440477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.366468E+02    0.441792E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.382431E+02    0.425363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.405509E+02    0.430472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.405199E+02    0.449839E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.382179E+02    0.456187E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.360250E+02    0.467209E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.348165E+02    0.454055E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.347923E+02    0.436831E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.355404E+02    0.421832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.374242E+02    0.410936E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.396272E+02    0.408192E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.415911E+02    0.414256E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.429735E+02    0.427129E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.432182E+02    0.444314E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.422208E+02    0.460577E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.402620E+02    0.471275E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.381510E+02    0.473154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.361661E+02    0.495002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.330460E+02    0.478229E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.317334E+02    0.451966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.321732E+02    0.422968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.344576E+02    0.398825E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.378623E+02    0.385999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.417366E+02    0.386953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.450728E+02    0.401920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133349E+03   -0.469933E+02    0.427599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133454E+03   -0.464041E+02    0.459186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.436788E+02    0.485021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.399041E+02    0.498205E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.392457E+02    0.353196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.372042E+02    0.354225E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.386949E+02    0.339394E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.410078E+02    0.343471E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.409861E+02    0.360821E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.385779E+02    0.367771E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.363933E+02    0.379101E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.353725E+02    0.366095E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.350470E+02    0.351565E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.359876E+02    0.337014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.378711E+02    0.326695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.400750E+02    0.323868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.421520E+02    0.328449E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.434289E+02    0.339906E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.435682E+02    0.355419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.425803E+02    0.370537E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.406313E+02    0.381272E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.385221E+02    0.383642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.364542E+02    0.404809E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.334172E+02    0.390491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.320849E+02    0.365983E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.326111E+02    0.338613E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.348005E+02    0.316849E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.384071E+02    0.303973E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.421836E+02    0.305050E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.455161E+02    0.317571E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.472018E+02    0.340040E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.467502E+02    0.367571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.439384E+02    0.392885E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.401885E+02    0.406312E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.400147E+02    0.265658E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.379623E+02    0.266458E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.394686E+02    0.253239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.418946E+02    0.256522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.417580E+02    0.272309E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.393367E+02    0.278461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.372407E+02    0.288298E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.359251E+02    0.278250E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.357980E+02    0.264287E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.367520E+02    0.251077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.387456E+02    0.240780E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.409695E+02    0.238223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.429484E+02    0.243384E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.442204E+02    0.254077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.443520E+02    0.267778E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.433546E+02    0.280871E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.413990E+02    0.290464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.391756E+02    0.293119E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.371022E+02    0.312018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.340526E+02    0.299952E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.328035E+02    0.277243E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.333377E+02    0.252397E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.356589E+02    0.230941E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.393117E+02    0.217811E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.432259E+02    0.218709E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.464459E+02    0.232664E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.479935E+02    0.254618E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.472946E+02    0.279220E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.445998E+02    0.300896E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.408489E+02    0.312901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679546.493858753     
  ps_ts2 prof sum =   679142.878915217     
  trcom prof sum =    679142.878915217     
  ps_ts2 cur sum  =   10698.8280062659     
  trcom cur sum  =    10698.8280062659     
  
  antenna # iant =            2
  powecha_use(iant) =    665040.736532812     
  ps_ts2 prof sum =   664654.373663258     
  trcom prof sum =    664654.373663257     
  ps_ts2 cur sum  =   12290.1616511204     
  trcom cur sum  =    12290.1616511204     
  
  antenna # iant =            3
  powecha_use(iant) =    529590.624845670     
  ps_ts2 prof sum =   529252.774804790     
  trcom prof sum =    529252.774804791     
  ps_ts2 cur sum  =   7297.29493432051     
  trcom cur sum  =    7297.29493432051     
  
  antenna # iant =            4
  powecha_use(iant) =    569856.065857856     
  ps_ts2 prof sum =   569516.195682504     
  trcom prof sum =    569516.195682503     
  ps_ts2 cur sum  =   9738.69944480201     
  trcom cur sum  =    9738.69944480200     
  
  antenna # iant =            5
  powecha_use(iant) =    544201.339117155     
  ps_ts2 prof sum =   543932.276826701     
  trcom prof sum =    543932.276826700     
  ps_ts2 cur sum  =   10837.2853940362     
  trcom cur sum  =    10837.2853940362     
  
  Total ECH heating:      2986498.49989247     
  Total Current Drive:    50862.2694305451     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2936
 TA= 3.22500E+00 CPU TIME= 1.59138E-01 SECONDS.  DT= 8.06583E-04
  
 TEC1=    3.22499999999995     
 TEC2=    3.22999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.01355111111116     
  %check_save_state: izleft hours =    71.9780555555556     
 --> plasma_hash("gframe"): TA= 3.225000E+00 NSTEP=  2936 Hash code:   61040228
 ->PRGCHK: bdy curvature ratio at t= 3.2300E+00 seconds is:  5.6211E-02
% MHDEQ: TG1=     3.225000 ; TG2=     3.230000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7680E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6211E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.225000 TO TG2=    3.230000 @ NSTEP     2936
   GFRAME TG2 MOMENTS CHECKSUM:  2.4746384192573D+04
 %MFRCHK - LABEL "RMC12", #       1= -4.72559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.17034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.40453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.38507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.40250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.64424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.78581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.18013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.47670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.44761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.55541E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.72465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.13198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.30712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.12702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.24856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.44635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.04286E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.51714E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.85857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.09731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.09731E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2300E+00  3.2350E+00 total power(Watts):  2.9953E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.23000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.388790E+02    0.388797E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.368422E+02    0.389688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.383291E+02    0.374464E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.406385E+02    0.378876E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.405089E+02    0.397215E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.382124E+02    0.403610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.362305E+02    0.414022E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.350129E+02    0.401595E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.346877E+02    0.386716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.357231E+02    0.371189E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.375053E+02    0.360824E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.397073E+02    0.357823E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.416723E+02    0.363400E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.429446E+02    0.375767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.431967E+02    0.391455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.422101E+02    0.406851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.402616E+02    0.417687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.381544E+02    0.419992E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.360834E+02    0.442138E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.330579E+02    0.426465E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.317331E+02    0.401102E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.321617E+02    0.373789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.343461E+02    0.350564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.379398E+02    0.336857E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.418136E+02    0.337342E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.452601E+02    0.350503E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133639E+03   -0.469478E+02    0.375226E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.463758E+02    0.404339E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.437909E+02    0.429668E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.399183E+02    0.443885E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.398403E+02    0.314308E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.377930E+02    0.315240E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.392867E+02    0.301596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.416066E+02    0.305428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.415870E+02    0.321133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.391734E+02    0.327541E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.369827E+02    0.338330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.359560E+02    0.326133E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.356290E+02    0.312993E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.365719E+02    0.299429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.383653E+02    0.290011E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.406742E+02    0.286695E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.427534E+02    0.291217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.440309E+02    0.302159E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.441741E+02    0.316283E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.431870E+02    0.329926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.412353E+02    0.340021E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.391187E+02    0.342355E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.370455E+02    0.363135E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.339958E+02    0.349493E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.326549E+02    0.326299E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.331757E+02    0.300943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.353844E+02    0.279660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.390094E+02    0.266897E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.429059E+02    0.267589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.461296E+02    0.280687E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133505E+03   -0.480414E+02    0.301345E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.472449E+02    0.327476E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.445514E+02    0.350793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.407930E+02    0.364228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.388719E+02    0.440371E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.368321E+02    0.440953E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.382231E+02    0.425313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.406396E+02    0.430025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.405001E+02    0.449696E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.381976E+02    0.456037E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.362099E+02    0.466460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.349975E+02    0.453201E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.346790E+02    0.437139E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.357202E+02    0.420942E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.375067E+02    0.410425E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.396060E+02    0.408092E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.416801E+02    0.413759E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.429541E+02    0.427043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.431972E+02    0.444177E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.422009E+02    0.460406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.403526E+02    0.470860E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.381329E+02    0.473047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.361500E+02    0.494963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.332193E+02    0.477578E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.317166E+02    0.451848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.321554E+02    0.422951E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.343430E+02    0.399181E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.378411E+02    0.385830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.417192E+02    0.386743E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.450488E+02    0.401756E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.469697E+02    0.427499E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.465025E+02    0.458702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.436587E+02    0.484937E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.398859E+02    0.498172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.393242E+02    0.352624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.371824E+02    0.354154E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.386720E+02    0.339365E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.409835E+02    0.343429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.409621E+02    0.360712E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.385556E+02    0.367638E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.365728E+02    0.377948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.353521E+02    0.365980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.352192E+02    0.350426E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.359650E+02    0.337012E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.379479E+02    0.326130E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.400508E+02    0.323841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.421261E+02    0.328417E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.434024E+02    0.339869E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.435425E+02    0.355335E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.425566E+02    0.370373E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.407170E+02    0.380624E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.385006E+02    0.383470E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.364343E+02    0.404705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.333987E+02    0.390344E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.320657E+02    0.365894E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.325868E+02    0.338646E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.347775E+02    0.316849E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.383818E+02    0.303916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.422639E+02    0.304416E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.454870E+02    0.317514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.474089E+02    0.339001E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.466062E+02    0.367840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.440293E+02    0.392248E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.402749E+02    0.405769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.398883E+02    0.266107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.379366E+02    0.266333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.393438E+02    0.253732E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.418662E+02    0.256398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.417301E+02    0.272157E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.393105E+02    0.278324E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.372158E+02    0.288199E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.359016E+02    0.278130E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.357739E+02    0.264176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.367261E+02    0.250997E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.387186E+02    0.240727E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.409408E+02    0.238182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.429187E+02    0.243311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.441904E+02    0.253951E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.443223E+02    0.267616E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.433252E+02    0.280714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.413709E+02    0.290352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.391496E+02    0.293023E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.370777E+02    0.311997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.340299E+02    0.299902E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.327813E+02    0.277151E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.333168E+02    0.252313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.356344E+02    0.230947E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.392831E+02    0.217899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.431943E+02    0.218807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.464133E+02    0.232649E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.479612E+02    0.254471E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.474916E+02    0.277962E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.446823E+02    0.300242E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.409277E+02    0.312308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684531.900927030     
  ps_ts2 prof sum =   684160.798441390     
  trcom prof sum =    684160.798441390     
  ps_ts2 cur sum  =   10761.0222361935     
  trcom cur sum  =    10761.0222361935     
  
  antenna # iant =            2
  powecha_use(iant) =    665534.413170585     
  ps_ts2 prof sum =   665132.543894646     
  trcom prof sum =    665132.543894645     
  ps_ts2 cur sum  =   12293.7653447574     
  trcom cur sum  =    12293.7653447574     
  
  antenna # iant =            3
  powecha_use(iant) =    529118.260926150     
  ps_ts2 prof sum =   528809.860728618     
  trcom prof sum =    528809.860728619     
  ps_ts2 cur sum  =   7273.05858741882     
  trcom cur sum  =    7273.05858741883     
  
  antenna # iant =            4
  powecha_use(iant) =    572162.513546401     
  ps_ts2 prof sum =   571838.867938137     
  trcom prof sum =    571838.867938136     
  ps_ts2 cur sum  =   9769.36896973081     
  trcom cur sum  =    9769.36896973080     
  
  antenna # iant =            5
  powecha_use(iant) =    543973.200357639     
  ps_ts2 prof sum =   543670.863043432     
  trcom prof sum =    543670.863043432     
  ps_ts2 cur sum  =   10834.4245177122     
  trcom cur sum  =    10834.4245177122     
  
  Total ECH heating:      2993612.93404622     
  Total Current Drive:    50931.6396558127     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2941
 TA= 3.23000E+00 CPU TIME= 1.60027E-01 SECONDS.  DT= 4.36930E-04
  
 TEC1=    3.22999999999995     
 TEC2=    3.23499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.03407111111119     
  %check_save_state: izleft hours =    71.9575000000000     
 --> plasma_hash("gframe"): TA= 3.230000E+00 NSTEP=  2941 Hash code:   86307209
 ->PRGCHK: bdy curvature ratio at t= 3.2350E+00 seconds is:  5.6195E-02
% MHDEQ: TG1=     3.230000 ; TG2=     3.235000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7675E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6195E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.230000 TO TG2=    3.235000 @ NSTEP     2941
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749124511758D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2350E+00  3.2400E+00 total power(Watts):  2.9935E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.23500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.388560E+02    0.388577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.368196E+02    0.389491E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.383058E+02    0.374256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.406138E+02    0.378640E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.405939E+02    0.396555E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.381903E+02    0.403446E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.362099E+02    0.413919E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.349923E+02    0.401444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.348602E+02    0.385528E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.356026E+02    0.371519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.374816E+02    0.360674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.396819E+02    0.357677E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.416468E+02    0.363210E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.430311E+02    0.375043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.431716E+02    0.391205E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.421862E+02    0.406665E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.403475E+02    0.417164E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.381330E+02    0.419891E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.361649E+02    0.441629E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.332275E+02    0.425539E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.317141E+02    0.400968E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.322322E+02    0.373094E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.344176E+02    0.349930E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.378127E+02    0.337345E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.417846E+02    0.337259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.451163E+02    0.350835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133679E+03   -0.469202E+02    0.374941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133975E+03   -0.462346E+02    0.404493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.436526E+02    0.429902E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.398977E+02    0.443723E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.399152E+02    0.313671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.377656E+02    0.315180E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.392574E+02    0.301494E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.416825E+02    0.304769E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.415576E+02    0.321053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.391458E+02    0.327474E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.371562E+02    0.337162E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.359305E+02    0.326084E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.357938E+02    0.311761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.367377E+02    0.298149E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.385324E+02    0.288715E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.407468E+02    0.285959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.427216E+02    0.291064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.440000E+02    0.302012E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.442532E+02    0.315659E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.431577E+02    0.329834E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.413146E+02    0.339410E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.390921E+02    0.342266E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.370219E+02    0.362980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.339730E+02    0.349416E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.326314E+02    0.326272E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.331507E+02    0.300876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.353573E+02    0.279529E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.388811E+02    0.267346E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.429791E+02    0.266851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.462082E+02    0.279927E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.480066E+02    0.301164E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133621E+03   -0.474472E+02    0.326347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.446366E+02    0.350151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.407678E+02    0.364045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.388515E+02    0.440226E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.368127E+02    0.440812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.383068E+02    0.424810E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.406173E+02    0.429917E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.405892E+02    0.449172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.381793E+02    0.455837E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.361920E+02    0.466297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.349789E+02    0.453043E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.346587E+02    0.437036E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.357001E+02    0.420855E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.374854E+02    0.410301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.395832E+02    0.407940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.416569E+02    0.413612E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.430424E+02    0.426551E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.431751E+02    0.444000E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.421794E+02    0.460207E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.403325E+02    0.470699E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.381142E+02    0.472903E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.361320E+02    0.494918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.331076E+02    0.477788E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.316990E+02    0.451705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.321372E+02    0.422882E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.343229E+02    0.399015E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.379212E+02    0.385138E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.417997E+02    0.386065E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.452574E+02    0.400679E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.470654E+02    0.426988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133313E+03   -0.464807E+02    0.458440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.438699E+02    0.484319E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.399763E+02    0.497876E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.393013E+02    0.352483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.372583E+02    0.353520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.387483E+02    0.338746E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.410587E+02    0.342832E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.409365E+02    0.360541E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.385317E+02    0.367449E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.365543E+02    0.377727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.352326E+02    0.366351E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.350990E+02    0.350888E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.361349E+02    0.335831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.379206E+02    0.326078E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.401269E+02    0.323220E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.420965E+02    0.328337E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.433733E+02    0.339763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.436277E+02    0.354673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.425306E+02    0.370156E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.406927E+02    0.380384E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.384773E+02    0.383249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.365139E+02    0.404105E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.334727E+02    0.389669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.321356E+02    0.365214E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.325640E+02    0.338609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.347520E+02    0.316808E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.383535E+02    0.303826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.422329E+02    0.304302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.456827E+02    0.316365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.473776E+02    0.338865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133686E+03   -0.468143E+02    0.366678E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.440040E+02    0.391995E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.402520E+02    0.405600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.400594E+02    0.264758E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.378110E+02    0.266799E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.395101E+02    0.252417E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.418364E+02    0.256260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.416987E+02    0.271989E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.392814E+02    0.278163E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.370910E+02    0.288673E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.360617E+02    0.276764E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.358394E+02    0.263427E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.367915E+02    0.250287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.385929E+02    0.241287E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.409091E+02    0.238142E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.429871E+02    0.242668E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.442629E+02    0.253257E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.443968E+02    0.266881E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.432935E+02    0.280529E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.414450E+02    0.289633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.392206E+02    0.292326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.369516E+02    0.312519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.340959E+02    0.299213E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.327565E+02    0.277022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.332881E+02    0.252254E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.356031E+02    0.231000E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.391562E+02    0.218631E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.432615E+02    0.218312E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.463763E+02    0.232643E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133593E+03   -0.481493E+02    0.253261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134068E+03   -0.473431E+02    0.278267E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.446504E+02    0.300102E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.408981E+02    0.312221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683332.412752677     
  ps_ts2 prof sum =   682940.649131287     
  trcom prof sum =    682940.649131286     
  ps_ts2 cur sum  =   10713.3194005353     
  trcom cur sum  =    10713.3194005353     
  
  antenna # iant =            2
  powecha_use(iant) =    665406.836590600     
  ps_ts2 prof sum =   665061.061863640     
  trcom prof sum =    665061.061863639     
  ps_ts2 cur sum  =   12269.4150676844     
  trcom cur sum  =    12269.4150676844     
  
  antenna # iant =            3
  powecha_use(iant) =    529820.987924025     
  ps_ts2 prof sum =   529507.903635906     
  trcom prof sum =    529507.903635906     
  ps_ts2 cur sum  =   7259.49047552961     
  trcom cur sum  =    7259.49047552962     
  
  antenna # iant =            4
  powecha_use(iant) =    570316.769701396     
  ps_ts2 prof sum =   570006.527457077     
  trcom prof sum =    570006.527457076     
  ps_ts2 cur sum  =   9716.14520591352     
  trcom cur sum  =    9716.14520591351     
  
  antenna # iant =            5
  powecha_use(iant) =    544606.635155562     
  ps_ts2 prof sum =   544307.740479679     
  trcom prof sum =    544307.740479679     
  ps_ts2 cur sum  =   10832.3460945802     
  trcom cur sum  =    10832.3460945802     
  
  Total ECH heating:      2991823.88256759     
  Total Current Drive:    50790.7162442431     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2948
 TA= 3.23500E+00 CPU TIME= 1.59229E-01 SECONDS.  DT= 1.00875E-04
  
 TEC1=    3.23499999999995     
 TEC2=    3.23999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.04668444444451     
  %check_save_state: izleft hours =    71.9450000000000     
 --> plasma_hash("gframe"): TA= 3.235000E+00 NSTEP=  2948 Hash code:   45587588
 ->PRGCHK: bdy curvature ratio at t= 3.2400E+00 seconds is:  5.6180E-02
% MHDEQ: TG1=     3.235000 ; TG2=     3.240000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6180E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.235000 TO TG2=    3.240000 @ NSTEP     2948
   GFRAME TG2 MOMENTS CHECKSUM:  2.4751864830943D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.29017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.34153E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.17986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.21710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.37670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.58917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.91396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.61898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.82409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.26020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.51884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.03836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.69527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.83337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.21696E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.89330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.81377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.11779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.35952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.22506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.22506E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2400E+00  3.2450E+00 total power(Watts):  2.9874E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.24000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.389337E+02    0.387965E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.366927E+02    0.389849E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.382783E+02    0.374143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.406932E+02    0.378026E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.405660E+02    0.396417E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.381638E+02    0.403351E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.361850E+02    0.413873E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.348711E+02    0.401817E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.347387E+02    0.385910E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.357730E+02    0.370383E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.375554E+02    0.360089E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.396556E+02    0.357607E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.417257E+02    0.362633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.430009E+02    0.374901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.432551E+02    0.390596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.421574E+02    0.406558E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.403200E+02    0.417110E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.381069E+02    0.419854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.361411E+02    0.441548E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.331106E+02    0.425953E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.317817E+02    0.400407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.322086E+02    0.373010E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.343902E+02    0.349940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.379861E+02    0.336244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.418619E+02    0.336706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134576E+03   -0.450835E+02    0.350774E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133499E+03   -0.470065E+02    0.374321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133578E+03   -0.464411E+02    0.403541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.436279E+02    0.429827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.398716E+02    0.443627E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.398840E+02    0.313634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.378354E+02    0.314585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.393280E+02    0.300824E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.416489E+02    0.304681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.415253E+02    0.321029E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.392184E+02    0.326917E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.371281E+02    0.337163E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.358057E+02    0.326674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.356698E+02    0.312332E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.367083E+02    0.298057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.385015E+02    0.288553E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.407146E+02    0.285768E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.427956E+02    0.290320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.440756E+02    0.301343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.442193E+02    0.315601E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.432349E+02    0.329283E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.412838E+02    0.339396E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.390625E+02    0.342257E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.369950E+02    0.362908E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.339465E+02    0.349424E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.326953E+02    0.325702E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.331238E+02    0.300817E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.354213E+02    0.278736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.390470E+02    0.265906E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.429451E+02    0.266572E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.461723E+02    0.279654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.478535E+02    0.301517E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.474113E+02    0.326296E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.446039E+02    0.350098E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.408460E+02    0.363459E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.389322E+02    0.439778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.367886E+02    0.440740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.382808E+02    0.424775E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.405904E+02    0.429863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.405636E+02    0.449046E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.382599E+02    0.455380E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.360676E+02    0.466507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.348576E+02    0.453300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.348308E+02    0.436195E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.355759E+02    0.421265E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.374594E+02    0.410239E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.396629E+02    0.407422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.416286E+02    0.413540E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.430138E+02    0.426489E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.432618E+02    0.443549E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.422666E+02    0.459734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.403074E+02    0.470570E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.381951E+02    0.472505E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.362107E+02    0.494643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.330865E+02    0.477728E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.317702E+02    0.451232E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.322066E+02    0.422437E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.344912E+02    0.397978E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.378942E+02    0.385000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.417708E+02    0.385909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.451098E+02    0.400944E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133238E+03   -0.470346E+02    0.426921E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133348E+03   -0.464519E+02    0.458270E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.437273E+02    0.484464E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.399515E+02    0.497842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.392720E+02    0.352453E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.372307E+02    0.353486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.387180E+02    0.338749E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.410323E+02    0.342795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.410147E+02    0.359962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.386086E+02    0.366849E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.364247E+02    0.378124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.354008E+02    0.365225E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.350718E+02    0.350893E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.360099E+02    0.336409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.378918E+02    0.326074E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.400958E+02    0.323207E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.420643E+02    0.328322E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.434517E+02    0.339222E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.435958E+02    0.354611E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.426113E+02    0.369556E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.406640E+02    0.380250E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.385540E+02    0.382632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.364884E+02    0.404022E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.334488E+02    0.389561E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.321118E+02    0.365158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.326269E+02    0.338057E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.348181E+02    0.316216E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.382266E+02    0.304316E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.422000E+02    0.304199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.455342E+02    0.316811E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.473425E+02    0.338820E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.467813E+02    0.366551E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.439738E+02    0.391828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.402243E+02    0.405496E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.400274E+02    0.264502E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.379736E+02    0.265350E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.394781E+02    0.252156E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.418006E+02    0.255980E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.416656E+02    0.271734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.391502E+02    0.278539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.372552E+02    0.287310E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.359387E+02    0.277197E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.358102E+02    0.263205E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.367611E+02    0.250052E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.385604E+02    0.241058E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.409748E+02    0.237294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.429535E+02    0.242379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.442276E+02    0.252953E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.443618E+02    0.266587E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.433673E+02    0.279718E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.414124E+02    0.289454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.391899E+02    0.292168E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.371194E+02    0.311325E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.340683E+02    0.299144E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.328169E+02    0.276219E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.333464E+02    0.251401E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.355747E+02    0.230791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.391211E+02    0.218475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.432242E+02    0.218112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.464459E+02    0.231810E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133851E+03   -0.479991E+02    0.253436E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.473064E+02    0.277978E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.446155E+02    0.299952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.408668E+02    0.312166E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.94 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682461.044571013     
  ps_ts2 prof sum =   682052.478981956     
  trcom prof sum =    682052.478981956     
  ps_ts2 cur sum  =   10671.6672210286     
  trcom cur sum  =    10671.6672210286     
  
  antenna # iant =            2
  powecha_use(iant) =    663405.905238224     
  ps_ts2 prof sum =   663044.640308539     
  trcom prof sum =    663044.640308538     
  ps_ts2 cur sum  =   12215.1215551074     
  trcom cur sum  =    12215.1215551074     
  
  antenna # iant =            3
  powecha_use(iant) =    529877.484314207     
  ps_ts2 prof sum =   529546.459373370     
  trcom prof sum =    529546.459373371     
  ps_ts2 cur sum  =   7235.67053085508     
  trcom cur sum  =    7235.67053085509     
  
  antenna # iant =            4
  powecha_use(iant) =    566925.838526998     
  ps_ts2 prof sum =   566581.906946214     
  trcom prof sum =    566581.906946214     
  ps_ts2 cur sum  =   9638.27248017240     
  trcom cur sum  =    9638.27248017239     
  
  antenna # iant =            5
  powecha_use(iant) =    544697.800115443     
  ps_ts2 prof sum =   544385.287720077     
  trcom prof sum =    544385.287720077     
  ps_ts2 cur sum  =   10828.3084104737     
  trcom cur sum  =    10828.3084104737     
  
  Total ECH heating:      2985610.77333016     
  Total Current Drive:    50589.0401976372     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2960
 TA= 3.24000E+00 CPU TIME= 1.81271E-01 SECONDS.  DT= 8.82698E-04
  
 TEC1=    3.23999999999995     
 TEC2=    3.24499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.06318111111068     
  %check_save_state: izleft hours =    71.9283333333333     
 --> plasma_hash("gframe"): TA= 3.240000E+00 NSTEP=  2960 Hash code:   64451236
 ->PRGCHK: bdy curvature ratio at t= 3.2450E+00 seconds is:  5.6167E-02
% MHDEQ: TG1=     3.240000 ; TG2=     3.245000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6167E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.240000 TO TG2=    3.245000 @ NSTEP     2960
   GFRAME TG2 MOMENTS CHECKSUM:  2.4754605150128D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.2450E+00  3.2500E+00 total power(Watts):  2.9954E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.24500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.389072E+02    0.387818E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.368690E+02    0.388746E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.383558E+02    0.373507E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.406655E+02    0.377875E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.405390E+02    0.396271E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.382430E+02    0.402775E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.362611E+02    0.413377E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.350423E+02    0.400775E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.347147E+02    0.385786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.357483E+02    0.370286E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.375286E+02    0.360012E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.397303E+02    0.357024E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.416965E+02    0.362528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.429716E+02    0.374753E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.432266E+02    0.390415E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.422417E+02    0.406009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.402937E+02    0.417042E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.381860E+02    0.419389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.361182E+02    0.441482E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.330888E+02    0.425931E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.317596E+02    0.400323E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.321857E+02    0.372919E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.343647E+02    0.349918E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.379585E+02    0.336214E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.418312E+02    0.336667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.450515E+02    0.350692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133535E+03   -0.469752E+02    0.374135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.464113E+02    0.403364E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.438263E+02    0.429024E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.399551E+02    0.443175E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.398539E+02    0.313564E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.378062E+02    0.314538E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.393013E+02    0.300676E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.416178E+02    0.304549E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.416001E+02    0.320435E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.391881E+02    0.326891E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.371011E+02    0.337139E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.357778E+02    0.326669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.356420E+02    0.312287E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.365827E+02    0.298536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.383720E+02    0.288958E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.406873E+02    0.285532E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.427625E+02    0.290093E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.440419E+02    0.301175E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.441858E+02    0.315513E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.432031E+02    0.329232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.412534E+02    0.339349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.390337E+02    0.342228E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.370690E+02    0.362306E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.340172E+02    0.348830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.326699E+02    0.325705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.331871E+02    0.300121E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.353929E+02    0.278530E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.390159E+02    0.265628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.429114E+02    0.266256E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.461369E+02    0.279349E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.478174E+02    0.301319E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.472592E+02    0.326719E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.445724E+02    0.350014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.408173E+02    0.363362E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.389076E+02    0.439700E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.368674E+02    0.440282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.382583E+02    0.424723E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.406739E+02    0.429421E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.405384E+02    0.448939E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.382352E+02    0.455277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.362478E+02    0.465755E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.350323E+02    0.452470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.347101E+02    0.436546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.357511E+02    0.420374E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.375374E+02    0.409719E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.396368E+02    0.407315E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.417130E+02    0.413022E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.429856E+02    0.426442E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.432352E+02    0.443444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.422413E+02    0.459584E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.403927E+02    0.470148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.381721E+02    0.472399E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.361889E+02    0.494618E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.332558E+02    0.477057E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.317498E+02    0.451147E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.321851E+02    0.422413E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.343711E+02    0.398338E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.378684E+02    0.384858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.417428E+02    0.385738E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.450803E+02    0.400782E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133273E+03   -0.470053E+02    0.426827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.465444E+02    0.457809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.437013E+02    0.484382E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.399280E+02    0.497804E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.392438E+02    0.352399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.372038E+02    0.353436E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.386897E+02    0.338719E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.410022E+02    0.342751E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.409856E+02    0.359878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.385806E+02    0.366746E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.365994E+02    0.376998E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.353757E+02    0.365135E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.352382E+02    0.349758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.359832E+02    0.336401E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.377624E+02    0.326613E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.400644E+02    0.323175E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.421410E+02    0.327739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.434204E+02    0.339166E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.435645E+02    0.354535E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.425821E+02    0.369418E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.407446E+02    0.379618E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.385278E+02    0.382488E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.364638E+02    0.403921E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.334257E+02    0.389444E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.320869E+02    0.365099E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.326041E+02    0.338052E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.347911E+02    0.316193E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.383932E+02    0.303068E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.422751E+02    0.303509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.454999E+02    0.316719E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133473E+03   -0.474263E+02    0.338249E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133539E+03   -0.468679E+02    0.365932E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.440593E+02    0.391209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.403060E+02    0.404940E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.398953E+02    0.264810E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.379434E+02    0.265081E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.393479E+02    0.252462E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.418699E+02    0.255078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.417368E+02    0.270867E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.393191E+02    0.277113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.372259E+02    0.287126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.359099E+02    0.276978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.357813E+02    0.262952E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.367304E+02    0.249794E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.387210E+02    0.239533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.409411E+02    0.236989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.429181E+02    0.242056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.441924E+02    0.252597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.443272E+02    0.266255E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.433335E+02    0.279443E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.413807E+02    0.289241E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.391592E+02    0.291997E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.370906E+02    0.311267E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.340412E+02    0.299047E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.327905E+02    0.276022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.333204E+02    0.251149E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.356343E+02    0.229907E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.392774E+02    0.216978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.431875E+02    0.217840E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.464078E+02    0.231460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.479615E+02    0.253041E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133716E+03   -0.474973E+02    0.276587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.446925E+02    0.299229E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.409405E+02    0.311531E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687942.498409110     
  ps_ts2 prof sum =   687559.706849763     
  trcom prof sum =    687559.706849763     
  ps_ts2 cur sum  =   10732.4123516685     
  trcom cur sum  =    10732.4123516685     
  
  antenna # iant =            2
  powecha_use(iant) =    665169.500240775     
  ps_ts2 prof sum =   664753.586109366     
  trcom prof sum =    664753.586109365     
  ps_ts2 cur sum  =   12229.2241413487     
  trcom cur sum  =    12229.2241413487     
  
  antenna # iant =            3
  powecha_use(iant) =    530369.368837559     
  ps_ts2 prof sum =   530059.633837343     
  trcom prof sum =    530059.633837344     
  ps_ts2 cur sum  =   7221.57349310526     
  trcom cur sum  =    7221.57349310527     
  
  antenna # iant =            4
  powecha_use(iant) =    566419.346342827     
  ps_ts2 prof sum =   566096.501004439     
  trcom prof sum =    566096.501004438     
  ps_ts2 cur sum  =   9610.41061895300     
  trcom cur sum  =    9610.41061895298     
  
  antenna # iant =            5
  powecha_use(iant) =    545490.180787933     
  ps_ts2 prof sum =   545190.318439847     
  trcom prof sum =    545190.318439847     
  ps_ts2 cur sum  =   10835.3006014835     
  trcom cur sum  =    10835.3006014835     
  
  Total ECH heating:      2993659.74624076     
  Total Current Drive:    50628.9212065589     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2964
 TA= 3.24500E+00 CPU TIME= 1.64350E-01 SECONDS.  DT= 2.04339E-03
  
 TEC1=    3.24499999999995     
 TEC2=    3.24999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.07942694444455     
  %check_save_state: izleft hours =    71.9122222222222     
 --> plasma_hash("gframe"): TA= 3.245000E+00 NSTEP=  2964 Hash code:   46772415
 ->PRGCHK: bdy curvature ratio at t= 3.2500E+00 seconds is:  5.6154E-02
% MHDEQ: TG1=     3.245000 ; TG2=     3.250000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6154E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.245000 TO TG2=    3.250000 @ NSTEP     2964
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757345469312D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.81372E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.50028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.97151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.98868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.35278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34627E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.66713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.75092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -6.10057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.59636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.32799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.99793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.98258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.56105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.18765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.23512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.60132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.74745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.82407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.37218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.37218E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2500E+00  3.2550E+00 total power(Watts):  2.9991E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.25000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.388819E+02    0.387682E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.368482E+02    0.388616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.383290E+02    0.373401E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.406389E+02    0.377743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.406217E+02    0.395670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.382175E+02    0.402678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.362377E+02    0.413322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.350190E+02    0.400685E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.346904E+02    0.385679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.356260E+02    0.370718E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.375029E+02    0.359934E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.397029E+02    0.356940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.416678E+02    0.362434E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.430556E+02    0.374140E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.431989E+02    0.390252E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.422149E+02    0.405885E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.403774E+02    0.416553E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.381629E+02    0.419331E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.359957E+02    0.441794E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.330672E+02    0.425914E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.317390E+02    0.400232E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.322543E+02    0.372303E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.345295E+02    0.348766E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.379308E+02    0.336170E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.418017E+02    0.336601E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134212E+03   -0.452502E+02    0.349622E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133571E+03   -0.469449E+02    0.373970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.462634E+02    0.403629E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.436846E+02    0.429337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.399313E+02    0.443089E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.398239E+02    0.313467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.377778E+02    0.314457E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.392688E+02    0.300561E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.416937E+02    0.303846E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.415703E+02    0.320342E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.391599E+02    0.326825E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.369746E+02    0.337661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.359457E+02    0.325451E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.356154E+02    0.312204E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.365554E+02    0.298415E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.385420E+02    0.287619E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.407552E+02    0.284808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.427310E+02    0.289916E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.440094E+02    0.301011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.441545E+02    0.315382E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.431724E+02    0.329145E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.413319E+02    0.338759E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.391096E+02    0.341625E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.370438E+02    0.362231E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.339899E+02    0.348820E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.326458E+02    0.325670E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.331618E+02    0.300023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.353659E+02    0.278403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.388875E+02    0.266080E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.428788E+02    0.266070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.462146E+02    0.278605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133436E+03   -0.480161E+02    0.300081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133506E+03   -0.474608E+02    0.325588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.447692E+02    0.348946E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.407893E+02    0.363259E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.388838E+02    0.439648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.368443E+02    0.440236E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.383362E+02    0.424292E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.406489E+02    0.429368E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.406241E+02    0.448488E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.382124E+02    0.455170E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.362262E+02    0.465649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.350112E+02    0.452386E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.346879E+02    0.436514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.357284E+02    0.420340E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.375132E+02    0.409643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.396113E+02    0.407218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.416867E+02    0.412935E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.430733E+02    0.425984E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.432094E+02    0.443351E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.422163E+02    0.459460E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.403692E+02    0.470033E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.381541E+02    0.472296E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.361677E+02    0.494602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.331410E+02    0.477307E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.317304E+02    0.451073E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.321622E+02    0.422412E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.343480E+02    0.398250E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.379463E+02    0.384244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.417156E+02    0.385589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.452853E+02    0.399783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.469768E+02    0.426743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133203E+03   -0.465175E+02    0.457657E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.439082E+02    0.483795E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.400141E+02    0.497552E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.393214E+02    0.351806E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.370777E+02    0.353919E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.386623E+02    0.338669E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.410801E+02    0.342173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.409571E+02    0.359799E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.385543E+02    0.366655E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.365741E+02    0.376877E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.352548E+02    0.365589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.352141E+02    0.349709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.361514E+02    0.335227E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.379349E+02    0.325427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.400355E+02    0.323099E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.421110E+02    0.327660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.433901E+02    0.339097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.436469E+02    0.353951E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.425537E+02    0.369297E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.407181E+02    0.379479E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.385024E+02    0.382359E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.363392E+02    0.404296E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.335900E+02    0.388347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.321565E+02    0.364478E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.325803E+02    0.338033E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.347655E+02    0.316118E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.383648E+02    0.302942E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.422436E+02    0.303365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.454695E+02    0.316583E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.473938E+02    0.338144E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133579E+03   -0.468355E+02    0.365782E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.440312E+02    0.391046E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.402788E+02    0.404843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.400652E+02    0.263452E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.378177E+02    0.265547E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.395138E+02    0.251078E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.418376E+02    0.254884E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.417055E+02    0.270692E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.392898E+02    0.276950E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.371002E+02    0.287598E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.360699E+02    0.275611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.358459E+02    0.262190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.367957E+02    0.248999E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.386904E+02    0.239353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.409086E+02    0.236791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.429885E+02    0.241250E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.442636E+02    0.251824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.444016E+02    0.265496E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.433014E+02    0.279257E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.413502E+02    0.289066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.391303E+02    0.291846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.369653E+02    0.311762E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.341072E+02    0.298324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138005E+03   -0.327649E+02    0.275917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.332937E+02    0.251024E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.356051E+02    0.229754E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.391505E+02    0.217468E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.431526E+02    0.217668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.463719E+02    0.231210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133499E+03   -0.481501E+02    0.251702E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133971E+03   -0.473492E+02    0.276892E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.446594E+02    0.299061E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.409101E+02    0.311419E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691199.907056007     
  ps_ts2 prof sum =   690794.082848347     
  trcom prof sum =    690794.082848347     
  ps_ts2 cur sum  =   10763.6435055299     
  trcom cur sum  =    10763.6435055299     
  
  antenna # iant =            2
  powecha_use(iant) =    662948.207228753     
  ps_ts2 prof sum =   662563.115049581     
  trcom prof sum =    662563.115049580     
  ps_ts2 cur sum  =   12175.9121762880     
  trcom cur sum  =    12175.9121762880     
  
  antenna # iant =            3
  powecha_use(iant) =    530035.504506868     
  ps_ts2 prof sum =   529725.335615969     
  trcom prof sum =    529725.335615970     
  ps_ts2 cur sum  =   7199.61815057944     
  trcom cur sum  =    7199.61815057945     
  
  antenna # iant =            4
  powecha_use(iant) =    569020.824030542     
  ps_ts2 prof sum =   568698.815424497     
  trcom prof sum =    568698.815424496     
  ps_ts2 cur sum  =   9640.25234497570     
  trcom cur sum  =    9640.25234497569     
  
  antenna # iant =            5
  powecha_use(iant) =    545914.841210061     
  ps_ts2 prof sum =   545630.312731445     
  trcom prof sum =    545630.312731445     
  ps_ts2 cur sum  =   10838.6697400521     
  trcom cur sum  =    10838.6697400521     
  
  Total ECH heating:      2997411.66166984     
  Total Current Drive:    50618.0959174252     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2967
 TA= 3.25000E+00 CPU TIME= 1.59711E-01 SECONDS.  DT= 5.02956E-04
  
 TEC1=    3.24999999999995     
 TEC2=    3.25499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.09437027777744     
  %check_save_state: izleft hours =    71.8972222222222     
 --> plasma_hash("gframe"): TA= 3.250000E+00 NSTEP=  2967 Hash code:   71219460
 ->PRGCHK: bdy curvature ratio at t= 3.2550E+00 seconds is:  5.6143E-02
% MHDEQ: TG1=     3.250000 ; TG2=     3.255000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6143E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.250000 TO TG2=    3.255000 @ NSTEP     2967
   GFRAME TG2 MOMENTS CHECKSUM:  2.4760085788497D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2550E+00  3.2600E+00 total power(Watts):  2.9969E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.25500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.388567E+02    0.387560E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.368211E+02    0.388509E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.383037E+02    0.373290E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.406125E+02    0.377615E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.405958E+02    0.395546E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.381934E+02    0.402571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.362146E+02    0.413271E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.348989E+02    0.401067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.348612E+02    0.384569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.356010E+02    0.370642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.374780E+02    0.359866E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.396753E+02    0.356883E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.416403E+02    0.362342E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.430280E+02    0.374000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.431716E+02    0.390103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.421850E+02    0.405779E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.403523E+02    0.416487E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.381391E+02    0.419283E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.361746E+02    0.440987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.331403E+02    0.425471E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.318086E+02    0.399663E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.322343E+02    0.372224E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.344116E+02    0.349281E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.378040E+02    0.336659E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.417733E+02    0.336509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.451047E+02    0.350020E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.467963E+02    0.374275E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133473E+03   -0.464728E+02    0.402636E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.436582E+02    0.429281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.399075E+02    0.443023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.398994E+02    0.312764E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.377510E+02    0.314337E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.393425E+02    0.299818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.416637E+02    0.303681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.415413E+02    0.320216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.391326E+02    0.326731E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.371475E+02    0.336477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.359189E+02    0.325380E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.357810E+02    0.310895E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.367216E+02    0.297074E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.385139E+02    0.287475E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.407266E+02    0.284638E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.427004E+02    0.289734E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.439787E+02    0.300818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.442352E+02    0.314693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.431428E+02    0.329040E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.413038E+02    0.338685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.390827E+02    0.341563E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.370192E+02    0.362148E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.339670E+02    0.348770E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.326216E+02    0.325610E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.331336E+02    0.299925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.353394E+02    0.278302E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.388580E+02    0.265959E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.429521E+02    0.265348E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.461810E+02    0.278415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133474E+03   -0.479834E+02    0.299848E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.474279E+02    0.325450E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.446254E+02    0.349352E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.408699E+02    0.362668E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.388604E+02    0.439591E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.368217E+02    0.440184E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.383134E+02    0.424244E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.406237E+02    0.429333E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.406001E+02    0.448405E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.381907E+02    0.455063E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.362049E+02    0.465560E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.348927E+02    0.452663E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.348618E+02    0.435683E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.357054E+02    0.420313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.374892E+02    0.409565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.396934E+02    0.406681E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.416606E+02    0.412854E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.430470E+02    0.425932E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.434129E+02    0.442577E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.423049E+02    0.459037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.403455E+02    0.469938E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.381270E+02    0.472231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.361468E+02    0.494601E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.331217E+02    0.477262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.317110E+02    0.451013E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.321435E+02    0.422391E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.343260E+02    0.398153E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.379221E+02    0.384132E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.417994E+02    0.384984E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.452576E+02    0.399631E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133128E+03   -0.470693E+02    0.426305E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.464911E+02    0.457530E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.437653E+02    0.483974E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.399912E+02    0.497545E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.392944E+02    0.351744E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.372533E+02    0.352784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.387383E+02    0.338052E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.410527E+02    0.342085E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.409299E+02    0.359706E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.386315E+02    0.366055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.365501E+02    0.376782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.352311E+02    0.365524E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.350956E+02    0.350212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.361261E+02    0.335168E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.379127E+02    0.325315E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.401121E+02    0.322428E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.420822E+02    0.327551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.433609E+02    0.338999E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.436178E+02    0.353861E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.426376E+02    0.368686E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.406918E+02    0.379350E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.384750E+02    0.382243E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.365169E+02    0.403275E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.334738E+02    0.388753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.321343E+02    0.364430E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.325566E+02    0.337996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.347397E+02    0.316031E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.383376E+02    0.302792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.422140E+02    0.303189E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.456636E+02    0.315374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.473619E+02    0.338028E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133612E+03   -0.468071E+02    0.365643E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.440045E+02    0.390883E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.402545E+02    0.404719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.400346E+02    0.263330E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.377890E+02    0.265433E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.394832E+02    0.250927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.418058E+02    0.254725E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.416740E+02    0.270551E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.392609E+02    0.276819E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.370737E+02    0.287460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.359491E+02    0.276126E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.358183E+02    0.262088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.367670E+02    0.248864E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.385642E+02    0.239803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.408762E+02    0.236597E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.429549E+02    0.241048E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.442306E+02    0.251633E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.443689E+02    0.265324E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.432699E+02    0.279094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.414245E+02    0.288328E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.392030E+02    0.291099E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.369381E+02    0.311643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.340825E+02    0.298198E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.327401E+02    0.275831E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.333540E+02    0.250264E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.355775E+02    0.229582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.391174E+02    0.217299E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.432201E+02    0.216868E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.464409E+02    0.230404E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133754E+03   -0.480018E+02    0.252001E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.473144E+02    0.276705E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.446284E+02    0.298856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.408815E+02    0.311277E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685873.658944136     
  ps_ts2 prof sum =   685450.113825894     
  trcom prof sum =    685450.113825895     
  ps_ts2 cur sum  =   10665.7765557757     
  trcom cur sum  =    10665.7765557757     
  
  antenna # iant =            2
  powecha_use(iant) =    667215.991122790     
  ps_ts2 prof sum =   666866.959347968     
  trcom prof sum =    666866.959347968     
  ps_ts2 cur sum  =   12246.0252532449     
  trcom cur sum  =    12246.0252532449     
  
  antenna # iant =            3
  powecha_use(iant) =    530110.375875647     
  ps_ts2 prof sum =   529792.360227947     
  trcom prof sum =    529792.360227948     
  ps_ts2 cur sum  =   7185.90187906166     
  trcom cur sum  =    7185.90187906167     
  
  antenna # iant =            4
  powecha_use(iant) =    569922.664857329     
  ps_ts2 prof sum =   569608.413533070     
  trcom prof sum =    569608.413533070     
  ps_ts2 cur sum  =   9645.17857860368     
  trcom cur sum  =    9645.17857860367     
  
  antenna # iant =            5
  powecha_use(iant) =    543777.810843977     
  ps_ts2 prof sum =   543465.087209167     
  trcom prof sum =    543465.087171983     
  ps_ts2 cur sum  =   10794.3930798861     
  trcom cur sum  =    10794.3930798861     
  
  Total ECH heating:      2995182.93410686     
  Total Current Drive:    50537.2753465720     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2973
 TA= 3.25500E+00 CPU TIME= 1.59892E-01 SECONDS.  DT= 1.09028E-03
  
 TEC1=    3.25499999999995     
 TEC2=    3.25999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.10767527777762     
  %check_save_state: izleft hours =    71.8838888888889     
 --> plasma_hash("gframe"): TA= 3.255000E+00 NSTEP=  2973 Hash code:  115102184
 ->PRGCHK: bdy curvature ratio at t= 3.2600E+00 seconds is:  5.6161E-02
% MHDEQ: TG1=     3.255000 ; TG2=     3.260000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6161E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.255000 TO TG2=    3.260000 @ NSTEP     2973
   GFRAME TG2 MOMENTS CHECKSUM:  2.4757992924938D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.05282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.52094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  1.93803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.05612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.37502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.52649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.43833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.61829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.78511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.60116E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.18559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.29682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.22338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.36356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.49911E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.15539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.29616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.61974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.66564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.20424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.29694E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.29694E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.2600E+00  3.2650E+00 total power(Watts):  2.9986E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.26000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.389455E+02    0.386892E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.367049E+02    0.388824E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.382866E+02    0.373097E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.405949E+02    0.377415E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.405794E+02    0.395365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.381782E+02    0.402412E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.362010E+02    0.413134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.348848E+02    0.400920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.347491E+02    0.384905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.357822E+02    0.369392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.375617E+02    0.359128E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.396579E+02    0.356648E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.417306E+02    0.361609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.430093E+02    0.373778E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.432671E+02    0.389447E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.421692E+02    0.405605E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.403372E+02    0.416339E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.381245E+02    0.419155E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.361617E+02    0.440905E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.331277E+02    0.425366E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.317950E+02    0.399539E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.322202E+02    0.372049E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.343945E+02    0.349086E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.379867E+02    0.335307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.417520E+02    0.336255E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.450836E+02    0.349763E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133390E+03   -0.470139E+02    0.373099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.464551E+02    0.402431E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.436428E+02    0.429151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.398936E+02    0.442932E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.398782E+02    0.312449E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.376320E+02    0.314624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.393200E+02    0.299471E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.416410E+02    0.303321E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.415196E+02    0.319909E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.391121E+02    0.326467E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.371292E+02    0.336246E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.358039E+02    0.325715E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.356655E+02    0.311209E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.367002E+02    0.296741E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.384902E+02    0.287108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.407018E+02    0.284249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.426757E+02    0.289327E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.440646E+02    0.299874E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.442116E+02    0.314348E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.431206E+02    0.328746E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.412832E+02    0.338432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.390633E+02    0.341333E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.370021E+02    0.361946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.339505E+02    0.348577E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.326045E+02    0.325381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.331148E+02    0.299617E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.354097E+02    0.277322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.390290E+02    0.264330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.429248E+02    0.264867E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.461535E+02    0.277937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133473E+03   -0.479587E+02    0.299402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.474043E+02    0.325104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.446046E+02    0.349086E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.408528E+02    0.362432E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.389529E+02    0.439118E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.368089E+02    0.440099E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.382993E+02    0.424119E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.406093E+02    0.429211E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.405864E+02    0.448324E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.382830E+02    0.454658E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.360922E+02    0.465852E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.348809E+02    0.452603E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.348495E+02    0.435584E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.355929E+02    0.420625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.374751E+02    0.409418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.396779E+02    0.406520E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.416449E+02    0.412698E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.430316E+02    0.425785E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.432837E+02    0.442818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.422911E+02    0.458968E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.404425E+02    0.469601E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.382203E+02    0.471895E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.362369E+02    0.494351E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.331109E+02    0.477247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.317912E+02    0.450582E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.322231E+02    0.421840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.345044E+02    0.397032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.379059E+02    0.383935E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.417821E+02    0.384776E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.451235E+02    0.399847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133122E+03   -0.470527E+02    0.426142E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133015E+03   -0.465960E+02    0.457152E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.437517E+02    0.483944E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.399794E+02    0.497544E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.392758E+02    0.351517E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.372348E+02    0.352578E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.387189E+02    0.337815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.410329E+02    0.341831E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.409109E+02    0.359489E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.386148E+02    0.365840E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.364339E+02    0.377107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.354088E+02    0.364263E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.350780E+02    0.350021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.360107E+02    0.335514E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.378892E+02    0.325074E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.400914E+02    0.322145E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.420603E+02    0.327269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.434510E+02    0.338208E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.435974E+02    0.353606E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.426185E+02    0.368452E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.406742E+02    0.379148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.385629E+02    0.381565E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.365025E+02    0.403123E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.334602E+02    0.388585E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.321196E+02    0.364250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.326306E+02    0.337213E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.349088E+02    0.314564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.382157E+02    0.303055E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.421912E+02    0.302818E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.455257E+02    0.315547E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.473393E+02    0.337719E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133610E+03   -0.467866E+02    0.365384E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.439875E+02    0.390669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.402387E+02    0.404557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.400083E+02    0.262886E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.377640E+02    0.265023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.394559E+02    0.250452E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.417773E+02    0.254237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.416483E+02    0.270100E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.392363E+02    0.276428E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.372447E+02    0.285887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.359262E+02    0.275764E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.357943E+02    0.261689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.367411E+02    0.248416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.385362E+02    0.239317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.409461E+02    0.235465E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.429250E+02    0.240495E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.442010E+02    0.251092E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.443404E+02    0.264831E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.432435E+02    0.278658E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.414003E+02    0.287926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.391798E+02    0.290730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.371144E+02    0.310166E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.340624E+02    0.297890E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.328066E+02    0.274843E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.333305E+02    0.249850E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.355496E+02    0.229137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.390878E+02    0.216823E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.431862E+02    0.216341E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.464090E+02    0.229802E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.479697E+02    0.251402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.472864E+02    0.276199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.446038E+02    0.298450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.408597E+02    0.310945E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687176.878208119     
  ps_ts2 prof sum =   686757.792542597     
  trcom prof sum =    686757.792542596     
  ps_ts2 cur sum  =   10639.6800489669     
  trcom cur sum  =    10639.6800489669     
  
  antenna # iant =            2
  powecha_use(iant) =    665077.411592555     
  ps_ts2 prof sum =   664693.376336428     
  trcom prof sum =    664693.376336428     
  ps_ts2 cur sum  =   12171.8108887407     
  trcom cur sum  =    12171.8108887407     
  
  antenna # iant =            3
  powecha_use(iant) =    530196.879569871     
  ps_ts2 prof sum =   529871.109539258     
  trcom prof sum =    529871.109539258     
  ps_ts2 cur sum  =   7147.92379446667     
  trcom cur sum  =    7147.92379446668     
  
  antenna # iant =            4
  powecha_use(iant) =    570474.934761863     
  ps_ts2 prof sum =   570140.204558737     
  trcom prof sum =    570140.204558736     
  ps_ts2 cur sum  =   9619.54613686923     
  trcom cur sum  =    9619.54613686922     
  
  antenna # iant =            5
  powecha_use(iant) =    545688.480024079     
  ps_ts2 prof sum =   545378.752338398     
  trcom prof sum =    545378.752301384     
  ps_ts2 cur sum  =   10807.9529691422     
  trcom cur sum  =    10807.9529691422     
  
  Total ECH heating:      2996841.23527840     
  Total Current Drive:    50386.9138381857     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2977
 TA= 3.26000E+00 CPU TIME= 1.62486E-01 SECONDS.  DT= 1.05415E-03
  
 TEC1=    3.25999999999995     
 TEC2=    3.26499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.12094694444409     
  %check_save_state: izleft hours =    71.8705555555556     
 --> plasma_hash("gframe"): TA= 3.260000E+00 NSTEP=  2977 Hash code:   23953719
 ->PRGCHK: bdy curvature ratio at t= 3.2650E+00 seconds is:  5.6180E-02
% MHDEQ: TG1=     3.260000 ; TG2=     3.265000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6180E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.260000 TO TG2=    3.265000 @ NSTEP     2977
   GFRAME TG2 MOMENTS CHECKSUM:  2.4755900061378D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2650E+00  3.2700E+00 total power(Watts):  3.0115E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.26500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.389279E+02    0.386690E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.368899E+02    0.387654E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.383715E+02    0.372387E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.406839E+02    0.376710E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.405618E+02    0.395156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.382660E+02    0.401763E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.360859E+02    0.413416E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.350642E+02    0.399793E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.347327E+02    0.384731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.357646E+02    0.369204E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.375426E+02    0.358926E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.396377E+02    0.356433E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.417099E+02    0.361385E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.429891E+02    0.373548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.432481E+02    0.389226E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.422641E+02    0.404964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.403210E+02    0.416159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.382134E+02    0.418563E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.361481E+02    0.440792E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.331140E+02    0.425238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.317808E+02    0.399379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.322051E+02    0.371875E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.343765E+02    0.348887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.379653E+02    0.335081E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.418377E+02    0.335458E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.450608E+02    0.349499E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.469922E+02    0.372839E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133465E+03   -0.464358E+02    0.402200E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.438564E+02    0.428212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.399872E+02    0.442441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.398548E+02    0.312150E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.378087E+02    0.313175E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.392957E+02    0.299144E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.416159E+02    0.302979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.416031E+02    0.319055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.391933E+02    0.325642E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.371086E+02    0.336021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.357836E+02    0.325477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.356438E+02    0.310942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.365810E+02    0.297028E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.384654E+02    0.286749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.406756E+02    0.283856E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.427559E+02    0.288357E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.440380E+02    0.299495E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.441861E+02    0.314013E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.432072E+02    0.327922E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.412609E+02    0.338178E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.390423E+02    0.341101E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.368831E+02    0.362284E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.341197E+02    0.347249E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.326754E+02    0.324555E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.331868E+02    0.298694E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.353857E+02    0.276964E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.390023E+02    0.263892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.428954E+02    0.264383E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.461238E+02    0.277456E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133684E+03   -0.478158E+02    0.299496E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.472613E+02    0.325283E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.445817E+02    0.348829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.408338E+02    0.362210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.389388E+02    0.438990E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.368973E+02    0.439596E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.382835E+02    0.423968E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.407030E+02    0.428660E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.405718E+02    0.448204E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.382691E+02    0.454565E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.362818E+02    0.465124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.350647E+02    0.451783E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.347384E+02    0.435870E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.357771E+02    0.419600E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.374595E+02    0.409243E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.396614E+02    0.406324E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.417390E+02    0.412075E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.430151E+02    0.425608E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.432680E+02    0.442672E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.422764E+02    0.458864E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.404290E+02    0.469517E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.382075E+02    0.471820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.362256E+02    0.494322E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.330999E+02    0.477202E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.317796E+02    0.450495E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.322099E+02    0.421708E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.344891E+02    0.396858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.378884E+02    0.383737E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.417632E+02    0.384555E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.451045E+02    0.399616E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133117E+03   -0.470351E+02    0.425939E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133009E+03   -0.465799E+02    0.457026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.437375E+02    0.483878E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.399670E+02    0.497510E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.392555E+02    0.351299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.372156E+02    0.352366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.386973E+02    0.337587E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.410111E+02    0.341591E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.409991E+02    0.358738E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.385958E+02    0.365635E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.366162E+02    0.375894E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.353909E+02    0.364077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.350607E+02    0.349816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.359906E+02    0.335294E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.378670E+02    0.324825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.400686E+02    0.321867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.421452E+02    0.326443E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.434277E+02    0.337941E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.435755E+02    0.353366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.425980E+02    0.368231E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.407635E+02    0.378445E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.385460E+02    0.381356E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.364868E+02    0.402942E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.334447E+02    0.388413E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.321032E+02    0.364082E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.326123E+02    0.337013E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.347941E+02    0.314914E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.383923E+02    0.301556E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.422727E+02    0.301908E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.454998E+02    0.315203E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.471966E+02    0.337923E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.466463E+02    0.365591E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.441983E+02    0.389536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.403298E+02    0.403921E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.399800E+02    0.262437E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.379303E+02    0.263368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.394273E+02    0.249968E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.418501E+02    0.253134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.417239E+02    0.269060E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.393098E+02    0.275421E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.372206E+02    0.285538E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.359018E+02    0.275397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.357689E+02    0.261283E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.367138E+02    0.247968E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.386985E+02    0.237572E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.409146E+02    0.234948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.428927E+02    0.239954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.441693E+02    0.250546E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.443102E+02    0.264327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.433225E+02    0.277646E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.413748E+02    0.287526E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.391549E+02    0.290377E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.370921E+02    0.309881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.340408E+02    0.297596E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.327841E+02    0.274501E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.333055E+02    0.249452E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.356106E+02    0.228023E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.392477E+02    0.215057E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.431500E+02    0.215821E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.463759E+02    0.229197E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.479355E+02    0.250807E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.474829E+02    0.274609E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.446877E+02    0.297508E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.408356E+02    0.310632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694347.145886637     
  ps_ts2 prof sum =   693949.590553760     
  trcom prof sum =    693949.590553760     
  ps_ts2 cur sum  =   10696.1335629024     
  trcom cur sum  =    10696.1335629024     
  
  antenna # iant =            2
  powecha_use(iant) =    666409.380648519     
  ps_ts2 prof sum =   666012.005542508     
  trcom prof sum =    666012.005542508     
  ps_ts2 cur sum  =   12146.7342373592     
  trcom cur sum  =    12146.7342373592     
  
  antenna # iant =            3
  powecha_use(iant) =    530391.995502694     
  ps_ts2 prof sum =   530077.299853082     
  trcom prof sum =    530077.299853082     
  ps_ts2 cur sum  =   7109.45874775842     
  trcom cur sum  =    7109.45874775843     
  
  antenna # iant =            4
  powecha_use(iant) =    575011.388694689     
  ps_ts2 prof sum =   574675.660461740     
  trcom prof sum =    574675.660461740     
  ps_ts2 cur sum  =   9650.62495444507     
  trcom cur sum  =    9650.62495444506     
  
  antenna # iant =            5
  powecha_use(iant) =    545329.621657716     
  ps_ts2 prof sum =   545057.140433388     
  trcom prof sum =    545057.140396248     
  ps_ts2 cur sum  =   10766.0834994151     
  trcom cur sum  =    10766.0834994151     
  
  Total ECH heating:      3009771.69680734     
  Total Current Drive:    50369.0350018802     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2981
 TA= 3.26500E+00 CPU TIME= 1.59374E-01 SECONDS.  DT= 1.22631E-03
  
 TEC1=    3.26499999999995     
 TEC2=    3.26999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.13605777777775     
  %check_save_state: izleft hours =    71.8555555555556     
 --> plasma_hash("gframe"): TA= 3.265000E+00 NSTEP=  2981 Hash code:   15405385
 ->PRGCHK: bdy curvature ratio at t= 3.2700E+00 seconds is:  5.6202E-02
% MHDEQ: TG1=     3.265000 ; TG2=     3.270000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1200E-03 SECONDS
   DATA R*BT AT EDGE:  2.7633E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6202E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.265000 TO TG2=    3.270000 @ NSTEP     2981
   GFRAME TG2 MOMENTS CHECKSUM:  2.4753807142506D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.91211E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.34709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.15007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.12773E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.46539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.56986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.84628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.68368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -2.51915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.94050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.48982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.71666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.49403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.73027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.11549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.34128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.96895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.98611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.80682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.27022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.27022E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2700E+00  3.2750E+00 total power(Watts):  3.0034E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.27000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.389110E+02    0.386463E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.368735E+02    0.387442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.383538E+02    0.372144E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.406657E+02    0.376461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.406531E+02    0.394474E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.382503E+02    0.401560E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.362715E+02    0.412345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.350496E+02    0.399603E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.347174E+02    0.384525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.357476E+02    0.368983E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.375238E+02    0.358691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.397232E+02    0.355655E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.416901E+02    0.361114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.430819E+02    0.372796E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.432299E+02    0.388974E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.422483E+02    0.404729E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.404132E+02    0.415556E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.381988E+02    0.418388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.361357E+02    0.440681E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.331017E+02    0.425102E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.317674E+02    0.399206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.322770E+02    0.371146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.343585E+02    0.348661E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.379452E+02    0.334801E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.418155E+02    0.335155E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.452680E+02    0.348176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133386E+03   -0.469715E+02    0.372539E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133679E+03   -0.462990E+02    0.402359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.437258E+02    0.428412E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.399734E+02    0.442320E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.398314E+02    0.311821E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.377860E+02    0.312868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.392715E+02    0.298787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.415908E+02    0.302611E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.415793E+02    0.318728E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.391715E+02    0.325345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.369846E+02    0.336353E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.359562E+02    0.324028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.356224E+02    0.310648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.365581E+02    0.296688E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.385398E+02    0.285758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.407523E+02    0.282851E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.427284E+02    0.287938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.440113E+02    0.299090E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.441609E+02    0.313646E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.431837E+02    0.327595E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.412392E+02    0.337887E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.391249E+02    0.340285E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.370653E+02    0.360983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.340078E+02    0.347593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.326561E+02    0.324307E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.331674E+02    0.298379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.353592E+02    0.276606E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.389745E+02    0.263444E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.428658E+02    0.263882E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.462053E+02    0.276409E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133265E+03   -0.480160E+02    0.297997E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.472357E+02    0.324911E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.445596E+02    0.348524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.408154E+02    0.361942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.389253E+02    0.438858E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.368834E+02    0.439481E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.383738E+02    0.423388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.406882E+02    0.428496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.406676E+02    0.447735E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.382565E+02    0.454464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.362697E+02    0.465047E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.350527E+02    0.451694E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.347258E+02    0.435755E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.357633E+02    0.419440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.375469E+02    0.408604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.396445E+02    0.406135E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.417222E+02    0.411883E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.432266E+02    0.424651E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.432532E+02    0.442544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.422626E+02    0.458761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.404162E+02    0.469439E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.381955E+02    0.471757E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.362149E+02    0.494299E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.332787E+02    0.476541E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.317682E+02    0.450411E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.321974E+02    0.421565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.343782E+02    0.397160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.379744E+02    0.383024E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.417452E+02    0.384307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.453199E+02    0.398499E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133114E+03   -0.470183E+02    0.425731E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133003E+03   -0.465648E+02    0.456896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.439555E+02    0.483312E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.399554E+02    0.497486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.393399E+02    0.350501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.371968E+02    0.352126E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.386767E+02    0.337312E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.409893E+02    0.341315E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.409792E+02    0.358469E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.385776E+02    0.365394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.365995E+02    0.375664E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.352768E+02    0.364396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.352317E+02    0.348469E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.361655E+02    0.333883E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.379464E+02    0.323952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.400459E+02    0.321558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.421221E+02    0.326125E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.434047E+02    0.337637E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.435541E+02    0.353071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.425784E+02    0.367967E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.407454E+02    0.378197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.385298E+02    0.381122E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.363714E+02    0.403226E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.334298E+02    0.388220E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.320869E+02    0.363878E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.325945E+02    0.336776E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.347732E+02    0.314629E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.383687E+02    0.301214E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.422472E+02    0.301532E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.454740E+02    0.314825E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133326E+03   -0.474077E+02    0.336564E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133391E+03   -0.468610E+02    0.364344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.440663E+02    0.389727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.403136E+02    0.403706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.400527E+02    0.261363E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.379035E+02    0.262930E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.392998E+02    0.250106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.418199E+02    0.252619E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.416955E+02    0.268592E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.392840E+02    0.274991E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.370996E+02    0.285783E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.358772E+02    0.275016E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.359281E+02    0.259578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.368729E+02    0.246217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.386678E+02    0.237082E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.408827E+02    0.234422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.429639E+02    0.238800E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.442434E+02    0.249417E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.443876E+02    0.263229E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.432938E+02    0.277186E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.413478E+02    0.287124E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.391301E+02    0.289993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.370696E+02    0.309571E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.341105E+02    0.296652E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.327614E+02    0.274146E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.332812E+02    0.249023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.355812E+02    0.227563E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.392119E+02    0.214591E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.431139E+02    0.215292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.463419E+02    0.228591E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133771E+03   -0.479010E+02    0.250195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133803E+03   -0.473383E+02    0.274628E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.446606E+02    0.297089E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.409168E+02    0.309719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687515.034414766     
  ps_ts2 prof sum =   687130.435921812     
  trcom prof sum =    687130.435921813     
  ps_ts2 cur sum  =   10542.1239585881     
  trcom cur sum  =    10542.1239585881     
  
  antenna # iant =            2
  powecha_use(iant) =    668094.870397634     
  ps_ts2 prof sum =   667696.205105872     
  trcom prof sum =    667696.205063141     
  ps_ts2 cur sum  =   12127.7428529539     
  trcom cur sum  =    12127.7428529539     
  
  antenna # iant =            3
  powecha_use(iant) =    529851.243769311     
  ps_ts2 prof sum =   529559.852035991     
  trcom prof sum =    529559.852035991     
  ps_ts2 cur sum  =   7065.49883368684     
  trcom cur sum  =    7065.49883368685     
  
  antenna # iant =            4
  powecha_use(iant) =    572749.337795674     
  ps_ts2 prof sum =   572413.736454610     
  trcom prof sum =    572413.736454610     
  ps_ts2 cur sum  =   9570.82859383299     
  trcom cur sum  =    9570.82859383297     
  
  antenna # iant =            5
  powecha_use(iant) =    545228.027209949     
  ps_ts2 prof sum =   544953.865313464     
  trcom prof sum =    544953.865313464     
  ps_ts2 cur sum  =   10723.8564949121     
  trcom cur sum  =    10723.8564949121     
  
  Total ECH heating:      3001754.09478902     
  Total Current Drive:    50030.0507339738     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2985
 TA= 3.27000E+00 CPU TIME= 1.63342E-01 SECONDS.  DT= 4.05870E-04
  
 TEC1=    3.26999999999995     
 TEC2=    3.27499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.15060555555510     
  %check_save_state: izleft hours =    71.8408333333333     
 --> plasma_hash("gframe"): TA= 3.270000E+00 NSTEP=  2985 Hash code:   52339216
 ->PRGCHK: bdy curvature ratio at t= 3.2750E+00 seconds is:  5.6225E-02
% MHDEQ: TG1=     3.270000 ; TG2=     3.275000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6225E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.270000 TO TG2=    3.275000 @ NSTEP     2985
   GFRAME TG2 MOMENTS CHECKSUM:  2.4751714223635D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2750E+00  3.2800E+00 total power(Watts):  2.7465E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.27500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.388944E+02    0.386292E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.368577E+02    0.387281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.383365E+02    0.371969E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.406478E+02    0.376273E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.406363E+02    0.394301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.382348E+02    0.401406E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.362571E+02    0.412214E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.350352E+02    0.399455E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.348954E+02    0.383340E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.356329E+02    0.369358E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.375060E+02    0.358512E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.397043E+02    0.355462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.416707E+02    0.360913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.430630E+02    0.372598E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.432119E+02    0.388785E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.422322E+02    0.404557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.403976E+02    0.415411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.381835E+02    0.418263E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.362221E+02    0.440211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.332768E+02    0.424125E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.317540E+02    0.399078E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.322620E+02    0.370997E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.344358E+02    0.347919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.379254E+02    0.334603E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.417944E+02    0.334930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.451316E+02    0.348449E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.468324E+02    0.372776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133243E+03   -0.465177E+02    0.401335E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.437099E+02    0.428276E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.399592E+02    0.442228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.399128E+02    0.310994E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.377651E+02    0.312635E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.392490E+02    0.298511E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.416736E+02    0.301751E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.415570E+02    0.318483E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.391508E+02    0.325123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.371659E+02    0.335005E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.359369E+02    0.323822E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.357930E+02    0.309209E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.367296E+02    0.295200E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.385168E+02    0.285458E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.407280E+02    0.282520E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.427034E+02    0.287606E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.439866E+02    0.298784E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.442483E+02    0.312822E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.431614E+02    0.327350E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.413259E+02    0.337123E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.391052E+02    0.340080E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.370478E+02    0.360807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.339908E+02    0.347421E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.326383E+02    0.324122E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.331495E+02    0.298135E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.353383E+02    0.276292E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.388516E+02    0.263683E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.429444E+02    0.262868E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.461777E+02    0.275999E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133266E+03   -0.479894E+02    0.297645E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.474456E+02    0.323598E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.446521E+02    0.347780E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.407976E+02    0.361744E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.389110E+02    0.438766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.368712E+02    0.439386E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.383593E+02    0.423264E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.406729E+02    0.428373E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.406534E+02    0.447647E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.382433E+02    0.454393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.362578E+02    0.464997E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.350402E+02    0.451631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.347129E+02    0.435671E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.357494E+02    0.419318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.375319E+02    0.408463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.397356E+02    0.405530E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.417061E+02    0.411725E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.430977E+02    0.424889E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.434667E+02    0.441721E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.422485E+02    0.458684E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.404031E+02    0.469385E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.381830E+02    0.471711E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.362035E+02    0.494291E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.331734E+02    0.476814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.317572E+02    0.450358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.321848E+02    0.421466E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.343639E+02    0.397018E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.379580E+02    0.382854E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.418376E+02    0.383644E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.453019E+02    0.398300E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132893E+03   -0.471215E+02    0.425198E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132996E+03   -0.465494E+02    0.456803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.439414E+02    0.483272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.400519E+02    0.497242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.393208E+02    0.350304E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.372790E+02    0.351393E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.387597E+02    0.336544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.410760E+02    0.340558E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.409597E+02    0.358275E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.385595E+02    0.365210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.365831E+02    0.375501E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.352598E+02    0.364229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.351182E+02    0.348859E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.361467E+02    0.333689E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.379262E+02    0.323737E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.401290E+02    0.320755E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.421001E+02    0.325883E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.433830E+02    0.337403E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.436459E+02    0.352338E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.425592E+02    0.367767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.407276E+02    0.378010E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.385136E+02    0.380949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.365567E+02    0.402142E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.335094E+02    0.387571E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.321616E+02    0.363169E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.325774E+02    0.336603E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.347539E+02    0.314420E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.383469E+02    0.300955E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.422235E+02    0.301242E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.456769E+02    0.313464E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133324E+03   -0.473844E+02    0.336298E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.468400E+02    0.364114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.440490E+02    0.389529E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.402975E+02    0.403541E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.400272E+02    0.260963E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.377826E+02    0.263192E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.394703E+02    0.248428E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.417925E+02    0.252173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.416696E+02    0.268203E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.392599E+02    0.274651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.370765E+02    0.285494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.360422E+02    0.273432E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.358123E+02    0.259863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.367540E+02    0.246458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.385450E+02    0.237268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.408541E+02    0.233944E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.429337E+02    0.238312E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.442145E+02    0.248924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.443599E+02    0.262787E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.432678E+02    0.276811E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.414280E+02    0.286207E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.392079E+02    0.289094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.369512E+02    0.309936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.340905E+02    0.296412E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.327406E+02    0.273854E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.332578E+02    0.248660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.355564E+02    0.227144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.390874E+02    0.214790E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.431831E+02    0.214183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134260E+03   -0.463039E+02    0.228066E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133344E+03   -0.480946E+02    0.248542E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133805E+03   -0.473097E+02    0.274204E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.446354E+02    0.296769E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.408941E+02    0.309460E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    435344.387387428     
  ps_ts2 prof sum =   435096.230637466     
  trcom prof sum =    435096.230637466     
  ps_ts2 cur sum  =   6647.99550393336     
  trcom cur sum  =    6647.99550393336     
  
  antenna # iant =            2
  powecha_use(iant) =    669718.592149244     
  ps_ts2 prof sum =   669362.792347237     
  trcom prof sum =    669362.792300580     
  ps_ts2 cur sum  =   12121.5217317492     
  trcom cur sum  =    12121.5217317492     
  
  antenna # iant =            3
  powecha_use(iant) =    529964.112086687     
  ps_ts2 prof sum =   529652.823085715     
  trcom prof sum =    529652.823085715     
  ps_ts2 cur sum  =   7031.27590535166     
  trcom cur sum  =    7031.27590535167     
  
  antenna # iant =            4
  powecha_use(iant) =    565718.306262371     
  ps_ts2 prof sum =   565403.145496222     
  trcom prof sum =    565403.145496222     
  ps_ts2 cur sum  =   9420.68837748086     
  trcom cur sum  =    9420.68837748085     
  
  antenna # iant =            5
  powecha_use(iant) =    545734.033345715     
  ps_ts2 prof sum =   545423.380168071     
  trcom prof sum =    545423.380168070     
  ps_ts2 cur sum  =   10709.4972704246     
  trcom cur sum  =    10709.4972704246     
  
  Total ECH heating:      2744938.37168805     
  Total Current Drive:    45930.9787889397     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2992
 TA= 3.27500E+00 CPU TIME= 1.60402E-01 SECONDS.  DT= 5.37991E-04
  
 TEC1=    3.27499999999995     
 TEC2=    3.27999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.16645999999946     
  %check_save_state: izleft hours =    71.8250000000000     
 --> plasma_hash("gframe"): TA= 3.275000E+00 NSTEP=  2992 Hash code:   69301600
 ->PRGCHK: bdy curvature ratio at t= 3.2800E+00 seconds is:  5.6251E-02
% MHDEQ: TG1=     3.275000 ; TG2=     3.280000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7618E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6251E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.275000 TO TG2=    3.280000 @ NSTEP     2992
   GFRAME TG2 MOMENTS CHECKSUM:  2.4749621304763D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.78181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.18611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.34642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.26805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.54907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.61002E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.05741E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.58975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -1.83050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.46583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.66853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.51710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.68884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.94431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.07854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.38306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.29232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.28288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.62181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.10442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.10442E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  3.2800E+00  3.2850E+00 total power(Watts):  2.3167E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.28000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.398866E+02    0.310710E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.376448E+02    0.312946E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.393280E+02    0.297579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.416502E+02    0.301403E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.415349E+02    0.318184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.391302E+02    0.324858E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.371487E+02    0.334768E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.358207E+02    0.324179E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.356776E+02    0.309541E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.367081E+02    0.294875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.384937E+02    0.285095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.407034E+02    0.282124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.426782E+02    0.287204E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.440719E+02    0.297834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.442246E+02    0.312482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.431392E+02    0.327063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.413053E+02    0.336865E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.390863E+02    0.339847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.370305E+02    0.360624E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.339738E+02    0.347232E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.326203E+02    0.323902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.331273E+02    0.297866E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.355032E+02    0.274646E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.390232E+02    0.262001E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.429168E+02    0.262387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134157E+03   -0.461497E+02    0.275519E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133268E+03   -0.479628E+02    0.297213E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133326E+03   -0.474215E+02    0.323254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.446308E+02    0.347524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.408816E+02    0.361047E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.388976E+02    0.438672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.368581E+02    0.439302E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.383449E+02    0.423146E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.406580E+02    0.428259E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.406393E+02    0.447565E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.382302E+02    0.454327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.362456E+02    0.464954E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.349301E+02    0.451936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.348951E+02    0.434778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.356368E+02    0.419646E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.375170E+02    0.408334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.397210E+02    0.405364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.416901E+02    0.411574E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.430821E+02    0.424750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.433372E+02    0.441988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.423467E+02    0.458293E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.403897E+02    0.469342E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.382756E+02    0.471364E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.361924E+02    0.494289E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.331619E+02    0.476798E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.317458E+02    0.450300E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.321724E+02    0.421365E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.343496E+02    0.396881E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.379419E+02    0.382686E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.418200E+02    0.383459E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133963E+03   -0.451676E+02    0.398542E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132888E+03   -0.471045E+02    0.425046E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132989E+03   -0.465340E+02    0.456714E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133925E+03   -0.438119E+02    0.483494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.400397E+02    0.497239E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.393019E+02    0.350089E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.372610E+02    0.351193E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.387402E+02    0.336307E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.410559E+02    0.340308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.409406E+02    0.358066E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.386453E+02    0.364500E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.365667E+02    0.375338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.352433E+02    0.364062E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.351009E+02    0.348665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.361281E+02    0.333463E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.379061E+02    0.323479E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.401077E+02    0.320470E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.420785E+02    0.325592E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.434730E+02    0.336598E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.436254E+02    0.352102E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.426514E+02    0.367061E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.407100E+02    0.377826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.384984E+02    0.380768E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.365417E+02    0.401998E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.334944E+02    0.387427E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.321463E+02    0.363013E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.325604E+02    0.336405E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.349220E+02    0.312939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.383251E+02    0.300633E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.421998E+02    0.300886E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.455391E+02    0.313655E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133323E+03   -0.473614E+02    0.335995E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133386E+03   -0.468193E+02    0.363872E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.440319E+02    0.389337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.402817E+02    0.403375E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.400009E+02    0.260503E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.377572E+02    0.262779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.394431E+02    0.247950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.417643E+02    0.251676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.416432E+02    0.267755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.392353E+02    0.274250E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.370542E+02    0.285141E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.359255E+02    0.273702E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.357882E+02    0.259459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.367281E+02    0.246012E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.385170E+02    0.236786E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.409240E+02    0.232799E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.429033E+02    0.237770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.441845E+02    0.248384E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.443266E+02    0.262312E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.432413E+02    0.276370E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.414033E+02    0.285815E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.391847E+02    0.288730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.369302E+02    0.309653E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.340703E+02    0.296113E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.328065E+02    0.272864E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.333214E+02    0.247574E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.355293E+02    0.226689E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.390573E+02    0.214291E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.431495E+02    0.213634E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134050E+03   -0.463779E+02    0.226884E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133567E+03   -0.479501E+02    0.248502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.472809E+02    0.273703E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.446101E+02    0.296373E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.408717E+02    0.309142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.61 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    672246.123824856     
  ps_ts2 prof sum =   671871.815730283     
  trcom prof sum =    671871.815730282     
  ps_ts2 cur sum  =   12126.4709142034     
  trcom cur sum  =    12126.4709142034     
  
  antenna # iant =            3
  powecha_use(iant) =    529584.630350993     
  ps_ts2 prof sum =   529234.610480564     
  trcom prof sum =    529234.610480564     
  ps_ts2 cur sum  =   6989.40852712832     
  trcom cur sum  =    6989.40852712833     
  
  antenna # iant =            4
  powecha_use(iant) =    570106.493675510     
  ps_ts2 prof sum =   569782.509183019     
  trcom prof sum =    569782.509183018     
  ps_ts2 cur sum  =   9455.68648794640     
  trcom cur sum  =    9455.68648794639     
  
  antenna # iant =            5
  powecha_use(iant) =    544788.363794343     
  ps_ts2 prof sum =   544449.010807019     
  trcom prof sum =    544449.010807019     
  ps_ts2 cur sum  =   10663.8859915274     
  trcom cur sum  =    10663.8859915274     
  
  Total ECH heating:      2315337.94620088     
  Total Current Drive:    39235.4519208055     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   2998
 TA= 3.28000E+00 CPU TIME= 1.59393E-01 SECONDS.  DT= 7.30860E-04
  
 TEC1=    3.27999999999995     
 TEC2=    3.28499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.18049638888897     
  %check_save_state: izleft hours =    71.8111111111111     
 --> plasma_hash("gframe"): TA= 3.280000E+00 NSTEP=  2998 Hash code:   16607514
 ->PRGCHK: bdy curvature ratio at t= 3.2850E+00 seconds is:  5.6278E-02
% MHDEQ: TG1=     3.280000 ; TG2=     3.285000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7611E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6278E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.280000 TO TG2=    3.285000 @ NSTEP     2998
   GFRAME TG2 MOMENTS CHECKSUM:  2.4747528385892D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2850E+00  3.2900E+00 total power(Watts):  2.6922E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.28500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.389666E+02    0.385464E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.369277E+02    0.386460E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.383025E+02    0.371608E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.407209E+02    0.375387E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.406037E+02    0.393960E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.383084E+02    0.400639E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.362292E+02    0.411954E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.349095E+02    0.399670E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.347686E+02    0.383551E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.357963E+02    0.367939E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.375722E+02    0.357576E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.396673E+02    0.355034E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.417422E+02    0.359961E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.430257E+02    0.372177E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.432898E+02    0.387939E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.423127E+02    0.403786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.403674E+02    0.415125E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.381549E+02    0.418012E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.361977E+02    0.440041E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.331577E+02    0.424368E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.318182E+02    0.398326E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.322331E+02    0.370683E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.344019E+02    0.347528E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.379881E+02    0.333554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.418610E+02    0.333852E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.450894E+02    0.347921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133165E+03   -0.470300E+02    0.371360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133237E+03   -0.464821E+02    0.400931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.436790E+02    0.428010E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.399314E+02    0.442046E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.398669E+02    0.310394E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.378233E+02    0.311472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.393058E+02    0.297249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.416270E+02    0.301066E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.415131E+02    0.317887E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.392127E+02    0.324019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.371311E+02    0.334525E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.358023E+02    0.323930E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.356577E+02    0.309271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.365901E+02    0.295195E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.384708E+02    0.284741E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.406790E+02    0.281749E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.427603E+02    0.286234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.440473E+02    0.297465E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.442012E+02    0.312147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.432277E+02    0.326223E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.412851E+02    0.336608E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.390672E+02    0.339607E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.370136E+02    0.360425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.339573E+02    0.347034E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.326931E+02    0.323056E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.331075E+02    0.297593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.353900E+02    0.274935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.389978E+02    0.261584E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.428894E+02    0.261925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.461219E+02    0.275062E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133485E+03   -0.478202E+02    0.297344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133327E+03   -0.473977E+02    0.322915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.446102E+02    0.347259E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.408633E+02    0.360826E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.389901E+02    0.438199E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.368452E+02    0.439218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.383311E+02    0.423025E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.406436E+02    0.428139E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.406258E+02    0.447485E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.383223E+02    0.453925E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.361330E+02    0.465250E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.349182E+02    0.451887E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.348827E+02    0.434695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.356232E+02    0.419531E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.375029E+02    0.408180E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.397060E+02    0.405203E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.417855E+02    0.410985E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.430669E+02    0.424617E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.433227E+02    0.441889E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.423336E+02    0.458229E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.404854E+02    0.469014E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.382634E+02    0.471337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.362821E+02    0.494052E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.331514E+02    0.476790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.318260E+02    0.449867E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.322521E+02    0.420811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.345274E+02    0.395750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.379260E+02    0.382512E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.418028E+02    0.383265E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.451504E+02    0.398351E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132883E+03   -0.470881E+02    0.424890E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132766E+03   -0.466388E+02    0.456329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.437982E+02    0.483479E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.400278E+02    0.497251E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.392833E+02    0.349865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.372436E+02    0.350979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.387210E+02    0.336066E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.410360E+02    0.340058E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.410298E+02    0.357317E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.386273E+02    0.364300E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.364510E+02    0.375683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.354210E+02    0.362783E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.350839E+02    0.348464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.360125E+02    0.333820E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.378863E+02    0.323217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.400867E+02    0.320190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.420570E+02    0.325310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.434518E+02    0.336324E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.436054E+02    0.351851E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.426328E+02    0.366837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.406928E+02    0.377630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.385867E+02    0.380084E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.365286E+02    0.401847E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.334798E+02    0.387286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.321314E+02    0.362843E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.326338E+02    0.335603E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.348091E+02    0.313294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.384032E+02    0.299716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.421763E+02    0.300541E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.455152E+02    0.313311E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.472210E+02    0.336202E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133600E+03   -0.466811E+02    0.364097E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.442380E+02    0.388231E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.402663E+02    0.403216E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.399750E+02    0.260074E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.379262E+02    0.261091E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.394163E+02    0.247491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.417364E+02    0.251197E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.417207E+02    0.266721E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.393108E+02    0.273249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.372255E+02    0.283561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.359028E+02    0.273352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.357644E+02    0.259068E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.367032E+02    0.245577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.386769E+02    0.235053E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.408947E+02    0.232296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.428732E+02    0.237247E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.441549E+02    0.247864E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.443003E+02    0.261831E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.433175E+02    0.275387E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.413788E+02    0.285455E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.391615E+02    0.288388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.371055E+02    0.308162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.340502E+02    0.295829E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.327853E+02    0.272535E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.332982E+02    0.247179E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.355025E+02    0.226250E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.392168E+02    0.212504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.431165E+02    0.213103E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.463446E+02    0.226303E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.479184E+02    0.247926E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133383E+03   -0.474794E+02    0.272106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.445851E+02    0.295997E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.408495E+02    0.308828E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    375277.285671188     
  ps_ts2 prof sum =   375059.586647695     
  trcom prof sum =    375059.586647696     
  ps_ts2 cur sum  =   5678.34849961032     
  trcom cur sum  =    5678.34849961032     
  
  antenna # iant =            2
  powecha_use(iant) =    670611.986182409     
  ps_ts2 prof sum =   670220.831469105     
  trcom prof sum =    670220.831469104     
  ps_ts2 cur sum  =   12052.9079989944     
  trcom cur sum  =    12052.9079989944     
  
  antenna # iant =            3
  powecha_use(iant) =    529576.971487893     
  ps_ts2 prof sum =   529246.753748621     
  trcom prof sum =    529246.753748621     
  ps_ts2 cur sum  =   6952.58454285007     
  trcom cur sum  =    6952.58454285008     
  
  antenna # iant =            4
  powecha_use(iant) =    571729.852850571     
  ps_ts2 prof sum =   571383.523987665     
  trcom prof sum =    571383.523987664     
  ps_ts2 cur sum  =   9443.74665489416     
  trcom cur sum  =    9443.74665489415     
  
  antenna # iant =            5
  powecha_use(iant) =    544985.764969685     
  ps_ts2 prof sum =   544708.840518416     
  trcom prof sum =    544708.840518416     
  ps_ts2 cur sum  =   10634.9849646592     
  trcom cur sum  =    10634.9849646592     
  
  Total ECH heating:      2690619.53637150     
  Total Current Drive:    44762.5726610082     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3003
 TA= 3.28500E+00 CPU TIME= 1.61508E-01 SECONDS.  DT= 9.82668E-04
  
 TEC1=    3.28499999999995     
 TEC2=    3.28999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.19460000000004     
  %check_save_state: izleft hours =    71.7969444444444     
 --> plasma_hash("gframe"): TA= 3.285000E+00 NSTEP=  3003 Hash code:   91463059
 ->PRGCHK: bdy curvature ratio at t= 3.2900E+00 seconds is:  5.6307E-02
% MHDEQ: TG1=     3.285000 ; TG2=     3.290000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7604E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6307E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.285000 TO TG2=    3.290000 @ NSTEP     3003
   GFRAME TG2 MOMENTS CHECKSUM:  2.4745435467020D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.64021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.01117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.55979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.33382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.64001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.65366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.28684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.48768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.43613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.85315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.86275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.47367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.81383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.17692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.03839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.42846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.64374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.60537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.42077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.16974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.16974E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2900E+00  3.2950E+00 total power(Watts):  2.9803E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.29000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.389497E+02    0.385391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.369114E+02    0.386399E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.383884E+02    0.370989E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.407026E+02    0.375295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.405863E+02    0.393898E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.382919E+02    0.400583E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.361141E+02    0.412373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.350887E+02    0.398654E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.347529E+02    0.383495E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.357798E+02    0.367844E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.375546E+02    0.357453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.396488E+02    0.354895E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.417232E+02    0.359823E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.430067E+02    0.372063E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.432712E+02    0.387857E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.422959E+02    0.403715E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.403509E+02    0.415075E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.382425E+02    0.417546E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.361826E+02    0.440059E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.331438E+02    0.424353E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.318043E+02    0.398284E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.322182E+02    0.370604E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.343853E+02    0.347394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.379690E+02    0.333370E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.418405E+02    0.333650E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.450684E+02    0.347734E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.470094E+02    0.371229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133230E+03   -0.464629E+02    0.400868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133875E+03   -0.438910E+02    0.427204E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.400238E+02    0.441684E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.398476E+02    0.310101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.378032E+02    0.311208E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.392844E+02    0.296925E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.416049E+02    0.300734E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.415993E+02    0.317044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.391930E+02    0.323791E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.371140E+02    0.334338E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.357840E+02    0.323722E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.356388E+02    0.309013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.365707E+02    0.294881E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.383495E+02    0.285021E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.406558E+02    0.281377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.427363E+02    0.285857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.440239E+02    0.297102E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.441787E+02    0.311833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.432064E+02    0.325978E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.412649E+02    0.336414E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.390478E+02    0.339432E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.368962E+02    0.360854E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.341278E+02    0.345739E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.326763E+02    0.322861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.331779E+02    0.296679E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.353702E+02    0.274590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.389740E+02    0.261163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.428632E+02    0.261470E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.460953E+02    0.274607E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.477950E+02    0.296937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133541E+03   -0.472577E+02    0.323147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.445895E+02    0.347071E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.408446E+02    0.360692E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.389744E+02    0.438196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.369319E+02    0.438837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.383154E+02    0.423001E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.407368E+02    0.427716E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.406099E+02    0.447501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.383074E+02    0.453946E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.363204E+02    0.464626E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.351006E+02    0.451164E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.348687E+02    0.434693E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.358064E+02    0.418621E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.374870E+02    0.408140E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.396891E+02    0.405168E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.417683E+02    0.410930E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.430497E+02    0.424585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.433057E+02    0.441882E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.423173E+02    0.458255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.404702E+02    0.469047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.382488E+02    0.471377E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.362687E+02    0.494101E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.331386E+02    0.476833E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.318131E+02    0.449893E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.322383E+02    0.420789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.345123E+02    0.395710E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.379092E+02    0.382441E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.417845E+02    0.383185E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.453646E+02    0.397403E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132875E+03   -0.470694E+02    0.424841E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132756E+03   -0.466210E+02    0.456348E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.437818E+02    0.483520E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.400132E+02    0.497309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.392648E+02    0.349714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.372258E+02    0.350837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.387019E+02    0.335883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.410164E+02    0.339873E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.410108E+02    0.357180E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.386095E+02    0.364192E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.366339E+02    0.374550E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.354045E+02    0.362680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.352586E+02    0.347187E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.359945E+02    0.333644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.378672E+02    0.322998E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.400664E+02    0.319939E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.421443E+02    0.324508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.434309E+02    0.336113E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.435853E+02    0.351681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.426137E+02    0.366714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.407830E+02    0.377038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.385706E+02    0.380002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.365129E+02    0.401802E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.334649E+02    0.387234E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.321161E+02    0.362750E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.326173E+02    0.335448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.347907E+02    0.313052E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.383823E+02    0.299410E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.422610E+02    0.299620E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.454923E+02    0.312989E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133107E+03   -0.474339E+02    0.334934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133166E+03   -0.468964E+02    0.362975E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.441046E+02    0.388618E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.403572E+02    0.402710E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.399504E+02    0.259640E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.379028E+02    0.260687E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.392921E+02    0.247671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.418130E+02    0.250100E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.416957E+02    0.266293E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.392873E+02    0.272873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.372042E+02    0.283221E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.358768E+02    0.273018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.357417E+02    0.258682E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.366792E+02    0.245142E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.386551E+02    0.234548E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.408677E+02    0.231779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.428451E+02    0.236713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.441267E+02    0.247348E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.442773E+02    0.261329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.432946E+02    0.274953E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.413556E+02    0.285075E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.391395E+02    0.288047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.370861E+02    0.307887E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.340309E+02    0.295550E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.327654E+02    0.272211E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.332762E+02    0.246790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.355670E+02    0.225112E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.391874E+02    0.211977E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.430852E+02    0.212528E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134066E+03   -0.463127E+02    0.225703E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.478882E+02    0.247356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.474523E+02    0.271622E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.446721E+02    0.295058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.409334E+02    0.307943E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672932.550028479     
  ps_ts2 prof sum =   672542.614892492     
  trcom prof sum =    672542.614892492     
  ps_ts2 cur sum  =   10145.2703551458     
  trcom cur sum  =    10145.2703551458     
  
  antenna # iant =            2
  powecha_use(iant) =    667363.589441452     
  ps_ts2 prof sum =   666941.909159642     
  trcom prof sum =    666941.909159641     
  ps_ts2 cur sum  =   11962.4764973994     
  trcom cur sum  =    11962.4764973993     
  
  antenna # iant =            3
  powecha_use(iant) =    529699.357722485     
  ps_ts2 prof sum =   529402.216047079     
  trcom prof sum =    529402.216047080     
  ps_ts2 cur sum  =   6924.23119843623     
  trcom cur sum  =    6924.23119843624     
  
  antenna # iant =            4
  powecha_use(iant) =    566121.017614644     
  ps_ts2 prof sum =   565813.447871693     
  trcom prof sum =    565813.447871692     
  ps_ts2 cur sum  =   9321.56890651737     
  trcom cur sum  =    9321.56890651736     
  
  antenna # iant =            5
  powecha_use(iant) =    544140.938687544     
  ps_ts2 prof sum =   543848.382381949     
  trcom prof sum =    543848.382381949     
  ps_ts2 cur sum  =   10596.9480088543     
  trcom cur sum  =    10596.9480088543     
  
  Total ECH heating:      2978548.57035286     
  Total Current Drive:    48950.4949663530     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3007
 TA= 3.29000E+00 CPU TIME= 1.60135E-01 SECONDS.  DT= 1.56697E-03
  
 TEC1=    3.28999999999995     
 TEC2=    3.29499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.20894111111102     
  %check_save_state: izleft hours =    71.7825000000000     
 --> plasma_hash("gframe"): TA= 3.290000E+00 NSTEP=  3007 Hash code:   13742212
 ->PRGCHK: bdy curvature ratio at t= 3.2950E+00 seconds is:  5.6339E-02
% MHDEQ: TG1=     3.290000 ; TG2=     3.295000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7597E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6339E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.290000 TO TG2=    3.295000 @ NSTEP     3007
   GFRAME TG2 MOMENTS CHECKSUM:  2.4743342548148D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.2950E+00  3.3000E+00 total power(Watts):  2.9995E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.29500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.389319E+02    0.385320E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.368946E+02    0.386334E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.383706E+02    0.370891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.406842E+02    0.375194E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.406766E+02    0.393365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.382750E+02    0.400540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.362980E+02    0.411438E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.350728E+02    0.398615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.347370E+02    0.383436E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.357630E+02    0.367745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.375364E+02    0.357329E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.397348E+02    0.354215E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.417034E+02    0.359691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.430991E+02    0.371453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.432521E+02    0.387781E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.422783E+02    0.403678E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.404419E+02    0.414621E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.382261E+02    0.417526E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.361675E+02    0.440062E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.331295E+02    0.424350E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.317897E+02    0.398246E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.322027E+02    0.370526E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.343680E+02    0.347257E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.379498E+02    0.333176E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.418199E+02    0.333429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133805E+03   -0.452762E+02    0.346505E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133155E+03   -0.469882E+02    0.371098E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.463246E+02    0.401224E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.437582E+02    0.427577E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.400074E+02    0.441680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.398283E+02    0.309839E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.377827E+02    0.310967E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.392620E+02    0.296646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.415818E+02    0.300443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.415771E+02    0.316790E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.391722E+02    0.323568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.369973E+02    0.334725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.359575E+02    0.322317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.356192E+02    0.308784E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.365492E+02    0.294617E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.385250E+02    0.283468E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.407350E+02    0.280428E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.427121E+02    0.285501E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.439997E+02    0.296774E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.441554E+02    0.311545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.431844E+02    0.325733E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.412447E+02    0.336207E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.391311E+02    0.338683E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.370786E+02    0.359650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.340174E+02    0.346181E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.326588E+02    0.322674E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.331587E+02    0.296436E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.353446E+02    0.274301E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.389494E+02    0.260790E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.428362E+02    0.261068E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.461805E+02    0.273607E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133060E+03   -0.480013E+02    0.295480E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133112E+03   -0.474677E+02    0.321802E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.447957E+02    0.345836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.408257E+02    0.360565E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.389584E+02    0.438194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.369157E+02    0.438843E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.382991E+02    0.422984E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.407197E+02    0.427706E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.407027E+02    0.447139E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.382918E+02    0.453946E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.363059E+02    0.464630E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.350861E+02    0.451171E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.347565E+02    0.435108E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.357910E+02    0.418607E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.375730E+02    0.407651E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.396721E+02    0.405122E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.417505E+02    0.410894E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.432586E+02    0.423772E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134256E+03   -0.432882E+02    0.441875E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.423006E+02    0.458249E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.404547E+02    0.469035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.382336E+02    0.471381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.362549E+02    0.494127E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.333142E+02    0.476219E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.317998E+02    0.449900E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.322243E+02    0.420786E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.344007E+02    0.396170E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.379945E+02    0.381862E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.417659E+02    0.383097E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133514E+03   -0.453449E+02    0.397333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132867E+03   -0.470500E+02    0.424816E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132747E+03   -0.466027E+02    0.456329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133461E+03   -0.439957E+02    0.483016E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.399981E+02    0.497327E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.393499E+02    0.349012E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.372076E+02    0.350695E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.386824E+02    0.335691E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.409961E+02    0.339678E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.409915E+02    0.357038E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.385913E+02    0.364082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.366170E+02    0.374469E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.353874E+02    0.362578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.352411E+02    0.347043E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.361706E+02    0.332282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.379475E+02    0.322191E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.400448E+02    0.319709E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.421228E+02    0.324266E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.434095E+02    0.335892E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.435645E+02    0.351518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.425940E+02    0.366591E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.407644E+02    0.376946E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.385538E+02    0.379920E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.364967E+02    0.401764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.334495E+02    0.387179E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.321004E+02    0.362659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.326005E+02    0.335284E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.347719E+02    0.312836E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.383613E+02    0.299137E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.422377E+02    0.299317E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.454685E+02    0.312694E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133105E+03   -0.474109E+02    0.334681E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.468748E+02    0.362825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.440852E+02    0.388537E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.403397E+02    0.402671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.400253E+02    0.258620E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.377822E+02    0.260968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.394631E+02    0.245968E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.417860E+02    0.249661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.416697E+02    0.265915E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.392634E+02    0.272528E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.370857E+02    0.283548E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.360433E+02    0.271390E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.359035E+02    0.257008E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.368410E+02    0.243421E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.386308E+02    0.234081E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.408396E+02    0.231291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.429201E+02    0.235591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.442044E+02    0.246273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.442519E+02    0.260895E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.432721E+02    0.274556E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.413316E+02    0.284742E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.391168E+02    0.287738E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.370657E+02    0.307644E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.341023E+02    0.294656E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.327450E+02    0.271918E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.332523E+02    0.246435E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.355416E+02    0.224674E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.391585E+02    0.211475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.430543E+02    0.211964E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.462809E+02    0.225117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.478578E+02    0.246824E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.473107E+02    0.271754E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.446475E+02    0.294714E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.409113E+02    0.307674E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688662.931404692     
  ps_ts2 prof sum =   688265.344203092     
  trcom prof sum =    688265.344203092     
  ps_ts2 cur sum  =   10340.7040642773     
  trcom cur sum  =    10340.7040642773     
  
  antenna # iant =            2
  powecha_use(iant) =    670855.818414260     
  ps_ts2 prof sum =   670471.424036593     
  trcom prof sum =    670471.424036592     
  ps_ts2 cur sum  =   11994.4861310076     
  trcom cur sum  =    11994.4861310076     
  
  antenna # iant =            3
  powecha_use(iant) =    528086.549813517     
  ps_ts2 prof sum =   527792.919232300     
  trcom prof sum =    527792.919232300     
  ps_ts2 cur sum  =   6870.92279522811     
  trcom cur sum  =    6870.92279522811     
  
  antenna # iant =            4
  powecha_use(iant) =    566765.997102872     
  ps_ts2 prof sum =   566448.043047884     
  trcom prof sum =    566448.043011237     
  ps_ts2 cur sum  =   9301.23036660980     
  trcom cur sum  =    9301.23036660979     
  
  antenna # iant =            5
  powecha_use(iant) =    545089.231333325     
  ps_ts2 prof sum =   544820.174036262     
  trcom prof sum =    544820.174036262     
  ps_ts2 cur sum  =   10594.6422139177     
  trcom cur sum  =    10594.6422139177     
  
  Total ECH heating:      2997797.90451948     
  Total Current Drive:    49101.9855710404     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3010
 TA= 3.29500E+00 CPU TIME= 1.59776E-01 SECONDS.  DT= 1.84289E-03
  
 TEC1=    3.29499999999995     
 TEC2=    3.29999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    8.22345527777725     
  %check_save_state: izleft hours =    71.7680555555555     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  3.2950000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 3.295000E+00 NSTEP=  3010 Hash code:   97418829
 ->PRGCHK: bdy curvature ratio at t= 3.3000E+00 seconds is:  5.6372E-02
% MHDEQ: TG1=     3.295000 ; TG2=     3.300000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7590E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6372E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.295000 TO TG2=    3.300000 @ NSTEP     3010
   GFRAME TG2 MOMENTS CHECKSUM:  2.4741249629277D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.51784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.86000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.74418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.52653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.71859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.69137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.48510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.39948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.11613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.18785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.03057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.40324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.05770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.37793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.00370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.46770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.94740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.88405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.24704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.15014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.15014E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.3000E+00  3.3050E+00 total power(Watts):  2.9986E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.30000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.389169E+02    0.385264E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.368804E+02    0.386286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.383554E+02    0.370818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.406683E+02    0.375121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.406615E+02    0.393312E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.382610E+02    0.400510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.362848E+02    0.411424E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.350598E+02    0.398582E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.347235E+02    0.383387E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.357476E+02    0.367684E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.375211E+02    0.357235E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.397178E+02    0.354104E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.416868E+02    0.359583E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.430824E+02    0.371368E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.432360E+02    0.387718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.422635E+02    0.403638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.404275E+02    0.414602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.382132E+02    0.417516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.361546E+02    0.440076E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.331177E+02    0.424348E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.317775E+02    0.398222E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.322799E+02    0.369917E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.345422E+02    0.345983E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.379334E+02    0.333008E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.418019E+02    0.333243E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.452582E+02    0.346342E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133150E+03   -0.469703E+02    0.370995E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133002E+03   -0.465450E+02    0.400309E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.437431E+02    0.427570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.399936E+02    0.441690E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.398118E+02    0.309584E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.377653E+02    0.310746E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.392439E+02    0.296363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.415623E+02    0.300160E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.415583E+02    0.316562E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.391546E+02    0.323376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.369823E+02    0.334564E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.359416E+02    0.322130E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.356025E+02    0.308568E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.365313E+02    0.294354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.385068E+02    0.283145E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.407146E+02    0.280090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.426910E+02    0.285158E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.439783E+02    0.296457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.441356E+02    0.311279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.431658E+02    0.325526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.413345E+02    0.335471E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.391153E+02    0.338520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.370635E+02    0.359564E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.340027E+02    0.346067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.326438E+02    0.322508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.331425E+02    0.296200E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.353258E+02    0.273993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.389285E+02    0.260412E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.428138E+02    0.260635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.461573E+02    0.273192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133064E+03   -0.479792E+02    0.295116E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133112E+03   -0.474475E+02    0.321543E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133942E+03   -0.447774E+02    0.345674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.408090E+02    0.360465E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.389449E+02    0.438205E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.369034E+02    0.438849E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.383898E+02    0.422556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.407055E+02    0.427703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.406889E+02    0.447144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.382789E+02    0.453958E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.362940E+02    0.464657E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.350744E+02    0.451184E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.347441E+02    0.435122E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.357780E+02    0.418596E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.375592E+02    0.407628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.396572E+02    0.405096E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.417354E+02    0.410868E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.432427E+02    0.423773E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.432735E+02    0.441875E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.422865E+02    0.458265E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.404416E+02    0.469070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.382208E+02    0.471417E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.362431E+02    0.494179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.333032E+02    0.476261E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.317887E+02    0.449919E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.322122E+02    0.420788E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.343876E+02    0.396137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.379797E+02    0.381808E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.417499E+02    0.383033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.453285E+02    0.397282E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132644E+03   -0.471538E+02    0.424421E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132739E+03   -0.465874E+02    0.456343E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.439814E+02    0.483061E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.399854E+02    0.497381E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.393335E+02    0.348885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.371921E+02    0.350582E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.386659E+02    0.335526E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.410851E+02    0.338962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.409746E+02    0.356931E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.385760E+02    0.363997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.366023E+02    0.374412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.352762E+02    0.363055E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.352261E+02    0.346929E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.361536E+02    0.332129E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.379295E+02    0.322004E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.400270E+02    0.319493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.421045E+02    0.324050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.433913E+02    0.335702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.435468E+02    0.351373E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.425773E+02    0.366505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.407485E+02    0.376879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.385401E+02    0.379852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.363830E+02    0.402213E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.334365E+02    0.387140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.320871E+02    0.362594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.325861E+02    0.335146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.347557E+02    0.312635E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.383430E+02    0.298875E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.422177E+02    0.299030E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.454483E+02    0.312420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133105E+03   -0.473915E+02    0.334462E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133158E+03   -0.468567E+02    0.362711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.440689E+02    0.388470E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.403242E+02    0.402633E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.400039E+02    0.258222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.377618E+02    0.260602E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.394400E+02    0.245548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.417627E+02    0.249220E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.416475E+02    0.265531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.392428E+02    0.272184E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.370667E+02    0.283252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.360269E+02    0.271067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.358832E+02    0.256655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.368186E+02    0.243026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.386099E+02    0.233620E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.408147E+02    0.230811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.428948E+02    0.235094E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.441803E+02    0.245781E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.443328E+02    0.259883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.432523E+02    0.274161E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.413110E+02    0.284415E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.390977E+02    0.287429E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.370483E+02    0.307417E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.340857E+02    0.294407E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.327278E+02    0.271616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.332328E+02    0.246076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.355183E+02    0.224246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.391329E+02    0.210986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.430263E+02    0.211428E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.462528E+02    0.224545E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133595E+03   -0.478314E+02    0.246296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.472873E+02    0.271305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.446259E+02    0.294385E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.408919E+02    0.307421E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682984.409815688     
  ps_ts2 prof sum =   682619.336401264     
  trcom prof sum =    682619.336401265     
  ps_ts2 cur sum  =   10226.8237266149     
  trcom cur sum  =    10226.8237266149     
  
  antenna # iant =            2
  powecha_use(iant) =    672033.153927163     
  ps_ts2 prof sum =   671646.231798085     
  trcom prof sum =    671646.231798085     
  ps_ts2 cur sum  =   11993.0052207843     
  trcom cur sum  =    11993.0052207843     
  
  antenna # iant =            3
  powecha_use(iant) =    528910.125543993     
  ps_ts2 prof sum =   528612.312236038     
  trcom prof sum =    528612.312236038     
  ps_ts2 cur sum  =   6858.79098653010     
  trcom cur sum  =    6858.79098653010     
  
  antenna # iant =            4
  powecha_use(iant) =    570703.532498902     
  ps_ts2 prof sum =   570361.144033444     
  trcom prof sum =    570361.144033444     
  ps_ts2 cur sum  =   9343.49531820634     
  trcom cur sum  =    9343.49531820634     
  
  antenna # iant =            5
  powecha_use(iant) =    543926.551166679     
  ps_ts2 prof sum =   543657.549289344     
  trcom prof sum =    543657.549289343     
  ps_ts2 cur sum  =   10559.1327018851     
  trcom cur sum  =    10559.1327018851     
  
  Total ECH heating:      2996896.57375817     
  Total Current Drive:    48981.2479540208     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3013
 TA= 3.30000E+00 CPU TIME= 1.60113E-01 SECONDS.  DT= 1.06686E-03
  
 TEC1=    3.29999999999995     
 TEC2=    3.30499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.23817722222225     
  %check_save_state: izleft hours =    71.7533333333333     
 --> plasma_hash("gframe"): TA= 3.300000E+00 NSTEP=  3013 Hash code:  115088882
 ->PRGCHK: bdy curvature ratio at t= 3.3050E+00 seconds is:  5.6407E-02
% MHDEQ: TG1=     3.300000 ; TG2=     3.305000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7583E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6407E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.300000 TO TG2=    3.305000 @ NSTEP     3013
   GFRAME TG2 MOMENTS CHECKSUM:  2.4739156710405D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3050E+00  3.3100E+00 total power(Watts):  2.9769E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.30500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.389003E+02    0.385203E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.368643E+02    0.386228E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.383384E+02    0.370735E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.406504E+02    0.375044E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.406444E+02    0.393250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.382448E+02    0.400460E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.362698E+02    0.411391E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.350445E+02    0.398538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.349008E+02    0.382292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.356337E+02    0.368147E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.375028E+02    0.357128E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.396996E+02    0.353978E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.416680E+02    0.359463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.430636E+02    0.371268E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.432178E+02    0.387636E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.422470E+02    0.403572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.404111E+02    0.414567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.381976E+02    0.417480E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.362408E+02    0.439669E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.332911E+02    0.423454E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.317636E+02    0.398188E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.322651E+02    0.369850E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.345249E+02    0.345854E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.379148E+02    0.332830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.417816E+02    0.333052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.451230E+02    0.346681E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133145E+03   -0.469500E+02    0.370883E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132995E+03   -0.465261E+02    0.400238E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134074E+03   -0.437261E+02    0.427526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.399781E+02    0.441677E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.398959E+02    0.308736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.377451E+02    0.310512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.392226E+02    0.296072E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.416458E+02    0.299268E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.415375E+02    0.316315E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.391351E+02    0.323167E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.371580E+02    0.333249E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.359222E+02    0.321945E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.357737E+02    0.307095E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.367033E+02    0.292821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.384849E+02    0.282835E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.406918E+02    0.279743E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.426677E+02    0.284807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.439552E+02    0.296127E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.442245E+02    0.310436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.431448E+02    0.325292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.413143E+02    0.335293E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.390969E+02    0.338353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.370456E+02    0.359467E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.339856E+02    0.345941E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.326270E+02    0.322330E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.331240E+02    0.295959E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.353056E+02    0.273675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.388064E+02    0.260683E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.427883E+02    0.260220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.461314E+02    0.272771E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133066E+03   -0.479543E+02    0.294738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133111E+03   -0.474241E+02    0.321279E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.447570E+02    0.345493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.407905E+02    0.360351E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.389297E+02    0.438189E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.368885E+02    0.438848E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.383744E+02    0.422528E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.406894E+02    0.427683E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.406735E+02    0.447129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.382642E+02    0.453951E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.362804E+02    0.464662E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.350607E+02    0.451183E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.347303E+02    0.435115E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.357634E+02    0.418571E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.375437E+02    0.407588E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.396409E+02    0.405049E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.417191E+02    0.410812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.431124E+02    0.424137E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.434850E+02    0.441135E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.422709E+02    0.458252E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.404268E+02    0.469074E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.382067E+02    0.471427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.362300E+02    0.494209E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.331966E+02    0.476590E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.317762E+02    0.449921E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.321989E+02    0.420773E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.343727E+02    0.396093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.379631E+02    0.381743E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.418420E+02    0.382473E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133503E+03   -0.453099E+02    0.397204E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132636E+03   -0.471355E+02    0.424368E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132731E+03   -0.465705E+02    0.456314E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133445E+03   -0.439654E+02    0.483072E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.400797E+02    0.497175E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.393142E+02    0.348748E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.372750E+02    0.349892E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.387499E+02    0.334773E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.410660E+02    0.338785E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.409560E+02    0.356808E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.385585E+02    0.363899E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.365865E+02    0.374337E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.352591E+02    0.362974E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.351137E+02    0.347378E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.361353E+02    0.331960E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.379108E+02    0.321793E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.401111E+02    0.318684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.420841E+02    0.323823E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.433711E+02    0.335496E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.436391E+02    0.350696E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.425584E+02    0.366391E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.407308E+02    0.376795E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.385179E+02    0.379806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.365679E+02    0.401219E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.336089E+02    0.386055E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.321617E+02    0.361952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.325686E+02    0.335006E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.347374E+02    0.312425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.383220E+02    0.298603E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.421950E+02    0.298720E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133758E+03   -0.456526E+02    0.311020E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133103E+03   -0.473694E+02    0.334235E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133154E+03   -0.468363E+02    0.362566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.440504E+02    0.388384E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.403084E+02    0.402584E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.399795E+02    0.257831E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.377387E+02    0.260240E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.394145E+02    0.245140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.417362E+02    0.248793E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.416234E+02    0.265132E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.392204E+02    0.271826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.370463E+02    0.282939E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.360082E+02    0.270723E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.357679E+02    0.256981E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.367006E+02    0.243307E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.384834E+02    0.233874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.407876E+02    0.230341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.428663E+02    0.234616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.441527E+02    0.245307E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.443068E+02    0.259434E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.432294E+02    0.273783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.412892E+02    0.284070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.391766E+02    0.286502E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.369306E+02    0.307795E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.340628E+02    0.294167E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.327082E+02    0.271319E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.332114E+02    0.245717E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.354938E+02    0.223823E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.390096E+02    0.211194E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.429952E+02    0.210915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.462219E+02    0.223994E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133170E+03   -0.480264E+02    0.244610E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133618E+03   -0.472600E+02    0.270881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.446024E+02    0.294040E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.408709E+02    0.307153E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667200.385021101     
  ps_ts2 prof sum =   666838.919022697     
  trcom prof sum =    666838.919022697     
  ps_ts2 cur sum  =   9947.61773647870     
  trcom cur sum  =    9947.61773647870     
  
  antenna # iant =            2
  powecha_use(iant) =    668829.269715445     
  ps_ts2 prof sum =   668471.335606218     
  trcom prof sum =    668471.335606217     
  ps_ts2 cur sum  =   11897.7743564444     
  trcom cur sum  =    11897.7743564444     
  
  antenna # iant =            3
  powecha_use(iant) =    529038.383235006     
  ps_ts2 prof sum =   528725.493176358     
  trcom prof sum =    528725.493176359     
  ps_ts2 cur sum  =   6828.99361375601     
  trcom cur sum  =    6828.99361375601     
  
  antenna # iant =            4
  powecha_use(iant) =    567760.551671216     
  ps_ts2 prof sum =   567452.293805581     
  trcom prof sum =    567452.293805581     
  ps_ts2 cur sum  =   9259.24817431095     
  trcom cur sum  =    9259.24817431093     
  
  antenna # iant =            5
  powecha_use(iant) =    544101.591147642     
  ps_ts2 prof sum =   543776.380107555     
  trcom prof sum =    543776.380107554     
  ps_ts2 cur sum  =   10537.4897933790     
  trcom cur sum  =    10537.4897933790     
  
  Total ECH heating:      2975264.42171841     
  Total Current Drive:    48471.1236743690     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3017
 TA= 3.30500E+00 CPU TIME= 1.60001E-01 SECONDS.  DT= 1.16573E-03
  
 TEC1=    3.30499999999995     
 TEC2=    3.30999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.25401527777785     
  %check_save_state: izleft hours =    71.7375000000000     
 --> plasma_hash("gframe"): TA= 3.305000E+00 NSTEP=  3017 Hash code:   81207628
 ->PRGCHK: bdy curvature ratio at t= 3.3100E+00 seconds is:  5.6447E-02
% MHDEQ: TG1=     3.305000 ; TG2=     3.310000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7605E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6447E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.305000 TO TG2=    3.310000 @ NSTEP     3017
   GFRAME TG2 MOMENTS CHECKSUM:  2.4736099818512D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.50558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.79464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.82028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.35171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.70437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.55545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.19850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.30033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.09254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.55754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.91811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.43221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.99297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.46041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  5.04403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.97349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.18230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.01878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.01878E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3100E+00  3.3150E+00 total power(Watts):  2.9820E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.31000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.389123E+02    0.385134E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.367752E+02    0.386663E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.382470E+02    0.371186E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.405552E+02    0.375474E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.405490E+02    0.393651E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.381538E+02    0.400836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.361817E+02    0.411727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.348620E+02    0.399431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.348151E+02    0.382741E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.357431E+02    0.367522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.374143E+02    0.357572E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.396074E+02    0.354411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.416808E+02    0.359364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.429645E+02    0.371699E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.431183E+02    0.388045E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.421459E+02    0.403934E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.403173E+02    0.414872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.381063E+02    0.417780E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.361528E+02    0.439941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.331149E+02    0.424196E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.317738E+02    0.398105E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.321848E+02    0.370332E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.343467E+02    0.346897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.379257E+02    0.332700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.416863E+02    0.333464E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.450216E+02    0.347082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133118E+03   -0.469643E+02    0.370810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133184E+03   -0.464227E+02    0.400581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.436255E+02    0.427791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.398843E+02    0.441920E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.398000E+02    0.309206E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.375583E+02    0.311583E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.392335E+02    0.295917E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.415523E+02    0.299703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.414430E+02    0.316752E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.390442E+02    0.323613E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.370697E+02    0.333705E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.357415E+02    0.323011E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.355938E+02    0.308199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.366175E+02    0.293289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.383966E+02    0.283260E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.406003E+02    0.280141E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.425727E+02    0.285208E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.438583E+02    0.296545E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.441260E+02    0.310849E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.430475E+02    0.325704E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.412197E+02    0.335708E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.390046E+02    0.338799E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.369577E+02    0.359915E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.339027E+02    0.346403E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.325472E+02    0.322817E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.330463E+02    0.296439E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.353154E+02    0.273435E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.389153E+02    0.259767E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.428004E+02    0.259928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.460322E+02    0.273105E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133257E+03   -0.478517E+02    0.295136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133302E+03   -0.473217E+02    0.321665E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.445429E+02    0.346422E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.408021E+02    0.360262E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.388371E+02    0.438451E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.367987E+02    0.439112E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.382833E+02    0.422812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.405940E+02    0.427934E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.405781E+02    0.447377E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.381727E+02    0.454213E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.361923E+02    0.464914E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.348712E+02    0.451849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.348392E+02    0.434572E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.355777E+02    0.419330E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.374536E+02    0.407944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.396539E+02    0.404949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.416216E+02    0.411143E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.430137E+02    0.424381E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.432671E+02    0.441735E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.422854E+02    0.458160E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.403319E+02    0.469297E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.381159E+02    0.471644E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.361427E+02    0.494328E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.331143E+02    0.476798E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.316961E+02    0.450213E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.321181E+02    0.421087E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.344797E+02    0.395505E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.378753E+02    0.382163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.417450E+02    0.382897E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.452070E+02    0.397586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132827E+03   -0.470313E+02    0.424604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132921E+03   -0.464669E+02    0.456522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133846E+03   -0.437556E+02    0.483481E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.399861E+02    0.497270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.392230E+02    0.349178E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.371856E+02    0.350346E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.386588E+02    0.335215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.409711E+02    0.339214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.408607E+02    0.357236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.385710E+02    0.363808E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.364979E+02    0.374791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.351741E+02    0.363430E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.350308E+02    0.347822E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.360505E+02    0.332411E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.378222E+02    0.322253E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.400188E+02    0.319127E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.419881E+02    0.324252E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.432727E+02    0.335912E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.435400E+02    0.351104E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.425713E+02    0.366311E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.406354E+02    0.377228E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.384260E+02    0.380247E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.364794E+02    0.401607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.334322E+02    0.387023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.320820E+02    0.362422E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.324893E+02    0.335479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.348412E+02    0.311660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.382333E+02    0.299065E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.421009E+02    0.299149E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.455523E+02    0.311432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133292E+03   -0.472659E+02    0.334624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133342E+03   -0.467324E+02    0.362970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.439462E+02    0.388792E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.402135E+02    0.402946E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.398907E+02    0.258179E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.378452E+02    0.259319E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.393273E+02    0.245491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.416452E+02    0.249121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.415317E+02    0.265473E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.391318E+02    0.272207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.371527E+02    0.282100E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.358296E+02    0.271797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.356857E+02    0.257366E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.366176E+02    0.243683E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.383933E+02    0.234268E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.407986E+02    0.230036E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.427747E+02    0.234934E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.440581E+02    0.245622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.442065E+02    0.259778E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135069E+03   -0.431305E+02    0.274152E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.412998E+02    0.283871E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.390871E+02    0.286933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.370397E+02    0.307035E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.339848E+02    0.294645E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.327163E+02    0.271086E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.332209E+02    0.245430E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.354133E+02    0.224228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.389245E+02    0.211548E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.430064E+02    0.210569E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.462339E+02    0.223669E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.478149E+02    0.245465E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.471602E+02    0.271182E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.445048E+02    0.294451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.407783E+02    0.307601E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666869.546569464     
  ps_ts2 prof sum =   666488.328787446     
  trcom prof sum =    666488.328787446     
  ps_ts2 cur sum  =   9986.23399936632     
  trcom cur sum  =    9986.23399936632     
  
  antenna # iant =            2
  powecha_use(iant) =    669858.252785761     
  ps_ts2 prof sum =   669468.024277469     
  trcom prof sum =    669468.024277468     
  ps_ts2 cur sum  =   11976.0073185376     
  trcom cur sum  =    11976.0073185376     
  
  antenna # iant =            3
  powecha_use(iant) =    530901.814470381     
  ps_ts2 prof sum =   530565.909514433     
  trcom prof sum =    530565.909514433     
  ps_ts2 cur sum  =   6879.34800184144     
  trcom cur sum  =    6879.34800184145     
  
  antenna # iant =            4
  powecha_use(iant) =    568524.941669282     
  ps_ts2 prof sum =   568202.325424100     
  trcom prof sum =    568202.325384715     
  ps_ts2 cur sum  =   9314.92851405342     
  trcom cur sum  =    9314.92851405341     
  
  antenna # iant =            5
  powecha_use(iant) =    545824.398275948     
  ps_ts2 prof sum =   545518.357159855     
  trcom prof sum =    545518.357159854     
  ps_ts2 cur sum  =   10626.6548847832     
  trcom cur sum  =    10626.6548847832     
  
  Total ECH heating:      2980242.94512392     
  Total Current Drive:    48783.1727185820     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3021
 TA= 3.31000E+00 CPU TIME= 1.59226E-01 SECONDS.  DT= 6.94577E-04
  
 TEC1=    3.30999999999995     
 TEC2=    3.31499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.26927527777752     
  %check_save_state: izleft hours =    71.7222222222222     
 --> plasma_hash("gframe"): TA= 3.310000E+00 NSTEP=  3021 Hash code:   55787076
 ->PRGCHK: bdy curvature ratio at t= 3.3150E+00 seconds is:  5.6488E-02
% MHDEQ: TG1=     3.310000 ; TG2=     3.315000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.9530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7627E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6488E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.310000 TO TG2=    3.315000 @ NSTEP     3021
   GFRAME TG2 MOMENTS CHECKSUM:  2.4733042926619D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3150E+00  3.3200E+00 total power(Watts):  2.9903E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.31500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.388200E+02    0.385552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.367905E+02    0.386575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.381568E+02    0.371616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.404600E+02    0.375904E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.404540E+02    0.394044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.381656E+02    0.400753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.360939E+02    0.412060E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.347750E+02    0.399841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.346351E+02    0.383697E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.356562E+02    0.367966E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.374256E+02    0.357452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.395143E+02    0.354825E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.415850E+02    0.359773E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.428658E+02    0.372112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.432447E+02    0.387502E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.420481E+02    0.404281E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.402214E+02    0.415172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.380151E+02    0.418082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.360672E+02    0.440204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.330323E+02    0.424494E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.316940E+02    0.398520E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.321036E+02    0.370797E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.342636E+02    0.347344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.378370E+02    0.333137E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.415908E+02    0.333885E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.449211E+02    0.347471E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133307E+03   -0.468601E+02    0.371203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133373E+03   -0.463191E+02    0.400915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.435254E+02    0.428034E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.397900E+02    0.442175E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.397076E+02    0.309655E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.376687E+02    0.310825E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.391435E+02    0.296357E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.414583E+02    0.300137E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.413492E+02    0.317179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.390568E+02    0.323461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.369827E+02    0.334142E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.356559E+02    0.323474E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.355089E+02    0.308676E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.364355E+02    0.294379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.383082E+02    0.283688E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.405092E+02    0.280519E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.425856E+02    0.284992E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.438712E+02    0.296360E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.440284E+02    0.311262E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.430605E+02    0.325561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.411250E+02    0.336126E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.389132E+02    0.339226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.368688E+02    0.360352E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.340069E+02    0.345681E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.325567E+02    0.322675E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.329641E+02    0.296940E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.352323E+02    0.273855E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.388277E+02    0.260121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.427065E+02    0.260257E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.459335E+02    0.273418E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133460E+03   -0.477440E+02    0.295516E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.472187E+02    0.322052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.444429E+02    0.346812E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.407086E+02    0.360671E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.388498E+02    0.438329E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.368122E+02    0.438986E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.381915E+02    0.423095E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.404988E+02    0.428190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.404827E+02    0.447632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.381861E+02    0.454123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.362049E+02    0.464833E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.347899E+02    0.452120E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.347544E+02    0.434839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.356885E+02    0.418740E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.373635E+02    0.408291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.395599E+02    0.405306E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.415246E+02    0.411459E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.429147E+02    0.424632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.431723E+02    0.441957E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.421881E+02    0.458395E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.403464E+02    0.469208E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.381294E+02    0.471558E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.361561E+02    0.494195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.330318E+02    0.477014E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.317064E+02    0.450122E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.321287E+02    0.420942E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.343947E+02    0.395923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.377811E+02    0.382618E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.416480E+02    0.383301E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.449889E+02    0.398383E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133016E+03   -0.469265E+02    0.424846E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133111E+03   -0.463632E+02    0.456751E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134038E+03   -0.436560E+02    0.483632E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.398924E+02    0.497376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.391307E+02    0.349603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.370973E+02    0.350778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.385683E+02    0.335646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.408767E+02    0.339626E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.408685E+02    0.357135E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.384796E+02    0.364240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.365103E+02    0.374700E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.352813E+02    0.362771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.349436E+02    0.348277E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.358673E+02    0.333452E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.377289E+02    0.322723E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.399273E+02    0.319559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.418927E+02    0.324675E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.432821E+02    0.335786E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.434416E+02    0.351504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.424733E+02    0.366725E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.405401E+02    0.377647E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.384378E+02    0.380172E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.363909E+02    0.401984E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.333508E+02    0.387456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.320023E+02    0.362883E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.324988E+02    0.335343E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.346641E+02    0.312766E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.382444E+02    0.298898E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.420050E+02    0.299589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.453389E+02    0.312389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.471625E+02    0.334995E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.466307E+02    0.363354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.438492E+02    0.389182E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.401189E+02    0.403309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.398011E+02    0.258535E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.377593E+02    0.259682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.392400E+02    0.245832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.415541E+02    0.249439E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.415429E+02    0.265197E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.391429E+02    0.271950E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.370666E+02    0.282527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.357453E+02    0.272209E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.356033E+02    0.257745E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.365345E+02    0.244049E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.385044E+02    0.233262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.407091E+02    0.230370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.426829E+02    0.235241E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.439639E+02    0.245913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.441158E+02    0.260053E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.430355E+02    0.274496E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.412078E+02    0.284265E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.389975E+02    0.287362E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.369526E+02    0.307503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.339034E+02    0.295120E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.326384E+02    0.271518E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.331427E+02    0.245835E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.354226E+02    0.223916E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.390314E+02    0.210507E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.429158E+02    0.210844E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.461382E+02    0.223934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.477159E+02    0.245709E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.470603E+02    0.271467E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.444068E+02    0.294838E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.406853E+02    0.308037E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.59 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670195.152728218     
  ps_ts2 prof sum =   669792.923586323     
  trcom prof sum =    669792.923586323     
  ps_ts2 cur sum  =   10080.5631474042     
  trcom cur sum  =    10080.5631474042     
  
  antenna # iant =            2
  powecha_use(iant) =    667519.732664093     
  ps_ts2 prof sum =   667152.346879069     
  trcom prof sum =    667152.346879068     
  ps_ts2 cur sum  =   11992.1460680294     
  trcom cur sum  =    11992.1460680294     
  
  antenna # iant =            3
  powecha_use(iant) =    531167.521412967     
  ps_ts2 prof sum =   530853.975272032     
  trcom prof sum =    530853.975272032     
  ps_ts2 cur sum  =   6911.01133510044     
  trcom cur sum  =    6911.01133510045     
  
  antenna # iant =            4
  powecha_use(iant) =    575765.243916550     
  ps_ts2 prof sum =   575431.528444528     
  trcom prof sum =    575431.528444528     
  ps_ts2 cur sum  =   9477.07065055440     
  trcom cur sum  =    9477.07065055439     
  
  antenna # iant =            5
  powecha_use(iant) =    545609.780592266     
  ps_ts2 prof sum =   545316.298710178     
  trcom prof sum =    545316.298710177     
  ps_ts2 cur sum  =   10676.5204760005     
  trcom cur sum  =    10676.5204760005     
  
  Total ECH heating:      2988547.07289213     
  Total Current Drive:    49137.3116770889     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3026
 TA= 3.31500E+00 CPU TIME= 1.86757E-01 SECONDS.  DT= 1.24416E-03
  
 TEC1=    3.31499999999995     
 TEC2=    3.31999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.28605972222226     
  %check_save_state: izleft hours =    71.7055555555555     
 --> plasma_hash("gframe"): TA= 3.315000E+00 NSTEP=  3026 Hash code:    6653036
 ->PRGCHK: bdy curvature ratio at t= 3.3200E+00 seconds is:  5.6530E-02
% MHDEQ: TG1=     3.315000 ; TG2=     3.320000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6530E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.315000 TO TG2=    3.320000 @ NSTEP     3026
   GFRAME TG2 MOMENTS CHECKSUM:  2.4729986028291D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.65864E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.86735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.72318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.14383E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.68040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.67856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.42446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.37927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.98484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.06462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.98727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.48415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.71597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.25990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.01957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.38536E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.81759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.76748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.28994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.19362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.19362E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3200E+00  3.3250E+00 total power(Watts):  2.9889E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.32000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.387259E+02    0.385959E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.366964E+02    0.387004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.381664E+02    0.371527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.404715E+02    0.375801E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.403575E+02    0.394418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.380731E+02    0.401114E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.361045E+02    0.411922E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.348825E+02    0.399245E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.345480E+02    0.384123E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.355681E+02    0.368407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.373349E+02    0.357877E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.395248E+02    0.354698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.414867E+02    0.360178E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.427655E+02    0.372511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.430294E+02    0.388355E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.420600E+02    0.404178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.401252E+02    0.415457E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.380265E+02    0.417929E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.359758E+02    0.440485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.329488E+02    0.424792E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.316124E+02    0.398927E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.321125E+02    0.370691E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.343651E+02    0.346634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.377464E+02    0.333562E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.416016E+02    0.333724E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.448182E+02    0.347857E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.467544E+02    0.371580E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.462139E+02    0.401244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.436537E+02    0.427473E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.398021E+02    0.442051E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.396143E+02    0.310092E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.375787E+02    0.311273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.390514E+02    0.296789E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.413625E+02    0.300553E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.413596E+02    0.317023E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.389641E+02    0.323890E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.367943E+02    0.335156E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.357611E+02    0.322718E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.354226E+02    0.309137E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.363484E+02    0.294823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.383180E+02    0.283447E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.404152E+02    0.280907E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.424886E+02    0.285364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.437716E+02    0.296762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.439281E+02    0.311664E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.429614E+02    0.325962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.410279E+02    0.336544E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.388209E+02    0.339635E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.368789E+02    0.360230E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.338294E+02    0.346710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.324754E+02    0.323158E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.329726E+02    0.296757E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.351480E+02    0.274251E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.387384E+02    0.260449E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.426114E+02    0.260545E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.458328E+02    0.273696E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.475291E+02    0.296406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133681E+03   -0.471140E+02    0.322426E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.443406E+02    0.347203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.406117E+02    0.361082E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.387558E+02    0.438584E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.367216E+02    0.439254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.381006E+02    0.423360E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.405112E+02    0.428034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.403860E+02    0.447883E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.380930E+02    0.454390E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.361158E+02    0.465084E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.348987E+02    0.451655E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.345702E+02    0.435531E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.356001E+02    0.419031E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.373744E+02    0.408165E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.394647E+02    0.405645E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.415369E+02    0.411322E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.428135E+02    0.424884E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.430715E+02    0.442189E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.420884E+02    0.458637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.402503E+02    0.469422E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.380370E+02    0.471768E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.360674E+02    0.494326E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.331369E+02    0.476595E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.316250E+02    0.450418E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.320469E+02    0.421253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.342129E+02    0.396821E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.376897E+02    0.383024E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.415493E+02    0.383705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134288E+03   -0.448854E+02    0.398721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133206E+03   -0.468208E+02    0.425054E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133074E+03   -0.463833E+02    0.456635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.435555E+02    0.483760E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.397965E+02    0.497478E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.390373E+02    0.350010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.370072E+02    0.351194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.384754E+02    0.336079E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.407808E+02    0.340028E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.407768E+02    0.357530E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.383865E+02    0.364663E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.364204E+02    0.375130E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.351941E+02    0.363210E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.350487E+02    0.347556E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.359737E+02    0.332712E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.377436E+02    0.322545E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.398332E+02    0.319987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.419035E+02    0.324515E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.431852E+02    0.336169E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.433407E+02    0.351892E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.423741E+02    0.367120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.405515E+02    0.377554E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.383451E+02    0.380578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.363013E+02    0.402357E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.332660E+02    0.387884E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.319209E+02    0.363339E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.324177E+02    0.335799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.345792E+02    0.313230E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.381539E+02    0.299340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.420156E+02    0.299403E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.452360E+02    0.312788E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133671E+03   -0.470571E+02    0.335365E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.464051E+02    0.364232E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.439758E+02    0.388629E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.401302E+02    0.403204E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.398105E+02    0.258209E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.375753E+02    0.260675E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.392492E+02    0.245492E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.415638E+02    0.249099E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.414493E+02    0.265505E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.390521E+02    0.272307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.368820E+02    0.283582E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.358474E+02    0.271274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.356095E+02    0.257445E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.365427E+02    0.243725E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.384174E+02    0.233594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.406185E+02    0.230681E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.425887E+02    0.235533E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.438727E+02    0.246140E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.440188E+02    0.260323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.430458E+02    0.274209E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.411085E+02    0.284661E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.389064E+02    0.287772E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.368640E+02    0.307953E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.339118E+02    0.294937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.325600E+02    0.271915E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.330646E+02    0.246205E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.353396E+02    0.224297E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.389416E+02    0.210850E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.428226E+02    0.211125E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.460404E+02    0.224171E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133978E+03   -0.476147E+02    0.245932E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.471851E+02    0.270579E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.444174E+02    0.294651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.406945E+02    0.307873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    671441.587580059     
  ps_ts2 prof sum =   671083.183731791     
  trcom prof sum =    671083.183731792     
  ps_ts2 cur sum  =   10140.3001776307     
  trcom cur sum  =    10140.3001776307     
  
  antenna # iant =            2
  powecha_use(iant) =    666346.740411475     
  ps_ts2 prof sum =   665942.407982340     
  trcom prof sum =    665942.407982339     
  ps_ts2 cur sum  =   12025.7836182298     
  trcom cur sum  =    12025.7836182298     
  
  antenna # iant =            3
  powecha_use(iant) =    531537.979478308     
  ps_ts2 prof sum =   531216.969670660     
  trcom prof sum =    531216.969670660     
  ps_ts2 cur sum  =   6940.99291774186     
  trcom cur sum  =    6940.99291774187     
  
  antenna # iant =            4
  powecha_use(iant) =    573277.783882835     
  ps_ts2 prof sum =   572962.983669861     
  trcom prof sum =    572962.983669860     
  ps_ts2 cur sum  =   9477.95773551778     
  trcom cur sum  =    9477.95773551776     
  
  antenna # iant =            5
  powecha_use(iant) =    546278.180908764     
  ps_ts2 prof sum =   545996.980320787     
  trcom prof sum =    545996.980320787     
  ps_ts2 cur sum  =   10739.7601881901     
  trcom cur sum  =    10739.7601881901     
  
  Total ECH heating:      2987202.52537544     
  Total Current Drive:    49324.7946373102     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3030
 TA= 3.32000E+00 CPU TIME= 1.46049E-01 SECONDS.  DT= 3.20783E-04
  
 TEC1=    3.31999999999995     
 TEC2=    3.32499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.30290777777736     
  %check_save_state: izleft hours =    71.6886111111111     
 --> plasma_hash("gframe"): TA= 3.320000E+00 NSTEP=  3030 Hash code:  104076856
 ->PRGCHK: bdy curvature ratio at t= 3.3250E+00 seconds is:  5.6572E-02
% MHDEQ: TG1=     3.320000 ; TG2=     3.325000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.7450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7672E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6572E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.320000 TO TG2=    3.325000 @ NSTEP     3030
   GFRAME TG2 MOMENTS CHECKSUM:  2.4726929129963D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3250E+00  3.3300E+00 total power(Watts):  2.9781E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.32500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.386331E+02    0.386360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.366066E+02    0.387420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.380702E+02    0.371963E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.403754E+02    0.376215E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.403694E+02    0.394324E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.379808E+02    0.401481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.360159E+02    0.412246E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.347963E+02    0.399634E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.346538E+02    0.383524E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.353828E+02    0.369397E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.372446E+02    0.358311E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.394311E+02    0.355113E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.413893E+02    0.360591E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.426659E+02    0.372917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.429311E+02    0.388724E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.419613E+02    0.404510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.401377E+02    0.415314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.379344E+02    0.418217E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.359872E+02    0.440365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.329592E+02    0.424644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.315318E+02    0.399328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.320309E+02    0.371156E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.341882E+02    0.347652E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.376560E+02    0.334005E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.415052E+02    0.334146E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.447163E+02    0.348242E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.466492E+02    0.371963E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133751E+03   -0.461092E+02    0.401568E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.435526E+02    0.427707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.397070E+02    0.442305E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.395223E+02    0.310539E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.374895E+02    0.311739E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.389600E+02    0.297251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.412674E+02    0.300995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.412640E+02    0.317456E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.388720E+02    0.324339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.369031E+02    0.334436E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.356747E+02    0.323182E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.355273E+02    0.308368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.364541E+02    0.294029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.382287E+02    0.283888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.404258E+02    0.280696E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.423927E+02    0.285772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.436733E+02    0.297175E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.438287E+02    0.312086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.428629E+02    0.326381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.410394E+02    0.336400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.388311E+02    0.339505E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.367894E+02    0.360665E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.337452E+02    0.347165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.323948E+02    0.323635E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.328918E+02    0.297257E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.352495E+02    0.273358E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.387485E+02    0.260163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.425148E+02    0.260878E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.459566E+02    0.272856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.474253E+02    0.296797E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.470099E+02    0.322821E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.442395E+02    0.347590E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.405157E+02    0.361495E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.386623E+02    0.438841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.366318E+02    0.439526E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.381107E+02    0.423212E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.404149E+02    0.428281E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.403991E+02    0.447776E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.380017E+02    0.454641E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.360272E+02    0.465330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.348119E+02    0.451937E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.346782E+02    0.434990E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.355121E+02    0.419332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.372836E+02    0.408496E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.393701E+02    0.405982E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.414390E+02    0.411623E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.427136E+02    0.425129E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.429713E+02    0.442439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.419896E+02    0.458885E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.401548E+02    0.469632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.379452E+02    0.471979E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.359808E+02    0.494433E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.329595E+02    0.477116E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.315445E+02    0.450712E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.319655E+02    0.421558E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.341261E+02    0.397227E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.377004E+02    0.382943E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.414513E+02    0.384100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.450153E+02    0.398184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133397E+03   -0.467155E+02    0.425272E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.462734E+02    0.456868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.436855E+02    0.483388E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.398116E+02    0.497342E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.390483E+02    0.349879E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.368176E+02    0.352194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.383837E+02    0.336512E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.407922E+02    0.339891E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.406810E+02    0.357933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.382939E+02    0.365094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.363307E+02    0.375573E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.350106E+02    0.364206E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.348657E+02    0.348591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.358867E+02    0.333164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.376538E+02    0.322996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.397399E+02    0.320434E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.418069E+02    0.324944E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.430859E+02    0.336582E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.432409E+02    0.352285E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.422751E+02    0.367530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.404553E+02    0.377967E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.382522E+02    0.381011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.363121E+02    0.402239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.332752E+02    0.387803E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.319301E+02    0.363225E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.323366E+02    0.336269E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.344949E+02    0.313714E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.380642E+02    0.299806E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.419201E+02    0.299834E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.451355E+02    0.313191E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.468352E+02    0.336267E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134123E+03   -0.463007E+02    0.364609E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.437603E+02    0.389458E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.400345E+02    0.403549E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.397205E+02    0.258559E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.374887E+02    0.261050E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.391611E+02    0.245833E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.414720E+02    0.249418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.413562E+02    0.265857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.389622E+02    0.272703E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.367955E+02    0.284026E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.356693E+02    0.272355E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.355283E+02    0.257815E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.364596E+02    0.244092E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.382349E+02    0.234615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.405294E+02    0.231001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.425999E+02    0.235194E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.438790E+02    0.245853E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.440307E+02    0.260015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.429502E+02    0.274561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.410195E+02    0.285057E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.389167E+02    0.287587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.366783E+02    0.309045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.338294E+02    0.295431E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.325673E+02    0.271690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.330715E+02    0.245919E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.352585E+02    0.224679E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.387613E+02    0.211850E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.427309E+02    0.211411E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.459435E+02    0.224429E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.475151E+02    0.246171E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.470838E+02    0.270886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.443173E+02    0.295070E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.406003E+02    0.308320E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667904.830310856     
  ps_ts2 prof sum =   667533.430825936     
  trcom prof sum =    667533.430825937     
  ps_ts2 cur sum  =   10129.1294929280     
  trcom cur sum  =    10129.1294929280     
  
  antenna # iant =            2
  powecha_use(iant) =    665359.622006970     
  ps_ts2 prof sum =   665016.120534451     
  trcom prof sum =    665016.120492860     
  ps_ts2 cur sum  =   12063.0690928602     
  trcom cur sum  =    12063.0690928602     
  
  antenna # iant =            3
  powecha_use(iant) =    531734.934924707     
  ps_ts2 prof sum =   531422.834804119     
  trcom prof sum =    531422.834804119     
  ps_ts2 cur sum  =   6969.33835127308     
  trcom cur sum  =    6969.33835127308     
  
  antenna # iant =            4
  powecha_use(iant) =    566210.865980023     
  ps_ts2 prof sum =   565854.696694365     
  trcom prof sum =    565854.696694365     
  ps_ts2 cur sum  =   9401.35638672039     
  trcom cur sum  =    9401.35638672038     
  
  antenna # iant =            5
  powecha_use(iant) =    546892.926742228     
  ps_ts2 prof sum =   546564.627663818     
  trcom prof sum =    546564.627663818     
  ps_ts2 cur sum  =   10804.0079945140     
  trcom cur sum  =    10804.0079945140     
  
  Total ECH heating:      2976391.71048110     
  Total Current Drive:    49366.9013182957     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3038
 TA= 3.32500E+00 CPU TIME= 1.63018E-01 SECONDS.  DT= 2.05855E-04
  
 TEC1=    3.32499999999995     
 TEC2=    3.32999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.31706583333312     
  %check_save_state: izleft hours =    71.6744444444444     
 --> plasma_hash("gframe"): TA= 3.325000E+00 NSTEP=  3038 Hash code:   55079884
 ->PRGCHK: bdy curvature ratio at t= 3.3300E+00 seconds is:  5.6614E-02
% MHDEQ: TG1=     3.325000 ; TG2=     3.330000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2640E-03 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6614E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.325000 TO TG2=    3.330000 @ NSTEP     3038
   GFRAME TG2 MOMENTS CHECKSUM:  2.4723872231635D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.81107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -1.93976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.62648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.93270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.61884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.65285E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.23379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.40447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.00465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.82987E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.88243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.41107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.51056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.08831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.04606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.31061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.59208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.56230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.39714E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.20303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.20303E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3300E+00  3.3350E+00 total power(Watts):  2.9749E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.33000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.385412E+02    0.386793E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.365192E+02    0.387850E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.379836E+02    0.372406E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.402805E+02    0.376662E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.402745E+02    0.394731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.378897E+02    0.401870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.359282E+02    0.412593E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.346138E+02    0.400531E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.345689E+02    0.383979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.354921E+02    0.368771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.371558E+02    0.358749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.393417E+02    0.355537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.412936E+02    0.361018E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.426797E+02    0.372846E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.428322E+02    0.389136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.418639E+02    0.404871E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.400430E+02    0.415638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.378460E+02    0.418530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.358994E+02    0.440674E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.328768E+02    0.424971E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.315424E+02    0.399246E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.319511E+02    0.371631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.341052E+02    0.348096E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.376675E+02    0.333840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.414100E+02    0.334537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.448456E+02    0.347579E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.465456E+02    0.372378E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.460060E+02    0.401924E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.433383E+02    0.428367E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.396118E+02    0.442610E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.395354E+02    0.310321E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.372984E+02    0.312773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.389685E+02    0.297053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.412810E+02    0.300772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.411710E+02    0.317825E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.387820E+02    0.324729E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.368158E+02    0.334854E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.354939E+02    0.324200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.353487E+02    0.309405E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.363695E+02    0.294449E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.381415E+02    0.284309E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.403351E+02    0.281090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.422992E+02    0.286153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.435766E+02    0.297547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.437320E+02    0.312434E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.427657E+02    0.326752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.409450E+02    0.336791E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.387415E+02    0.339908E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.367014E+02    0.361112E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.336631E+02    0.347609E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.324054E+02    0.323443E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138266E+03   -0.328129E+02    0.297700E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.350754E+02    0.274470E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.386617E+02    0.260585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.425298E+02    0.260638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.457473E+02    0.273798E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.473246E+02    0.297123E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.467915E+02    0.323690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.441401E+02    0.347977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.404213E+02    0.361927E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.385697E+02    0.439139E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.365427E+02    0.439831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.380194E+02    0.423517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.403195E+02    0.428573E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.403012E+02    0.448082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.379099E+02    0.454948E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.359394E+02    0.465612E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.346280E+02    0.452625E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.345926E+02    0.435297E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.353264E+02    0.420100E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.371938E+02    0.408856E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.393834E+02    0.405888E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.413422E+02    0.411953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.427286E+02    0.425003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.428719E+02    0.442707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.418912E+02    0.459170E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.400598E+02    0.469890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.378534E+02    0.472236E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.358931E+02    0.494602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.328773E+02    0.477344E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.315554E+02    0.450651E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.319764E+02    0.421442E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.342309E+02    0.396660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.376102E+02    0.383387E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.414649E+02    0.384037E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.449139E+02    0.398552E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.466115E+02    0.425522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133464E+03   -0.461698E+02    0.457122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134175E+03   -0.435858E+02    0.483569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.397176E+02    0.497488E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.389570E+02    0.350301E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.369297E+02    0.351503E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.383963E+02    0.336344E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.406989E+02    0.340285E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.405865E+02    0.358354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.383073E+02    0.365001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.362429E+02    0.376035E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.349251E+02    0.364665E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.347827E+02    0.349022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.358011E+02    0.333582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.375648E+02    0.323398E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.397531E+02    0.320227E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.417124E+02    0.325314E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.429888E+02    0.336958E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.431427E+02    0.352687E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.421775E+02    0.367965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.403603E+02    0.378411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.381610E+02    0.381454E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.362246E+02    0.402631E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.331932E+02    0.388247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.318504E+02    0.363699E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.323467E+02    0.336104E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.345998E+02    0.312876E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.379767E+02    0.300210E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.418268E+02    0.300204E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.450370E+02    0.313529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.467329E+02    0.336621E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.464333E+02    0.364039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.436603E+02    0.389868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.399413E+02    0.403918E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.396323E+02    0.258971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.375965E+02    0.260166E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.390738E+02    0.246242E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.413816E+02    0.249805E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.412651E+02    0.266257E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.388744E+02    0.273121E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.369036E+02    0.283175E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.355867E+02    0.272804E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.354465E+02    0.258265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.363768E+02    0.244522E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.381499E+02    0.235015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.405410E+02    0.230717E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.425088E+02    0.235548E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.437855E+02    0.246208E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.439355E+02    0.260397E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.428562E+02    0.274950E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.410326E+02    0.284845E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.388285E+02    0.287999E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.367882E+02    0.308214E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.337489E+02    0.295870E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.324899E+02    0.272163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.329957E+02    0.246372E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.352684E+02    0.224391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.386765E+02    0.212218E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.427427E+02    0.211077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.458488E+02    0.224722E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.474164E+02    0.246500E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.468715E+02    0.271811E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.442208E+02    0.295425E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.405086E+02    0.308702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658764.784552245     
  ps_ts2 prof sum =   658397.717909456     
  trcom prof sum =    658397.717909457     
  ps_ts2 cur sum  =   10036.6641342352     
  trcom cur sum  =    10036.6641342352     
  
  antenna # iant =            2
  powecha_use(iant) =    666179.607440889     
  ps_ts2 prof sum =   665777.771911591     
  trcom prof sum =    665777.771911590     
  ps_ts2 cur sum  =   12142.6095557086     
  trcom cur sum  =    12142.6095557086     
  
  antenna # iant =            3
  powecha_use(iant) =    531923.687063101     
  ps_ts2 prof sum =   531609.622916574     
  trcom prof sum =    531609.622916574     
  ps_ts2 cur sum  =   7001.29952994035     
  trcom cur sum  =    7001.29952994035     
  
  antenna # iant =            4
  powecha_use(iant) =    570545.330449561     
  ps_ts2 prof sum =   570217.352543331     
  trcom prof sum =    570217.352543331     
  ps_ts2 cur sum  =   9521.29942385216     
  trcom cur sum  =    9521.29942385215     
  
  antenna # iant =            5
  powecha_use(iant) =    547530.657977112     
  ps_ts2 prof sum =   547226.467903331     
  trcom prof sum =    547226.467867826     
  ps_ts2 cur sum  =   10877.1947243329     
  trcom cur sum  =    10877.1947243329     
  
  Total ECH heating:      2973228.93314878     
  Total Current Drive:    49579.0673680691     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3047
 TA= 3.33000E+00 CPU TIME= 1.60290E-01 SECONDS.  DT= 1.14433E-03
  
 TEC1=    3.32999999999995     
 TEC2=    3.33499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.32963638888896     
  %check_save_state: izleft hours =    71.6619444444444     
 --> plasma_hash("gframe"): TA= 3.330000E+00 NSTEP=  3047 Hash code:   98300454
 ->PRGCHK: bdy curvature ratio at t= 3.3350E+00 seconds is:  5.6657E-02
% MHDEQ: TG1=     3.330000 ; TG2=     3.335000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6657E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.330000 TO TG2=    3.335000 @ NSTEP     3047
   GFRAME TG2 MOMENTS CHECKSUM:  2.4720815333307D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3350E+00  3.3400E+00 total power(Watts):  2.9762E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.33500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.385533E+02    0.386690E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.365299E+02    0.387752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.378919E+02    0.372809E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.401845E+02    0.377057E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.401778E+02    0.395108E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.379017E+02    0.401753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.357395E+02    0.413376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.347215E+02    0.399928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.343870E+02    0.384912E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.354043E+02    0.369192E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.371664E+02    0.358594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.392448E+02    0.355924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.413052E+02    0.360866E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.425801E+02    0.373229E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.427320E+02    0.389504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.417651E+02    0.405198E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.399472E+02    0.415928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.377512E+02    0.418831E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.358107E+02    0.440961E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.327934E+02    0.425276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.314619E+02    0.399642E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138404E+03   -0.318698E+02    0.372076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.340205E+02    0.348498E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.375773E+02    0.334207E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.413148E+02    0.334869E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.446288E+02    0.348434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134060E+03   -0.464405E+02    0.372739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.457827E+02    0.402684E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.432373E+02    0.428613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.395172E+02    0.442873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.394430E+02    0.310675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.374128E+02    0.311891E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.388821E+02    0.297406E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.411861E+02    0.301127E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.410756E+02    0.318162E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.387932E+02    0.324491E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.367274E+02    0.335219E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.354071E+02    0.324582E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.352632E+02    0.309791E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.361864E+02    0.295489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.380522E+02    0.284715E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.402430E+02    0.281483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.422034E+02    0.286518E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.434786E+02    0.297882E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.437468E+02    0.312170E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.426687E+02    0.327066E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.408494E+02    0.337142E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.386490E+02    0.340272E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.366115E+02    0.361519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.336727E+02    0.347425E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.323249E+02    0.323840E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.328215E+02    0.297470E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.349916E+02    0.274907E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.385724E+02    0.260993E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.424345E+02    0.261009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.456470E+02    0.274135E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.474537E+02    0.296306E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.466877E+02    0.323974E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.441526E+02    0.347784E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.404327E+02    0.361786E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385823E+02    0.439017E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.365545E+02    0.439716E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.379269E+02    0.423800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.402232E+02    0.428835E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.402071E+02    0.448338E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.379221E+02    0.454872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.359512E+02    0.465535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.347379E+02    0.452168E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.344087E+02    0.436006E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.354365E+02    0.419511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.371028E+02    0.409188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.392866E+02    0.406226E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.412443E+02    0.412256E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.426288E+02    0.425255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.429999E+02    0.442233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.419054E+02    0.459091E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.399640E+02    0.470114E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.378664E+02    0.472143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.359057E+02    0.494483E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.329833E+02    0.476929E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.314752E+02    0.450959E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.318949E+02    0.421757E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.341487E+02    0.397044E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.375190E+02    0.383788E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.413670E+02    0.384429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.448108E+02    0.398887E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.465061E+02    0.425760E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133653E+03   -0.460644E+02    0.457385E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.434860E+02    0.483692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.396228E+02    0.497612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.388639E+02    0.350676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.368401E+02    0.351893E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.383043E+02    0.336715E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.406060E+02    0.340635E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.404904E+02    0.358741E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.382139E+02    0.365409E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.362537E+02    0.375922E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.350321E+02    0.363978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.348885E+02    0.348259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.356168E+02    0.334555E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.374754E+02    0.323755E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.396600E+02    0.320574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.416160E+02    0.325643E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.428902E+02    0.337283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.431549E+02    0.352515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.421899E+02    0.367826E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.402642E+02    0.378807E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.381724E+02    0.381348E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.361354E+02    0.402992E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.331093E+02    0.388668E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.317695E+02    0.364136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.322654E+02    0.336509E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.344221E+02    0.313892E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.379886E+02    0.299960E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.417312E+02    0.300553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.449361E+02    0.313833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.468636E+02    0.335873E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.463287E+02    0.364387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.435588E+02    0.390229E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.398445E+02    0.404261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.395416E+02    0.259367E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.375090E+02    0.260584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.388863E+02    0.247288E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.412886E+02    0.250175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.411714E+02    0.266644E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.388839E+02    0.272894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.368164E+02    0.283591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.355023E+02    0.273236E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.355473E+02    0.257354E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.364779E+02    0.243577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.382541E+02    0.234053E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.404503E+02    0.231064E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.424150E+02    0.235881E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.436892E+02    0.246545E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.438382E+02    0.260753E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.427599E+02    0.275323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.409386E+02    0.285222E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.387379E+02    0.288390E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.367005E+02    0.308588E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.336667E+02    0.296289E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138434E+03   -0.324116E+02    0.272624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.329165E+02    0.246824E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.351866E+02    0.224780E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.387797E+02    0.211187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.426500E+02    0.211357E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.458590E+02    0.224372E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.475397E+02    0.245618E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.467697E+02    0.272143E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.441219E+02    0.295753E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.404153E+02    0.309041E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658000.451401228     
  ps_ts2 prof sum =   657593.688460352     
  trcom prof sum =    657593.688460353     
  ps_ts2 cur sum  =   10066.4652295347     
  trcom cur sum  =    10066.4652295347     
  
  antenna # iant =            2
  powecha_use(iant) =    665327.936472320     
  ps_ts2 prof sum =   664940.167814500     
  trcom prof sum =    664940.167814499     
  ps_ts2 cur sum  =   12182.6363232347     
  trcom cur sum  =    12182.6363232347     
  
  antenna # iant =            3
  powecha_use(iant) =    533795.968522211     
  ps_ts2 prof sum =   533518.546692761     
  trcom prof sum =    533518.546692762     
  ps_ts2 cur sum  =   7052.53981262137     
  trcom cur sum  =    7052.53981262137     
  
  antenna # iant =            4
  powecha_use(iant) =    572084.794440487     
  ps_ts2 prof sum =   571762.313595810     
  trcom prof sum =    571762.313595809     
  ps_ts2 cur sum  =   9589.05584969449     
  trcom cur sum  =    9589.05584969447     
  
  antenna # iant =            5
  powecha_use(iant) =    546968.878061369     
  ps_ts2 prof sum =   546692.655120334     
  trcom prof sum =    546692.655120334     
  ps_ts2 cur sum  =   10915.0721283827     
  trcom cur sum  =    10915.0721283827     
  
  Total ECH heating:      2974507.37168376     
  Total Current Drive:    49805.7693434679     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3051
 TA= 3.33500E+00 CPU TIME= 1.45813E-01 SECONDS.  DT= 7.96555E-04
  
 TEC1=    3.33499999999995     
 TEC2=    3.33999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.34087944444423     
  %check_save_state: izleft hours =    71.6508333333333     
 --> plasma_hash("gframe"): TA= 3.335000E+00 NSTEP=  3051 Hash code:   51663271
 ->PRGCHK: bdy curvature ratio at t= 3.3400E+00 seconds is:  5.6701E-02
% MHDEQ: TG1=     3.335000 ; TG2=     3.340000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6701E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.335000 TO TG2=    3.340000 @ NSTEP     3051
   GFRAME TG2 MOMENTS CHECKSUM:  2.4717758434979D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.95363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.00748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.53603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.67050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.56127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.62881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.33830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.17201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.42805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -6.30310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.61032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.78438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.34271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.25371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.92782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.07084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.24069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.38117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.37041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.49740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.12919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.12919E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.3400E+00  3.3450E+00 total power(Watts):  2.9657E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.34000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.384607E+02    0.387079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.364413E+02    0.388137E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.379035E+02    0.372684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.401973E+02    0.376928E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.400866E+02    0.395453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.378103E+02    0.402098E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.358519E+02    0.412773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.346359E+02    0.400293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.343016E+02    0.385324E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.352198E+02    0.370143E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.370767E+02    0.358973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.391518E+02    0.356281E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.412088E+02    0.361223E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.424813E+02    0.373596E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.426325E+02    0.389879E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.417789E+02    0.405067E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.398523E+02    0.416221E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.377641E+02    0.418691E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.357227E+02    0.441263E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.328987E+02    0.424689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138516E+03   -0.313823E+02    0.400022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.318796E+02    0.371943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.341253E+02    0.347706E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.374875E+02    0.334536E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.413259E+02    0.334615E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.445279E+02    0.348736E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.463363E+02    0.373081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.459163E+02    0.402118E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.431371E+02    0.428874E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.395300E+02    0.442794E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.393511E+02    0.310988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.373245E+02    0.312219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.387918E+02    0.297737E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.410920E+02    0.301430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.410878E+02    0.317869E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.387012E+02    0.324810E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.365396E+02    0.336156E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.355144E+02    0.323702E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.353687E+02    0.308882E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.362930E+02    0.294572E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.380624E+02    0.284438E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.401507E+02    0.281826E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.422150E+02    0.286232E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.434915E+02    0.297579E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.436459E+02    0.312453E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.426817E+02    0.326784E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.407509E+02    0.337463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.385579E+02    0.340603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.366228E+02    0.361355E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.335891E+02    0.347812E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.322450E+02    0.324206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.327413E+02    0.297861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.349087E+02    0.275300E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.383849E+02    0.262012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.423398E+02    0.261328E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.455465E+02    0.274440E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.473510E+02    0.296556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134235E+03   -0.468189E+02    0.323137E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.440523E+02    0.348087E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.403377E+02    0.362145E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.384895E+02    0.439305E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.364652E+02    0.440016E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.378353E+02    0.424090E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.402372E+02    0.428700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.401115E+02    0.448634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.378294E+02    0.455189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.358631E+02    0.465815E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.346516E+02    0.452492E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.343228E+02    0.436313E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.353493E+02    0.419819E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.371155E+02    0.409043E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.391954E+02    0.406538E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.412581E+02    0.412115E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.425318E+02    0.425506E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.427860E+02    0.442871E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.418071E+02    0.459377E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.399781E+02    0.470061E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.377750E+02    0.472395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.358178E+02    0.494670E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.328060E+02    0.477491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.313934E+02    0.451301E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.318142E+02    0.422078E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.339681E+02    0.397928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.374284E+02    0.384176E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.412703E+02    0.384798E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.447086E+02    0.399217E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.465216E+02    0.425615E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133844E+03   -0.459609E+02    0.457638E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.432703E+02    0.484150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.395285E+02    0.497784E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.387717E+02    0.351025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.367511E+02    0.352261E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.382136E+02    0.337046E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.405088E+02    0.340958E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.405029E+02    0.358559E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.381224E+02    0.365790E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.361653E+02    0.376329E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.348493E+02    0.364934E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.348033E+02    0.348633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.357241E+02    0.333720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.374874E+02    0.323480E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.395667E+02    0.320882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.416286E+02    0.325364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.429038E+02    0.337023E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.430560E+02    0.352837E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.420919E+02    0.368189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.402770E+02    0.378680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.380810E+02    0.381732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.360470E+02    0.403343E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.332137E+02    0.388032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.317790E+02    0.363982E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.321863E+02    0.336879E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.343386E+02    0.314243E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.378981E+02    0.300302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.417432E+02    0.300257E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.449494E+02    0.313531E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.467602E+02    0.336136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.462249E+02    0.364716E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.434583E+02    0.390586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.398579E+02    0.404123E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.395514E+02    0.259079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.373253E+02    0.261621E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.389938E+02    0.246321E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.412983E+02    0.249865E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.411817E+02    0.266353E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.387943E+02    0.273254E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.366331E+02    0.284610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.355121E+02    0.272962E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.353710E+02    0.258425E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.362994E+02    0.244630E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.380709E+02    0.235057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.403596E+02    0.231364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.423206E+02    0.236174E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.435929E+02    0.246840E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.437415E+02    0.261054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.427711E+02    0.275033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.408452E+02    0.285550E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.386459E+02    0.288744E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.365155E+02    0.309540E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.336760E+02    0.296021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.324166E+02    0.272379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.329237E+02    0.246532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.351046E+02    0.225133E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.385975E+02    0.212163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.425570E+02    0.211601E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.457611E+02    0.224586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.473264E+02    0.246446E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.466684E+02    0.272419E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.440241E+02    0.296035E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.404271E+02    0.308751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654976.394873310     
  ps_ts2 prof sum =   654620.030027066     
  trcom prof sum =    654620.030027066     
  ps_ts2 cur sum  =   10059.3470325343     
  trcom cur sum  =    10059.3470325343     
  
  antenna # iant =            2
  powecha_use(iant) =    665041.728643891     
  ps_ts2 prof sum =   664672.722005339     
  trcom prof sum =    664672.722005338     
  ps_ts2 cur sum  =   12227.2760937827     
  trcom cur sum  =    12227.2760937827     
  
  antenna # iant =            3
  powecha_use(iant) =    532029.513015624     
  ps_ts2 prof sum =   531715.391192938     
  trcom prof sum =    531715.391192938     
  ps_ts2 cur sum  =   7053.86417627064     
  trcom cur sum  =    7053.86417627065     
  
  antenna # iant =            4
  powecha_use(iant) =    566305.152056971     
  ps_ts2 prof sum =   566012.721038542     
  trcom prof sum =    566012.721038542     
  ps_ts2 cur sum  =   9529.70287584484     
  trcom cur sum  =    9529.70287584483     
  
  antenna # iant =            5
  powecha_use(iant) =    547384.939915814     
  ps_ts2 prof sum =   547060.018666678     
  trcom prof sum =    547060.018666678     
  ps_ts2 cur sum  =   10966.7083842805     
  trcom cur sum  =    10966.7083842805     
  
  Total ECH heating:      2964080.88293056     
  Total Current Drive:    49836.8985627130     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3056
 TA= 3.34000E+00 CPU TIME= 1.60780E-01 SECONDS.  DT= 5.09203E-04
  
 TEC1=    3.33999999999995     
 TEC2=    3.34499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.35795416666633     
  %check_save_state: izleft hours =    71.6336111111111     
 --> plasma_hash("gframe"): TA= 3.340000E+00 NSTEP=  3056 Hash code:   95281253
 ->PRGCHK: bdy curvature ratio at t= 3.3450E+00 seconds is:  5.6746E-02
% MHDEQ: TG1=     3.340000 ; TG2=     3.345000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7760E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6746E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.340000 TO TG2=    3.345000 @ NSTEP     3056
   GFRAME TG2 MOMENTS CHECKSUM:  2.4714701536651D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3450E+00  3.3500E+00 total power(Watts):  2.9726E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.34500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.383696E+02    0.387483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.363526E+02    0.388563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.378137E+02    0.373086E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.401036E+02    0.377322E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.399894E+02    0.395844E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.377203E+02    0.402468E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.357652E+02    0.413116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.344542E+02    0.401175E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.344094E+02    0.384709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.351344E+02    0.370559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.369885E+02    0.359364E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.391654E+02    0.356098E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.411140E+02    0.361587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.423890E+02    0.373956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.426478E+02    0.389775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.416824E+02    0.405409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.398669E+02    0.416107E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.376737E+02    0.419014E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.357363E+02    0.441200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.327229E+02    0.425470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.313937E+02    0.399921E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138579E+03   -0.318003E+02    0.372379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.339482E+02    0.348673E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.374002E+02    0.334870E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.412318E+02    0.334934E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.444287E+02    0.349041E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.461153E+02    0.373918E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.458141E+02    0.402452E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.430382E+02    0.429165E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.394368E+02    0.443113E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.392610E+02    0.311306E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.372376E+02    0.312553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.387024E+02    0.298080E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.409996E+02    0.301744E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.409944E+02    0.318172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.386115E+02    0.325135E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.366513E+02    0.335325E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.354302E+02    0.324048E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.352846E+02    0.309243E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.362079E+02    0.294944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.379755E+02    0.284806E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.401632E+02    0.281560E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.421209E+02    0.286563E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.433957E+02    0.297877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.435495E+02    0.312726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.425860E+02    0.327074E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.406623E+02    0.337757E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.385713E+02    0.340369E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.365354E+02    0.361748E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.335065E+02    0.348201E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138510E+03   -0.322559E+02    0.323947E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138648E+03   -0.326621E+02    0.298249E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.349178E+02    0.275063E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.384948E+02    0.261091E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.422465E+02    0.261676E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.454486E+02    0.274749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.472504E+02    0.296817E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.467179E+02    0.323386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.439539E+02    0.348395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.402441E+02    0.362519E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.383976E+02    0.439628E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.363773E+02    0.440347E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.378493E+02    0.423976E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.401425E+02    0.429009E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.401258E+02    0.448601E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.377385E+02    0.455511E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.357801E+02    0.466114E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.345654E+02    0.452839E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.344331E+02    0.435820E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.352631E+02    0.420152E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.370265E+02    0.409391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.391029E+02    0.406886E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.411624E+02    0.412437E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.424314E+02    0.425814E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.426868E+02    0.443184E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.417095E+02    0.459700E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.398834E+02    0.470352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.376840E+02    0.472679E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.357303E+02    0.494890E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.327238E+02    0.477770E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.314061E+02    0.451258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.318261E+02    0.421962E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.338849E+02    0.398320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.374420E+02    0.384076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.411728E+02    0.385190E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.444915E+02    0.400010E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.464183E+02    0.425893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.458571E+02    0.457964E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.431708E+02    0.484383E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.394354E+02    0.497972E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.387809E+02    0.350849E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.367639E+02    0.352066E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.381259E+02    0.337368E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.404158E+02    0.341281E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.404092E+02    0.358919E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.380323E+02    0.366184E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.360783E+02    0.376744E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.347649E+02    0.365342E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.346235E+02    0.349593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.356390E+02    0.334070E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.374000E+02    0.323811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.394757E+02    0.321200E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.415312E+02    0.325673E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.428074E+02    0.337320E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.429585E+02    0.353164E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.419954E+02    0.368561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.401831E+02    0.379078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.379907E+02    0.382141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.360602E+02    0.403237E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.330375E+02    0.388989E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138600E+03   -0.317004E+02    0.364410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.321974E+02    0.336645E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.344435E+02    0.313343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.378101E+02    0.300650E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.416499E+02    0.300566E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.448512E+02    0.313793E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.466588E+02    0.336401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.461229E+02    0.365054E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.433593E+02    0.390962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.397644E+02    0.404477E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.394627E+02    0.259452E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.372391E+02    0.262022E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.389063E+02    0.246689E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.412080E+02    0.250208E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.410901E+02    0.266710E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.387062E+02    0.273632E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.365479E+02    0.284996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.354287E+02    0.273375E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.352885E+02    0.258839E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.362158E+02    0.245027E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.379850E+02    0.235413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.402708E+02    0.231691E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.423305E+02    0.235856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.434984E+02    0.247162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.436462E+02    0.261387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.426763E+02    0.275385E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.407533E+02    0.285903E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.386598E+02    0.288471E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.364294E+02    0.309895E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.335950E+02    0.296410E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138615E+03   -0.323425E+02    0.272795E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138578E+03   -0.328464E+02    0.246964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.351122E+02    0.224813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.385137E+02    0.212477E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.424672E+02    0.211871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.456649E+02    0.224833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.472271E+02    0.246718E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.465694E+02    0.272728E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.439275E+02    0.296331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.403355E+02    0.309062E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660908.976300682     
  ps_ts2 prof sum =   660527.121332315     
  trcom prof sum =    660527.121332315     
  ps_ts2 cur sum  =   10198.0898683406     
  trcom cur sum  =    10198.0898683406     
  
  antenna # iant =            2
  powecha_use(iant) =    663998.898144143     
  ps_ts2 prof sum =   663658.746154655     
  trcom prof sum =    663658.746154654     
  ps_ts2 cur sum  =   12265.9838247565     
  trcom cur sum  =    12265.9838247565     
  
  antenna # iant =            3
  powecha_use(iant) =    531614.344266390     
  ps_ts2 prof sum =   531305.225507624     
  trcom prof sum =    531305.225507625     
  ps_ts2 cur sum  =   7080.55813785064     
  trcom cur sum  =    7080.55813785065     
  
  antenna # iant =            4
  powecha_use(iant) =    568446.044865795     
  ps_ts2 prof sum =   568140.070425804     
  trcom prof sum =    568140.070425804     
  ps_ts2 cur sum  =   9612.31933082910     
  trcom cur sum  =    9612.31933082909     
  
  antenna # iant =            5
  powecha_use(iant) =    547655.826526378     
  ps_ts2 prof sum =   547310.815147433     
  trcom prof sum =    547310.815147433     
  ps_ts2 cur sum  =   11021.6619565749     
  trcom cur sum  =    11021.6619565749     
  
  Total ECH heating:      2970941.97856783     
  Total Current Drive:    50178.6131183518     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3062
 TA= 3.34500E+00 CPU TIME= 1.60535E-01 SECONDS.  DT= 1.02619E-03
  
 TEC1=    3.34499999999995     
 TEC2=    3.34999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.37414527777742     
  %check_save_state: izleft hours =    71.6175000000000     
 --> plasma_hash("gframe"): TA= 3.345000E+00 NSTEP=  3062 Hash code:   48039884
 ->PRGCHK: bdy curvature ratio at t= 3.3500E+00 seconds is:  5.6791E-02
% MHDEQ: TG1=     3.345000 ; TG2=     3.350000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7782E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6791E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.345000 TO TG2=    3.350000 @ NSTEP     3062
   GFRAME TG2 MOMENTS CHECKSUM:  2.4711644638322D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.10829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.08096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.43791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.47097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.49881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.60273E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.45168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.03964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.45363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  4.68455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.37212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.67800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.26855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.05998E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.75370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.09772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.36984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  4.15235E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.16223E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.60617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.19386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.19386E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3500E+00  3.3550E+00 total power(Watts):  2.9750E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.35000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.382774E+02    0.387892E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.362644E+02    0.388977E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.377233E+02    0.373501E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.400092E+02    0.377727E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.400030E+02    0.395751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.376297E+02    0.402836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.356777E+02    0.413456E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.343689E+02    0.401566E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.342290E+02    0.385657E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.352440E+02    0.369893E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.368999E+02    0.359752E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.390731E+02    0.356469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.410184E+02    0.361960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.422862E+02    0.374356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.425493E+02    0.390159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.415854E+02    0.405745E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.397728E+02    0.416420E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.375829E+02    0.419333E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.356489E+02    0.441534E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138358E+03   -0.326408E+02    0.425805E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.313143E+02    0.400325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138780E+03   -0.317207E+02    0.372826E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.338634E+02    0.349074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.374127E+02    0.334629E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.411385E+02    0.335227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.443287E+02    0.349355E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.462493E+02    0.373324E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.457113E+02    0.402781E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.431681E+02    0.428658E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.393431E+02    0.443423E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.392739E+02    0.311009E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.372497E+02    0.312264E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.387147E+02    0.297783E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.410127E+02    0.301442E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.409007E+02    0.318470E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.385224E+02    0.325444E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.365640E+02    0.335675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.352493E+02    0.325004E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.351055E+02    0.310216E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.360269E+02    0.295932E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.378887E+02    0.285157E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.400720E+02    0.281903E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.420268E+02    0.286879E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.432995E+02    0.298157E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.434519E+02    0.312997E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.424898E+02    0.327362E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.406755E+02    0.337517E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.384807E+02    0.340713E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.364475E+02    0.362150E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.336108E+02    0.347410E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138714E+03   -0.321767E+02    0.324311E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.326731E+02    0.297961E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.348362E+02    0.275452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.384064E+02    0.261464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.422583E+02    0.261381E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.453502E+02    0.275039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.470322E+02    0.297631E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.466163E+02    0.323632E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.438546E+02    0.348713E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.401498E+02    0.362900E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.383052E+02    0.439947E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.362887E+02    0.440674E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.377584E+02    0.424286E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.400476E+02    0.429307E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.400312E+02    0.448915E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.376489E+02    0.455826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.356880E+02    0.466423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.343831E+02    0.453534E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.343479E+02    0.436148E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.350776E+02    0.420930E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.369373E+02    0.409737E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.390099E+02    0.407232E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.410662E+02    0.412755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.423336E+02    0.426087E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.425877E+02    0.443485E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.416120E+02    0.460000E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.397886E+02    0.470626E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.375929E+02    0.472950E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.356419E+02    0.495110E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.326415E+02    0.478039E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.313271E+02    0.451594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.317456E+02    0.422304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.339926E+02    0.397717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.373520E+02    0.384491E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.410776E+02    0.385589E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.443902E+02    0.400355E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.463144E+02    0.426162E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.458737E+02    0.457939E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.430706E+02    0.484610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.394497E+02    0.497926E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.386924E+02    0.351202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.366759E+02    0.352445E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.381378E+02    0.337134E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.404292E+02    0.341050E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.403149E+02    0.359289E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.380449E+02    0.366050E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.358909E+02    0.377702E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.348734E+02    0.364647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.345388E+02    0.349981E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.354565E+02    0.335022E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.373120E+02    0.324139E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.394895E+02    0.320906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.414400E+02    0.325954E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.427104E+02    0.337624E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.428605E+02    0.353501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.418981E+02    0.368948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.400888E+02    0.379480E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.378997E+02    0.382557E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.359724E+02    0.403608E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.329553E+02    0.389418E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138802E+03   -0.316211E+02    0.364845E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138705E+03   -0.321180E+02    0.337027E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.342673E+02    0.314324E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.376224E+02    0.301604E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.415561E+02    0.300861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.447524E+02    0.314051E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.465554E+02    0.336675E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.460202E+02    0.365405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.434886E+02    0.390402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.396704E+02    0.404827E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.393730E+02    0.259813E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.373459E+02    0.261080E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.388181E+02    0.247049E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.411151E+02    0.250552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.409983E+02    0.267052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.386180E+02    0.273996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.366552E+02    0.284069E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.353452E+02    0.273776E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.352057E+02    0.259244E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.361321E+02    0.245419E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.380907E+02    0.234419E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.402806E+02    0.231352E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.422394E+02    0.236150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.435101E+02    0.246840E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.436584E+02    0.261089E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.425820E+02    0.275710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.407657E+02    0.285609E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.385711E+02    0.288811E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.365392E+02    0.308978E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138630E+03   -0.335151E+02    0.296771E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.322643E+02    0.273217E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138781E+03   -0.327679E+02    0.247386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.350330E+02    0.225176E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.386167E+02    0.211429E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.424771E+02    0.211484E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.455683E+02    0.225072E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.471273E+02    0.246971E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.464690E+02    0.273006E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.439436E+02    0.296014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.402435E+02    0.309358E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.86 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659128.293367528     
  ps_ts2 prof sum =   658748.161186988     
  trcom prof sum =    658748.161186987     
  ps_ts2 cur sum  =   10214.8684282992     
  trcom cur sum  =    10214.8684282992     
  
  antenna # iant =            2
  powecha_use(iant) =    662252.839633037     
  ps_ts2 prof sum =   661892.113995078     
  trcom prof sum =    661892.113995077     
  ps_ts2 cur sum  =   12290.6199859576     
  trcom cur sum  =    12290.6199859576     
  
  antenna # iant =            3
  powecha_use(iant) =    531417.303294397     
  ps_ts2 prof sum =   531081.600397541     
  trcom prof sum =    531081.600397542     
  ps_ts2 cur sum  =   7106.28860285231     
  trcom cur sum  =    7106.28860285232     
  
  antenna # iant =            4
  powecha_use(iant) =    573469.089212751     
  ps_ts2 prof sum =   573131.649545372     
  trcom prof sum =    573131.649545371     
  ps_ts2 cur sum  =   9741.82914707105     
  trcom cur sum  =    9741.82914707103     
  
  antenna # iant =            5
  powecha_use(iant) =    548748.363357840     
  ps_ts2 prof sum =   548462.335984811     
  trcom prof sum =    548462.335984811     
  ps_ts2 cur sum  =   11093.6902247883     
  trcom cur sum  =    11093.6902247883     
  
  Total ECH heating:      2973315.86110979     
  Total Current Drive:    50447.2963889683     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3066
 TA= 3.35000E+00 CPU TIME= 1.46023E-01 SECONDS.  DT= 1.35954E-03
  
 TEC1=    3.34999999999995     
 TEC2=    3.35499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.38575999999966     
  %check_save_state: izleft hours =    71.6058333333333     
 --> plasma_hash("gframe"): TA= 3.350000E+00 NSTEP=  3066 Hash code:   79351838
 ->PRGCHK: bdy curvature ratio at t= 3.3550E+00 seconds is:  5.6836E-02
% MHDEQ: TG1=     3.350000 ; TG2=     3.355000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7804E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6836E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.350000 TO TG2=    3.355000 @ NSTEP     3066
   GFRAME TG2 MOMENTS CHECKSUM:  2.4708587739994D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3550E+00  3.3600E+00 total power(Watts):  2.9707E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.35500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.382905E+02    0.387799E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.362772E+02    0.388874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.376327E+02    0.373921E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.399150E+02    0.378136E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.399086E+02    0.396129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.375389E+02    0.403198E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.354904E+02    0.414254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.344782E+02    0.400961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.341441E+02    0.386088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.351580E+02    0.370321E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.369064E+02    0.359634E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.389810E+02    0.356846E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.409227E+02    0.362340E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.423004E+02    0.374249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.424507E+02    0.390543E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.414883E+02    0.406077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.396787E+02    0.416728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.374924E+02    0.419647E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.355608E+02    0.441863E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138559E+03   -0.325589E+02    0.426137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138900E+03   -0.312318E+02    0.400747E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138755E+03   -0.317314E+02    0.372714E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.337805E+02    0.349469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.373237E+02    0.334982E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.410438E+02    0.335547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.442286E+02    0.349680E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.461460E+02    0.373697E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.456086E+02    0.403098E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.429544E+02    0.429331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.392489E+02    0.443739E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.391833E+02    0.311336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.371621E+02    0.312607E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.386259E+02    0.298120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.409194E+02    0.301766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.408078E+02    0.318773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.385351E+02    0.325181E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.364782E+02    0.336020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.351647E+02    0.325360E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.350199E+02    0.310590E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138185E+03   -0.359421E+02    0.296297E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.377009E+02    0.286169E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.399813E+02    0.282261E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.419328E+02    0.287211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.432049E+02    0.298455E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.433548E+02    0.313288E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.423932E+02    0.327672E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.405820E+02    0.337838E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.383899E+02    0.341063E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.362590E+02    0.363113E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.334348E+02    0.348397E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138917E+03   -0.320974E+02    0.324698E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138831E+03   -0.325940E+02    0.298355E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.347534E+02    0.275873E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.383187E+02    0.261853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.421646E+02    0.261734E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.452551E+02    0.275340E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.469309E+02    0.297892E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.465146E+02    0.323889E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.437552E+02    0.349038E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.401631E+02    0.362755E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.383197E+02    0.439866E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.363013E+02    0.440601E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.376674E+02    0.424595E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.399528E+02    0.429601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.399363E+02    0.449227E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.376626E+02    0.455798E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.357011E+02    0.466385E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.344933E+02    0.453137E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.341655E+02    0.436890E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.351946E+02    0.420332E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.368477E+02    0.410076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.390237E+02    0.407113E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.409700E+02    0.413067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.423482E+02    0.425972E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.424885E+02    0.443787E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.415143E+02    0.460302E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.396939E+02    0.470904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.376068E+02    0.472914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.356556E+02    0.495056E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.327483E+02    0.477672E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138665E+03   -0.312467E+02    0.451958E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138725E+03   -0.316653E+02    0.422639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.338126E+02    0.398616E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.372621E+02    0.384908E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.410915E+02    0.385496E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.442890E+02    0.400695E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.462106E+02    0.426423E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134197E+03   -0.457703E+02    0.458231E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.432021E+02    0.484309E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.393557E+02    0.498128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.386023E+02    0.351557E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.365878E+02    0.352831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.380477E+02    0.337482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.403351E+02    0.341388E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.402205E+02    0.359664E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.379543E+02    0.366451E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.360030E+02    0.377072E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.347882E+02    0.365070E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.346462E+02    0.349206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.353722E+02    0.335377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.372241E+02    0.324480E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.393982E+02    0.321229E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.413448E+02    0.326268E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.426133E+02    0.337935E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.427624E+02    0.353844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.418008E+02    0.369338E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.399943E+02    0.379888E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.379129E+02    0.382462E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.358847E+02    0.403974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.328691E+02    0.389862E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139003E+03   -0.315416E+02    0.365285E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138912E+03   -0.320360E+02    0.337427E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.341849E+02    0.314685E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.377344E+02    0.300705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.414619E+02    0.301184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.446535E+02    0.314327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.463368E+02    0.337481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.459174E+02    0.365753E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.432742E+02    0.391253E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.395764E+02    0.405177E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.392835E+02    0.260192E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.372600E+02    0.261479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.386320E+02    0.248083E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.410235E+02    0.250906E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.409063E+02    0.267419E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.386246E+02    0.273765E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.365702E+02    0.284445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.352616E+02    0.274200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.352152E+02    0.258987E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.361421E+02    0.245128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.380046E+02    0.234778E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.401908E+02    0.231685E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.421470E+02    0.236463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.434156E+02    0.247150E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.435627E+02    0.261424E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.424875E+02    0.276050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.406737E+02    0.285957E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.384825E+02    0.289170E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.364535E+02    0.309325E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.335259E+02    0.296509E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.139020E+03   -0.321863E+02    0.273658E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138762E+03   -0.327775E+02    0.247103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.349523E+02    0.225551E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.385312E+02    0.211740E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.423854E+02    0.211756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.454720E+02    0.225317E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.470278E+02    0.247252E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.465963E+02    0.272138E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.438439E+02    0.296329E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.401515E+02    0.309678E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657642.343279539     
  ps_ts2 prof sum =   657251.245675870     
  trcom prof sum =    657251.245675870     
  ps_ts2 cur sum  =   10237.0790652790     
  trcom cur sum  =    10237.0790652790     
  
  antenna # iant =            2
  powecha_use(iant) =    665373.680766546     
  ps_ts2 prof sum =   664948.141437533     
  trcom prof sum =    664948.141437532     
  ps_ts2 cur sum  =   12402.7895498972     
  trcom cur sum  =    12402.7895498972     
  
  antenna # iant =            3
  powecha_use(iant) =    529930.087943265     
  ps_ts2 prof sum =   529637.793841671     
  trcom prof sum =    529637.793841671     
  ps_ts2 cur sum  =   7115.23616539292     
  trcom cur sum  =    7115.23616539292     
  
  antenna # iant =            4
  powecha_use(iant) =    570501.524959903     
  ps_ts2 prof sum =   570166.551069153     
  trcom prof sum =    570166.551069152     
  ps_ts2 cur sum  =   9733.08405219389     
  trcom cur sum  =    9733.08405219388     
  
  antenna # iant =            5
  powecha_use(iant) =    547211.587785989     
  ps_ts2 prof sum =   546927.812010143     
  trcom prof sum =    546927.812010143     
  ps_ts2 cur sum  =   11110.8258279163     
  trcom cur sum  =    11110.8258279163     
  
  Total ECH heating:      2968931.54403437     
  Total Current Drive:    50599.0146606793     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3069
 TA= 3.35500E+00 CPU TIME= 1.59216E-01 SECONDS.  DT= 2.42629E-03
  
 TEC1=    3.35499999999995     
 TEC2=    3.35999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.40373944444445     
  %check_save_state: izleft hours =    71.5877777777778     
 --> plasma_hash("gframe"): TA= 3.355000E+00 NSTEP=  3069 Hash code:   27774111
 ->PRGCHK: bdy curvature ratio at t= 3.3600E+00 seconds is:  5.6832E-02
% MHDEQ: TG1=     3.355000 ; TG2=     3.360000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1260E-03 SECONDS
   DATA R*BT AT EDGE:  2.7794E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6832E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.355000 TO TG2=    3.360000 @ NSTEP     3069
   GFRAME TG2 MOMENTS CHECKSUM:  2.4704397065388D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.21543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.15551E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.51080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.89724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.48046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.57206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.48888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.96673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.48467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.74495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.26208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.58906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.64577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.27283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.63625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.07736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.23306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.97184E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.04123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.71115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.12843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.12843E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.3600E+00  3.3650E+00 total power(Watts):  2.9641E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.36000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.382773E+02    0.387623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.362645E+02    0.388709E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.377227E+02    0.373190E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.399012E+02    0.377932E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.398949E+02    0.395971E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.376298E+02    0.402572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.356783E+02    0.413195E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.344665E+02    0.400813E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.341321E+02    0.385924E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.351498E+02    0.370101E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.368988E+02    0.359355E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.389669E+02    0.356582E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.410174E+02    0.361551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.422858E+02    0.374025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.424361E+02    0.390361E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.414747E+02    0.405920E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.396655E+02    0.416592E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.375842E+02    0.419073E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.355489E+02    0.441786E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.327352E+02    0.425134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.313092E+02    0.400113E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138751E+03   -0.317197E+02    0.372530E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.339564E+02    0.348022E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.373104E+02    0.334642E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.410285E+02    0.335197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.444424E+02    0.348290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.461303E+02    0.373453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.455937E+02    0.402921E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.429401E+02    0.429212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.392358E+02    0.443664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.391674E+02    0.310958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.371470E+02    0.312249E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.386096E+02    0.297741E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.409025E+02    0.301371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.407920E+02    0.318395E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.385202E+02    0.324826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.363648E+02    0.336294E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.353430E+02    0.323797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.351935E+02    0.308986E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.359265E+02    0.295934E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.378827E+02    0.284486E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.399638E+02    0.281838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.420220E+02    0.286169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.431858E+02    0.298040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.434491E+02    0.312314E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.423772E+02    0.327288E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.405670E+02    0.337496E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.383751E+02    0.340747E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.364439E+02    0.361783E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.334231E+02    0.348116E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138917E+03   -0.320840E+02    0.324392E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.325799E+02    0.298015E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.347372E+02    0.275491E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.383007E+02    0.261416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.421452E+02    0.261264E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.453460E+02    0.274261E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.469124E+02    0.297433E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.463805E+02    0.324019E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.439673E+02    0.347641E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.401490E+02    0.362500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.383066E+02    0.439782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.362891E+02    0.440518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.376548E+02    0.424474E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.399397E+02    0.429486E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.399232E+02    0.449162E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.376486E+02    0.455764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.356887E+02    0.466337E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.344817E+02    0.453085E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.341538E+02    0.436804E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.351811E+02    0.420213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.369359E+02    0.409482E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.390104E+02    0.406967E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.409565E+02    0.412919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.423344E+02    0.425845E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.427032E+02    0.442966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.416135E+02    0.459917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.397905E+02    0.470534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.375945E+02    0.472853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.356435E+02    0.494995E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.326461E+02    0.477918E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138657E+03   -0.312359E+02    0.451906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138719E+03   -0.316546E+02    0.422525E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.338008E+02    0.398472E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.372488E+02    0.384734E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.410775E+02    0.385305E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.445076E+02    0.399625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.461960E+02    0.426285E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.457559E+02    0.458165E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.431886E+02    0.484235E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.393427E+02    0.498068E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.385881E+02    0.351272E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.365745E+02    0.352561E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.380332E+02    0.337160E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.403202E+02    0.341058E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.402061E+02    0.359403E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.379408E+02    0.366229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.359901E+02    0.376885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.346784E+02    0.365412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.346321E+02    0.348941E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.355526E+02    0.333860E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.373097E+02    0.323531E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.393829E+02    0.320866E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.413287E+02    0.325898E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.425975E+02    0.337579E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.428596E+02    0.353004E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.418975E+02    0.368586E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.399804E+02    0.379689E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.378994E+02    0.382279E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.358727E+02    0.403827E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.330489E+02    0.388637E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138774E+03   -0.316189E+02    0.364516E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138915E+03   -0.320221E+02    0.337142E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.341703E+02    0.314360E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.377186E+02    0.300330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.414450E+02    0.300781E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.446354E+02    0.313925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.463202E+02    0.337090E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.457837E+02    0.365985E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.432599E+02    0.391066E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.395631E+02    0.405023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.393698E+02    0.259072E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.371460E+02    0.261717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.388095E+02    0.246310E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.411069E+02    0.249788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.409914E+02    0.266329E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.386123E+02    0.273307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.364573E+02    0.284707E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.353389E+02    0.273120E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.351983E+02    0.258574E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.361240E+02    0.244704E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.378890E+02    0.235019E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.401710E+02    0.231222E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.421259E+02    0.235982E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.433945E+02    0.246666E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.435428E+02    0.260940E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.424688E+02    0.275593E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.406563E+02    0.285534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.384659E+02    0.288772E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.364380E+02    0.308976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.335111E+02    0.296153E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138799E+03   -0.322581E+02    0.272599E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138765E+03   -0.327603E+02    0.246716E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.349335E+02    0.225130E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.384149E+02    0.211980E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.423626E+02    0.211259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.455568E+02    0.224174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.470057E+02    0.246723E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.464625E+02    0.272220E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.438260E+02    0.295898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.401351E+02    0.309291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.53 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658452.426185740     
  ps_ts2 prof sum =   658114.497982720     
  trcom prof sum =    658114.497982720     
  ps_ts2 cur sum  =   10229.1550228611     
  trcom cur sum  =    10229.1550228611     
  
  antenna # iant =            2
  powecha_use(iant) =    662129.775229342     
  ps_ts2 prof sum =   661743.197873404     
  trcom prof sum =    661743.197873403     
  ps_ts2 cur sum  =   12328.5334975200     
  trcom cur sum  =    12328.5334975200     
  
  antenna # iant =            3
  powecha_use(iant) =    529711.643749363     
  ps_ts2 prof sum =   529411.985451415     
  trcom prof sum =    529411.985451415     
  ps_ts2 cur sum  =   7094.31127119099     
  trcom cur sum  =    7094.31127119100     
  
  antenna # iant =            4
  powecha_use(iant) =    566480.875132507     
  ps_ts2 prof sum =   566150.815311252     
  trcom prof sum =    566150.815311252     
  ps_ts2 cur sum  =   9649.80146049813     
  trcom cur sum  =    9649.80146049812     
  
  antenna # iant =            5
  powecha_use(iant) =    547320.269878108     
  ps_ts2 prof sum =   547008.780445566     
  trcom prof sum =    547008.780445566     
  ps_ts2 cur sum  =   11103.1511865474     
  trcom cur sum  =    11103.1511865474     
  
  Total ECH heating:      2962429.27706436     
  Total Current Drive:    50404.9524386176     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3071
 TA= 3.36000E+00 CPU TIME= 1.61257E-01 SECONDS.  DT= 3.21714E-03
  
 TEC1=    3.35999999999995     
 TEC2=    3.36499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.41959361111071     
  %check_save_state: izleft hours =    71.5719444444444     
 --> plasma_hash("gframe"): TA= 3.360000E+00 NSTEP=  3071 Hash code:  120945722
 ->PRGCHK: bdy curvature ratio at t= 3.3650E+00 seconds is:  5.6828E-02
% MHDEQ: TG1=     3.360000 ; TG2=     3.365000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7783E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6828E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.360000 TO TG2=    3.365000 @ NSTEP     3071
   GFRAME TG2 MOMENTS CHECKSUM:  2.4700206390781D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.3650E+00  3.3700E+00 total power(Watts):  2.9817E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.36500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.382632E+02    0.387406E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.362500E+02    0.388513E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.377084E+02    0.372943E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.399940E+02    0.377175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.398808E+02    0.395756E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.376205E+02    0.402362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.356655E+02    0.413025E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.343566E+02    0.401128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.343113E+02    0.384676E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.350370E+02    0.370419E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.368841E+02    0.359088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.390567E+02    0.355735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.410018E+02    0.361257E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.422700E+02    0.373763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.424213E+02    0.390124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.415720E+02    0.405259E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.396519E+02    0.416411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.375711E+02    0.418903E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.356371E+02    0.441265E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.326300E+02    0.425446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.313027E+02    0.399908E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.317072E+02    0.372312E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.338483E+02    0.348322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.372947E+02    0.334310E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.411196E+02    0.334271E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.443156E+02    0.348462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.461137E+02    0.373157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.456967E+02    0.402256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.429258E+02    0.429045E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.393306E+02    0.443160E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.391498E+02    0.310576E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.371302E+02    0.311879E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.385918E+02    0.297334E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.408840E+02    0.300949E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.408813E+02    0.317411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.385038E+02    0.324470E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.365480E+02    0.334779E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.352310E+02    0.324079E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.350863E+02    0.309237E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.361021E+02    0.294247E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.378644E+02    0.284055E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.400475E+02    0.280749E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.420023E+02    0.285702E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.432748E+02    0.297001E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.434302E+02    0.311890E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.424697E+02    0.326333E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.405497E+02    0.337151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.384623E+02    0.339846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.364283E+02    0.361525E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138541E+03   -0.334085E+02    0.347840E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138693E+03   -0.321593E+02    0.323430E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138833E+03   -0.325633E+02    0.297660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.348121E+02    0.274394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.383795E+02    0.260279E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.421239E+02    0.260745E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.453228E+02    0.273742E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.471240E+02    0.295806E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.465955E+02    0.322490E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.438364E+02    0.347826E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.401337E+02    0.362215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.382936E+02    0.439653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.362767E+02    0.440400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.377463E+02    0.423885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.400353E+02    0.428916E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.399099E+02    0.449049E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.376360E+02    0.455666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.356768E+02    0.466251E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.344699E+02    0.452991E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.343368E+02    0.435850E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.351669E+02    0.420062E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.369209E+02    0.409312E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.389967E+02    0.406776E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.410531E+02    0.412286E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.423202E+02    0.425671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.425750E+02    0.443197E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.416000E+02    0.459818E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.397776E+02    0.470441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.375823E+02    0.472765E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.356322E+02    0.494916E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.326331E+02    0.477850E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.313160E+02    0.451427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138484E+03   -0.317349E+02    0.421919E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.337884E+02    0.398294E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.373376E+02    0.384002E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.410633E+02    0.385067E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.444923E+02    0.399397E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.463009E+02    0.425710E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.457413E+02    0.458050E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.430596E+02    0.484401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.393302E+02    0.497991E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.386768E+02    0.350404E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.364593E+02    0.352850E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.380174E+02    0.336826E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.403042E+02    0.340711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.402983E+02    0.358567E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.379260E+02    0.365967E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.359764E+02    0.376657E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.346646E+02    0.365170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.345218E+02    0.349247E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.355376E+02    0.333537E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.372936E+02    0.323174E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.393660E+02    0.320491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.414195E+02    0.324941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.426915E+02    0.336658E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.428430E+02    0.352675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.418820E+02    0.368306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.400735E+02    0.378938E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.378853E+02    0.382053E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.359599E+02    0.403161E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.329422E+02    0.388980E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.316063E+02    0.364277E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138693E+03   -0.320970E+02    0.336232E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.343469E+02    0.312701E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.377012E+02    0.299931E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.415332E+02    0.299749E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.447301E+02    0.312918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.465372E+02    0.335624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.460027E+02    0.364682E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.432447E+02    0.390823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.396571E+02    0.404363E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.393477E+02    0.258589E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.371265E+02    0.261255E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.387882E+02    0.245804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.410850E+02    0.249268E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.409710E+02    0.265832E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.385927E+02    0.272853E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.364390E+02    0.284301E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138228E+03   -0.353203E+02    0.272701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.351795E+02    0.258128E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.361040E+02    0.244225E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.378676E+02    0.234510E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.401481E+02    0.230684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.422057E+02    0.234779E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.433715E+02    0.246111E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.435205E+02    0.260420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.425554E+02    0.274480E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.406370E+02    0.285080E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.385486E+02    0.287696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.363237E+02    0.309235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138612E+03   -0.334950E+02    0.295783E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.322420E+02    0.272193E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138770E+03   -0.327418E+02    0.246263E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.350029E+02    0.223921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.383913E+02    0.211457E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.423419E+02    0.210667E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.455309E+02    0.223572E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.470935E+02    0.245522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.464401E+02    0.271676E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.438062E+02    0.295435E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.402222E+02    0.308291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665471.354445229     
  ps_ts2 prof sum =   665092.722544388     
  trcom prof sum =    665092.722544388     
  ps_ts2 cur sum  =   10309.6918405886     
  trcom cur sum  =    10309.6918403670     
  
  antenna # iant =            2
  powecha_use(iant) =    667110.507120312     
  ps_ts2 prof sum =   666753.469569419     
  trcom prof sum =    666753.469569418     
  ps_ts2 cur sum  =   12391.3547769405     
  trcom cur sum  =    12391.3547769405     
  
  antenna # iant =            3
  powecha_use(iant) =    530685.895565029     
  ps_ts2 prof sum =   530388.809839487     
  trcom prof sum =    530388.809839488     
  ps_ts2 cur sum  =   7087.99817675432     
  trcom cur sum  =    7087.99817675433     
  
  antenna # iant =            4
  powecha_use(iant) =    570287.734634309     
  ps_ts2 prof sum =   569973.420979399     
  trcom prof sum =    569973.420979398     
  ps_ts2 cur sum  =   9689.78933149265     
  trcom cur sum  =    9689.78933149264     
  
  antenna # iant =            5
  powecha_use(iant) =    548103.499826571     
  ps_ts2 prof sum =   547760.036686074     
  trcom prof sum =    547760.036686074     
  ps_ts2 cur sum  =   11097.6427070993     
  trcom cur sum  =    11097.6427070993     
  
  Total ECH heating:      2979968.45961877     
  Total Current Drive:    50576.4768326538     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3073
 TA= 3.36500E+00 CPU TIME= 1.61840E-01 SECONDS.  DT= 2.22858E-03
  
 TEC1=    3.36499999999995     
 TEC2=    3.36999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.43574222222173     
  %check_save_state: izleft hours =    71.5558333333333     
 --> plasma_hash("gframe"): TA= 3.365000E+00 NSTEP=  3073 Hash code:   53350436
 ->PRGCHK: bdy curvature ratio at t= 3.3700E+00 seconds is:  5.6824E-02
% MHDEQ: TG1=     3.365000 ; TG2=     3.370000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7772E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6824E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.365000 TO TG2=    3.370000 @ NSTEP     3073
   GFRAME TG2 MOMENTS CHECKSUM:  2.4696015714012D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.28108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.23400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.75085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.98066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.50377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.53580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.45435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.94811E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.52217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.59087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.27088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.51340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.59035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.92384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.56865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -2.01081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.35803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.83068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.99928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.81659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.28463E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.28463E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3700E+00  3.3750E+00 total power(Watts):  2.9776E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.37000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.382485E+02    0.387214E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.362372E+02    0.388319E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.376934E+02    0.372722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.399782E+02    0.376956E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.399737E+02    0.395088E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.376046E+02    0.402196E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.356517E+02    0.412871E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.343438E+02    0.400961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.342014E+02    0.385018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.352167E+02    0.369104E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.367682E+02    0.359388E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.390408E+02    0.355458E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.409857E+02    0.360984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.422537E+02    0.373520E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.425183E+02    0.389436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.415568E+02    0.405074E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.397454E+02    0.415807E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.375570E+02    0.418756E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.356242E+02    0.441154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.326173E+02    0.425312E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138647E+03   -0.312900E+02    0.399757E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138743E+03   -0.316941E+02    0.372113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.338343E+02    0.348050E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.373795E+02    0.333396E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.411018E+02    0.333933E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.442963E+02    0.348130E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.462148E+02    0.372398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.456802E+02    0.402047E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.431400E+02    0.428089E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.393167E+02    0.443038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.392354E+02    0.309582E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.372127E+02    0.310892E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.386751E+02    0.296303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.409713E+02    0.299923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.408634E+02    0.317028E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.384869E+02    0.324119E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.365322E+02    0.334467E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.352152E+02    0.323750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.350699E+02    0.308887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.359885E+02    0.294510E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.378455E+02    0.283649E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.400279E+02    0.280308E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.419820E+02    0.285258E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.432531E+02    0.296570E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.434117E+02    0.311468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.424514E+02    0.325961E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.406397E+02    0.336247E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.384460E+02    0.339529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.364124E+02    0.361281E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.335815E+02    0.346374E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.321445E+02    0.323115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.326372E+02    0.296630E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.347944E+02    0.273988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.383595E+02    0.259821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.422077E+02    0.259622E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.452990E+02    0.273260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.469869E+02    0.295893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.465759E+02    0.322073E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.438188E+02    0.347493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.401179E+02    0.361952E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.382799E+02    0.439529E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.362636E+02    0.440281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.377323E+02    0.423736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.400209E+02    0.428767E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.400051E+02    0.448573E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.376228E+02    0.455569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.356636E+02    0.466172E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.343594E+02    0.453269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.343242E+02    0.435723E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.350527E+02    0.420383E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.369104E+02    0.409132E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.390891E+02    0.406133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.410381E+02    0.412114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.423053E+02    0.425511E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.425607E+02    0.443065E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.415857E+02    0.459710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.397639E+02    0.470346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.375693E+02    0.472674E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.356200E+02    0.494825E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.326198E+02    0.477771E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.313043E+02    0.451338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138478E+03   -0.317237E+02    0.421784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.339666E+02    0.397122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.373231E+02    0.383804E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.410477E+02    0.384853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.443653E+02    0.399619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.462850E+02    0.425528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.458455E+02    0.457619E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.430450E+02    0.484307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.394256E+02    0.497656E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.386609E+02    0.350114E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.366446E+02    0.351428E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.381045E+02    0.335911E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.403945E+02    0.339817E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.402820E+02    0.358286E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.380142E+02    0.365182E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.358625E+02    0.376983E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.348438E+02    0.363818E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.345080E+02    0.348967E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.354250E+02    0.333832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.372770E+02    0.322833E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.394531E+02    0.319511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.414019E+02    0.324568E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.426739E+02    0.336307E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.428259E+02    0.352365E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.418655E+02    0.368051E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.400577E+02    0.378724E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.378702E+02    0.381852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.359466E+02    0.402987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.329293E+02    0.388803E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138767E+03   -0.315935E+02    0.364059E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138681E+03   -0.320874E+02    0.335921E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.342359E+02    0.313016E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.375837E+02    0.300177E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.415142E+02    0.299326E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.447107E+02    0.312496E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.465182E+02    0.335238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.459852E+02    0.364387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.434573E+02    0.389672E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.396425E+02    0.404180E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.393259E+02    0.258130E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.372997E+02    0.259472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.387673E+02    0.245331E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.410631E+02    0.248769E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.409498E+02    0.265368E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.384729E+02    0.273071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.366142E+02    0.282575E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.353029E+02    0.272281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.351608E+02    0.257696E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.362713E+02    0.242373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.380384E+02    0.232652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.402252E+02    0.229505E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.421828E+02    0.234249E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.434549E+02    0.244950E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.436064E+02    0.259283E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.425347E+02    0.273997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.407220E+02    0.284012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.385296E+02    0.287288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.365028E+02    0.307604E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138612E+03   -0.334778E+02    0.295430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138806E+03   -0.322250E+02    0.271797E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138775E+03   -0.327233E+02    0.245839E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.349822E+02    0.223463E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.385582E+02    0.209574E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.424175E+02    0.209479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.455049E+02    0.223013E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.470688E+02    0.244955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.466444E+02    0.269979E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.438971E+02    0.294387E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.402041E+02    0.307898E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663432.272517625     
  ps_ts2 prof sum =   663030.813306050     
  trcom prof sum =    663030.813306049     
  ps_ts2 cur sum  =   10244.8606149958     
  trcom cur sum  =    10244.8606149958     
  
  antenna # iant =            2
  powecha_use(iant) =    667422.564773343     
  ps_ts2 prof sum =   667044.206734389     
  trcom prof sum =    667044.206734388     
  ps_ts2 cur sum  =   12368.7375366189     
  trcom cur sum  =    12368.7375366189     
  
  antenna # iant =            3
  powecha_use(iant) =    530810.568425099     
  ps_ts2 prof sum =   530478.198043198     
  trcom prof sum =    530478.198043198     
  ps_ts2 cur sum  =   7067.08108726885     
  trcom cur sum  =    7067.08108726886     
  
  antenna # iant =            4
  powecha_use(iant) =    569333.017731673     
  ps_ts2 prof sum =   568988.232393997     
  trcom prof sum =    568988.232393996     
  ps_ts2 cur sum  =   9646.43560450637     
  trcom cur sum  =    9646.43560450635     
  
  antenna # iant =            5
  powecha_use(iant) =    546590.024418776     
  ps_ts2 prof sum =   546306.470503393     
  trcom prof sum =    546306.470503393     
  ps_ts2 cur sum  =   11048.1507331883     
  trcom cur sum  =    11048.1507331883     
  
  Total ECH heating:      2975847.92098103     
  Total Current Drive:    50375.2655765782     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3075
 TA= 3.37000E+00 CPU TIME= 1.60373E-01 SECONDS.  DT= 3.46428E-03
  
 TEC1=    3.36999999999995     
 TEC2=    3.37499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.44807694444421     
  %check_save_state: izleft hours =    71.5436111111111     
 --> plasma_hash("gframe"): TA= 3.370000E+00 NSTEP=  3075 Hash code:  108795763
 ->PRGCHK: bdy curvature ratio at t= 3.3750E+00 seconds is:  5.6819E-02
% MHDEQ: TG1=     3.370000 ; TG2=     3.375000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7761E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6819E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.370000 TO TG2=    3.375000 @ NSTEP     3075
   GFRAME TG2 MOMENTS CHECKSUM:  2.4691825037243D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3750E+00  3.3800E+00 total power(Watts):  2.9687E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.37500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.383391E+02    0.386531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.363243E+02    0.387638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.376792E+02    0.372509E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.399635E+02    0.376751E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.399594E+02    0.394916E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.376930E+02    0.401568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.355395E+02    0.413193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.345251E+02    0.399820E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.341879E+02    0.384854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.352017E+02    0.368902E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.369555E+02    0.358021E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.390258E+02    0.355194E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.410792E+02    0.360184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.423504E+02    0.372776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.425030E+02    0.389253E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.415420E+02    0.404913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.397316E+02    0.415656E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.375437E+02    0.418614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.356116E+02    0.441055E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.326056E+02    0.425198E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138641E+03   -0.312783E+02    0.399617E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.317721E+02    0.371361E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.340093E+02    0.346599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.373644E+02    0.333084E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.410858E+02    0.333595E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.445076E+02    0.346731E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.461979E+02    0.372152E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.456644E+02    0.401863E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.430106E+02    0.428352E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.393032E+02    0.442940E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.392189E+02    0.309208E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.371966E+02    0.310539E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.386575E+02    0.295907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.409538E+02    0.299520E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.408461E+02    0.316667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.385737E+02    0.323175E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.365173E+02    0.334161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.353927E+02    0.322186E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.350547E+02    0.308546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.359722E+02    0.294139E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.377289E+02    0.283892E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.400098E+02    0.279869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.419635E+02    0.284815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.432331E+02    0.296151E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.435048E+02    0.310482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.424348E+02    0.325589E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.406237E+02    0.335919E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.384310E+02    0.339220E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.363029E+02    0.361597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.334745E+02    0.346712E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.321311E+02    0.322811E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138611E+03   -0.326219E+02    0.296294E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.347768E+02    0.273597E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.383405E+02    0.259380E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.421873E+02    0.259145E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.453892E+02    0.272154E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.469669E+02    0.295431E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.464405E+02    0.322228E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.440292E+02    0.346095E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.402098E+02    0.361159E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.383723E+02    0.439033E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.363525E+02    0.439779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.377191E+02    0.423606E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.400070E+02    0.428639E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.399913E+02    0.448482E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.377145E+02    0.455130E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.357521E+02    0.465762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.345432E+02    0.452445E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.342145E+02    0.436047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.352366E+02    0.419348E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.368975E+02    0.408981E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.390752E+02    0.405979E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.410236E+02    0.411949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.424040E+02    0.424963E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.425461E+02    0.442964E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.415717E+02    0.459629E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.397505E+02    0.470274E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.376611E+02    0.472289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.357086E+02    0.494489E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.327951E+02    0.477070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.312931E+02    0.451270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138470E+03   -0.317104E+02    0.421677E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.338586E+02    0.397477E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.373091E+02    0.383625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.411429E+02    0.384163E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.445807E+02    0.398544E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.462693E+02    0.425374E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.458302E+02    0.457527E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.432614E+02    0.483708E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.394125E+02    0.497575E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.386456E+02    0.349842E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.366294E+02    0.351169E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.380892E+02    0.335600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.403779E+02    0.339510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.402665E+02    0.358030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.379992E+02    0.364960E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.360481E+02    0.375715E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.348303E+02    0.363598E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.346858E+02    0.347525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.356047E+02    0.332316E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.371613E+02    0.323109E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.394365E+02    0.319170E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.413859E+02    0.324203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.426573E+02    0.335964E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.429218E+02    0.351528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.418500E+02    0.367810E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.400434E+02    0.378513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.379598E+02    0.381147E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.359335E+02    0.402838E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138399E+03   -0.329169E+02    0.388647E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.316708E+02    0.363274E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138680E+03   -0.320740E+02    0.335642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.342197E+02    0.312692E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.377670E+02    0.298532E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.414965E+02    0.298918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.446924E+02    0.312085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.463823E+02    0.335414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.458504E+02    0.364616E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.433275E+02    0.389955E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.396284E+02    0.404022E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.394056E+02    0.257023E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.371848E+02    0.259714E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.386490E+02    0.245544E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.411451E+02    0.247636E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.410340E+02    0.264269E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.386547E+02    0.271328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.365006E+02    0.282839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.354730E+02    0.270526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.352353E+02    0.256593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.361582E+02    0.242636E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.380178E+02    0.232188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.402038E+02    0.229008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.421607E+02    0.233740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.434330E+02    0.244444E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.435855E+02    0.258792E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.425146E+02    0.273548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.407035E+02    0.283583E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.385124E+02    0.286875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.364870E+02    0.307250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.335539E+02    0.294411E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138809E+03   -0.322090E+02    0.271421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.327932E+02    0.244708E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.349620E+02    0.223026E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.384407E+02    0.209798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.423924E+02    0.208961E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.454810E+02    0.222455E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.470456E+02    0.244400E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.465100E+02    0.270059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.438780E+02    0.293952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.401871E+02    0.307514E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659670.365510835     
  ps_ts2 prof sum =   659296.744410198     
  trcom prof sum =    659296.744410198     
  ps_ts2 cur sum  =   10158.7269289378     
  trcom cur sum  =    10158.7269289378     
  
  antenna # iant =            2
  powecha_use(iant) =    666445.380103285     
  ps_ts2 prof sum =   666023.153126728     
  trcom prof sum =    666023.153126728     
  ps_ts2 cur sum  =   12328.7435298512     
  trcom cur sum  =    12328.7435298512     
  
  antenna # iant =            3
  powecha_use(iant) =    529888.616339090     
  ps_ts2 prof sum =   529590.968304679     
  trcom prof sum =    529590.968304679     
  ps_ts2 cur sum  =   7033.94987073030     
  trcom cur sum  =    7033.94987073030     
  
  antenna # iant =            4
  powecha_use(iant) =    565998.516215526     
  ps_ts2 prof sum =   565655.290673444     
  trcom prof sum =    565655.290673443     
  ps_ts2 cur sum  =   9567.27546978548     
  trcom cur sum  =    9567.27546978547     
  
  antenna # iant =            5
  powecha_use(iant) =    546654.209764121     
  ps_ts2 prof sum =   546342.753599810     
  trcom prof sum =    546342.753599810     
  ps_ts2 cur sum  =   11034.2003724277     
  trcom cur sum  =    11034.2003724277     
  
  Total ECH heating:      2966908.91011486     
  Total Current Drive:    50122.8961717325     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3077
 TA= 3.37500E+00 CPU TIME= 1.59589E-01 SECONDS.  DT= 1.91965E-03
  
 TEC1=    3.37499999999995     
 TEC2=    3.37999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.46280972222212     
  %check_save_state: izleft hours =    71.5288888888889     
 --> plasma_hash("gframe"): TA= 3.375000E+00 NSTEP=  3077 Hash code:   18653227
 ->PRGCHK: bdy curvature ratio at t= 3.3800E+00 seconds is:  5.6815E-02
% MHDEQ: TG1=     3.375000 ; TG2=     3.380000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7751E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6815E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.375000 TO TG2=    3.380000 @ NSTEP     3077
   GFRAME TG2 MOMENTS CHECKSUM:  2.4687634360474D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.34227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.30715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  2.97455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.05840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.52550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.50200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.42216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.93075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.55712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.44728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.27908E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.44288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.60677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.59860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.50565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.94880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.18398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.69913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.96019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.18847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.16478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.16478E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.3800E+00  3.3850E+00 total power(Watts):  3.0016E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.38000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.383255E+02    0.386338E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.363109E+02    0.387458E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.377684E+02    0.371748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.400572E+02    0.376003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.399456E+02    0.394733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.376781E+02    0.401407E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.357268E+02    0.412110E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.345128E+02    0.399659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.343684E+02    0.383604E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.350888E+02    0.369252E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.369412E+02    0.357765E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.391157E+02    0.354354E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.410641E+02    0.359906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.423350E+02    0.372533E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.424884E+02    0.389048E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.415280E+02    0.404735E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.397183E+02    0.415498E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.376349E+02    0.418020E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.354995E+02    0.441362E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.326880E+02    0.424623E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138408E+03   -0.313571E+02    0.398952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.317600E+02    0.371159E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.339012E+02    0.346921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.373494E+02    0.332748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.411779E+02    0.332656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.443748E+02    0.346929E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.461818E+02    0.371888E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.457677E+02    0.401227E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.429966E+02    0.428205E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.393985E+02    0.442450E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.392023E+02    0.308810E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.371813E+02    0.310153E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.386404E+02    0.295497E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.409362E+02    0.299090E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.409406E+02    0.315644E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.385580E+02    0.322810E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.366017E+02    0.333229E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.353785E+02    0.321834E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.352300E+02    0.306884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.361512E+02    0.292417E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.379096E+02    0.282155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.399910E+02    0.279426E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.420513E+02    0.283730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.433233E+02    0.295091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.434870E+02    0.310051E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.425283E+02    0.324624E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.406080E+02    0.335566E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.385242E+02    0.338280E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.364887E+02    0.360225E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.334609E+02    0.346438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.321175E+02    0.322487E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.326067E+02    0.295925E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.348532E+02    0.272488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.382226E+02    0.259587E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.421667E+02    0.258636E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.453667E+02    0.271651E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.471795E+02    0.293775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.466561E+02    0.320680E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.438992E+02    0.346292E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.401950E+02    0.360890E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.383595E+02    0.438924E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.363404E+02    0.439679E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.377062E+02    0.423467E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.401026E+02    0.428095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.399782E+02    0.448395E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.377021E+02    0.455050E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.357402E+02    0.465694E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.345317E+02    0.452367E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.342028E+02    0.435942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.352225E+02    0.419221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.369871E+02    0.408354E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.390618E+02    0.405812E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.411206E+02    0.411343E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.423902E+02    0.424811E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.426465E+02    0.442476E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.416708E+02    0.459215E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.398468E+02    0.469887E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.376489E+02    0.472220E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.356968E+02    0.494422E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.326879E+02    0.477331E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.312824E+02    0.451192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.316994E+02    0.421548E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.338465E+02    0.397316E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.373982E+02    0.382913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.411285E+02    0.383952E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.445636E+02    0.398357E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.463744E+02    0.424824E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133920E+03   -0.458157E+02    0.457430E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.431325E+02    0.483894E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.394005E+02    0.497493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.387351E+02    0.348970E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.365151E+02    0.351468E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.380739E+02    0.335263E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.403624E+02    0.339170E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.403592E+02    0.357201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.379851E+02    0.364709E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.360349E+02    0.375506E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.347204E+02    0.363928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.345764E+02    0.347838E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.355901E+02    0.331987E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.373463E+02    0.321524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.394204E+02    0.318791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.414775E+02    0.323230E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.427515E+02    0.335037E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.429055E+02    0.351212E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.419509E+02    0.367011E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.401369E+02    0.377782E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.379467E+02    0.380940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.358200E+02    0.403174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.329985E+02    0.387948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138534E+03   -0.316575E+02    0.363060E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138679E+03   -0.320611E+02    0.335346E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.343913E+02    0.311049E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.377504E+02    0.298129E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.415857E+02    0.297867E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.447880E+02    0.311062E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134361E+03   -0.466000E+02    0.333932E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.460699E+02    0.363312E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.433124E+02    0.389750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.397226E+02    0.403383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.393849E+02    0.256545E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.371661E+02    0.259256E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.388254E+02    0.243694E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.411242E+02    0.247123E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.410141E+02    0.263772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.386365E+02    0.270876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.364834E+02    0.282420E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.353618E+02    0.270786E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.352172E+02    0.256149E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.361390E+02    0.242164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.379011E+02    0.232381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.401822E+02    0.228484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.422417E+02    0.232545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.434109E+02    0.243901E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.435642E+02    0.258264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.426024E+02    0.272416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.406848E+02    0.283132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.384944E+02    0.286458E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.363733E+02    0.307504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.335381E+02    0.294032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.322805E+02    0.270320E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.327754E+02    0.244266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.349426E+02    0.222548E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.384189E+02    0.209272E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.423671E+02    0.208405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.455643E+02    0.221233E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.471343E+02    0.243203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.464886E+02    0.269521E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.438593E+02    0.293484E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.402753E+02    0.306490E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.22 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683412.312948958     
  ps_ts2 prof sum =   683022.904160842     
  trcom prof sum =    683022.904160842     
  ps_ts2 cur sum  =   10491.6560278353     
  trcom cur sum  =    10491.6560278353     
  
  antenna # iant =            2
  powecha_use(iant) =    669688.857541967     
  ps_ts2 prof sum =   669325.551980202     
  trcom prof sum =    669325.551980201     
  ps_ts2 cur sum  =   12358.6512811857     
  trcom cur sum  =    12358.6512811857     
  
  antenna # iant =            3
  powecha_use(iant) =    532193.748900759     
  ps_ts2 prof sum =   531875.719086508     
  trcom prof sum =    531875.719086509     
  ps_ts2 cur sum  =   7041.72657179652     
  trcom cur sum  =    7041.72657179653     
  
  antenna # iant =            4
  powecha_use(iant) =    569638.526411542     
  ps_ts2 prof sum =   569310.888820183     
  trcom prof sum =    569310.888820182     
  ps_ts2 cur sum  =   9601.94066169450     
  trcom cur sum  =    9601.94066169449     
  
  antenna # iant =            5
  powecha_use(iant) =    546659.291012417     
  ps_ts2 prof sum =   546312.477740346     
  trcom prof sum =    546312.477740346     
  ps_ts2 cur sum  =   11013.0420475950     
  trcom cur sum  =    11013.0420475950     
  
  Total ECH heating:      2999847.54178808     
  Total Current Drive:    50507.0165901070     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3080
 TA= 3.38000E+00 CPU TIME= 1.59464E-01 SECONDS.  DT= 8.50978E-04
  
 TEC1=    3.37999999999995     
 TEC2=    3.38499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.48256666666634     
  %check_save_state: izleft hours =    71.5088888888889     
 --> plasma_hash("gframe"): TA= 3.380000E+00 NSTEP=  3080 Hash code:   56970968
 ->PRGCHK: bdy curvature ratio at t= 3.3850E+00 seconds is:  5.6812E-02
% MHDEQ: TG1=     3.380000 ; TG2=     3.385000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7740E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6812E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.380000 TO TG2=    3.385000 @ NSTEP     3080
   GFRAME TG2 MOMENTS CHECKSUM:  2.4683443683705D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.3850E+00  3.3900E+00 total power(Watts):  2.9949E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.38500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.383115E+02    0.386122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.362975E+02    0.387253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.377540E+02    0.371498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.400424E+02    0.375750E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.400394E+02    0.394038E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.376632E+02    0.401221E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.357141E+02    0.411938E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.344033E+02    0.399980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.343556E+02    0.383397E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.352686E+02    0.367901E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.369266E+02    0.357478E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.391002E+02    0.354043E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.410482E+02    0.359602E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.423194E+02    0.372259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.425861E+02    0.388332E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.416251E+02    0.404074E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.398128E+02    0.414873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.376219E+02    0.417849E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.356872E+02    0.440452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.326765E+02    0.424479E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.313453E+02    0.398777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.317467E+02    0.370942E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.338872E+02    0.346619E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.374344E+02    0.331785E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.411609E+02    0.332268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.443554E+02    0.346576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.462836E+02    0.371091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.457521E+02    0.401007E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.432114E+02    0.427234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.393855E+02    0.442322E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.392880E+02    0.307769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.372637E+02    0.309119E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.387236E+02    0.294412E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.410234E+02    0.298008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.409216E+02    0.315226E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.385413E+02    0.322420E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.365863E+02    0.332875E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.352667E+02    0.322094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.351183E+02    0.307138E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.361324E+02    0.292000E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.378906E+02    0.281702E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.400742E+02    0.278295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.420311E+02    0.283238E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.433089E+02    0.294582E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.434680E+02    0.309593E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.425107E+02    0.324202E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.406984E+02    0.334613E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.385070E+02    0.337933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.364743E+02    0.359942E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.336338E+02    0.344930E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.321926E+02    0.321496E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.326803E+02    0.294856E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.348349E+02    0.272045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.383993E+02    0.257742E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.422501E+02    0.257450E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.453428E+02    0.271107E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.470422E+02    0.293824E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.466369E+02    0.320210E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.438821E+02    0.345921E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.401795E+02    0.360593E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.383467E+02    0.438794E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.363279E+02    0.439562E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.377977E+02    0.422870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.400894E+02    0.427930E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.400733E+02    0.447927E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.376899E+02    0.454954E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.357284E+02    0.465609E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.344223E+02    0.452649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.343855E+02    0.434976E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.351151E+02    0.419501E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.369741E+02    0.408172E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.390481E+02    0.405617E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.411065E+02    0.411154E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.423763E+02    0.424632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.426323E+02    0.442348E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.416575E+02    0.459113E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.398340E+02    0.469799E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.376367E+02    0.472133E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.356844E+02    0.494354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.326805E+02    0.477250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.313623E+02    0.450712E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.317798E+02    0.420929E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.340255E+02    0.396116E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.373844E+02    0.382692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.411136E+02    0.383718E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.444300E+02    0.398584E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.463594E+02    0.424626E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.458013E+02    0.457315E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.431193E+02    0.483797E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.393883E+02    0.497407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.387192E+02    0.348648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.367003E+02    0.350000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.381605E+02    0.334310E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.404528E+02    0.338222E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.403436E+02    0.356891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.379704E+02    0.364436E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.360212E+02    0.375274E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.348994E+02    0.362543E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.345620E+02    0.347536E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.354779E+02    0.332252E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.373300E+02    0.321140E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.395075E+02    0.317776E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.414600E+02    0.322817E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.427341E+02    0.334638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.428890E+02    0.350862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.419335E+02    0.366726E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.401222E+02    0.377534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.379325E+02    0.380715E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.360073E+02    0.402016E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.329861E+02    0.387755E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.316447E+02    0.362818E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.321368E+02    0.334399E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.342807E+02    0.311322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.376329E+02    0.298341E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.415667E+02    0.297397E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.447688E+02    0.310592E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.465816E+02    0.333501E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.460531E+02    0.362978E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.435257E+02    0.388560E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.397087E+02    0.403184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.393624E+02    0.256039E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.373392E+02    0.257408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.388036E+02    0.243168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.411017E+02    0.246577E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.409930E+02    0.263258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.386160E+02    0.270398E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.366582E+02    0.280646E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.353432E+02    0.270332E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.351978E+02    0.255679E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.363049E+02    0.240255E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.380709E+02    0.230452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.402581E+02    0.227247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.422177E+02    0.231964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.434936E+02    0.242673E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.436495E+02    0.257076E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.425812E+02    0.271897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.407696E+02    0.282014E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.385763E+02    0.285355E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.365520E+02    0.305824E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.335219E+02    0.293629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.322631E+02    0.269887E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138567E+03   -0.327565E+02    0.243799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.350107E+02    0.221314E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.385849E+02    0.207307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.424424E+02    0.207129E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.455376E+02    0.220600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.471090E+02    0.242578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.466927E+02    0.267749E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.439500E+02    0.292386E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.402572E+02    0.306058E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680173.349858426     
  ps_ts2 prof sum =   679799.589965960     
  trcom prof sum =    679799.589965959     
  ps_ts2 cur sum  =   10405.3252227871     
  trcom cur sum  =    10405.3252227871     
  
  antenna # iant =            2
  powecha_use(iant) =    670762.230784117     
  ps_ts2 prof sum =   670398.074975033     
  trcom prof sum =    670398.074975032     
  ps_ts2 cur sum  =   12340.0100756519     
  trcom cur sum  =    12340.0100756519     
  
  antenna # iant =            3
  powecha_use(iant) =    530161.401145663     
  ps_ts2 prof sum =   529834.180463413     
  trcom prof sum =    529834.180463413     
  ps_ts2 cur sum  =   6990.11855575866     
  trcom cur sum  =    6990.11855575866     
  
  antenna # iant =            4
  powecha_use(iant) =    568635.093042704     
  ps_ts2 prof sum =   568305.938734573     
  trcom prof sum =    568305.938734572     
  ps_ts2 cur sum  =   9552.76021239293     
  trcom cur sum  =    9552.76021239292     
  
  antenna # iant =            5
  powecha_use(iant) =    545148.081591984     
  ps_ts2 prof sum =   544877.486012682     
  trcom prof sum =    544877.486012682     
  ps_ts2 cur sum  =   10952.4754238014     
  trcom cur sum  =    10952.4754238014     
  
  Total ECH heating:      2993215.27015166     
  Total Current Drive:    50240.6894903920     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3085
 TA= 3.38500E+00 CPU TIME= 1.62007E-01 SECONDS.  DT= 1.16973E-04
  
 TEC1=    3.38499999999995     
 TEC2=    3.38999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.49663722222181     
  %check_save_state: izleft hours =    71.4950000000000     
 --> plasma_hash("gframe"): TA= 3.385000E+00 NSTEP=  3085 Hash code:   20039225
 ->PRGCHK: bdy curvature ratio at t= 3.3900E+00 seconds is:  5.6808E-02
% MHDEQ: TG1=     3.385000 ; TG2=     3.390000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2210E-03 SECONDS
   DATA R*BT AT EDGE:  2.7729E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6808E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.385000 TO TG2=    3.390000 @ NSTEP     3085
   GFRAME TG2 MOMENTS CHECKSUM:  2.4679253006936D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.41225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.39082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.23044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.14732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.55036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.46335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.38534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.91089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.59709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.28303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.28847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.36222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.48170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.22657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.43359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.87786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.20835E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.54866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.91547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.20779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.88954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.88954E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.3900E+00  3.3950E+00 total power(Watts):  2.9793E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.39000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.384055E+02    0.385448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.363878E+02    0.386582E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.377427E+02    0.371295E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.400305E+02    0.375551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.400289E+02    0.393881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.376510E+02    0.401100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.357044E+02    0.411829E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.343933E+02    0.399857E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.342497E+02    0.383771E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.352578E+02    0.367688E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.370167E+02    0.356655E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.390889E+02    0.353764E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.410366E+02    0.359336E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.424194E+02    0.371518E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.425747E+02    0.388158E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.416141E+02    0.403937E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.398022E+02    0.414761E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.376118E+02    0.417747E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.356776E+02    0.440396E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.326673E+02    0.424400E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.313365E+02    0.398656E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.317374E+02    0.370756E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.338774E+02    0.346332E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.374224E+02    0.331438E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.411482E+02    0.331889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.445705E+02    0.345144E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.462713E+02    0.370841E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.457403E+02    0.400851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.430858E+02    0.427540E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.393745E+02    0.442283E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.392748E+02    0.307322E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.372510E+02    0.308693E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.387101E+02    0.293941E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.410094E+02    0.297523E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.409069E+02    0.314797E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.386318E+02    0.321415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.365748E+02    0.332530E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.354477E+02    0.320460E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.351062E+02    0.306726E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.360220E+02    0.292208E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.377772E+02    0.281863E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.400593E+02    0.277767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.420162E+02    0.282693E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.432943E+02    0.294056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.435652E+02    0.308516E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.424977E+02    0.323784E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.406863E+02    0.334246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.384938E+02    0.337598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.364635E+02    0.359712E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.335305E+02    0.345245E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.321818E+02    0.321145E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.326683E+02    0.294431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.348206E+02    0.271557E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.383834E+02    0.257177E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.422329E+02    0.256846E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.454428E+02    0.269856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.472588E+02    0.292092E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.465061E+02    0.320302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.440970E+02    0.344476E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.402754E+02    0.359790E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.383360E+02    0.438739E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.363181E+02    0.439511E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.377877E+02    0.422779E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.400789E+02    0.427848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.400626E+02    0.447895E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.376797E+02    0.454930E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.358189E+02    0.465265E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.346080E+02    0.451878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.343760E+02    0.434919E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.353031E+02    0.418496E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.369636E+02    0.408053E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.391440E+02    0.405026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.410955E+02    0.411022E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.424785E+02    0.424125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.426215E+02    0.442284E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.416464E+02    0.459095E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.398233E+02    0.469790E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.377310E+02    0.471814E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.357749E+02    0.494088E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.326713E+02    0.477239E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.313534E+02    0.450691E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.317711E+02    0.420842E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.340152E+02    0.395989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.373740E+02    0.382521E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.412124E+02    0.383035E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.446492E+02    0.397518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.463474E+02    0.424522E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.459087E+02    0.456977E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.433380E+02    0.483270E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.394857E+02    0.497161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.387075E+02    0.348357E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.366899E+02    0.349715E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.381486E+02    0.333962E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.404408E+02    0.337871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.403320E+02    0.356615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.380628E+02    0.363660E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.361099E+02    0.374548E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.348894E+02    0.362317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.347431E+02    0.346053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.354668E+02    0.331913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.373181E+02    0.320751E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.394946E+02    0.317364E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.414472E+02    0.322402E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.427214E+02    0.334256E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.429890E+02    0.350000E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.419197E+02    0.366491E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.401105E+02    0.377340E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.380249E+02    0.380018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.359976E+02    0.401890E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.329768E+02    0.387615E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.316352E+02    0.362606E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138455E+03   -0.321270E+02    0.334080E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.342676E+02    0.310944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.378189E+02    0.296591E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.415525E+02    0.296901E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.447545E+02    0.310110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134144E+03   -0.466857E+02    0.332536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.459223E+02    0.363221E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.433999E+02    0.388861E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.396979E+02    0.403055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.394453E+02    0.254796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.373235E+02    0.256857E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.386890E+02    0.243247E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.410839E+02    0.245958E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.409765E+02    0.262679E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.387008E+02    0.269196E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.366442E+02    0.280155E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.355166E+02    0.268446E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.352759E+02    0.254433E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.361948E+02    0.240389E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.380529E+02    0.229841E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.402390E+02    0.226602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.421984E+02    0.231304E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.434749E+02    0.242021E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.436319E+02    0.256453E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.425650E+02    0.271322E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.407552E+02    0.281464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.385628E+02    0.284839E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.365395E+02    0.305397E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.336007E+02    0.292521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138600E+03   -0.322498E+02    0.269411E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.328279E+02    0.242544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.349931E+02    0.220723E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.385640E+02    0.206650E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.424196E+02    0.206432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.455161E+02    0.219873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.473140E+02    0.240629E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.465617E+02    0.267722E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.439350E+02    0.291846E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.402438E+02    0.305599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.31 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669809.181956771     
  ps_ts2 prof sum =   669401.729929349     
  trcom prof sum =    669401.729929348     
  ps_ts2 cur sum  =   10220.1783747608     
  trcom cur sum  =    10220.1783747608     
  
  antenna # iant =            2
  powecha_use(iant) =    669792.498893396     
  ps_ts2 prof sum =   669400.693848834     
  trcom prof sum =    669400.693848833     
  ps_ts2 cur sum  =   12301.0383936894     
  trcom cur sum  =    12301.0383936894     
  
  antenna # iant =            3
  powecha_use(iant) =    530402.158021903     
  ps_ts2 prof sum =   530110.082909622     
  trcom prof sum =    530110.082909623     
  ps_ts2 cur sum  =   6972.16243693790     
  trcom cur sum  =    6972.16243693791     
  
  antenna # iant =            4
  powecha_use(iant) =    563181.069225674     
  ps_ts2 prof sum =   562846.596248624     
  trcom prof sum =    562846.596248624     
  ps_ts2 cur sum  =   9439.59563002667     
  trcom cur sum  =    9439.59563002666     
  
  antenna # iant =            5
  powecha_use(iant) =    546120.545322141     
  ps_ts2 prof sum =   545840.341056142     
  trcom prof sum =    545840.341056142     
  ps_ts2 cur sum  =   10958.3566075671     
  trcom cur sum  =    10958.3566075671     
  
  Total ECH heating:      2977599.44399257     
  Total Current Drive:    49891.3314429818     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3097
 TA= 3.39000E+00 CPU TIME= 1.60008E-01 SECONDS.  DT= 2.61279E-05
  
 TEC1=    3.38999999999995     
 TEC2=    3.39499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.51201027777756     
  %check_save_state: izleft hours =    71.4794444444444     
 --> plasma_hash("gframe"): TA= 3.390000E+00 NSTEP=  3097 Hash code:   81493669
 ->PRGCHK: bdy curvature ratio at t= 3.3950E+00 seconds is:  5.6804E-02
% MHDEQ: TG1=     3.390000 ; TG2=     3.395000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6804E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.390000 TO TG2=    3.395000 @ NSTEP     3097
   GFRAME TG2 MOMENTS CHECKSUM:  2.4675062330167D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.3950E+00  3.4000E+00 total power(Watts):  2.9893E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.39500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.383965E+02    0.385274E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.363793E+02    0.386421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.377337E+02    0.371072E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.400212E+02    0.375334E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.400199E+02    0.393726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.377509E+02    0.400461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.357956E+02    0.411256E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.345790E+02    0.398726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.342415E+02    0.383607E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.352529E+02    0.367447E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.370070E+02    0.356382E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.390788E+02    0.353474E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.411352E+02    0.358511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.424097E+02    0.371269E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.425652E+02    0.387978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.416050E+02    0.403798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.397936E+02    0.414649E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.377070E+02    0.417206E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.356691E+02    0.440360E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.326596E+02    0.424323E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.313284E+02    0.398545E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138273E+03   -0.318198E+02    0.369983E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.340568E+02    0.344819E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.374122E+02    0.331058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.411376E+02    0.331486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.444432E+02    0.345316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.462610E+02    0.370567E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.456120E+02    0.401132E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.430765E+02    0.427455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.393655E+02    0.442246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.392630E+02    0.306864E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.372397E+02    0.308257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.386976E+02    0.293465E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.409966E+02    0.297030E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.408934E+02    0.314351E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.386209E+02    0.320999E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.364654E+02    0.332781E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.354373E+02    0.320063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.352855E+02    0.304995E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.362019E+02    0.290429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.379623E+02    0.280038E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.400457E+02    0.277231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.421088E+02    0.281521E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.433903E+02    0.292917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.435527E+02    0.308022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.424861E+02    0.323342E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.406757E+02    0.333859E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.384816E+02    0.337249E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.365543E+02    0.358876E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.335214E+02    0.344937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.321723E+02    0.320775E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138402E+03   -0.326573E+02    0.294008E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.348073E+02    0.271071E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.383684E+02    0.256619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.422168E+02    0.256245E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.454270E+02    0.269248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.472445E+02    0.291516E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.467275E+02    0.318683E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.439726E+02    0.344656E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.402653E+02    0.359517E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.384328E+02    0.438304E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.364111E+02    0.439067E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.377792E+02    0.422691E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.400700E+02    0.427768E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.400537E+02    0.447863E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.377751E+02    0.454569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.358105E+02    0.465261E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.345997E+02    0.451860E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.342708E+02    0.435292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.352950E+02    0.418403E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.369555E+02    0.407939E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.391351E+02    0.404901E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.410864E+02    0.410902E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.424689E+02    0.424040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.428395E+02    0.441506E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.417493E+02    0.458753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.398142E+02    0.469788E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.377223E+02    0.471812E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.357663E+02    0.494090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.328518E+02    0.476597E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.313458E+02    0.450670E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.317633E+02    0.420763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.339116E+02    0.396369E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.373652E+02    0.382344E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.412028E+02    0.382842E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.446372E+02    0.397375E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.463370E+02    0.424441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.458985E+02    0.456961E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.433281E+02    0.483273E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.394763E+02    0.497161E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.386977E+02    0.348027E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.366801E+02    0.349412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.381382E+02    0.333587E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.404304E+02    0.337500E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.403221E+02    0.356323E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.380536E+02    0.363406E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.361011E+02    0.374345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.348805E+02    0.362071E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.347340E+02    0.345747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.356506E+02    0.330313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.374073E+02    0.319720E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.394830E+02    0.316928E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.414357E+02    0.321966E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.428215E+02    0.333274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.429785E+02    0.349654E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.420188E+02    0.365711E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.401012E+02    0.377127E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.380159E+02    0.379823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.359896E+02    0.401764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.329688E+02    0.387463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.317169E+02    0.361788E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138457E+03   -0.321180E+02    0.333745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.342553E+02    0.310536E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.378068E+02    0.296131E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.415392E+02    0.296409E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.449687E+02    0.308430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.466744E+02    0.332086E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.461472E+02    0.361893E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.433902E+02    0.388678E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.396889E+02    0.402923E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.394280E+02    0.254235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.372123E+02    0.257000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.388685E+02    0.241283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.411701E+02    0.244668E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.410650E+02    0.261449E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.386863E+02    0.268664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.365349E+02    0.280342E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.355034E+02    0.267946E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.352615E+02    0.253902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.361792E+02    0.239815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.379398E+02    0.229928E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.402209E+02    0.225948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.421801E+02    0.230635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.434572E+02    0.241362E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.436153E+02    0.255833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.426572E+02    0.270110E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.407411E+02    0.280952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.385496E+02    0.284348E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.365282E+02    0.304960E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.335894E+02    0.292080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.323253E+02    0.268229E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.328138E+02    0.242012E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.349760E+02    0.220123E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.384504E+02    0.206696E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.423978E+02    0.205722E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.456038E+02    0.218481E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.472951E+02    0.239908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.465454E+02    0.267091E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.439209E+02    0.291314E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.402313E+02    0.305131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674153.686417705     
  ps_ts2 prof sum =   673761.513814453     
  trcom prof sum =    673761.513814453     
  ps_ts2 cur sum  =   10262.6665521863     
  trcom cur sum  =    10262.6665521863     
  
  antenna # iant =            2
  powecha_use(iant) =    670968.237711837     
  ps_ts2 prof sum =   670601.915530849     
  trcom prof sum =    670601.915530848     
  ps_ts2 cur sum  =   12303.6091030348     
  trcom cur sum  =    12303.6091030348     
  
  antenna # iant =            3
  powecha_use(iant) =    530396.329762991     
  ps_ts2 prof sum =   530103.416577025     
  trcom prof sum =    530103.416577025     
  ps_ts2 cur sum  =   6953.14127280570     
  trcom cur sum  =    6953.14127280570     
  
  antenna # iant =            4
  powecha_use(iant) =    566258.072858794     
  ps_ts2 prof sum =   565950.175786817     
  trcom prof sum =    565950.175768758     
  ps_ts2 cur sum  =   9473.35475455933     
  trcom cur sum  =    9473.35475455932     
  
  antenna # iant =            5
  powecha_use(iant) =    547507.968013167     
  ps_ts2 prof sum =   547201.646017896     
  trcom prof sum =    547201.646017896     
  ps_ts2 cur sum  =   10970.4795025521     
  trcom cur sum  =    10970.4795025521     
  
  Total ECH heating:      2987618.66770898     
  Total Current Drive:    49963.2511851383     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3115
 TA= 3.39500E+00 CPU TIME= 1.60459E-01 SECONDS.  DT= 5.79075E-04
  
 TEC1=    3.39499999999995     
 TEC2=    3.39999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.52665833333276     
  %check_save_state: izleft hours =    71.4650000000000     
 --> plasma_hash("gframe"): TA= 3.395000E+00 NSTEP=  3115 Hash code:   35492514
 ->PRGCHK: bdy curvature ratio at t= 3.4000E+00 seconds is:  5.6800E-02
% MHDEQ: TG1=     3.395000 ; TG2=     3.400000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6800E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.395000 TO TG2=    3.400000 @ NSTEP     3115
   GFRAME TG2 MOMENTS CHECKSUM:  2.4670871653763D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.47642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.46754E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.46505E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.22885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.57315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.35159E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.89269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.63374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  6.19265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.29707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.28827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -2.45019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.88548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.36753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.23068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.41071E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.87447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.22550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.66890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.66890E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4000E+00  3.4050E+00 total power(Watts):  2.9958E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.40000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.383864E+02    0.385090E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.363694E+02    0.386243E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.378270E+02    0.370303E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.401185E+02    0.374592E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.400097E+02    0.393559E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.377412E+02    0.400313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.357899E+02    0.411113E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.345700E+02    0.398577E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.344246E+02    0.382361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.351455E+02    0.367793E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.369965E+02    0.356114E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.391739E+02    0.352609E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.411240E+02    0.358230E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.423987E+02    0.371029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.425544E+02    0.387781E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.417060E+02    0.403179E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.397838E+02    0.414520E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.376979E+02    0.417075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.355610E+02    0.440696E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.328382E+02    0.423313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.313201E+02    0.398399E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.318107E+02    0.369781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.339525E+02    0.345131E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.374008E+02    0.330699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.412335E+02    0.330514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.444356E+02    0.344941E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.462492E+02    0.370299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.458377E+02    0.400062E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.430662E+02    0.427346E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.394638E+02    0.441790E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.392500E+02    0.306419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.372275E+02    0.307824E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.386844E+02    0.292977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.409824E+02    0.296548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.409857E+02    0.313306E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.386085E+02    0.320597E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.366524E+02    0.331194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.354259E+02    0.319681E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.352734E+02    0.304576E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.361874E+02    0.289973E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.379484E+02    0.279527E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.401338E+02    0.276042E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.420944E+02    0.280972E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.433755E+02    0.292400E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.435385E+02    0.307546E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.425835E+02    0.322321E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.406637E+02    0.333473E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.385716E+02    0.336316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.365440E+02    0.358619E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.335116E+02    0.344648E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.321617E+02    0.320417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.326454E+02    0.293581E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.348859E+02    0.269878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.384509E+02    0.255369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.421995E+02    0.255637E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.454105E+02    0.268627E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.472289E+02    0.290938E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.467137E+02    0.318202E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.439604E+02    0.344301E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.402542E+02    0.359244E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.384241E+02    0.438222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.364020E+02    0.438997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.377699E+02    0.422579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.401734E+02    0.427239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.400439E+02    0.447815E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.377660E+02    0.454534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.358015E+02    0.465245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.345908E+02    0.451835E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.342622E+02    0.435216E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.352862E+02    0.418287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.370482E+02    0.407331E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.391254E+02    0.404749E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.411871E+02    0.410311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.424590E+02    0.423911E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.427155E+02    0.441810E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.417392E+02    0.458727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.399134E+02    0.469464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.377129E+02    0.471798E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.357570E+02    0.494079E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.327492E+02    0.476908E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.313375E+02    0.450642E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.317552E+02    0.420659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.339028E+02    0.396218E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.374578E+02    0.381634E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.411923E+02    0.382640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.446307E+02    0.397177E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.464458E+02    0.423921E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133658E+03   -0.458876E+02    0.456929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.432026E+02    0.483520E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.394666E+02    0.497151E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.387907E+02    0.347141E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.365699E+02    0.349701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.381268E+02    0.333229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.404184E+02    0.337135E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.404185E+02    0.355481E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.380428E+02    0.363154E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.360919E+02    0.374138E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.347741E+02    0.362406E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.346280E+02    0.346053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.356393E+02    0.329965E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.373956E+02    0.319323E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.394706E+02    0.316506E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.415310E+02    0.320945E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.428092E+02    0.332882E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.429664E+02    0.349327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.420060E+02    0.365454E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.401986E+02    0.376394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.380065E+02    0.379623E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.358805E+02    0.402102E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.330529E+02    0.386769E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.317074E+02    0.361565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.321076E+02    0.333433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.344299E+02    0.308836E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.377940E+02    0.295659E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.416321E+02    0.295284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.448409E+02    0.308525E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.466613E+02    0.331655E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.461352E+02    0.361593E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.433793E+02    0.388483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.397868E+02    0.402296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.394165E+02    0.253622E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.371963E+02    0.256448E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.388511E+02    0.240678E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.411522E+02    0.244044E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.410489E+02    0.260873E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.386711E+02    0.268125E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.365210E+02    0.279853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.353953E+02    0.268135E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.352461E+02    0.253366E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.361624E+02    0.239243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.379216E+02    0.229312E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.402017E+02    0.225296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.422640E+02    0.229288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.434382E+02    0.240702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.435976E+02    0.255206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.426410E+02    0.269535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.407263E+02    0.280418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.386362E+02    0.283189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.364184E+02    0.305173E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.335766E+02    0.291644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.323119E+02    0.267745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.327984E+02    0.241475E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.350472E+02    0.218791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.384294E+02    0.206054E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.423748E+02    0.205006E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.455818E+02    0.217743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.471623E+02    0.239822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.465278E+02    0.266451E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.439058E+02    0.290778E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.403232E+02    0.304044E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675102.357920631     
  ps_ts2 prof sum =   674717.695694755     
  trcom prof sum =    674717.695694755     
  ps_ts2 cur sum  =   10248.5380644865     
  trcom cur sum  =    10248.5380644865     
  
  antenna # iant =            2
  powecha_use(iant) =    671174.448301563     
  ps_ts2 prof sum =   670816.499459453     
  trcom prof sum =    670816.499459452     
  ps_ts2 cur sum  =   12277.9915942761     
  trcom cur sum  =    12277.9915942761     
  
  antenna # iant =            3
  powecha_use(iant) =    530590.833530494     
  ps_ts2 prof sum =   530272.874117327     
  trcom prof sum =    530272.874117328     
  ps_ts2 cur sum  =   6935.39311550235     
  trcom cur sum  =    6935.39311550236     
  
  antenna # iant =            4
  powecha_use(iant) =    572365.167832862     
  ps_ts2 prof sum =   572026.846131720     
  trcom prof sum =    572026.846131719     
  ps_ts2 cur sum  =   9550.17316688962     
  trcom cur sum  =    9550.17316688961     
  
  antenna # iant =            5
  powecha_use(iant) =    546588.932011324     
  ps_ts2 prof sum =   546234.574771444     
  trcom prof sum =    546234.574771444     
  ps_ts2 cur sum  =   10931.6091670311     
  trcom cur sum  =    10931.6091670311     
  
  Total ECH heating:      2994068.49017470     
  Total Current Drive:    49943.7051081858     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3121
 TA= 3.40000E+00 CPU TIME= 1.59701E-01 SECONDS.  DT= 3.09392E-04
  
 TEC1=    3.39999999999995     
 TEC2=    3.40499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.54197138888867     
  %check_save_state: izleft hours =    71.4497222222222     
 --> plasma_hash("gframe"): TA= 3.400000E+00 NSTEP=  3121 Hash code:  120857129
 ->PRGCHK: bdy curvature ratio at t= 3.4050E+00 seconds is:  5.6797E-02
% MHDEQ: TG1=     3.400000 ; TG2=     3.405000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7697E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6797E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.400000 TO TG2=    3.405000 @ NSTEP     3121
   GFRAME TG2 MOMENTS CHECKSUM:  2.4666680977359D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4050E+00  3.4100E+00 total power(Watts):  2.9919E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.40500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.383767E+02    0.384936E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.363601E+02    0.386099E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.378173E+02    0.370106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.401083E+02    0.374406E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.401077E+02    0.392926E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.377318E+02    0.400189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.357793E+02    0.411016E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.344641E+02    0.398968E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.344156E+02    0.382218E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.351363E+02    0.367601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.369870E+02    0.355869E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.391635E+02    0.352339E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.411136E+02    0.357972E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.423880E+02    0.370822E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.426566E+02    0.387131E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.416957E+02    0.403052E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.398817E+02    0.413968E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.376886E+02    0.416977E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.357514E+02    0.439854E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.327362E+02    0.423696E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.314021E+02    0.397767E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.318020E+02    0.369609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.339429E+02    0.344865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.374909E+02    0.329757E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.412220E+02    0.330159E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.444238E+02    0.344611E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133904E+03   -0.463561E+02    0.369569E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.458268E+02    0.399915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.432845E+02    0.426458E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.394540E+02    0.441757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.393415E+02    0.305369E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.371166E+02    0.308078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.387733E+02    0.291885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.410756E+02    0.295464E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.409722E+02    0.312919E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.385973E+02    0.320229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.366421E+02    0.330876E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.353193E+02    0.319974E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.351676E+02    0.304856E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.361731E+02    0.289561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.379353E+02    0.279068E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.401198E+02    0.275555E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.420798E+02    0.280477E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.433621E+02    0.291913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.435257E+02    0.307104E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.425715E+02    0.321930E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.407597E+02    0.332542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.385599E+02    0.336015E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.365349E+02    0.358389E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.335021E+02    0.344384E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.322414E+02    0.319434E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.326342E+02    0.293187E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.348730E+02    0.269421E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.384362E+02    0.254848E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.421836E+02    0.255082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.453945E+02    0.268064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.470981E+02    0.291008E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.467008E+02    0.317766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.439487E+02    0.343972E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.402440E+02    0.358995E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.384147E+02    0.438167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.363930E+02    0.438954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.378646E+02    0.422054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.401618E+02    0.427161E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.401430E+02    0.447422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.377566E+02    0.454518E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.357925E+02    0.465235E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.345819E+02    0.451815E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.344476E+02    0.434323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.352773E+02    0.418194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.370391E+02    0.407216E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.391157E+02    0.404628E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.411771E+02    0.410192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.424490E+02    0.423821E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.427053E+02    0.441758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.417291E+02    0.458712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.399031E+02    0.469462E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.377031E+02    0.471794E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.357485E+02    0.494061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.327406E+02    0.476894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.313294E+02    0.450624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.318383E+02    0.420112E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.338942E+02    0.396096E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.374478E+02    0.381475E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.411820E+02    0.382471E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.445038E+02    0.397475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133581E+03   -0.464348E+02    0.423821E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.458766E+02    0.456914E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.431920E+02    0.483512E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.394567E+02    0.497137E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.387805E+02    0.346854E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.367598E+02    0.348263E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.382182E+02    0.332304E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.405144E+02    0.336218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.404081E+02    0.355219E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.380330E+02    0.362938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.360826E+02    0.373960E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.347650E+02    0.362204E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.346184E+02    0.345787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.355324E+02    0.330270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.373841E+02    0.318966E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.395634E+02    0.315493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.415190E+02    0.320559E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.427976E+02    0.332531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.429553E+02    0.349029E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.419940E+02    0.365224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.401885E+02    0.376209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.379963E+02    0.379465E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.360713E+02    0.401008E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.330443E+02    0.386635E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.316987E+02    0.361366E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.321881E+02    0.332503E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.343301E+02    0.309089E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.377819E+02    0.295233E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.416190E+02    0.294831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.448279E+02    0.308071E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.466485E+02    0.331271E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.461239E+02    0.361331E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.435970E+02    0.387357E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.397769E+02    0.402168E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.394014E+02    0.253085E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.373751E+02    0.254545E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.388354E+02    0.240120E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.411359E+02    0.243472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.410338E+02    0.260339E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.386567E+02    0.267631E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.367015E+02    0.278041E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.353810E+02    0.267679E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.352314E+02    0.252884E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.361473E+02    0.238715E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.380972E+02    0.227318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.402842E+02    0.223997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.422463E+02    0.228673E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.435275E+02    0.239431E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.436893E+02    0.253980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.426259E+02    0.269011E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.408171E+02    0.279277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.386228E+02    0.282736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.366025E+02    0.303476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.335657E+02    0.291243E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.322984E+02    0.267317E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.327841E+02    0.240979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.350310E+02    0.218234E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.386015E+02    0.203990E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.424557E+02    0.203668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.455621E+02    0.217059E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.471490E+02    0.239147E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.467388E+02    0.264622E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.440030E+02    0.289664E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.403110E+02    0.303614E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673820.432966086     
  ps_ts2 prof sum =   673439.810430340     
  trcom prof sum =    673439.810430340     
  ps_ts2 cur sum  =   10203.1475334939     
  trcom cur sum  =    10203.1475334939     
  
  antenna # iant =            2
  powecha_use(iant) =    669139.109559747     
  ps_ts2 prof sum =   668727.587882954     
  trcom prof sum =    668727.587882953     
  ps_ts2 cur sum  =   12221.0425361496     
  trcom cur sum  =    12221.0425361496     
  
  antenna # iant =            3
  powecha_use(iant) =    531933.026111162     
  ps_ts2 prof sum =   531605.482956286     
  trcom prof sum =    531605.482956287     
  ps_ts2 cur sum  =   6933.61359765627     
  trcom cur sum  =    6933.61359765627     
  
  antenna # iant =            4
  powecha_use(iant) =    570547.300642102     
  ps_ts2 prof sum =   570216.816779579     
  trcom prof sum =    570216.816779578     
  ps_ts2 cur sum  =   9499.83852409388     
  trcom cur sum  =    9499.83852409387     
  
  antenna # iant =            5
  powecha_use(iant) =    546462.026135798     
  ps_ts2 prof sum =   546178.424664616     
  trcom prof sum =    546178.424664617     
  ps_ts2 cur sum  =   10917.2487983309     
  trcom cur sum  =    10917.2487983309     
  
  Total ECH heating:      2990168.12271377     
  Total Current Drive:    49774.8909897245     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3129
 TA= 3.40500E+00 CPU TIME= 1.47951E-01 SECONDS.  DT= 4.20480E-04
  
 TEC1=    3.40499999999995     
 TEC2=    3.40999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.55918694444404     
  %check_save_state: izleft hours =    71.4322222222222     
 --> plasma_hash("gframe"): TA= 3.405000E+00 NSTEP=  3129 Hash code:  107567831
 ->PRGCHK: bdy curvature ratio at t= 3.4100E+00 seconds is:  5.6798E-02
% MHDEQ: TG1=     3.405000 ; TG2=     3.410000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7685E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6798E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.405000 TO TG2=    3.410000 @ NSTEP     3129
   GFRAME TG2 MOMENTS CHECKSUM:  2.4662617890704D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.49721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.51974E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.62542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.29008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.55782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.33764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.81086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.66425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  5.33654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.25575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.79471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.30420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.31210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.77882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.24892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.33059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.80133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.24804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.09344E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.09344E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4100E+00  3.4150E+00 total power(Watts):  2.9881E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.41000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.384685E+02    0.384174E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.364483E+02    0.385340E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.378049E+02    0.369839E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.400954E+02    0.374129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.400946E+02    0.392688E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.377192E+02    0.399979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.357690E+02    0.410824E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.346461E+02    0.397754E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.343078E+02    0.382515E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.353197E+02    0.366210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.370757E+02    0.355015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.391508E+02    0.352055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.412095E+02    0.357124E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.424863E+02    0.370013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.426429E+02    0.386870E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.416823E+02    0.402830E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.398683E+02    0.413771E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.376758E+02    0.416792E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.357391E+02    0.439656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.327250E+02    0.423520E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.313904E+02    0.397580E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.317905E+02    0.369367E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.341197E+02    0.343375E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.374783E+02    0.329447E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.412087E+02    0.329837E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.445246E+02    0.343744E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.463418E+02    0.369258E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.458121E+02    0.399671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.431560E+02    0.426653E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.394409E+02    0.441541E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.393283E+02    0.304998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.373028E+02    0.306427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.387600E+02    0.291482E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.410619E+02    0.295046E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.409600E+02    0.312542E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.386875E+02    0.319277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.366296E+02    0.330574E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.354996E+02    0.318377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.351554E+02    0.304493E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.360656E+02    0.289825E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.380213E+02    0.277961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.401062E+02    0.275098E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.421722E+02    0.279371E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.434579E+02    0.290844E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.436228E+02    0.306095E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.425576E+02    0.321584E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.407465E+02    0.332235E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.385491E+02    0.335692E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.364231E+02    0.358687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.335841E+02    0.343504E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.322301E+02    0.319133E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.327115E+02    0.292121E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.348604E+02    0.268996E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.384222E+02    0.254382E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.422744E+02    0.253909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.454912E+02    0.266932E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.473156E+02    0.289328E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133967E+03   -0.468031E+02    0.316797E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.440486E+02    0.343102E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.403381E+02    0.358156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.385069E+02    0.437573E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.364816E+02    0.438358E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.378516E+02    0.421872E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.401507E+02    0.426962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.401293E+02    0.447205E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.378477E+02    0.453954E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.358799E+02    0.464708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.346672E+02    0.451244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.344357E+02    0.434126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.353638E+02    0.417563E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.370265E+02    0.407023E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.392091E+02    0.403951E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.411635E+02    0.409991E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.425479E+02    0.423205E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.426909E+02    0.441545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.417148E+02    0.458492E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.398892E+02    0.469262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.377943E+02    0.471293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.358354E+02    0.493628E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.327287E+02    0.476731E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.314088E+02    0.450042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.318271E+02    0.419942E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.340737E+02    0.394862E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.374355E+02    0.381224E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.412785E+02    0.381701E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.447158E+02    0.396346E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133584E+03   -0.464197E+02    0.423607E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133433E+03   -0.459804E+02    0.456358E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.434068E+02    0.482791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.395504E+02    0.496713E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.387676E+02    0.346565E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.367473E+02    0.347992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.382057E+02    0.331995E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.405013E+02    0.335916E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.403950E+02    0.354926E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.381236E+02    0.362099E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.361700E+02    0.373157E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.349462E+02    0.360785E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.347981E+02    0.344307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.357141E+02    0.328721E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.373716E+02    0.318639E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.395501E+02    0.315153E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.415058E+02    0.320211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.427837E+02    0.332207E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.430537E+02    0.348164E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.420932E+02    0.364395E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.401754E+02    0.375940E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.380879E+02    0.378680E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.360589E+02    0.400802E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.330334E+02    0.386404E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138305E+03   -0.316886E+02    0.361107E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.321769E+02    0.332229E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.343183E+02    0.308755E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.378686E+02    0.294183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.416052E+02    0.294405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.450405E+02    0.306468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.467519E+02    0.330343E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.462274E+02    0.360494E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.434689E+02    0.387574E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.397638E+02    0.401957E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.394875E+02    0.251922E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.372647E+02    0.254788E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.389194E+02    0.238914E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.412239E+02    0.242274E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.411232E+02    0.259189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.387430E+02    0.266497E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.366886E+02    0.277611E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.355564E+02    0.265843E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.353106E+02    0.251718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.362269E+02    0.237507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.380824E+02    0.226790E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.402690E+02    0.223438E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.422310E+02    0.228106E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.435118E+02    0.238888E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.436742E+02    0.253454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.426115E+02    0.268522E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.408030E+02    0.278826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.386099E+02    0.282302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.365899E+02    0.303118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.336448E+02    0.290177E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.322868E+02    0.266909E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.328580E+02    0.239781E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.350170E+02    0.217710E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.384910E+02    0.204137E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.424393E+02    0.203046E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.456536E+02    0.215767E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.473531E+02    0.237302E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.466098E+02    0.264726E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.439887E+02    0.289211E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.402974E+02    0.303230E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674794.870815215     
  ps_ts2 prof sum =   674401.808982079     
  trcom prof sum =    674401.808982079     
  ps_ts2 cur sum  =   10215.1982523997     
  trcom cur sum  =    10215.1982523996     
  
  antenna # iant =            2
  powecha_use(iant) =    667498.209518338     
  ps_ts2 prof sum =   667103.589876287     
  trcom prof sum =    667103.589876287     
  ps_ts2 cur sum  =   12189.8800241517     
  trcom cur sum  =    12189.8800241516     
  
  antenna # iant =            3
  powecha_use(iant) =    531459.113451094     
  ps_ts2 prof sum =   531165.778230408     
  trcom prof sum =    531165.778230408     
  ps_ts2 cur sum  =   6926.38897591029     
  trcom cur sum  =    6926.38897591030     
  
  antenna # iant =            4
  powecha_use(iant) =    567004.943107913     
  ps_ts2 prof sum =   566690.718765428     
  trcom prof sum =    566690.718765427     
  ps_ts2 cur sum  =   9439.80697079546     
  trcom cur sum  =    9439.80697079545     
  
  antenna # iant =            5
  powecha_use(iant) =    547343.095723557     
  ps_ts2 prof sum =   547051.031783032     
  trcom prof sum =    547051.031746527     
  ps_ts2 cur sum  =   10934.6595491187     
  trcom cur sum  =    10934.6595491187     
  
  Total ECH heating:      2986412.92760073     
  Total Current Drive:    49705.9337723757     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3136
 TA= 3.41000E+00 CPU TIME= 7.12751E-01 SECONDS.  DT= 3.32383E-04
  
 TEC1=    3.40999999999995     
 TEC2=    3.41499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.57258444444415     
  %check_save_state: izleft hours =    71.4188888888889     
 --> plasma_hash("gframe"): TA= 3.410000E+00 NSTEP=  3136 Hash code:   56311326
 ->PRGCHK: bdy curvature ratio at t= 3.4150E+00 seconds is:  5.6801E-02
% MHDEQ: TG1=     3.410000 ; TG2=     3.415000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.1488E-02 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6801E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.410000 TO TG2=    3.415000 @ NSTEP     3136
   GFRAME TG2 MOMENTS CHECKSUM:  2.4658554804048D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4150E+00  3.4200E+00 total power(Watts):  2.9941E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.41500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.384568E+02    0.383882E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.364370E+02    0.385063E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.378960E+02    0.368984E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.401907E+02    0.373287E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.400825E+02    0.392413E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.378109E+02    0.399238E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.358537E+02    0.410144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.346354E+02    0.397506E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.344885E+02    0.381169E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.352112E+02    0.366475E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.370637E+02    0.354698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.392436E+02    0.351148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.411968E+02    0.356784E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.424736E+02    0.369678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.427428E+02    0.386074E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.417808E+02    0.402107E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.398563E+02    0.413537E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.377674E+02    0.416122E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.357276E+02    0.439445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.329012E+02    0.422408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.313803E+02    0.397351E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.318705E+02    0.368511E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.340144E+02    0.343672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.374661E+02    0.329090E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.413037E+02    0.328862E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.445063E+02    0.343382E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.462100E+02    0.369400E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133741E+03   -0.459169E+02    0.398933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.431429E+02    0.426417E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.395353E+02    0.440946E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.393147E+02    0.304577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.372901E+02    0.306025E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.387462E+02    0.291032E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.410480E+02    0.294586E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.410551E+02    0.311496E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.386745E+02    0.318896E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.367168E+02    0.329604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.354876E+02    0.318010E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.353335E+02    0.302770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.362473E+02    0.288025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.380076E+02    0.277494E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.401949E+02    0.273940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.421578E+02    0.278872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.434430E+02    0.290353E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.436086E+02    0.305644E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.426544E+02    0.320581E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.407337E+02    0.331855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.386405E+02    0.334736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.366108E+02    0.357221E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.335731E+02    0.343191E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.322191E+02    0.318785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.326999E+02    0.291725E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.349399E+02    0.267834E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.385061E+02    0.253173E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.422586E+02    0.253369E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.454752E+02    0.266378E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.473002E+02    0.288804E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.467886E+02    0.316344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.440351E+02    0.342720E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.403259E+02    0.357811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.384942E+02    0.437364E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.364701E+02    0.438141E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.378397E+02    0.421652E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.402421E+02    0.426339E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.401173E+02    0.446974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.378358E+02    0.453736E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.358682E+02    0.464513E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.346562E+02    0.451034E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.343283E+02    0.434342E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.353528E+02    0.417345E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.371171E+02    0.406315E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.391972E+02    0.403701E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.412614E+02    0.409296E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.425350E+02    0.422972E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.427917E+02    0.440933E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.418140E+02    0.457936E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.399854E+02    0.468741E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.377822E+02    0.471094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.358234E+02    0.493453E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.328117E+02    0.476239E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.313988E+02    0.449846E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.318169E+02    0.419746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.339674E+02    0.395135E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.374240E+02    0.380934E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.412661E+02    0.381392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.445889E+02    0.396504E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133373E+03   -0.465257E+02    0.422958E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133438E+03   -0.459665E+02    0.456110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.432782E+02    0.482847E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.395373E+02    0.496527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.388595E+02    0.345641E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.366357E+02    0.348257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.381934E+02    0.331637E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.404885E+02    0.335552E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.404901E+02    0.354025E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.381118E+02    0.361779E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.361587E+02    0.372862E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.348383E+02    0.361065E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.346912E+02    0.344597E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.357023E+02    0.328373E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.374593E+02    0.317627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.395370E+02    0.314752E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.416002E+02    0.319209E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.428813E+02    0.331231E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.430406E+02    0.347799E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.420823E+02    0.364046E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.402709E+02    0.375103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.380761E+02    0.378380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.359479E+02    0.401054E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.332096E+02    0.385068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.317676E+02    0.360231E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.321660E+02    0.331908E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.344891E+02    0.307077E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.378557E+02    0.293744E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.416982E+02    0.293302E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.449127E+02    0.306606E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133948E+03   -0.467377E+02    0.329921E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133942E+03   -0.462136E+02    0.360117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.434564E+02    0.387264E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.398591E+02    0.401231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.394724E+02    0.251397E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.374435E+02    0.252883E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.389041E+02    0.238367E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.412080E+02    0.241715E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.411077E+02    0.258653E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.387293E+02    0.265998E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.365785E+02    0.277846E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.354494E+02    0.266080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.352972E+02    0.251226E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.362118E+02    0.236981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.379706E+02    0.226944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.402526E+02    0.222840E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.423178E+02    0.226814E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.436020E+02    0.237622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.436580E+02    0.252903E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.427036E+02    0.267344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.407889E+02    0.278337E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.386968E+02    0.281160E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.364796E+02    0.303374E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.336326E+02    0.289763E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.323624E+02    0.265732E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.328443E+02    0.239287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.350915E+02    0.216407E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.386648E+02    0.202058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.425234E+02    0.201683E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.456354E+02    0.215090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.472227E+02    0.237308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134123E+03   -0.468209E+02    0.262899E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.440846E+02    0.288089E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.403890E+02    0.302166E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678467.206612155     
  ps_ts2 prof sum =   678087.152202257     
  trcom prof sum =    678087.152202257     
  ps_ts2 cur sum  =   10267.7172593819     
  trcom cur sum  =    10267.7172593819     
  
  antenna # iant =            2
  powecha_use(iant) =    665477.266372798     
  ps_ts2 prof sum =   665111.250323253     
  trcom prof sum =    665111.250323252     
  ps_ts2 cur sum  =   12141.8369244841     
  trcom cur sum  =    12141.8369244841     
  
  antenna # iant =            3
  powecha_use(iant) =    530610.647848369     
  ps_ts2 prof sum =   530282.270623954     
  trcom prof sum =    530282.270623955     
  ps_ts2 cur sum  =   6916.85446879601     
  trcom cur sum  =    6916.85446879602     
  
  antenna # iant =            4
  powecha_use(iant) =    570239.836135691     
  ps_ts2 prof sum =   569904.858725442     
  trcom prof sum =    569904.858706088     
  ps_ts2 cur sum  =   9487.82429383703     
  trcom cur sum  =    9487.82429383702     
  
  antenna # iant =            5
  powecha_use(iant) =    549318.540554362     
  ps_ts2 prof sum =   549002.011598689     
  trcom prof sum =    549002.011598689     
  ps_ts2 cur sum  =   10961.2751152883     
  trcom cur sum  =    10961.2751152883     
  
  Total ECH heating:      2992387.54345424     
  Total Current Drive:    49775.5080617873     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3143
 TA= 3.41500E+00 CPU TIME= 1.67904E-01 SECONDS.  DT= 1.57221E-03
  
 TEC1=    3.41499999999995     
 TEC2=    3.41999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.58741833333283     
  %check_save_state: izleft hours =    71.4041666666667     
 --> plasma_hash("gframe"): TA= 3.415000E+00 NSTEP=  3143 Hash code:   28369186
 ->PRGCHK: bdy curvature ratio at t= 3.4200E+00 seconds is:  5.6803E-02
% MHDEQ: TG1=     3.415000 ; TG2=     3.420000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7661E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6803E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.415000 TO TG2=    3.420000 @ NSTEP     3143
   GFRAME TG2 MOMENTS CHECKSUM:  2.4654491717393D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.46758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.54362E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.70003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.32793E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.49806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.65461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.68774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  4.43884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.27482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.57428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.44083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.26883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.26247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.31748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.69045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.27630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.98343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.98343E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4200E+00  3.4250E+00 total power(Watts):  2.9858E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.42000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.384437E+02    0.383614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.364244E+02    0.384807E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.378830E+02    0.368698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.401771E+02    0.372996E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.401768E+02    0.391662E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.377947E+02    0.399019E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.358412E+02    0.409937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.345266E+02    0.397789E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.344765E+02    0.380916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.353895E+02    0.365077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.371527E+02    0.353811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.392302E+02    0.350835E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.411830E+02    0.356466E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.425712E+02    0.368846E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.427286E+02    0.385789E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.417667E+02    0.401864E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.399507E+02    0.412865E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.377546E+02    0.415912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.358147E+02    0.438842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.327961E+02    0.422680E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.314593E+02    0.396617E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.318592E+02    0.368251E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.340023E+02    0.343381E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.375539E+02    0.328142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.412895E+02    0.328508E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.447227E+02    0.341899E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.464314E+02    0.368066E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.459018E+02    0.398662E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.432425E+02    0.425782E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.395225E+02    0.440721E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.394039E+02    0.303532E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.373760E+02    0.304990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.388341E+02    0.289940E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.411392E+02    0.293508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.410421E+02    0.311092E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.386609E+02    0.318534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.367040E+02    0.329280E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.353782E+02    0.318319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.352254E+02    0.303063E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.361380E+02    0.288289E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.379933E+02    0.277044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.401800E+02    0.273467E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.421425E+02    0.278392E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.434278E+02    0.289886E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.437050E+02    0.304596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.426399E+02    0.320200E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.408272E+02    0.330906E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.386294E+02    0.334395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.365982E+02    0.356928E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.337474E+02    0.341665E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.322967E+02    0.317797E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.327773E+02    0.290639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.349263E+02    0.267393E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.384909E+02    0.252682E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.423481E+02    0.252173E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.455707E+02    0.265208E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.474002E+02    0.287692E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.468899E+02    0.315336E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.442479E+02    0.341248E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.403124E+02    0.357500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.384808E+02    0.437153E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.364572E+02    0.437935E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.379305E+02    0.421009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.402282E+02    0.426125E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.402119E+02    0.446391E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.378222E+02    0.453529E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.358552E+02    0.464316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.345459E+02    0.451215E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.345097E+02    0.433302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.352419E+02    0.417608E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.371040E+02    0.406103E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.392900E+02    0.402998E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.412474E+02    0.409067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.426336E+02    0.422336E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.427771E+02    0.440705E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.417994E+02    0.457708E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.399712E+02    0.468531E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.377685E+02    0.470897E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.358099E+02    0.493269E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.327944E+02    0.476083E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.314778E+02    0.449260E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.318967E+02    0.419092E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.341465E+02    0.393877E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.375134E+02    0.380140E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.413621E+02    0.380599E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.448091E+02    0.395299E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133377E+03   -0.465102E+02    0.422717E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133225E+03   -0.460698E+02    0.455550E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.434924E+02    0.482113E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.396306E+02    0.496092E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.388463E+02    0.345325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.368227E+02    0.346768E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.382823E+02    0.330692E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.405815E+02    0.334623E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.404765E+02    0.353708E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.382018E+02    0.360923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.361456E+02    0.372595E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.350194E+02    0.359619E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.346789E+02    0.344301E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.355931E+02    0.328679E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.374464E+02    0.317263E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.396274E+02    0.313747E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.415859E+02    0.318826E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.428670E+02    0.330864E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.431384E+02    0.346903E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.420701E+02    0.363733E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.402574E+02    0.374814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.380631E+02    0.378106E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.361351E+02    0.399848E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.331046E+02    0.385365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.317563E+02    0.359962E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.322441E+02    0.330964E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.343840E+02    0.307375E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.379417E+02    0.292664E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.416832E+02    0.292859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.448974E+02    0.306170E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133742E+03   -0.468399E+02    0.328966E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133735E+03   -0.463163E+02    0.359254E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.435557E+02    0.386494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.398456E+02    0.400994E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.394569E+02    0.250892E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.374286E+02    0.252396E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.387898E+02    0.238557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.411916E+02    0.241180E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.410919E+02    0.258154E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.388143E+02    0.264841E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.367579E+02    0.276028E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.354355E+02    0.265634E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.354676E+02    0.249312E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.363841E+02    0.235013E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.381467E+02    0.224964E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.403359E+02    0.221552E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.423008E+02    0.226232E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.435848E+02    0.237053E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.437495E+02    0.251703E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.426878E+02    0.266843E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.408785E+02    0.277206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.386825E+02    0.280716E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.366618E+02    0.301670E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.336198E+02    0.289369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.323493E+02    0.265305E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.328303E+02    0.238820E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.350760E+02    0.215868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.386480E+02    0.201459E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.425056E+02    0.201039E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.457252E+02    0.213774E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.474300E+02    0.235407E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.466903E+02    0.262980E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.440691E+02    0.287608E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.403746E+02    0.301751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672857.924946908     
  ps_ts2 prof sum =   672469.635975099     
  trcom prof sum =    672469.635975099     
  ps_ts2 cur sum  =   10178.6983027855     
  trcom cur sum  =    10178.6983027855     
  
  antenna # iant =            2
  powecha_use(iant) =    665335.608277217     
  ps_ts2 prof sum =   664955.042811266     
  trcom prof sum =    664955.042811265     
  ps_ts2 cur sum  =   12132.5995869850     
  trcom cur sum  =    12132.5995869850     
  
  antenna # iant =            3
  powecha_use(iant) =    530635.998683627     
  ps_ts2 prof sum =   530323.768309348     
  trcom prof sum =    530323.768309348     
  ps_ts2 cur sum  =   6915.08590203135     
  trcom cur sum  =    6915.08590203135     
  
  antenna # iant =            4
  powecha_use(iant) =    569096.226756092     
  ps_ts2 prof sum =   568755.234895598     
  trcom prof sum =    568755.234895598     
  ps_ts2 cur sum  =   9464.43560752521     
  trcom cur sum  =    9464.43560752520     
  
  antenna # iant =            5
  powecha_use(iant) =    547882.613482421     
  ps_ts2 prof sum =   547585.612656885     
  trcom prof sum =    547585.612656885     
  ps_ts2 cur sum  =   10925.6879820889     
  trcom cur sum  =    10925.6879820889     
  
  Total ECH heating:      2984089.29464819     
  Total Current Drive:    49616.5073814160     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3146
 TA= 3.42000E+00 CPU TIME= 1.68310E-01 SECONDS.  DT= 1.82816E-03
  
 TEC1=    3.41999999999995     
 TEC2=    3.42499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.60057583333287     
  %check_save_state: izleft hours =    71.3911111111111     
 --> plasma_hash("gframe"): TA= 3.420000E+00 NSTEP=  3146 Hash code:   99687026
 ->PRGCHK: bdy curvature ratio at t= 3.4250E+00 seconds is:  5.6807E-02
% MHDEQ: TG1=     3.420000 ; TG2=     3.425000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7649E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6807E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.420000 TO TG2=    3.425000 @ NSTEP     3146
   GFRAME TG2 MOMENTS CHECKSUM:  2.4650428630738D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   6.999998731771484E-006
 EC call, timestep(sec):  3.4250E+00  3.4300E+00 total power(Watts):  2.9693E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.42500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.385379E+02    0.382822E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.365149E+02    0.384026E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.378724E+02    0.368402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.401667E+02    0.372692E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.401663E+02    0.391401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.378896E+02    0.398295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.357320E+02    0.410210E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.347104E+02    0.396552E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.343713E+02    0.381198E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.353821E+02    0.364776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.371427E+02    0.353490E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.392198E+02    0.350499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.412812E+02    0.355571E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.425604E+02    0.368518E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.427177E+02    0.385500E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.417560E+02    0.401622E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.399400E+02    0.412656E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.377444E+02    0.415714E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.358047E+02    0.438646E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.327869E+02    0.422500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.314505E+02    0.396401E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.318505E+02    0.367979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.341812E+02    0.341831E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.375435E+02    0.327772E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.413863E+02    0.327515E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.445979E+02    0.342079E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.464199E+02    0.367713E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.460083E+02    0.397944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.432311E+02    0.425572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.395116E+02    0.440518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.393921E+02    0.303110E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.373650E+02    0.304573E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.388224E+02    0.289475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.411272E+02    0.293029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.410318E+02    0.310655E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.387527E+02    0.317505E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.366936E+02    0.328925E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.355602E+02    0.316647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.354051E+02    0.301312E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.361269E+02    0.287836E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.380805E+02    0.275871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.401672E+02    0.272960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.422369E+02    0.277216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.435251E+02    0.288749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.436926E+02    0.304136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.427386E+02    0.319172E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.408161E+02    0.330525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.386204E+02    0.334022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.364887E+02    0.357192E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.336447E+02    0.341968E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.322871E+02    0.317441E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.327668E+02    0.290220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.349146E+02    0.266919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.384781E+02    0.252155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.423338E+02    0.251606E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.455567E+02    0.264631E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133774E+03   -0.473871E+02    0.287139E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133784E+03   -0.468776E+02    0.314877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.441229E+02    0.341427E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.404092E+02    0.356610E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.385756E+02    0.436556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.365482E+02    0.437336E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.379201E+02    0.420813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.402174E+02    0.425912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.402016E+02    0.446171E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.379154E+02    0.452974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.359449E+02    0.463799E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.347309E+02    0.450271E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.345000E+02    0.433119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.354258E+02    0.416507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.370942E+02    0.405882E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.392795E+02    0.402774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.412367E+02    0.408849E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.426224E+02    0.422117E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.429927E+02    0.439751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.417881E+02    0.457500E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.399599E+02    0.468342E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.378618E+02    0.470407E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.358993E+02    0.492846E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.329750E+02    0.475277E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.314687E+02    0.449079E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.318878E+02    0.418911E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.341371E+02    0.393647E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.375033E+02    0.379866E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.413514E+02    0.380305E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.448001E+02    0.395014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133383E+03   -0.464982E+02    0.422483E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133231E+03   -0.460574E+02    0.455326E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.434799E+02    0.481926E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.396187E+02    0.495926E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.388357E+02    0.344989E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.368127E+02    0.346440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.382718E+02    0.330332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.405704E+02    0.334246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.404659E+02    0.353370E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.381917E+02    0.360609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.362352E+02    0.371762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.350099E+02    0.359319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.348606E+02    0.342759E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.357767E+02    0.327065E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.375358E+02    0.316236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.396162E+02    0.313334E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.415748E+02    0.318403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.429666E+02    0.329888E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.431274E+02    0.346536E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.421720E+02    0.362859E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.402469E+02    0.374513E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.381562E+02    0.377297E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.361253E+02    0.399621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.330956E+02    0.385118E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.317475E+02    0.359679E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.322345E+02    0.330645E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.343753E+02    0.306973E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.379301E+02    0.292208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.416710E+02    0.292375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.449985E+02    0.305087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133753E+03   -0.468278E+02    0.328535E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133743E+03   -0.463048E+02    0.358891E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.435446E+02    0.386203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.398350E+02    0.400755E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.395386E+02    0.249687E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.373191E+02    0.252593E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.389724E+02    0.236578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.412802E+02    0.239910E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.411824E+02    0.256921E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.388017E+02    0.264327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.366496E+02    0.276240E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.356103E+02    0.263730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.353624E+02    0.249536E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.362773E+02    0.235202E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.380360E+02    0.225108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.403204E+02    0.220958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.422849E+02    0.225619E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.435698E+02    0.236447E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.437348E+02    0.251124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.427816E+02    0.265643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.408660E+02    0.276701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.386705E+02    0.280234E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.366510E+02    0.301241E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.337008E+02    0.288246E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.323366E+02    0.264857E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.329043E+02    0.237562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.350620E+02    0.215305E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.385371E+02    0.201578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.424893E+02    0.200373E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.457081E+02    0.213093E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.473012E+02    0.235403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.466760E+02    0.262389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.440562E+02    0.287098E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.403626E+02    0.301308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662345.871844877     
  ps_ts2 prof sum =   661951.574052552     
  trcom prof sum =    661951.574052552     
  ps_ts2 cur sum  =   10023.3838438490     
  trcom cur sum  =    10023.3838438490     
  
  antenna # iant =            2
  powecha_use(iant) =    664410.027632145     
  ps_ts2 prof sum =   664020.500815658     
  trcom prof sum =    664020.500774268     
  ps_ts2 cur sum  =   12115.5219148691     
  trcom cur sum  =    12115.5219148691     
  
  antenna # iant =            3
  powecha_use(iant) =    528666.628950316     
  ps_ts2 prof sum =   528392.145108639     
  trcom prof sum =    528392.145108640     
  ps_ts2 cur sum  =   6894.23393836928     
  trcom cur sum  =    6894.23393836929     
  
  antenna # iant =            4
  powecha_use(iant) =    564468.125876848     
  ps_ts2 prof sum =   564146.792152204     
  trcom prof sum =    564146.792152204     
  ps_ts2 cur sum  =   9388.92878878115     
  trcom cur sum  =    9388.92878878114     
  
  antenna # iant =            5
  powecha_use(iant) =    549412.316317425     
  ps_ts2 prof sum =   549073.402941689     
  trcom prof sum =    549073.402941690     
  ps_ts2 cur sum  =   10951.2174371480     
  trcom cur sum  =    10951.2174371480     
  
  Total ECH heating:      2967584.41502935     
  Total Current Drive:    49373.2859230165     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3149
 TA= 3.42500E+00 CPU TIME= 1.58123E-01 SECONDS.  DT= 1.10829E-03
  
 TEC1=    3.42499999999995     
 TEC2=    3.42999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.61801722222162     
  %check_save_state: izleft hours =    71.3736111111111     
 --> plasma_hash("gframe"): TA= 3.425000E+00 NSTEP=  3149 Hash code:   39287658
 ->PRGCHK: bdy curvature ratio at t= 3.4300E+00 seconds is:  5.6810E-02
% MHDEQ: TG1=     3.425000 ; TG2=     3.430000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7637E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6810E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.425000 TO TG2=    3.430000 @ NSTEP     3149
   GFRAME TG2 MOMENTS CHECKSUM:  2.4646365544083D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.44096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.56507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.76707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.36195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.44436E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.35483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.51420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.70885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  3.63213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.63404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.37619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.66497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.22994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.27464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.30570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.59080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.30169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.80806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.80806E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4300E+00  3.4350E+00 total power(Watts):  2.9858E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.43000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.385280E+02    0.382585E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.365054E+02    0.383798E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.379657E+02    0.367590E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.402639E+02    0.371902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.401559E+02    0.391174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.378816E+02    0.398082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.359211E+02    0.409089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.347011E+02    0.396363E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.345542E+02    0.379886E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.352769E+02    0.365089E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.371333E+02    0.353214E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.393149E+02    0.349632E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.412710E+02    0.355278E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.425499E+02    0.368243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.428195E+02    0.384758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.418562E+02    0.400946E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.399293E+02    0.412472E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.378375E+02    0.415090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.357944E+02    0.438484E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.329641E+02    0.421427E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.314421E+02    0.396212E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.319321E+02    0.367165E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.340782E+02    0.342171E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.375337E+02    0.327452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.413761E+02    0.327161E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.445889E+02    0.341737E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133511E+03   -0.465269E+02    0.366910E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.459966E+02    0.397716E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.432195E+02    0.425392E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.396078E+02    0.439965E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.393821E+02    0.302700E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.373554E+02    0.304188E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.388121E+02    0.289029E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.411169E+02    0.292574E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.411295E+02    0.309630E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.387425E+02    0.317147E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.367833E+02    0.327981E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.355513E+02    0.316297E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.353956E+02    0.300928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.363105E+02    0.286032E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.380700E+02    0.275403E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.402600E+02    0.271780E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.422259E+02    0.276714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.435141E+02    0.288265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.436819E+02    0.303694E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.427277E+02    0.318794E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.408058E+02    0.330193E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.387149E+02    0.333097E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.366791E+02    0.355764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.336360E+02    0.341691E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.322784E+02    0.317120E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.327572E+02    0.289821E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.349969E+02    0.265736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.385654E+02    0.250922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.423223E+02    0.251045E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.457689E+02    0.262776E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.472593E+02    0.287231E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133795E+03   -0.468667E+02    0.314456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.441123E+02    0.341097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.403991E+02    0.356325E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.385648E+02    0.436390E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.365379E+02    0.437177E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.379098E+02    0.420646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.403151E+02    0.425325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.401904E+02    0.445997E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.379044E+02    0.452814E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.359340E+02    0.463654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.347211E+02    0.450114E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.343934E+02    0.433385E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.354180E+02    0.416348E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.371862E+02    0.405222E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.392691E+02    0.402585E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.413360E+02    0.408201E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.426109E+02    0.421942E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.428674E+02    0.439945E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.418878E+02    0.457008E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.400564E+02    0.467881E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.378503E+02    0.470267E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.358877E+02    0.492719E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.328724E+02    0.475468E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.314594E+02    0.448929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.318787E+02    0.418758E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.340325E+02    0.393969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.374937E+02    0.379626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.413411E+02    0.380049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.446751E+02    0.395238E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133172E+03   -0.466055E+02    0.421893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133236E+03   -0.460445E+02    0.455149E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.433523E+02    0.482035E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.396060E+02    0.495790E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.389299E+02    0.344106E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.367037E+02    0.346753E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.382621E+02    0.330015E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.405606E+02    0.333919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.405629E+02    0.352517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.381821E+02    0.360338E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.362259E+02    0.371511E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.349042E+02    0.359650E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.347558E+02    0.343097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.357674E+02    0.326753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.375261E+02    0.315882E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.396058E+02    0.312962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.416726E+02    0.317417E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.429563E+02    0.329537E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.431169E+02    0.346221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.421635E+02    0.362569E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.403443E+02    0.373732E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.381466E+02    0.377050E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.360159E+02    0.399925E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.332728E+02    0.383831E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.318288E+02    0.358832E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.322256E+02    0.330352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.345546E+02    0.305255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.379202E+02    0.291783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.417677E+02    0.291266E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.449875E+02    0.304653E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.468167E+02    0.328165E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133751E+03   -0.462937E+02    0.358578E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.437616E+02    0.384977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.399319E+02    0.400077E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.395278E+02    0.249142E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.375007E+02    0.250649E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.389604E+02    0.236015E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.412675E+02    0.239335E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.411709E+02    0.256388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.387906E+02    0.263827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.368325E+02    0.274393E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.355063E+02    0.263966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.353516E+02    0.249028E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.362658E+02    0.234662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.382161E+02    0.223064E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.404080E+02    0.219623E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.423758E+02    0.224301E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.436639E+02    0.235153E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.437229E+02    0.250545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.427702E+02    0.265104E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.408551E+02    0.276207E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.387608E+02    0.279088E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.365438E+02    0.301509E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.336910E+02    0.287836E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.324141E+02    0.263672E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.328930E+02    0.237051E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.351398E+02    0.213975E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.387139E+02    0.199462E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.425773E+02    0.198980E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.456941E+02    0.212405E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.472881E+02    0.234745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.468913E+02    0.260527E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.441561E+02    0.285966E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.404581E+02    0.300232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673793.175371912     
  ps_ts2 prof sum =   673421.246843000     
  trcom prof sum =    673421.246843000     
  ps_ts2 cur sum  =   10203.3351401583     
  trcom cur sum  =    10203.3351401583     
  
  antenna # iant =            2
  powecha_use(iant) =    666085.263382412     
  ps_ts2 prof sum =   665715.088530752     
  trcom prof sum =    665715.088506578     
  ps_ts2 cur sum  =   12151.4862110386     
  trcom cur sum  =    12151.4862110386     
  
  antenna # iant =            3
  powecha_use(iant) =    529045.836744081     
  ps_ts2 prof sum =   528713.395114398     
  trcom prof sum =    528713.395114399     
  ps_ts2 cur sum  =   6902.96771334477     
  trcom cur sum  =    6902.96771334477     
  
  antenna # iant =            4
  powecha_use(iant) =    568018.756282399     
  ps_ts2 prof sum =   567690.153694871     
  trcom prof sum =    567690.153694870     
  ps_ts2 cur sum  =   9451.96710116103     
  trcom cur sum  =    9451.96710116102     
  
  antenna # iant =            5
  powecha_use(iant) =    548810.916728616     
  ps_ts2 prof sum =   548515.945843164     
  trcom prof sum =    548515.945843165     
  ps_ts2 cur sum  =   10946.0381251357     
  trcom cur sum  =    10946.0381251357     
  
  Total ECH heating:      2984055.83000201     
  Total Current Drive:    49655.7942908384     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3153
 TA= 3.43000E+00 CPU TIME= 1.59383E-01 SECONDS.  DT= 9.68320E-04
  
 TEC1=    3.42999999999995     
 TEC2=    3.43499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.63688111111105     
  %check_save_state: izleft hours =    71.3547222222222     
 --> plasma_hash("gframe"): TA= 3.430000E+00 NSTEP=  3153 Hash code:   96028649
 ->PRGCHK: bdy curvature ratio at t= 3.4350E+00 seconds is:  5.6815E-02
% MHDEQ: TG1=     3.430000 ; TG2=     3.435000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6815E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.430000 TO TG2=    3.435000 @ NSTEP     3153
   GFRAME TG2 MOMENTS CHECKSUM:  2.4642302457427D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4350E+00  3.4400E+00 total power(Watts):  2.9891E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.43500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.385163E+02    0.382320E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.364943E+02    0.383538E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.379541E+02    0.367296E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.402517E+02    0.371607E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.402512E+02    0.390429E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.378720E+02    0.397852E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.359098E+02    0.408893E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.345935E+02    0.396657E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.345432E+02    0.379630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.354623E+02    0.363656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.371217E+02    0.352906E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.393030E+02    0.349297E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.412589E+02    0.354938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.426490E+02    0.367398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.428067E+02    0.384482E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.418435E+02    0.400715E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.400246E+02    0.411820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.378257E+02    0.414897E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.358827E+02    0.437892E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.328601E+02    0.421713E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.315217E+02    0.395481E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.319223E+02    0.366895E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.340673E+02    0.341858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.376224E+02    0.326461E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.413635E+02    0.326769E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.448067E+02    0.340217E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.465135E+02    0.366567E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133548E+03   -0.459829E+02    0.397453E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.433203E+02    0.424780E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.395953E+02    0.439764E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.394732E+02    0.301600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.374424E+02    0.303107E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.389002E+02    0.287893E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.412094E+02    0.291441E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.411178E+02    0.309187E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.387303E+02    0.316746E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.367715E+02    0.327621E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.354435E+02    0.316571E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.352883E+02    0.301206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.362025E+02    0.286263E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.380576E+02    0.274910E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.402457E+02    0.271277E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.422118E+02    0.276193E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.435003E+02    0.287753E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.437796E+02    0.302600E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.427142E+02    0.318370E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.409004E+02    0.329209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.386981E+02    0.332759E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.366672E+02    0.355464E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.338117E+02    0.340128E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.323572E+02    0.316089E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.328349E+02    0.288692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.349835E+02    0.265257E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.385511E+02    0.250381E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.424127E+02    0.249785E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.456414E+02    0.262828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.474770E+02    0.285450E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133592E+03   -0.469696E+02    0.313394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.443264E+02    0.339583E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.403872E+02    0.355994E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.385525E+02    0.436195E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.365261E+02    0.436988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.380015E+02    0.420024E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.403025E+02    0.425130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.402864E+02    0.445425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.378925E+02    0.452609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.359217E+02    0.463477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.346126E+02    0.450297E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.345758E+02    0.432355E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.353109E+02    0.416602E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.371700E+02    0.405042E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.393632E+02    0.401883E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.413232E+02    0.407988E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.427107E+02    0.421322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.428539E+02    0.439737E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.418745E+02    0.456801E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.400432E+02    0.467692E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.378377E+02    0.470087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.358754E+02    0.492549E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.328649E+02    0.475290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.315392E+02    0.448356E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.319594E+02    0.418115E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.342126E+02    0.392711E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.375847E+02    0.378825E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.413285E+02    0.379769E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.448901E+02    0.394064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133176E+03   -0.465915E+02    0.421674E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133023E+03   -0.461491E+02    0.454604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133731E+03   -0.435673E+02    0.481317E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.397002E+02    0.495373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.389182E+02    0.343761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.368918E+02    0.345234E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.383522E+02    0.329026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.406549E+02    0.332952E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.405512E+02    0.352171E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.382736E+02    0.359467E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.362148E+02    0.371233E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.350862E+02    0.358184E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.347449E+02    0.342778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.356593E+02    0.327022E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.375140E+02    0.315488E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.396975E+02    0.311909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.416594E+02    0.317004E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.429433E+02    0.329138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.432160E+02    0.345292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.421454E+02    0.362253E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.403322E+02    0.373440E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.381349E+02    0.376774E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.362042E+02    0.398721E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.331690E+02    0.384134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.318184E+02    0.358547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.323056E+02    0.329363E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.344506E+02    0.305525E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.380072E+02    0.290659E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.417539E+02    0.290783E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.452004E+02    0.302947E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.469200E+02    0.327162E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133545E+03   -0.463982E+02    0.357691E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.436347E+02    0.385185E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.399198E+02    0.399852E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.395151E+02    0.248582E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.374868E+02    0.250117E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.388469E+02    0.236159E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.412521E+02    0.238743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.411561E+02    0.255834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.388769E+02    0.262610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.368195E+02    0.273909E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.354930E+02    0.263477E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.355230E+02    0.247041E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.364370E+02    0.232638E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.382007E+02    0.222471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.403920E+02    0.218996E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.423595E+02    0.223660E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.436477E+02    0.234527E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.438159E+02    0.249280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.427552E+02    0.264555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.409455E+02    0.275029E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.387475E+02    0.278597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.367268E+02    0.299753E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.336790E+02    0.287403E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.324019E+02    0.263204E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138026E+03   -0.328796E+02    0.236533E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.351249E+02    0.213390E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.386974E+02    0.198818E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.425593E+02    0.198298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.457846E+02    0.211022E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.474971E+02    0.232758E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134180E+03   -0.467618E+02    0.260555E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.441420E+02    0.285442E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.404451E+02    0.299781E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673138.898818073     
  ps_ts2 prof sum =   672751.321708262     
  trcom prof sum =    672751.321708262     
  ps_ts2 cur sum  =   10186.4002939014     
  trcom cur sum  =    10186.4002939014     
  
  antenna # iant =            2
  powecha_use(iant) =    667679.785978108     
  ps_ts2 prof sum =   667294.658253298     
  trcom prof sum =    667294.658253297     
  ps_ts2 cur sum  =   12174.5812975485     
  trcom cur sum  =    12174.5812975485     
  
  antenna # iant =            3
  powecha_use(iant) =    528351.376001165     
  ps_ts2 prof sum =   528038.900331288     
  trcom prof sum =    528038.900331288     
  ps_ts2 cur sum  =   6891.50577528738     
  trcom cur sum  =    6891.50577528739     
  
  antenna # iant =            4
  powecha_use(iant) =    570095.027719499     
  ps_ts2 prof sum =   569766.021787598     
  trcom prof sum =    569766.021787597     
  ps_ts2 cur sum  =   9480.82509827344     
  trcom cur sum  =    9480.82509827343     
  
  antenna # iant =            5
  powecha_use(iant) =    549882.764085171     
  ps_ts2 prof sum =   549577.313244086     
  trcom prof sum =    549577.313244086     
  ps_ts2 cur sum  =   10961.9466291363     
  trcom cur sum  =    10961.9466291363     
  
  Total ECH heating:      2987428.21532453     
  Total Current Drive:    49695.2590941470     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3157
 TA= 3.43500E+00 CPU TIME= 1.63079E-01 SECONDS.  DT= 1.63535E-03
  
 TEC1=    3.43499999999995     
 TEC2=    3.43999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.65165972222212     
  %check_save_state: izleft hours =    71.3400000000000     
 --> plasma_hash("gframe"): TA= 3.435000E+00 NSTEP=  3157 Hash code:    4289712
 ->PRGCHK: bdy curvature ratio at t= 3.4400E+00 seconds is:  5.6819E-02
% MHDEQ: TG1=     3.435000 ; TG2=     3.440000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7613E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6819E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.435000 TO TG2=    3.440000 @ NSTEP     3157
   GFRAME TG2 MOMENTS CHECKSUM:  2.4638239370772D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.40986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.59014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.84538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.40168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.38164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.36433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.35020E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.73350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  2.68994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.88563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  6.26040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.75881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.18452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78466E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.28886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.29194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.47443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.33134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.86396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.86396E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4400E+00  3.4450E+00 total power(Watts):  2.9800E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.44000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.386106E+02    0.381558E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.365853E+02    0.382772E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.379449E+02    0.366999E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.403494E+02    0.370779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.402414E+02    0.390201E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.379677E+02    0.397158E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.358009E+02    0.409220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.347776E+02    0.395450E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.344385E+02    0.379936E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.354552E+02    0.363351E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.372133E+02    0.351979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.392936E+02    0.348932E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.413582E+02    0.354024E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.426390E+02    0.367078E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.427965E+02    0.384217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.418329E+02    0.400522E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.400142E+02    0.411673E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.379190E+02    0.414304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.358722E+02    0.437777E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.328511E+02    0.421590E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.315134E+02    0.395301E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.319152E+02    0.366615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.342468E+02    0.340253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.376140E+02    0.326007E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.414616E+02    0.325682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.446838E+02    0.340336E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133313E+03   -0.466210E+02    0.365712E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133338E+03   -0.460897E+02    0.396785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.433089E+02    0.424638E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.395842E+02    0.439636E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.394627E+02    0.301004E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.374323E+02    0.302535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.388895E+02    0.287225E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.411983E+02    0.290768E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.412094E+02    0.308011E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.388228E+02    0.315609E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.366631E+02    0.327815E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.356263E+02    0.314779E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.354696E+02    0.299265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.363859E+02    0.284214E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.381451E+02    0.273502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.403368E+02    0.269833E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.423070E+02    0.274762E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.435936E+02    0.286411E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.437688E+02    0.301959E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.428145E+02    0.317221E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.408904E+02    0.328745E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.386887E+02    0.332333E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.367543E+02    0.354564E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.337097E+02    0.340396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.323482E+02    0.315628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.328251E+02    0.288094E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.351585E+02    0.263094E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.386368E+02    0.248863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.423989E+02    0.248918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.458469E+02    0.260681E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.473491E+02    0.285280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133609E+03   -0.469588E+02    0.312791E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.442024E+02    0.339716E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.404848E+02    0.355081E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.386468E+02    0.435671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.366167E+02    0.436462E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.379913E+02    0.419884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.402917E+02    0.424995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.402751E+02    0.445290E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.379850E+02    0.452140E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.360109E+02    0.463036E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.347969E+02    0.449427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.344692E+02    0.432658E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.354998E+02    0.415543E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.371628E+02    0.404864E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.393531E+02    0.401702E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.413126E+02    0.407820E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.426994E+02    0.421176E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.429554E+02    0.439237E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.419739E+02    0.456356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.400311E+02    0.467593E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.379293E+02    0.469686E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.359635E+02    0.492211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.330379E+02    0.474585E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.315298E+02    0.448241E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.319505E+02    0.417989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.341081E+02    0.393032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.375749E+02    0.378569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.414282E+02    0.378983E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133853E+03   -0.448790E+02    0.393837E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132964E+03   -0.466987E+02    0.421138E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.461359E+02    0.454481E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.434392E+02    0.481492E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.396872E+02    0.495290E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.389090E+02    0.343376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.368829E+02    0.344865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.383429E+02    0.328579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.406461E+02    0.332498E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.406489E+02    0.351236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.382642E+02    0.359135E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.363054E+02    0.370402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.350777E+02    0.357873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.349273E+02    0.341181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.358437E+02    0.325316E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.376035E+02    0.314344E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.396878E+02    0.311369E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.417572E+02    0.315848E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.430443E+02    0.328061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.432064E+02    0.344881E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.422462E+02    0.361372E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.403225E+02    0.373153E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.382289E+02    0.375972E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.361946E+02    0.398538E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.331610E+02    0.383906E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.318105E+02    0.358256E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.322966E+02    0.328965E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.344423E+02    0.304988E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.379963E+02    0.290017E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.418499E+02    0.289441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.450759E+02    0.302911E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133572E+03   -0.469096E+02    0.326632E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133554E+03   -0.463878E+02    0.357317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.436244E+02    0.384912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.399096E+02    0.399661E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.396023E+02    0.247037E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.373771E+02    0.250048E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.390292E+02    0.233856E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.413403E+02    0.237155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.412466E+02    0.254319E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.388647E+02    0.261838E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.367121E+02    0.273909E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.355749E+02    0.262024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.354169E+02    0.247013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.363289E+02    0.232557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.380887E+02    0.222333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.403760E+02    0.218079E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.424468E+02    0.222012E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.437388E+02    0.232903E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.438015E+02    0.248389E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.428497E+02    0.263067E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.409342E+02    0.274272E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.387360E+02    0.277894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.366189E+02    0.299843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.337609E+02    0.286083E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.324780E+02    0.261775E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.329534E+02    0.234999E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.351089E+02    0.212550E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.387747E+02    0.197155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.426422E+02    0.196599E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.457660E+02    0.210002E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.473678E+02    0.232413E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.469758E+02    0.258369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.442407E+02    0.284056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.405387E+02    0.298515E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669610.400003919     
  ps_ts2 prof sum =   669203.593983724     
  trcom prof sum =    669203.593983724     
  ps_ts2 cur sum  =   10128.1541357438     
  trcom cur sum  =    10128.1541357438     
  
  antenna # iant =            2
  powecha_use(iant) =    666220.538198336     
  ps_ts2 prof sum =   665855.788358511     
  trcom prof sum =    665855.788358510     
  ps_ts2 cur sum  =   12145.2301094372     
  trcom cur sum  =    12145.2301094372     
  
  antenna # iant =            3
  powecha_use(iant) =    528346.159577749     
  ps_ts2 prof sum =   528039.121943875     
  trcom prof sum =    528039.121943876     
  ps_ts2 cur sum  =   6888.28550355262     
  trcom cur sum  =    6888.28550355263     
  
  antenna # iant =            4
  powecha_use(iant) =    566571.708366473     
  ps_ts2 prof sum =   566241.061964718     
  trcom prof sum =    566241.061964717     
  ps_ts2 cur sum  =   9419.32574979240     
  trcom cur sum  =    9419.32574979240     
  
  antenna # iant =            5
  powecha_use(iant) =    549255.419516412     
  ps_ts2 prof sum =   548915.112933299     
  trcom prof sum =    548915.112933299     
  ps_ts2 cur sum  =   10947.3413658772     
  trcom cur sum  =    10947.3413658772     
  
  Total ECH heating:      2978254.67918413     
  Total Current Drive:    49528.3368644032     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3160
 TA= 3.44000E+00 CPU TIME= 1.47174E-01 SECONDS.  DT= 1.65058E-03
  
 TEC1=    3.43999999999995     
 TEC2=    3.44499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.66433222222167     
  %check_save_state: izleft hours =    71.3272222222222     
 --> plasma_hash("gframe"): TA= 3.440000E+00 NSTEP=  3160 Hash code:   59788176
 ->PRGCHK: bdy curvature ratio at t= 3.4450E+00 seconds is:  5.6825E-02
% MHDEQ: TG1=     3.440000 ; TG2=     3.445000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.9320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7601E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6825E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.440000 TO TG2=    3.445000 @ NSTEP     3160
   GFRAME TG2 MOMENTS CHECKSUM:  2.4634176284117D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4450E+00  3.4500E+00 total power(Watts):  2.9823E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.44500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.386019E+02    0.381315E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.365765E+02    0.382546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.380392E+02    0.366149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.403406E+02    0.370489E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.402321E+02    0.389982E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.379537E+02    0.396994E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.359906E+02    0.408123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.347692E+02    0.395269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.346223E+02    0.378606E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.353516E+02    0.363625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.372051E+02    0.351637E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.393900E+02    0.347984E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.413494E+02    0.353665E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.426300E+02    0.366761E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.428995E+02    0.383466E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.419342E+02    0.399868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.401121E+02    0.411075E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.379097E+02    0.414168E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.357633E+02    0.438063E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.330286E+02    0.420561E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.315028E+02    0.395145E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.319977E+02    0.365761E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.341450E+02    0.340507E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.377054E+02    0.324926E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.414531E+02    0.325198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.449054E+02    0.338756E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133322E+03   -0.466113E+02    0.365368E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.460795E+02    0.396568E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.435262E+02    0.423693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.396802E+02    0.439142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.395558E+02    0.299759E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.375227E+02    0.301304E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.389812E+02    0.285892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.412944E+02    0.289444E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.412005E+02    0.307431E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.388140E+02    0.315098E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.368531E+02    0.326106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.355217E+02    0.314955E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.353650E+02    0.299390E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.363778E+02    0.283570E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.381347E+02    0.272795E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.403259E+02    0.269089E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.422959E+02    0.274010E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.435842E+02    0.285691E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.437586E+02    0.301336E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.428049E+02    0.316689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.409894E+02    0.327673E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.387832E+02    0.331290E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.367480E+02    0.354221E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.337021E+02    0.340027E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.323401E+02    0.315169E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.328166E+02    0.287505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.350549E+02    0.263114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.386243E+02    0.248072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.424917E+02    0.247391E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.457239E+02    0.260475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133420E+03   -0.475708E+02    0.283250E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133413E+03   -0.470659E+02    0.311589E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.441933E+02    0.339280E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.404764E+02    0.354726E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.386368E+02    0.435546E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.366071E+02    0.436344E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.380859E+02    0.419307E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.403899E+02    0.424450E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.403729E+02    0.444805E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.379746E+02    0.452026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.360004E+02    0.462943E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.347874E+02    0.449314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.344601E+02    0.432543E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.354878E+02    0.415425E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.372576E+02    0.404215E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.393439E+02    0.401529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.414131E+02    0.407201E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.426891E+02    0.421041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.429443E+02    0.439119E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.419621E+02    0.456246E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.401280E+02    0.467185E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.379182E+02    0.469603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.359521E+02    0.492137E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.329347E+02    0.474831E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.315210E+02    0.448141E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.319422E+02    0.417874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.341002E+02    0.392847E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.376682E+02    0.377792E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.414193E+02    0.378715E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.447532E+02    0.394082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132969E+03   -0.466876E+02    0.420981E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132813E+03   -0.462423E+02    0.454043E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.434265E+02    0.481412E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.396749E+02    0.495219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.390041E+02    0.342402E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.369746E+02    0.343898E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.384365E+02    0.327517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.407441E+02    0.331454E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.406401E+02    0.350878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.382559E+02    0.358818E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.362971E+02    0.370127E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.349739E+02    0.358147E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.348240E+02    0.341429E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.358355E+02    0.324875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.375955E+02    0.313836E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.397827E+02    0.310189E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.417484E+02    0.315313E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.430351E+02    0.327581E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.431973E+02    0.344480E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.422374E+02    0.361033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.404212E+02    0.372338E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.382200E+02    0.375712E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.362859E+02    0.397862E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.332414E+02    0.383168E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.318927E+02    0.357358E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.323743E+02    0.327943E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.346218E+02    0.303093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.380868E+02    0.288699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.418399E+02    0.288762E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.450664E+02    0.302263E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133374E+03   -0.470177E+02    0.325533E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133351E+03   -0.464961E+02    0.356398E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.438424E+02    0.383686E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.400076E+02    0.398998E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.395903E+02    0.246235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.375585E+02    0.247827E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.390164E+02    0.233011E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.413270E+02    0.236289E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.412344E+02    0.253509E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.389539E+02    0.260375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.368953E+02    0.271804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.355647E+02    0.261316E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.354050E+02    0.246265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.365044E+02    0.230259E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.382682E+02    0.219996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.404595E+02    0.216466E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.424314E+02    0.221103E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.437240E+02    0.232000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.438964E+02    0.246850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.428382E+02    0.262267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.410278E+02    0.272854E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.388264E+02    0.276504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.368054E+02    0.297922E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.337515E+02    0.285477E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.324687E+02    0.261098E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.329407E+02    0.234247E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.351845E+02    0.210960E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.387581E+02    0.196269E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.426245E+02    0.195652E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.458571E+02    0.208327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133618E+03   -0.475780E+02    0.230114E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.468495E+02    0.258140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.442302E+02    0.283323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.405290E+02    0.297901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672735.943258519     
  ps_ts2 prof sum =   672358.580157826     
  trcom prof sum =    672358.580157826     
  ps_ts2 cur sum  =   10172.4606976334     
  trcom cur sum  =    10172.4606976334     
  
  antenna # iant =            2
  powecha_use(iant) =    663860.032320643     
  ps_ts2 prof sum =   663459.185297912     
  trcom prof sum =    663459.185297911     
  ps_ts2 cur sum  =   12102.2214518246     
  trcom cur sum  =    12102.2214518246     
  
  antenna # iant =            3
  powecha_use(iant) =    529323.714228831     
  ps_ts2 prof sum =   528986.996814445     
  trcom prof sum =    528986.996814446     
  ps_ts2 cur sum  =   6899.64321684668     
  trcom cur sum  =    6899.64321684669     
  
  antenna # iant =            4
  powecha_use(iant) =    566905.697668216     
  ps_ts2 prof sum =   566596.375806114     
  trcom prof sum =    566596.375806113     
  ps_ts2 cur sum  =   9423.97260045504     
  trcom cur sum  =    9423.97260045503     
  
  antenna # iant =            5
  powecha_use(iant) =    549461.581509983     
  ps_ts2 prof sum =   549168.684830093     
  trcom prof sum =    549168.684830093     
  ps_ts2 cur sum  =   10951.5357171177     
  trcom cur sum  =    10951.5357171177     
  
  Total ECH heating:      2980569.82290639     
  Total Current Drive:    49549.8336838773     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3163
 TA= 3.44500E+00 CPU TIME= 1.60198E-01 SECONDS.  DT= 1.60776E-03
  
 TEC1=    3.44499999999995     
 TEC2=    3.44999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.68012472222222     
  %check_save_state: izleft hours =    71.3113888888889     
 --> plasma_hash("gframe"): TA= 3.445000E+00 NSTEP=  3163 Hash code:  100615789
 ->PRGCHK: bdy curvature ratio at t= 3.4500E+00 seconds is:  5.6830E-02
% MHDEQ: TG1=     3.445000 ; TG2=     3.450000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7589E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6830E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.445000 TO TG2=    3.450000 @ NSTEP     3163
   GFRAME TG2 MOMENTS CHECKSUM:  2.4630113197283D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.38100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  3.91805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.43855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.32343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.37315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.19800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.75638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.81545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.19104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.08621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.01892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.23365E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78660E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.30206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.27917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.36642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.35886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.22243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.22243E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4500E+00  3.4550E+00 total power(Watts):  2.9883E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.45000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.385933E+02    0.381064E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.365682E+02    0.382311E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.380311E+02    0.365846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.403320E+02    0.370192E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.403309E+02    0.389258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.379451E+02    0.396806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.359817E+02    0.407981E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.346645E+02    0.395596E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.346146E+02    0.378359E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.355341E+02    0.362194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.372976E+02    0.350690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.393807E+02    0.347610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.414497E+02    0.352729E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.427326E+02    0.365897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.428905E+02    0.383199E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.419248E+02    0.399671E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.401027E+02    0.410916E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.379005E+02    0.414028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.359526E+02    0.437134E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.329273E+02    0.420890E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.315874E+02    0.394425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.319904E+02    0.365485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.341375E+02    0.340131E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.376970E+02    0.324466E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.414442E+02    0.324712E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134274E+03   -0.447760E+02    0.338900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133332E+03   -0.466019E+02    0.365019E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133135E+03   -0.461873E+02    0.395896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.434018E+02    0.423962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.396702E+02    0.439009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.395462E+02    0.299144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.375136E+02    0.300727E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.389717E+02    0.285209E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.412845E+02    0.288759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.411911E+02    0.306851E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.389085E+02    0.313928E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.368448E+02    0.325658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.355132E+02    0.314456E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.353559E+02    0.298822E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.362671E+02    0.283654E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.382235E+02    0.271370E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.403149E+02    0.268328E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.423922E+02    0.272564E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.436853E+02    0.284297E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.438605E+02    0.300044E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.427958E+02    0.316140E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.409802E+02    0.327202E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.387753E+02    0.330846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.367417E+02    0.353875E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.338811E+02    0.338389E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.324216E+02    0.314025E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.328971E+02    0.286180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.350440E+02    0.262405E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.386117E+02    0.247268E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.424785E+02    0.246524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.457125E+02    0.259600E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133443E+03   -0.475603E+02    0.282448E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133431E+03   -0.470564E+02    0.310962E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.442979E+02    0.338258E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.405752E+02    0.353806E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.386277E+02    0.435417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.365973E+02    0.436223E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.380763E+02    0.419184E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.403799E+02    0.424328E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.403623E+02    0.444688E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.379643E+02    0.451916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.359901E+02    0.462856E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.346806E+02    0.449583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.346444E+02    0.431579E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.353806E+02    0.415763E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.372507E+02    0.404050E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.394410E+02    0.400874E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.414036E+02    0.407037E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.427914E+02    0.420494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.429337E+02    0.438982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134559E+03   -0.419508E+02    0.456143E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.401167E+02    0.467096E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.379079E+02    0.469506E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.359409E+02    0.492068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.329246E+02    0.474760E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.316024E+02    0.447635E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.320251E+02    0.417278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.342828E+02    0.391601E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.376602E+02    0.377524E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.415200E+02    0.377930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.449752E+02    0.392920E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132974E+03   -0.466766E+02    0.420834E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132817E+03   -0.462303E+02    0.453919E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.436426E+02    0.480819E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.397702E+02    0.494906E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.389957E+02    0.342010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.369675E+02    0.343516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.384279E+02    0.327066E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.407354E+02    0.331000E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.406316E+02    0.350502E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.383510E+02    0.357904E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.361899E+02    0.370405E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.351592E+02    0.356645E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.350074E+02    0.339810E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.357306E+02    0.325072E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.375864E+02    0.313324E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.397742E+02    0.309623E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.417391E+02    0.314770E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.431371E+02    0.326487E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.433006E+02    0.343487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.423391E+02    0.360146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.404125E+02    0.372044E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.382118E+02    0.375442E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.362774E+02    0.397682E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.332356E+02    0.382934E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.318868E+02    0.357044E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.323681E+02    0.327520E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.345207E+02    0.303228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.380774E+02    0.288044E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.418298E+02    0.288072E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.451707E+02    0.300976E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.470083E+02    0.324992E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133362E+03   -0.464870E+02    0.356009E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.437191E+02    0.383916E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.399985E+02    0.398805E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.396788E+02    0.244680E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.374499E+02    0.247765E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.391005E+02    0.231434E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.414158E+02    0.234705E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.413260E+02    0.251981E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.389421E+02    0.259605E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.368849E+02    0.271095E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.357413E+02    0.259122E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.354853E+02    0.244747E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.363970E+02    0.230185E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.381562E+02    0.219885E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.404436E+02    0.215563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.425196E+02    0.219454E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.437093E+02    0.231074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.438830E+02    0.245960E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.429333E+02    0.260759E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.410168E+02    0.272098E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.388161E+02    0.275789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.367964E+02    0.297336E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.338337E+02    0.284134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.324572E+02    0.260402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.330157E+02    0.232702E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.351694E+02    0.210129E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.386444E+02    0.196158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.426060E+02    0.194702E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.458396E+02    0.207327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.474498E+02    0.229787E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.470647E+02    0.255927E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.442193E+02    0.282574E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.405195E+02    0.297266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674540.170561537     
  ps_ts2 prof sum =   674136.007023817     
  trcom prof sum =    674136.007023817     
  ps_ts2 cur sum  =   10198.3134748784     
  trcom cur sum  =    10198.3134748784     
  
  antenna # iant =            2
  powecha_use(iant) =    666040.811547060     
  ps_ts2 prof sum =   665633.591246291     
  trcom prof sum =    665633.591246291     
  ps_ts2 cur sum  =   12143.0503694919     
  trcom cur sum  =    12143.0503694919     
  
  antenna # iant =            3
  powecha_use(iant) =    528906.813003695     
  ps_ts2 prof sum =   528584.816129940     
  trcom prof sum =    528584.816129941     
  ps_ts2 cur sum  =   6892.93470473919     
  trcom cur sum  =    6892.93470473920     
  
  antenna # iant =            4
  powecha_use(iant) =    569232.930747214     
  ps_ts2 prof sum =   568888.648207198     
  trcom prof sum =    568888.648207197     
  ps_ts2 cur sum  =   9462.33140384613     
  trcom cur sum  =    9462.33140384612     
  
  antenna # iant =            5
  powecha_use(iant) =    549534.890112002     
  ps_ts2 prof sum =   549212.453979964     
  trcom prof sum =    549212.453979964     
  ps_ts2 cur sum  =   10952.3946999756     
  trcom cur sum  =    10952.3946999756     
  
  Total ECH heating:      2986455.51658721     
  Total Current Drive:    49649.0246529312     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3166
 TA= 3.45000E+00 CPU TIME= 1.59698E-01 SECONDS.  DT= 1.72819E-03
  
 TEC1=    3.44999999999995     
 TEC2=    3.45499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.69356083333309     
  %check_save_state: izleft hours =    71.2980555555555     
 --> plasma_hash("gframe"): TA= 3.450000E+00 NSTEP=  3166 Hash code:   12723297
 ->PRGCHK: bdy curvature ratio at t= 3.4550E+00 seconds is:  5.6836E-02
% MHDEQ: TG1=     3.450000 ; TG2=     3.455000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6836E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.450000 TO TG2=    3.455000 @ NSTEP     3166
   GFRAME TG2 MOMENTS CHECKSUM:  2.4626050110450D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4550E+00  3.4600E+00 total power(Watts):  2.9780E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.45500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.386903E+02    0.380317E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.366612E+02    0.381568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.380243E+02    0.365577E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.404321E+02    0.369389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.403234E+02    0.389055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.380406E+02    0.396150E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.358754E+02    0.408325E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.348502E+02    0.394414E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.345119E+02    0.378691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.355274E+02    0.361920E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.372867E+02    0.350399E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.393738E+02    0.347283E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.414425E+02    0.352401E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134754E+03   -0.427252E+02    0.365611E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.431072E+02    0.381972E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.419167E+02    0.399509E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.400941E+02    0.410793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.378924E+02    0.413911E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.359441E+02    0.437049E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.329199E+02    0.420791E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.315819E+02    0.394261E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.319831E+02    0.365236E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.343195E+02    0.338536E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.376903E+02    0.324048E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.415452E+02    0.323652E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.447688E+02    0.338493E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133127E+03   -0.467123E+02    0.364193E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133142E+03   -0.461785E+02    0.395709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134210E+03   -0.433926E+02    0.423852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.396610E+02    0.438909E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.395394E+02    0.298580E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.375067E+02    0.300185E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.389637E+02    0.284586E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.412770E+02    0.288118E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.412907E+02    0.305668E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.389015E+02    0.313448E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.367392E+02    0.325891E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.356989E+02    0.312673E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.355349E+02    0.296939E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.364520E+02    0.281625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.382156E+02    0.270691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.404094E+02    0.266915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.423841E+02    0.271844E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.436784E+02    0.283604E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.438533E+02    0.299436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.428990E+02    0.315009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.409735E+02    0.326771E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.387680E+02    0.330449E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.368361E+02    0.352982E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.337817E+02    0.338683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.324153E+02    0.313594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.328900E+02    0.285615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.352215E+02    0.260251E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.387010E+02    0.245793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.424683E+02    0.245720E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.458162E+02    0.258115E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133254E+03   -0.476688E+02    0.281064E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133448E+03   -0.470491E+02    0.310390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.442909E+02    0.337856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.405683E+02    0.353485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.387238E+02    0.434918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.366896E+02    0.435733E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.380681E+02    0.419074E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.403712E+02    0.424218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.403527E+02    0.444590E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.380586E+02    0.451471E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.360804E+02    0.462448E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.348663E+02    0.448738E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.346364E+02    0.431482E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.355698E+02    0.414719E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.372451E+02    0.403902E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.394331E+02    0.400721E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.413948E+02    0.406901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.427825E+02    0.420371E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.430371E+02    0.438505E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.420521E+02    0.455723E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.402143E+02    0.466718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.380017E+02    0.469132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.360302E+02    0.491762E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.331023E+02    0.474072E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.315946E+02    0.447544E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.320186E+02    0.417171E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.342759E+02    0.391430E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.376545E+02    0.377283E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.415128E+02    0.377682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.448510E+02    0.393193E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132762E+03   -0.467861E+02    0.420318E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132822E+03   -0.462192E+02    0.453823E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.435165E+02    0.481026E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.397587E+02    0.494855E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.389893E+02    0.341652E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.369608E+02    0.343183E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.384221E+02    0.326655E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.407285E+02    0.330590E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.407321E+02    0.349597E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.383451E+02    0.357606E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.363816E+02    0.369036E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.351518E+02    0.356366E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.350013E+02    0.339477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.359186E+02    0.323368E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.376807E+02    0.312185E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.397670E+02    0.309115E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.418408E+02    0.313633E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.431303E+02    0.326033E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.432934E+02    0.343116E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.423322E+02    0.359831E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.404053E+02    0.371784E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.383088E+02    0.374653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.362697E+02    0.397531E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.332315E+02    0.382724E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.318807E+02    0.356771E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.323636E+02    0.327137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.345099E+02    0.302755E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.380698E+02    0.287439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.419294E+02    0.286748E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.451623E+02    0.300374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.470010E+02    0.324503E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133372E+03   -0.464790E+02    0.355671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134391E+03   -0.437112E+02    0.383689E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.399907E+02    0.398643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.396691E+02    0.243907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.376336E+02    0.245560E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.390900E+02    0.230638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.414048E+02    0.233885E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.413164E+02    0.251211E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.389334E+02    0.258883E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.367801E+02    0.271148E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.356395E+02    0.259180E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.354757E+02    0.244029E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.363848E+02    0.229429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.383372E+02    0.217566E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.405308E+02    0.213977E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.425076E+02    0.218584E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.438048E+02    0.229506E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.439809E+02    0.244448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.429243E+02    0.259991E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.410085E+02    0.271392E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.389089E+02    0.274423E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.366916E+02    0.297466E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.338265E+02    0.283552E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.325375E+02    0.259002E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.330058E+02    0.231982E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.351572E+02    0.209351E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.388214E+02    0.193779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.426931E+02    0.193074E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.458253E+02    0.206392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133463E+03   -0.476640E+02    0.227495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133643E+03   -0.470551E+02    0.255076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.443223E+02    0.281211E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.406172E+02    0.296023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670141.770148316     
  ps_ts2 prof sum =   669740.810712304     
  trcom prof sum =    669740.810712304     
  ps_ts2 cur sum  =   10136.4672099411     
  trcom cur sum  =    10136.4672097057     
  
  antenna # iant =            2
  powecha_use(iant) =    665069.105556681     
  ps_ts2 prof sum =   664696.949422740     
  trcom prof sum =    664696.949422739     
  ps_ts2 cur sum  =   12135.9426342271     
  trcom cur sum  =    12135.9426342271     
  
  antenna # iant =            3
  powecha_use(iant) =    528674.375269363     
  ps_ts2 prof sum =   528380.906681044     
  trcom prof sum =    528380.906681045     
  ps_ts2 cur sum  =   6892.01068087156     
  trcom cur sum  =    6892.01068087156     
  
  antenna # iant =            4
  powecha_use(iant) =    566203.813226525     
  ps_ts2 prof sum =   565867.996581445     
  trcom prof sum =    565867.996547975     
  ps_ts2 cur sum  =   9418.27698790898     
  trcom cur sum  =    9418.27698790897     
  
  antenna # iant =            5
  powecha_use(iant) =    547901.129687378     
  ps_ts2 prof sum =   547594.070401735     
  trcom prof sum =    547594.070401735     
  ps_ts2 cur sum  =   10931.3641713522     
  trcom cur sum  =    10931.3641713522     
  
  Total ECH heating:      2976280.73376580     
  Total Current Drive:    49514.0616840655     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3169
 TA= 3.45500E+00 CPU TIME= 1.60247E-01 SECONDS.  DT= 1.38948E-03
  
 TEC1=    3.45499999999995     
 TEC2=    3.45999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.70911888888872     
  %check_save_state: izleft hours =    71.2825000000000     
 --> plasma_hash("gframe"): TA= 3.455000E+00 NSTEP=  3169 Hash code:   61372498
 ->PRGCHK: bdy curvature ratio at t= 3.4600E+00 seconds is:  5.6835E-02
% MHDEQ: TG1=     3.455000 ; TG2=     3.460000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0770E-03 SECONDS
   DATA R*BT AT EDGE:  2.7595E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6835E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.455000 TO TG2=    3.460000 @ NSTEP     3169
   GFRAME TG2 MOMENTS CHECKSUM:  2.4621963662703D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.30945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.69404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.08282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.42501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.27822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30158E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.37154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.05873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.79437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -4.16836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.32566E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.24009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.04938E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.26160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.94369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.74324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.28488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.26643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.24145E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.36005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.84469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.84469E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4600E+00  3.4650E+00 total power(Watts):  2.9781E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.46000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.385915E+02    0.380820E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.365662E+02    0.382085E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.380295E+02    0.365496E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.403303E+02    0.369854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.403290E+02    0.389068E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.379429E+02    0.396678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.359796E+02    0.407925E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.347585E+02    0.394960E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.346138E+02    0.378104E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.353374E+02    0.362981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.371897E+02    0.350848E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.393789E+02    0.347094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.413393E+02    0.352809E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.426195E+02    0.366046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.428886E+02    0.382953E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.419226E+02    0.399555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.400996E+02    0.410887E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.378977E+02    0.414008E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.359487E+02    0.437216E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.329244E+02    0.420906E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.315851E+02    0.394292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.319872E+02    0.365159E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.341347E+02    0.339603E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.376940E+02    0.323747E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.414413E+02    0.323942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.448889E+02    0.337664E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.466008E+02    0.364595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133356E+03   -0.460670E+02    0.396209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133987E+03   -0.435118E+02    0.423597E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.396662E+02    0.439097E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.395421E+02    0.298121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.375094E+02    0.299750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.389655E+02    0.284048E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.412794E+02    0.287585E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.411872E+02    0.305884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.388023E+02    0.313734E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.368418E+02    0.324962E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.355102E+02    0.313659E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.353512E+02    0.297861E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.362608E+02    0.282516E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.380169E+02    0.271529E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.403066E+02    0.266989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.423850E+02    0.271206E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.436808E+02    0.283010E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.438570E+02    0.298937E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.427934E+02    0.315243E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.409779E+02    0.326470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.387732E+02    0.330172E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.367400E+02    0.353437E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.336923E+02    0.339122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.324181E+02    0.313264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.328913E+02    0.285136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.350349E+02    0.261141E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.386002E+02    0.245833E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.424664E+02    0.244982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.457044E+02    0.258044E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.475557E+02    0.281047E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133463E+03   -0.470541E+02    0.309937E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.444099E+02    0.337021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.404663E+02    0.353906E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.386238E+02    0.435485E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.365936E+02    0.436294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.380732E+02    0.419190E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.403765E+02    0.424354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.403577E+02    0.444790E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.379598E+02    0.452034E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.359851E+02    0.463003E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.347736E+02    0.449306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.346409E+02    0.431632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.354764E+02    0.415282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.372495E+02    0.403966E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.393327E+02    0.401248E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.414005E+02    0.406981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.429008E+02    0.420088E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.429294E+02    0.439072E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.419461E+02    0.456267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.401109E+02    0.467270E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.379023E+02    0.469682E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.359341E+02    0.492272E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.329194E+02    0.474926E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.315083E+02    0.448119E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.319319E+02    0.417746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.340901E+02    0.392496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.376584E+02    0.377262E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.414090E+02    0.378164E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.449732E+02    0.392748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132974E+03   -0.466731E+02    0.420861E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132815E+03   -0.462246E+02    0.454078E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.434067E+02    0.481566E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.396553E+02    0.495363E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.389937E+02    0.341449E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.369653E+02    0.342988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.384254E+02    0.326364E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.407333E+02    0.330310E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.406299E+02    0.350003E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.382469E+02    0.358056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.362873E+02    0.369529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.349639E+02    0.357427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.348144E+02    0.340527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.357274E+02    0.324379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.375840E+02    0.312482E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.397704E+02    0.308716E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.417362E+02    0.313882E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.430241E+02    0.326321E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.432988E+02    0.342905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.422269E+02    0.360267E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.404108E+02    0.371725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.382102E+02    0.375158E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.362749E+02    0.397568E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.332348E+02    0.382710E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.318847E+02    0.356658E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.323662E+02    0.326885E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.345122E+02    0.302354E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.380718E+02    0.286925E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.418236E+02    0.286871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.452800E+02    0.299233E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133415E+03   -0.470067E+02    0.324149E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133377E+03   -0.464856E+02    0.355511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134391E+03   -0.437173E+02    0.383677E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.399963E+02    0.398694E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.396674E+02    0.243198E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.375347E+02    0.245620E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.390866E+02    0.229870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.414015E+02    0.233112E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.413156E+02    0.250495E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.389330E+02    0.258238E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.368771E+02    0.269853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.357319E+02    0.257820E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.354736E+02    0.243370E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.363803E+02    0.228716E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.382337E+02    0.217562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.404244E+02    0.213915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.423980E+02    0.218484E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.436941E+02    0.229399E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.438707E+02    0.244377E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.429243E+02    0.259292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.410093E+02    0.270771E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.388089E+02    0.274542E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.367917E+02    0.296333E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.337360E+02    0.283783E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.324488E+02    0.259184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.330025E+02    0.231304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.351498E+02    0.208622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.386221E+02    0.194534E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.425828E+02    0.192959E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.458185E+02    0.205477E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133917E+03   -0.474340E+02    0.227979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.468274E+02    0.255637E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.442139E+02    0.281252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.405161E+02    0.296193E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670926.198593603     
  ps_ts2 prof sum =   670549.572630618     
  trcom prof sum =    670549.572630618     
  ps_ts2 cur sum  =   10151.8568049831     
  trcom cur sum  =    10151.8568049831     
  
  antenna # iant =            2
  powecha_use(iant) =    663206.707342049     
  ps_ts2 prof sum =   662792.697973752     
  trcom prof sum =    662792.697973751     
  ps_ts2 cur sum  =   12122.9963717189     
  trcom cur sum  =    12122.9963717189     
  
  antenna # iant =            3
  powecha_use(iant) =    528510.877133448     
  ps_ts2 prof sum =   528190.968907146     
  trcom prof sum =    528190.968907147     
  ps_ts2 cur sum  =   6885.15703716604     
  trcom cur sum  =    6885.15703716605     
  
  antenna # iant =            4
  powecha_use(iant) =    567075.197023887     
  ps_ts2 prof sum =   566734.406106120     
  trcom prof sum =    566734.406106119     
  ps_ts2 cur sum  =   9442.71592507828     
  trcom cur sum  =    9442.71592507826     
  
  antenna # iant =            5
  powecha_use(iant) =    548419.875568154     
  ps_ts2 prof sum =   548111.051232689     
  trcom prof sum =    548111.051232689     
  ps_ts2 cur sum  =   10966.9475859956     
  trcom cur sum  =    10966.9475859956     
  
  Total ECH heating:      2976378.69685032     
  Total Current Drive:    49569.6737249420     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3172
 TA= 3.46000E+00 CPU TIME= 1.45810E-01 SECONDS.  DT= 2.34209E-03
  
 TEC1=    3.45999999999995     
 TEC2=    3.46499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.72294666666653     
  %check_save_state: izleft hours =    71.2686111111111     
 --> plasma_hash("gframe"): TA= 3.460000E+00 NSTEP=  3172 Hash code:   64691382
 ->PRGCHK: bdy curvature ratio at t= 3.4650E+00 seconds is:  5.6835E-02
% MHDEQ: TG1=     3.460000 ; TG2=     3.465000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7613E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6835E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.460000 TO TG2=    3.465000 @ NSTEP     3172
   GFRAME TG2 MOMENTS CHECKSUM:  2.4617877214957D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4650E+00  3.4700E+00 total power(Watts):  2.9921E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.46500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.385959E+02    0.380791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.365704E+02    0.382065E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.380335E+02    0.365405E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.403347E+02    0.369778E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.402256E+02    0.389589E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.379470E+02    0.396724E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.357848E+02    0.408959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.347623E+02    0.394994E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.344259E+02    0.379181E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.354384E+02    0.362300E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.371982E+02    0.350663E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.392777E+02    0.347501E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.413437E+02    0.352638E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.426239E+02    0.365954E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.430056E+02    0.382443E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.418158E+02    0.400096E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.399962E+02    0.411441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.379016E+02    0.414115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.358529E+02    0.437772E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.328349E+02    0.421475E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.314983E+02    0.394862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.319914E+02    0.365076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.342316E+02    0.338764E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.375960E+02    0.324095E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.414444E+02    0.323627E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.446642E+02    0.338561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.466058E+02    0.364493E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133354E+03   -0.460720E+02    0.396262E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.432886E+02    0.424562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.395629E+02    0.439663E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.395449E+02    0.297659E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.374110E+02    0.300008E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.389660E+02    0.283521E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.412805E+02    0.287054E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.411895E+02    0.305459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.388045E+02    0.313374E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.368446E+02    0.324676E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.356082E+02    0.312637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.354476E+02    0.296737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.363572E+02    0.281295E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.381157E+02    0.270240E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.403057E+02    0.266373E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.422774E+02    0.271273E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.435715E+02    0.283100E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.437470E+02    0.299106E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.427963E+02    0.314869E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.408738E+02    0.326791E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.387762E+02    0.329906E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.367435E+02    0.353288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.336945E+02    0.338917E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.323298E+02    0.313632E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.328011E+02    0.285398E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.350328E+02    0.260565E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.385968E+02    0.245159E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.424633E+02    0.244260E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.457035E+02    0.257323E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.475569E+02    0.280415E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.469406E+02    0.310103E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.441868E+02    0.337925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.404704E+02    0.353751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.386267E+02    0.435671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.365972E+02    0.436454E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.379735E+02    0.419758E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.402723E+02    0.424917E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.402531E+02    0.445352E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.379632E+02    0.452239E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.359882E+02    0.463218E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.347766E+02    0.449505E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.344510E+02    0.432623E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.354800E+02    0.415389E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.371502E+02    0.404524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.393368E+02    0.401313E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.412948E+02    0.407523E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.426799E+02    0.421061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.429335E+02    0.439260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.419498E+02    0.456497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.400060E+02    0.467816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.379053E+02    0.469912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.359365E+02    0.492519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.330155E+02    0.474827E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.315111E+02    0.448292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.319349E+02    0.417847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.340937E+02    0.392525E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.375603E+02    0.377770E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.414131E+02    0.378137E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.448622E+02    0.393253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132969E+03   -0.466779E+02    0.421017E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.461100E+02    0.454632E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.434099E+02    0.481834E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.396580E+02    0.495622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.388932E+02    0.341840E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.368686E+02    0.343406E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.383258E+02    0.326714E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.406296E+02    0.330648E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.406338E+02    0.349826E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.382506E+02    0.357935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.362910E+02    0.369462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.350645E+02    0.356701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.349122E+02    0.339694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.358269E+02    0.323441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.375857E+02    0.312118E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.396682E+02    0.308984E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.417390E+02    0.313501E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.430274E+02    0.326011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.431909E+02    0.343260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.422311E+02    0.360139E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.403076E+02    0.372195E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.382138E+02    0.375115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.361790E+02    0.398118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.331437E+02    0.383258E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.317980E+02    0.357151E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.322776E+02    0.327308E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.346119E+02    0.301228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.379724E+02    0.287122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.418257E+02    0.286331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.450559E+02    0.299995E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133639E+03   -0.468935E+02    0.324382E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133595E+03   -0.463726E+02    0.355899E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.436084E+02    0.384156E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.398934E+02    0.399222E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.395635E+02    0.243243E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.375316E+02    0.244960E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.389824E+02    0.229907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.412939E+02    0.233099E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.412086E+02    0.250534E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.388303E+02    0.258329E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.368763E+02    0.269287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.355418E+02    0.258726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.353767E+02    0.243497E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.364693E+02    0.227246E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.382275E+02    0.216807E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.404167E+02    0.213130E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.423915E+02    0.217684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.436889E+02    0.228605E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.438676E+02    0.243627E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.428153E+02    0.259313E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.410090E+02    0.270162E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.388086E+02    0.273973E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.365967E+02    0.297278E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.337355E+02    0.283299E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.324454E+02    0.258625E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.329106E+02    0.231448E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.351421E+02    0.207908E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.387090E+02    0.192986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.425733E+02    0.192129E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.458096E+02    0.204610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.475427E+02    0.226418E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134119E+03   -0.468259E+02    0.254892E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.442155E+02    0.280660E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.405177E+02    0.295717E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678902.663036248     
  ps_ts2 prof sum =   678509.400324572     
  trcom prof sum =    678509.400324572     
  ps_ts2 cur sum  =   10274.5980792349     
  trcom cur sum  =    10274.5980792349     
  
  antenna # iant =            2
  powecha_use(iant) =    664489.476732277     
  ps_ts2 prof sum =   664124.786171925     
  trcom prof sum =    664124.786171925     
  ps_ts2 cur sum  =   12165.5849529071     
  trcom cur sum  =    12165.5849529071     
  
  antenna # iant =            3
  powecha_use(iant) =    528708.163093740     
  ps_ts2 prof sum =   528400.746760584     
  trcom prof sum =    528400.746760585     
  ps_ts2 cur sum  =   6880.48794813235     
  trcom cur sum  =    6880.48794813235     
  
  antenna # iant =            4
  powecha_use(iant) =    571358.902776640     
  ps_ts2 prof sum =   571022.241482816     
  trcom prof sum =    571022.241482815     
  ps_ts2 cur sum  =   9522.75877576629     
  trcom cur sum  =    9522.75877576628     
  
  antenna # iant =            5
  powecha_use(iant) =    548595.698482674     
  ps_ts2 prof sum =   548293.531836996     
  trcom prof sum =    548293.531836996     
  ps_ts2 cur sum  =   10992.0476194774     
  trcom cur sum  =    10992.0476194774     
  
  Total ECH heating:      2990350.70657689     
  Total Current Drive:    49835.4773755180     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3174
 TA= 3.46500E+00 CPU TIME= 1.61498E-01 SECONDS.  DT= 3.32238E-03
  
 TEC1=    3.46499999999995     
 TEC2=    3.46999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.73693027777790     
  %check_save_state: izleft hours =    71.2547222222222     
 --> plasma_hash("gframe"): TA= 3.465000E+00 NSTEP=  3174 Hash code:   93875243
 ->PRGCHK: bdy curvature ratio at t= 3.4700E+00 seconds is:  5.6834E-02
% MHDEQ: TG1=     3.465000 ; TG2=     3.470000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1000E-03 SECONDS
   DATA R*BT AT EDGE:  2.7630E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6834E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.465000 TO TG2=    3.470000 @ NSTEP     3174
   GFRAME TG2 MOMENTS CHECKSUM:  2.4613790767210D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.19521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.83205E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.33967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.36105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.24603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.35951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.93240E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.84746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.79085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.28949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.22545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  3.14990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.34334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.63067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.65461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.23734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.25373E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.01253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.33491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.91831E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.91831E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4700E+00  3.4750E+00 total power(Watts):  2.9833E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.47000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.384969E+02    0.381332E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.364752E+02    0.382614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.379363E+02    0.365908E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.402334E+02    0.370275E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.402317E+02    0.389628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.378496E+02    0.397287E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.358893E+02    0.408586E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.345747E+02    0.396069E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.345260E+02    0.378634E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.352539E+02    0.363369E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.371025E+02    0.351133E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.392832E+02    0.347350E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.412406E+02    0.353086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.425188E+02    0.366421E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.427871E+02    0.383461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.418221E+02    0.400174E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.400020E+02    0.411560E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.378038E+02    0.414694E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.358570E+02    0.437969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.328396E+02    0.421609E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.315012E+02    0.394922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.319059E+02    0.365612E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.340477E+02    0.339860E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.376006E+02    0.323827E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.413415E+02    0.323963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.447851E+02    0.337763E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133564E+03   -0.464948E+02    0.364935E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.459609E+02    0.396794E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.434084E+02    0.424331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.395682E+02    0.439859E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.394439E+02    0.297899E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.374149E+02    0.299592E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.388674E+02    0.283700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.411775E+02    0.287205E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.410872E+02    0.305710E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.387063E+02    0.313695E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.367498E+02    0.325064E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.354195E+02    0.313678E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.352595E+02    0.297727E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.361660E+02    0.282228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.381176E+02    0.269645E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.402037E+02    0.266462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.422795E+02    0.270645E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.435749E+02    0.282520E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.437519E+02    0.298631E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.426911E+02    0.315146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.408791E+02    0.326521E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.386779E+02    0.330304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.366479E+02    0.353782E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.337923E+02    0.338102E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.323331E+02    0.313329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.328030E+02    0.284933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.349399E+02    0.260727E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.383976E+02    0.245956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.423565E+02    0.244223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.455925E+02    0.257269E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133742E+03   -0.474447E+02    0.280419E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.469464E+02    0.309690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.443067E+02    0.337124E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.403690E+02    0.354200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.385271E+02    0.436242E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.365017E+02    0.437040E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.379789E+02    0.419897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.402780E+02    0.425079E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.402583E+02    0.445570E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.378641E+02    0.452819E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.358924E+02    0.463787E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.346834E+02    0.450084E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.345525E+02    0.432370E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.353868E+02    0.415974E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.371546E+02    0.404622E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.392366E+02    0.401872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.413009E+02    0.407631E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.425732E+02    0.421633E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.428261E+02    0.439838E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.418433E+02    0.457071E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.400108E+02    0.468073E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.378060E+02    0.470471E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.358405E+02    0.493034E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.328321E+02    0.475687E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.314253E+02    0.448873E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.319396E+02    0.417969E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.340033E+02    0.393099E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.375660E+02    0.377757E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.413102E+02    0.378635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.446368E+02    0.394258E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133181E+03   -0.465646E+02    0.421597E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133019E+03   -0.461156E+02    0.454898E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.433002E+02    0.482390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.395546E+02    0.496143E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.388987E+02    0.341664E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.368738E+02    0.343246E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.383307E+02    0.326453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.406348E+02    0.330407E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.405322E+02    0.350269E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.381531E+02    0.358419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.361972E+02    0.369990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.350683E+02    0.356616E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.347254E+02    0.340783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.356371E+02    0.324493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.374897E+02    0.312447E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.396728E+02    0.308604E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.416353E+02    0.313789E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.429222E+02    0.326333E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.431971E+02    0.343073E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.421269E+02    0.360596E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.403136E+02    0.372159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.381164E+02    0.375637E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.361845E+02    0.398184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.331474E+02    0.383274E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.318022E+02    0.357062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.322812E+02    0.327080E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.344273E+02    0.302245E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.379750E+02    0.286626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.417217E+02    0.286470E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.451745E+02    0.298887E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133649E+03   -0.468999E+02    0.324073E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.463797E+02    0.355778E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.436151E+02    0.384167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.398993E+02    0.399297E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.36 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.395628E+02    0.242513E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.373362E+02    0.245788E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.389795E+02    0.229146E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.412918E+02    0.232309E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.412086E+02    0.249824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.388308E+02    0.257687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.366833E+02    0.270176E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.356352E+02    0.257366E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.353753E+02    0.242831E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.362787E+02    0.228069E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.380313E+02    0.217562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.403109E+02    0.213062E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.423875E+02    0.216834E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.435795E+02    0.228477E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.437584E+02    0.243561E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.428162E+02    0.258630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.409060E+02    0.270247E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.387096E+02    0.274111E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.366978E+02    0.296156E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.337375E+02    0.282815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.323577E+02    0.258820E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.329080E+02    0.230771E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.350459E+02    0.207948E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.385078E+02    0.193746E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.424632E+02    0.192003E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.456945E+02    0.204398E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.473139E+02    0.226902E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133934E+03   -0.469419E+02    0.253436E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.441064E+02    0.280734E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.404145E+02    0.295942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674081.476148475     
  ps_ts2 prof sum =   673689.247880560     
  trcom prof sum =    673689.247880559     
  ps_ts2 cur sum  =   10209.7438232203     
  trcom cur sum  =    10209.7438232203     
  
  antenna # iant =            2
  powecha_use(iant) =    664934.907542279     
  ps_ts2 prof sum =   664519.155437908     
  trcom prof sum =    664519.155437908     
  ps_ts2 cur sum  =   12200.2017295751     
  trcom cur sum  =    12200.2017295751     
  
  antenna # iant =            3
  powecha_use(iant) =    528426.475853328     
  ps_ts2 prof sum =   528097.639455953     
  trcom prof sum =    528097.639455954     
  ps_ts2 cur sum  =   6873.87319793844     
  trcom cur sum  =    6873.87319793845     
  
  antenna # iant =            4
  powecha_use(iant) =    567316.921647517     
  ps_ts2 prof sum =   566981.563806541     
  trcom prof sum =    566981.563806541     
  ps_ts2 cur sum  =   9468.79922743544     
  trcom cur sum  =    9468.79922743543     
  
  antenna # iant =            5
  powecha_use(iant) =    548555.230807580     
  ps_ts2 prof sum =   548208.733400402     
  trcom prof sum =    548208.733400402     
  ps_ts2 cur sum  =   11022.1805608561     
  trcom cur sum  =    11022.1805608561     
  
  Total ECH heating:      2981496.33998136     
  Total Current Drive:    49774.7985390254     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3176
 TA= 3.47000E+00 CPU TIME= 1.59438E-01 SECONDS.  DT= 2.09702E-03
  
 TEC1=    3.46999999999995     
 TEC2=    3.47499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.74949361111067     
  %check_save_state: izleft hours =    71.2419444444444     
 --> plasma_hash("gframe"): TA= 3.470000E+00 NSTEP=  3176 Hash code:   48381639
 ->PRGCHK: bdy curvature ratio at t= 3.4750E+00 seconds is:  5.6833E-02
% MHDEQ: TG1=     3.470000 ; TG2=     3.475000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7648E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6833E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.470000 TO TG2=    3.475000 @ NSTEP     3176
   GFRAME TG2 MOMENTS CHECKSUM:  2.4609704319464D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4750E+00  3.4800E+00 total power(Watts):  2.9782E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.47500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.385025E+02    0.381324E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.364810E+02    0.382610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.379412E+02    0.365840E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.402389E+02    0.370222E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.401297E+02    0.390153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.378547E+02    0.397343E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.356957E+02    0.409632E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.346761E+02    0.395605E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.343389E+02    0.379721E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.353551E+02    0.362713E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.371073E+02    0.351001E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.391832E+02    0.347796E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.412457E+02    0.352956E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.425246E+02    0.366346E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.426807E+02    0.383965E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.417169E+02    0.400710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.399003E+02    0.412114E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.377057E+02    0.415264E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.357621E+02    0.438543E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.327511E+02    0.422189E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.314148E+02    0.395501E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.319091E+02    0.365545E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.341457E+02    0.339052E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.375042E+02    0.324208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.413461E+02    0.323676E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.445615E+02    0.338711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133781E+03   -0.463833E+02    0.365361E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.459676E+02    0.396851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.431864E+02    0.425296E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.394665E+02    0.440423E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.394481E+02    0.297448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.373181E+02    0.299865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.388691E+02    0.283172E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.411801E+02    0.286673E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.410906E+02    0.305305E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.387097E+02    0.313356E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.367539E+02    0.324806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.355190E+02    0.312680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.352619E+02    0.297312E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.362641E+02    0.280991E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.380180E+02    0.269799E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.402042E+02    0.265836E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.421735E+02    0.270716E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.434670E+02    0.282612E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.436441E+02    0.298810E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.426954E+02    0.314790E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.407763E+02    0.326879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.386823E+02    0.330061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.366520E+02    0.353666E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.336091E+02    0.339211E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.322464E+02    0.313722E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.327145E+02    0.285213E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.349393E+02    0.260147E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.384953E+02    0.244530E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.423547E+02    0.243492E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.455932E+02    0.256531E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133764E+03   -0.474482E+02    0.279777E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.468349E+02    0.309879E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.440850E+02    0.338072E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.403743E+02    0.354074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.385325E+02    0.436416E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.365052E+02    0.437224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.378808E+02    0.420461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.401750E+02    0.425647E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.401548E+02    0.446142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.378686E+02    0.453028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.358969E+02    0.464004E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.346876E+02    0.450279E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.344607E+02    0.432942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.353957E+02    0.416073E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.370568E+02    0.405183E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.392417E+02    0.401953E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.411968E+02    0.408173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.425789E+02    0.421780E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.429448E+02    0.439661E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.417367E+02    0.457630E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.399072E+02    0.468618E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.378103E+02    0.470709E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.358440E+02    0.493285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.329293E+02    0.475598E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.314291E+02    0.449054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.318533E+02    0.418555E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.340080E+02    0.393134E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.374689E+02    0.378279E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.413159E+02    0.378618E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.447590E+02    0.393843E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133393E+03   -0.464514E+02    0.422154E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133230E+03   -0.460024E+02    0.455462E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.434190E+02    0.482413E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.395587E+02    0.496410E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.387996E+02    0.342093E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.367779E+02    0.343694E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.382330E+02    0.326839E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.405324E+02    0.330781E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.405375E+02    0.350123E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.381581E+02    0.358320E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.362020E+02    0.369937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.349766E+02    0.357106E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.348251E+02    0.339977E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.357379E+02    0.323576E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.374933E+02    0.312118E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.395719E+02    0.308896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.416399E+02    0.313428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.429272E+02    0.326049E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.430904E+02    0.343467E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.421325E+02    0.360499E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.402117E+02    0.372653E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.381216E+02    0.375602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.360898E+02    0.398750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.330630E+02    0.383807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.318065E+02    0.356965E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.321943E+02    0.327514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.345234E+02    0.301160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.378770E+02    0.286832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.417243E+02    0.285929E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.449509E+02    0.299689E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.467880E+02    0.324347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.462687E+02    0.356169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.435073E+02    0.384674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.397976E+02    0.399847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.394604E+02    0.242560E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.374314E+02    0.244367E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.387777E+02    0.229936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.411852E+02    0.232300E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.411029E+02    0.249856E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.388310E+02    0.257037E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.367810E+02    0.268870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.354462E+02    0.258284E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.354658E+02    0.241403E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.363698E+02    0.226570E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.381226E+02    0.216032E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.403070E+02    0.212263E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.422779E+02    0.216755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.435756E+02    0.227679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.437571E+02    0.242798E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.427086E+02    0.258656E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.409069E+02    0.269633E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.387106E+02    0.273541E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.367009E+02    0.295719E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.336470E+02    0.283073E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.323569E+02    0.258250E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.328169E+02    0.230918E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.350396E+02    0.207220E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.385947E+02    0.192177E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.424545E+02    0.191160E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.456878E+02    0.203494E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.474239E+02    0.225315E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.467134E+02    0.254047E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.441101E+02    0.280125E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.404190E+02    0.295464E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672207.147879588     
  ps_ts2 prof sum =   671808.407413219     
  trcom prof sum =    671808.407413219     
  ps_ts2 cur sum  =   10184.5050123106     
  trcom cur sum  =    10184.5050123106     
  
  antenna # iant =            2
  powecha_use(iant) =    665022.581553921     
  ps_ts2 prof sum =   664640.884449938     
  trcom prof sum =    664640.884449937     
  ps_ts2 cur sum  =   12223.4986775179     
  trcom cur sum  =    12223.4986775179     
  
  antenna # iant =            3
  powecha_use(iant) =    529459.769219813     
  ps_ts2 prof sum =   529174.986989909     
  trcom prof sum =    529174.986989910     
  ps_ts2 cur sum  =   6882.71113159805     
  trcom cur sum  =    6882.71113159806     
  
  antenna # iant =            4
  powecha_use(iant) =    561832.884176609     
  ps_ts2 prof sum =   561515.077723589     
  trcom prof sum =    561515.077723588     
  ps_ts2 cur sum  =   9387.69807348664     
  trcom cur sum  =    9387.69807348663     
  
  antenna # iant =            5
  powecha_use(iant) =    549638.531512993     
  ps_ts2 prof sum =   549340.548899449     
  trcom prof sum =    549340.548899449     
  ps_ts2 cur sum  =   11071.6907825622     
  trcom cur sum  =    11071.6907825622     
  
  Total ECH heating:      2976479.90547610     
  Total Current Drive:    49750.1036774754     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3179
 TA= 3.47500E+00 CPU TIME= 1.63137E-01 SECONDS.  DT= 3.52130E-04
  
 TEC1=    3.47499999999995     
 TEC2=    3.47999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.76284027777729     
  %check_save_state: izleft hours =    71.2286111111111     
 --> plasma_hash("gframe"): TA= 3.475000E+00 NSTEP=  3179 Hash code:  112565988
 ->PRGCHK: bdy curvature ratio at t= 3.4800E+00 seconds is:  5.6832E-02
% MHDEQ: TG1=     3.475000 ; TG2=     3.480000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7666E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6832E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.475000 TO TG2=    3.480000 @ NSTEP     3179
   GFRAME TG2 MOMENTS CHECKSUM:  2.4605617871717D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.08097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.97007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.59653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.29710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.21384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.80608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.90055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.81943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.25333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.21081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.25041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.90736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.31766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.56597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       7=  1.18980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.24103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.23634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.30976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.92760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.92760E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  3.4800E+00  3.4850E+00 total power(Watts):  2.9920E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.48000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.384051E+02    0.381846E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.363868E+02    0.383144E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.378450E+02    0.366328E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.401387E+02    0.370704E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.401370E+02    0.390183E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.377632E+02    0.397876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.358015E+02    0.409261E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.344892E+02    0.396685E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.344411E+02    0.379151E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.353610E+02    0.362626E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.370130E+02    0.351454E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.391899E+02    0.347618E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.411438E+02    0.353381E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.424203E+02    0.366804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.426885E+02    0.383966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.417247E+02    0.400785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.399075E+02    0.412233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.377126E+02    0.415391E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.357689E+02    0.438720E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.327570E+02    0.422326E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.314247E+02    0.395521E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.318250E+02    0.366070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.339627E+02    0.340136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.375095E+02    0.323932E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.412443E+02    0.323992E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.446897E+02    0.337858E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.463918E+02    0.365258E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133781E+03   -0.458579E+02    0.397376E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.430800E+02    0.425872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.394728E+02    0.440621E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.393486E+02    0.297707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.373219E+02    0.299460E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.387704E+02    0.283388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.410774E+02    0.286867E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.409883E+02    0.305570E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.387152E+02    0.313015E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.366602E+02    0.325195E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.355235E+02    0.312354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.353611E+02    0.296200E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.362668E+02    0.280505E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.380200E+02    0.269259E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.401021E+02    0.265988E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.421761E+02    0.270135E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.434707E+02    0.282086E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.436492E+02    0.298349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.425908E+02    0.315070E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.407830E+02    0.326586E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.385846E+02    0.330448E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.365577E+02    0.354130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.337080E+02    0.338369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.322502E+02    0.313417E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.327168E+02    0.284780E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.350333E+02    0.258838E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.384943E+02    0.243902E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.422480E+02    0.243541E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.454823E+02    0.256553E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.473360E+02    0.279855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.468417E+02    0.309455E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.442061E+02    0.337238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.402739E+02    0.354506E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.384340E+02    0.437000E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.364111E+02    0.437804E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.378874E+02    0.420611E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.401820E+02    0.425814E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.401615E+02    0.446363E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.377709E+02    0.453601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.358035E+02    0.464556E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.345965E+02    0.450855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.344662E+02    0.433116E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.353026E+02    0.416660E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.370620E+02    0.405284E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.391428E+02    0.402510E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.412041E+02    0.408280E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.424735E+02    0.422361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.427254E+02    0.440614E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.417436E+02    0.457867E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.399134E+02    0.468868E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.377124E+02    0.471258E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.357491E+02    0.493797E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.327521E+02    0.476427E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.313440E+02    0.449630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.318591E+02    0.418678E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.339189E+02    0.393691E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.374757E+02    0.378256E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.412131E+02    0.379124E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.445351E+02    0.394833E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.464595E+02    0.422335E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133442E+03   -0.458908E+02    0.456041E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.431967E+02    0.483208E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.394567E+02    0.496920E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.388059E+02    0.341894E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.367840E+02    0.343510E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.382388E+02    0.326565E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.405389E+02    0.330513E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.404370E+02    0.350543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.380611E+02    0.358787E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.361091E+02    0.370443E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.349828E+02    0.356994E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.346392E+02    0.341057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.355487E+02    0.324632E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.373976E+02    0.312453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.395769E+02    0.308522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.415370E+02    0.313717E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.428225E+02    0.326367E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.432100E+02    0.342664E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.420292E+02    0.360938E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.402191E+02    0.372599E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.380258E+02    0.376109E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.360966E+02    0.398807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.330699E+02    0.383802E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.317222E+02    0.357470E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.321984E+02    0.327284E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.343389E+02    0.302203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.378805E+02    0.286363E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.416206E+02    0.286112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.450705E+02    0.298570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.467955E+02    0.324016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.460414E+02    0.357109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.436292E+02    0.384183E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.398048E+02    0.399918E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.394596E+02    0.241910E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.374307E+02    0.243748E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.388742E+02    0.228491E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.411827E+02    0.231597E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.411030E+02    0.249216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.387311E+02    0.257190E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.365879E+02    0.269826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.354460E+02    0.257732E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.352781E+02    0.242366E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.361787E+02    0.227493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.381192E+02    0.215327E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.403029E+02    0.211514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.422742E+02    0.215992E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.435733E+02    0.226925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.436476E+02    0.242831E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.427100E+02    0.258024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.408041E+02    0.269779E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.386120E+02    0.273731E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.366063E+02    0.296007E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.336490E+02    0.282633E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.323570E+02    0.257730E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.328142E+02    0.230310E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.350339E+02    0.206542E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.385880E+02    0.191442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.424483E+02    0.190358E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.455728E+02    0.203398E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.471945E+02    0.225928E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.468298E+02    0.252645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.440021E+02    0.280252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.403176E+02    0.295704E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    682905.967810498     
  ps_ts2 prof sum =   682521.997901496     
  trcom prof sum =    682521.997901496     
  ps_ts2 cur sum  =   10355.0014422855     
  trcom cur sum  =    10355.0014422855     
  
  antenna # iant =            2
  powecha_use(iant) =    664931.835538618     
  ps_ts2 prof sum =   664596.614545653     
  trcom prof sum =    664596.614545654     
  ps_ts2 cur sum  =   12248.9812676642     
  trcom cur sum  =    12248.9812676642     
  
  antenna # iant =            3
  powecha_use(iant) =    528097.138153816     
  ps_ts2 prof sum =   527779.184840395     
  trcom prof sum =    527779.184840395     
  ps_ts2 cur sum  =   6863.57075878945     
  trcom cur sum  =    6863.57075878946     
  
  antenna # iant =            4
  powecha_use(iant) =    566558.518566441     
  ps_ts2 prof sum =   566223.905618249     
  trcom prof sum =    566223.905618249     
  ps_ts2 cur sum  =   9481.59664941700     
  trcom cur sum  =    9481.59664941698     
  
  antenna # iant =            5
  powecha_use(iant) =    549459.344577333     
  ps_ts2 prof sum =   549149.184730259     
  trcom prof sum =    549149.184697264     
  ps_ts2 cur sum  =   11095.7048947888     
  trcom cur sum  =    11095.7048947888     
  
  Total ECH heating:      2990270.88760306     
  Total Current Drive:    50044.8550129449     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3186
 TA= 3.48000E+00 CPU TIME= 1.49256E-01 SECONDS.  DT= 1.29431E-03
  
 TEC1=    3.47999999999995     
 TEC2=    3.48499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.77787388888873     
  %check_save_state: izleft hours =    71.2136111111111     
 --> plasma_hash("gframe"): TA= 3.480000E+00 NSTEP=  3186 Hash code:   30621946
 ->PRGCHK: bdy curvature ratio at t= 3.4850E+00 seconds is:  5.6832E-02
% MHDEQ: TG1=     3.480000 ; TG2=     3.485000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7683E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6832E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.480000 TO TG2=    3.485000 @ NSTEP     3186
   GFRAME TG2 MOMENTS CHECKSUM:  2.4601531423971D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4850E+00  3.4900E+00 total power(Watts):  2.9927E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.48500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.384123E+02    0.381855E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.363943E+02    0.383166E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.377491E+02    0.366831E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.400386E+02    0.371212E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.400368E+02    0.390730E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.376658E+02    0.398448E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.356093E+02    0.410324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.345923E+02    0.396234E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.342555E+02    0.380258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.352688E+02    0.363148E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.370201E+02    0.351330E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.390918E+02    0.348073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.411512E+02    0.353257E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.424282E+02    0.366741E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.425843E+02    0.384481E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.416214E+02    0.401335E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.398072E+02    0.412811E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.376156E+02    0.415985E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.356754E+02    0.439314E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.326698E+02    0.422925E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.313406E+02    0.396108E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.318306E+02    0.366018E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.340628E+02    0.339328E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.374144E+02    0.324329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.412511E+02    0.323724E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.444673E+02    0.338827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.462821E+02    0.365727E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.457483E+02    0.397914E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.430875E+02    0.426055E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.393723E+02    0.441215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.393534E+02    0.297292E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.373267E+02    0.299073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.387742E+02    0.282905E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.410817E+02    0.286383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.409943E+02    0.305189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.386178E+02    0.313357E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.366660E+02    0.324947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.353350E+02    0.313421E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.351737E+02    0.297242E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.360760E+02    0.281503E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.379227E+02    0.269460E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.401049E+02    0.265422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.420712E+02    0.270279E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.433645E+02    0.282228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.435434E+02    0.298570E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.425973E+02    0.314734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.406821E+02    0.326957E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.385907E+02    0.330212E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.365632E+02    0.354025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.335267E+02    0.339491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.322546E+02    0.313131E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.327196E+02    0.284353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.348475E+02    0.259846E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.383946E+02    0.244045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.422483E+02    0.242871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.454846E+02    0.255901E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.473418E+02    0.279248E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.467316E+02    0.309690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.439859E+02    0.338212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.402812E+02    0.354392E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.384404E+02    0.437204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.364173E+02    0.437998E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.377905E+02    0.421202E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.400806E+02    0.426397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.400597E+02    0.446948E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.376738E+02    0.454172E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.358090E+02    0.464780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.346018E+02    0.451075E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.343756E+02    0.433707E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.353080E+02    0.416805E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.369655E+02    0.405871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.391502E+02    0.402590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.411015E+02    0.408850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.424810E+02    0.422531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.426192E+02    0.441203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.416385E+02    0.458440E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.398113E+02    0.469429E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.377181E+02    0.471507E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.357541E+02    0.494064E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.326612E+02    0.476986E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.313493E+02    0.449826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.317739E+02    0.419279E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.339257E+02    0.393740E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.373805E+02    0.378798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.412207E+02    0.379122E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.446593E+02    0.394428E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133601E+03   -0.463482E+02    0.422911E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133436E+03   -0.458982E+02    0.456309E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134143E+03   -0.433174E+02    0.483253E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.394620E+02    0.497210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.387084E+02    0.342329E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.366896E+02    0.343978E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.381422E+02    0.326967E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.404383E+02    0.330908E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.404442E+02    0.350409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.380679E+02    0.358699E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.361157E+02    0.370410E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.348926E+02    0.357507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.346442E+02    0.340897E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.356514E+02    0.323720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.374030E+02    0.312135E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.394778E+02    0.308843E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.415432E+02    0.313376E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.428296E+02    0.326100E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.429931E+02    0.343657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.420369E+02    0.360852E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.401188E+02    0.373111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.380323E+02    0.376100E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.360031E+02    0.399382E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.329823E+02    0.384371E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.317269E+02    0.357390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.321129E+02    0.327746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.344370E+02    0.301133E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.378842E+02    0.285906E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.416249E+02    0.285624E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.448481E+02    0.299430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.466856E+02    0.324315E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.461678E+02    0.356453E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.434093E+02    0.385198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.397048E+02    0.400475E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.393584E+02    0.242037E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.373330E+02    0.243909E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.388723E+02    0.227813E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.411814E+02    0.230899E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.411038E+02    0.248581E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.387320E+02    0.256612E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.366874E+02    0.268555E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.355413E+02    0.256415E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.352773E+02    0.241774E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.361759E+02    0.226855E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.379208E+02    0.216211E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.401983E+02    0.211574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.421661E+02    0.216005E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.434635E+02    0.226931E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.436481E+02    0.242138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.426041E+02    0.258116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.408069E+02    0.269222E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.386148E+02    0.273215E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.366104E+02    0.295609E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.335606E+02    0.282930E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138463E+03   -0.322688E+02    0.258008E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.328120E+02    0.229708E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.349386E+02    0.206696E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.383883E+02    0.192336E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.423389E+02    0.190356E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.455679E+02    0.202589E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.471933E+02    0.225129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.466026E+02    0.253357E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.440065E+02    0.279710E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.403225E+02    0.295269E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.66 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676696.412677537     
  ps_ts2 prof sum =   676285.504798094     
  trcom prof sum =    676285.504798094     
  ps_ts2 cur sum  =   10269.6260243862     
  trcom cur sum  =    10269.6260243862     
  
  antenna # iant =            2
  powecha_use(iant) =    668826.173727706     
  ps_ts2 prof sum =   668432.659701201     
  trcom prof sum =    668432.659701200     
  ps_ts2 cur sum  =   12346.5571460504     
  trcom cur sum  =    12346.5571460504     
  
  antenna # iant =            3
  powecha_use(iant) =    529091.906046628     
  ps_ts2 prof sum =   528790.240383317     
  trcom prof sum =    528790.240383318     
  ps_ts2 cur sum  =   6875.57284101718     
  trcom cur sum  =    6875.57284101719     
  
  antenna # iant =            4
  powecha_use(iant) =    570021.308073949     
  ps_ts2 prof sum =   569694.264572934     
  trcom prof sum =    569694.264572933     
  ps_ts2 cur sum  =   9553.21339683827     
  trcom cur sum  =    9553.21339683826     
  
  antenna # iant =            5
  powecha_use(iant) =    548050.102608715     
  ps_ts2 prof sum =   547735.836936165     
  trcom prof sum =    547735.836936165     
  ps_ts2 cur sum  =   11098.7647471856     
  trcom cur sum  =    11098.7647471856     
  
  Total ECH heating:      2990938.50639171     
  Total Current Drive:    50143.7341554776     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3190
 TA= 3.48500E+00 CPU TIME= 1.63621E-01 SECONDS.  DT= 8.18103E-05
  
 TEC1=    3.48499999999995     
 TEC2=    3.48999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.79318138888880     
  %check_save_state: izleft hours =    71.1983333333333     
 --> plasma_hash("gframe"): TA= 3.485000E+00 NSTEP=  3190 Hash code:   62877715
 ->PRGCHK: bdy curvature ratio at t= 3.4900E+00 seconds is:  5.6831E-02
% MHDEQ: TG1=     3.485000 ; TG2=     3.490000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7701E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6831E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.485000 TO TG2=    3.490000 @ NSTEP     3190
   GFRAME TG2 MOMENTS CHECKSUM:  2.4597444976224D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.96673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.10809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  4.85338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.23315E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.18165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.33544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.67975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.95364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.17699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.21717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.19616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.35093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.47138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.00465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.47733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.24635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.22833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.46015E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.28462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.87256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.87256E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.4900E+00  3.4950E+00 total power(Watts):  2.9815E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.49000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.383191E+02    0.382403E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.363046E+02    0.383723E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.377600E+02    0.366780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.400502E+02    0.371174E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.400482E+02    0.390794E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.376755E+02    0.398547E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.357188E+02    0.409982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.344091E+02    0.397341E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.343615E+02    0.379715E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.352785E+02    0.363079E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.370304E+02    0.351197E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.391026E+02    0.347917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.410537E+02    0.353706E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.423285E+02    0.367222E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.425961E+02    0.384524E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.416328E+02    0.401453E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.398181E+02    0.412968E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.376263E+02    0.416137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.356847E+02    0.439531E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.326786E+02    0.423094E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.313500E+02    0.396179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.317502E+02    0.366556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.338824E+02    0.340442E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.374240E+02    0.324073E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.411532E+02    0.324084E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.445935E+02    0.338014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.462955E+02    0.365652E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.457613E+02    0.398018E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.429849E+02    0.426667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.393833E+02    0.441447E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.392579E+02    0.297619E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.372346E+02    0.299430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.386792E+02    0.283212E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.409828E+02    0.286663E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.408964E+02    0.305507E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.386271E+02    0.313049E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.365759E+02    0.325357E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.354402E+02    0.312438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.352768E+02    0.296176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.361795E+02    0.280377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.379288E+02    0.269025E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.401107E+02    0.264966E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.420780E+02    0.269810E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.433727E+02    0.281779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.435528E+02    0.298179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.424970E+02    0.315054E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.406926E+02    0.326703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.384973E+02    0.330625E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.364728E+02    0.354516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.335360E+02    0.339306E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.321722E+02    0.313563E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.326360E+02    0.284740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.348517E+02    0.259422E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.383988E+02    0.243559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.421458E+02    0.243098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.456042E+02    0.254663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.472339E+02    0.279420E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.467430E+02    0.309315E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.441121E+02    0.337392E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.401847E+02    0.354857E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.383459E+02    0.437810E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.363264E+02    0.438614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.378008E+02    0.421380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.400917E+02    0.426601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.399618E+02    0.447549E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.376839E+02    0.454419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.357187E+02    0.465369E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.345138E+02    0.451672E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.343854E+02    0.433910E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.352177E+02    0.417428E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.369750E+02    0.405994E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.390551E+02    0.403190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.411131E+02    0.408995E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.423798E+02    0.423138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.426304E+02    0.441453E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.416493E+02    0.458722E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.398213E+02    0.469706E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.376240E+02    0.472077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.356633E+02    0.494584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.326678E+02    0.477238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.312676E+02    0.450434E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.317824E+02    0.419433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.340307E+02    0.393285E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.373912E+02    0.378802E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.411227E+02    0.379651E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.444466E+02    0.395420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.463609E+02    0.423125E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.457909E+02    0.456926E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.430993E+02    0.484054E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.393642E+02    0.497727E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.387191E+02    0.342146E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.366998E+02    0.343809E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.381519E+02    0.326717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.404489E+02    0.330666E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.403483E+02    0.350849E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.380791E+02    0.358605E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.360268E+02    0.370939E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.349031E+02    0.357403E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.347500E+02    0.340073E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.356605E+02    0.323469E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.374119E+02    0.311824E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.394870E+02    0.308513E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.414445E+02    0.313714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.427288E+02    0.326447E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.430049E+02    0.343468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.419379E+02    0.361316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.401304E+02    0.373085E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.379399E+02    0.376635E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.360139E+02    0.399479E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.329913E+02    0.384399E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.316461E+02    0.357913E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138395E+03   -0.321255E+02    0.327493E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.342562E+02    0.302238E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.377908E+02    0.286229E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.416329E+02    0.285197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.448582E+02    0.299029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.466980E+02    0.324017E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.459451E+02    0.357417E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.435358E+02    0.384734E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.397162E+02    0.400579E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.393624E+02    0.241529E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.373371E+02    0.243428E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.387749E+02    0.228074E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.410800E+02    0.231130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.410034E+02    0.248829E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.386362E+02    0.256907E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.366933E+02    0.268132E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.353568E+02    0.257527E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.351867E+02    0.242109E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.362715E+02    0.225558E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.380184E+02    0.214884E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.401987E+02    0.211000E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.421668E+02    0.215438E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.434661E+02    0.226365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.436525E+02    0.241598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.426099E+02    0.257625E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.407079E+02    0.269488E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.386213E+02    0.272779E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.364213E+02    0.296671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.335662E+02    0.282548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.322727E+02    0.257595E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.327264E+02    0.230067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.349380E+02    0.206175E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.384830E+02    0.190957E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.423383E+02    0.189740E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.454584E+02    0.202700E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.470825E+02    0.225239E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.467236E+02    0.252107E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.439029E+02    0.279937E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.403311E+02    0.294881E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670332.354223379     
  ps_ts2 prof sum =   669954.784584413     
  trcom prof sum =    669954.784584413     
  ps_ts2 cur sum  =   10188.6467379350     
  trcom cur sum  =    10188.6467379350     
  
  antenna # iant =            2
  powecha_use(iant) =    667241.498042366     
  ps_ts2 prof sum =   666884.275030400     
  trcom prof sum =    666884.275030400     
  ps_ts2 cur sum  =   12353.5782726473     
  trcom cur sum  =    12353.5782726473     
  
  antenna # iant =            3
  powecha_use(iant) =    527977.470277963     
  ps_ts2 prof sum =   527671.549828153     
  trcom prof sum =    527671.549828154     
  ps_ts2 cur sum  =   6865.35108631428     
  trcom cur sum  =    6865.35108631429     
  
  antenna # iant =            4
  powecha_use(iant) =    567453.048090909     
  ps_ts2 prof sum =   567138.982310387     
  trcom prof sum =    567138.982293617     
  ps_ts2 cur sum  =   9530.52295605062     
  trcom cur sum  =    9530.52295605061     
  
  antenna # iant =            5
  powecha_use(iant) =    548446.001458221     
  ps_ts2 prof sum =   548140.777195559     
  trcom prof sum =    548140.777195559     
  ps_ts2 cur sum  =   11145.5555019305     
  trcom cur sum  =    11145.5555019305     
  
  Total ECH heating:      2979790.36893214     
  Total Current Drive:    50083.6545548777     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3203
 TA= 3.49000E+00 CPU TIME= 1.59429E-01 SECONDS.  DT= 7.06572E-04
  
 TEC1=    3.48999999999995     
 TEC2=    3.49499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.80789305555504     
  %check_save_state: izleft hours =    71.1836111111111     
 --> plasma_hash("gframe"): TA= 3.490000E+00 NSTEP=  3203 Hash code:    9022847
 ->PRGCHK: bdy curvature ratio at t= 3.4950E+00 seconds is:  5.6831E-02
% MHDEQ: TG1=     3.490000 ; TG2=     3.495000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7719E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6831E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.490000 TO TG2=    3.495000 @ NSTEP     3203
   GFRAME TG2 MOMENTS CHECKSUM:  2.4593358528478D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.4950E+00  3.5000E+00 total power(Watts):  2.9884E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.49500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.383315E+02    0.382426E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.363166E+02    0.383750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.377722E+02    0.366728E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.399555E+02    0.371689E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.399532E+02    0.391359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.376867E+02    0.398642E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.355319E+02    0.411056E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.345174E+02    0.396909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.341806E+02    0.380833E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.351913E+02    0.363606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.369411E+02    0.351679E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.391151E+02    0.347774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.410666E+02    0.353581E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.423423E+02    0.367162E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.424971E+02    0.385064E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.415352E+02    0.402037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.397229E+02    0.413577E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.375348E+02    0.416753E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.355964E+02    0.440162E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.325960E+02    0.423719E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.312706E+02    0.396782E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.317609E+02    0.366507E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.338929E+02    0.340263E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.373332E+02    0.324483E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.411652E+02    0.323814E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.443765E+02    0.338982E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.461919E+02    0.366102E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.456576E+02    0.398585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.429977E+02    0.426889E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.392879E+02    0.442073E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.392678E+02    0.297243E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.372440E+02    0.299069E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.386875E+02    0.282797E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.409920E+02    0.286237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.409068E+02    0.305154E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.385345E+02    0.313417E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.365865E+02    0.325117E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.352563E+02    0.313531E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.350939E+02    0.297262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.359929E+02    0.281460E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.379358E+02    0.268587E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.400138E+02    0.265238E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.419780E+02    0.270056E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.432712E+02    0.282020E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.434518E+02    0.298444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.425089E+02    0.314731E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.405969E+02    0.327088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.385089E+02    0.330386E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.364837E+02    0.354409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.334522E+02    0.339784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.321809E+02    0.313288E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.326429E+02    0.284375E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.347631E+02    0.259756E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.383035E+02    0.243836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.421508E+02    0.242567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.453855E+02    0.255548E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.472447E+02    0.278930E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.466386E+02    0.309569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.438976E+02    0.338369E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.401974E+02    0.354740E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.383575E+02    0.438044E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.363375E+02    0.438845E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.377089E+02    0.422001E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.399954E+02    0.427223E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.399736E+02    0.447816E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.375911E+02    0.455033E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.357291E+02    0.465636E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.345242E+02    0.451923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.342017E+02    0.434962E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.352278E+02    0.417593E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.368895E+02    0.406580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.390675E+02    0.403307E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.410158E+02    0.409594E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.423927E+02    0.423343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.425298E+02    0.442073E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.415497E+02    0.459331E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.397240E+02    0.470302E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.376347E+02    0.472362E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.356731E+02    0.494873E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.327691E+02    0.477197E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.312768E+02    0.450667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.317017E+02    0.420060E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.338509E+02    0.394401E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.373012E+02    0.379345E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.411364E+02    0.379650E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.445752E+02    0.395059E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.462555E+02    0.423742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.458039E+02    0.457244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.429966E+02    0.484628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.393751E+02    0.498036E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.387315E+02    0.341966E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.365108E+02    0.344894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.380604E+02    0.327124E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.403536E+02    0.331056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.403610E+02    0.350711E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.379876E+02    0.359091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.360383E+02    0.370905E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.347209E+02    0.358515E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.345688E+02    0.341188E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.355732E+02    0.323896E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.373214E+02    0.312201E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.394976E+02    0.308182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.414560E+02    0.313391E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.427413E+02    0.326176E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.429060E+02    0.343876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.419512E+02    0.361231E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.400355E+02    0.373605E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.379521E+02    0.376632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.359258E+02    0.400075E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.330961E+02    0.383873E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.316564E+02    0.357819E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.321348E+02    0.327273E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.342646E+02    0.301911E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.377997E+02    0.285826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.415345E+02    0.285464E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.447556E+02    0.299275E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.465939E+02    0.324319E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134272E+03   -0.460777E+02    0.356758E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.433215E+02    0.385774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.396214E+02    0.401170E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.393676E+02    0.241024E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.371459E+02    0.244507E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.387779E+02    0.227546E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.410839E+02    0.230580E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.410096E+02    0.248319E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.386423E+02    0.256437E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.366024E+02    0.268457E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.354566E+02    0.256306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.351907E+02    0.241637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.360849E+02    0.226659E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.378254E+02    0.215948E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.400985E+02    0.211232E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.421689E+02    0.214855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.433619E+02    0.226546E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.435485E+02    0.241794E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.425084E+02    0.257850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.407158E+02    0.269025E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.385275E+02    0.273080E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.365284E+02    0.295603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.335734E+02    0.282175E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.321897E+02    0.257970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.327265E+02    0.229604E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.349389E+02    0.205665E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.384819E+02    0.190387E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.422348E+02    0.189907E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.454589E+02    0.202071E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.470866E+02    0.224616E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.465015E+02    0.252960E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.439127E+02    0.279469E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.402353E+02    0.295184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.42 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674365.459354261     
  ps_ts2 prof sum =   673955.513445680     
  trcom prof sum =    673955.513445680     
  ps_ts2 cur sum  =   10270.1159618902     
  trcom cur sum  =    10270.1159618902     
  
  antenna # iant =            2
  powecha_use(iant) =    669973.710967207     
  ps_ts2 prof sum =   669561.526008429     
  trcom prof sum =    669561.526008428     
  ps_ts2 cur sum  =   12441.7518014064     
  trcom cur sum  =    12441.7518014064     
  
  antenna # iant =            3
  powecha_use(iant) =    527474.207136732     
  ps_ts2 prof sum =   527172.471346066     
  trcom prof sum =    527172.471346067     
  ps_ts2 cur sum  =   6865.58105076913     
  trcom cur sum  =    6865.58105076914     
  
  antenna # iant =            4
  powecha_use(iant) =    566975.465222334     
  ps_ts2 prof sum =   566645.550288036     
  trcom prof sum =    566645.550274546     
  ps_ts2 cur sum  =   9547.44767033632     
  trcom cur sum  =    9547.44767033631     
  
  antenna # iant =            5
  powecha_use(iant) =    549617.704896504     
  ps_ts2 prof sum =   549305.176480391     
  trcom prof sum =    549305.176480391     
  ps_ts2 cur sum  =   11207.8665520679     
  trcom cur sum  =    11207.8665520679     
  
  Total ECH heating:      2986640.23755511     
  Total Current Drive:    50332.7630364699     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3208
 TA= 3.49500E+00 CPU TIME= 1.59557E-01 SECONDS.  DT= 1.15772E-03
  
 TEC1=    3.49499999999995     
 TEC2=    3.49999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.82601111111103     
  %check_save_state: izleft hours =    71.1655555555556     
 --> plasma_hash("gframe"): TA= 3.495000E+00 NSTEP=  3208 Hash code:  108842724
 ->PRGCHK: bdy curvature ratio at t= 3.5000E+00 seconds is:  5.6831E-02
% MHDEQ: TG1=     3.495000 ; TG2=     3.500000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7736E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6831E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.495000 TO TG2=    3.500000 @ NSTEP     3208
   GFRAME TG2 MOMENTS CHECKSUM:  2.4589272080731D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.85919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.23801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.09518E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.17294E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.56083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.00361E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.50521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.24175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.18238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -2.62933E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.00234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.70999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.39389E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -6.00162E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.21637E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.72947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.26095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.25812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.25812E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5000E+00  3.5050E+00 total power(Watts):  2.9974E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.50000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.382402E+02    0.382993E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.362287E+02    0.384326E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.376820E+02    0.367260E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.399693E+02    0.371669E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.398589E+02    0.391938E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.375950E+02    0.399250E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.356433E+02    0.410727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.343359E+02    0.398023E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.342885E+02    0.380304E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.352024E+02    0.363561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.368520E+02    0.352177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.390228E+02    0.348237E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.409711E+02    0.354050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.422446E+02    0.367671E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.425115E+02    0.385109E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.415491E+02    0.402167E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.396283E+02    0.414194E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.375473E+02    0.416931E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.354087E+02    0.441189E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.326071E+02    0.423897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.312816E+02    0.396865E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.316806E+02    0.367070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.338095E+02    0.340755E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.373451E+02    0.324237E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.410690E+02    0.324199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.445054E+02    0.338188E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.462076E+02    0.366059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134214E+03   -0.456729E+02    0.398717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.428977E+02    0.427513E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.393004E+02    0.442325E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.391742E+02    0.297588E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.371541E+02    0.299446E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.385945E+02    0.283138E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.408958E+02    0.286547E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.408110E+02    0.305493E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.385461E+02    0.313127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.364983E+02    0.325542E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.353634E+02    0.312557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.351992E+02    0.296202E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.360983E+02    0.280327E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.378434E+02    0.268910E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.400218E+02    0.264783E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.419872E+02    0.269608E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.432816E+02    0.281587E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.434638E+02    0.298058E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.424105E+02    0.315076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.406092E+02    0.326843E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.384175E+02    0.330813E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.364015E+02    0.354885E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.334630E+02    0.339626E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138689E+03   -0.321003E+02    0.313737E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138697E+03   -0.325600E+02    0.284768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.347694E+02    0.259343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.383090E+02    0.243353E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.420501E+02    0.242805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.452810E+02    0.255741E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134504E+03   -0.471391E+02    0.279127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.466527E+02    0.309209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.437977E+02    0.338757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.401032E+02    0.355221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.382646E+02    0.438681E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.362483E+02    0.439476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.377213E+02    0.422193E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.400083E+02    0.427440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.398779E+02    0.448434E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.376030E+02    0.455299E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.356402E+02    0.466225E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.344379E+02    0.452539E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.343099E+02    0.434765E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.351395E+02    0.418228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.369021E+02    0.406710E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.389745E+02    0.403911E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.410294E+02    0.409752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.422931E+02    0.423971E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.425433E+02    0.442344E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.415624E+02    0.459623E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.397359E+02    0.470590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.375421E+02    0.472938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.355838E+02    0.495409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.325899E+02    0.478070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.311966E+02    0.451283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.317124E+02    0.420225E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.337670E+02    0.395004E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.373139E+02    0.379368E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.410404E+02    0.380198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.444724E+02    0.395637E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.461509E+02    0.424360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.456989E+02    0.457865E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.431236E+02    0.484705E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.392785E+02    0.498573E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.386403E+02    0.342419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.366231E+02    0.344116E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.380723E+02    0.326892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.403664E+02    0.330835E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.402666E+02    0.351179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.378971E+02    0.359599E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.359511E+02    0.371456E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.348292E+02    0.357832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.346764E+02    0.340376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.355843E+02    0.323660E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.373326E+02    0.311909E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.394040E+02    0.308544E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.413593E+02    0.313744E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.426431E+02    0.326547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.428072E+02    0.344301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.418543E+02    0.361720E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.400495E+02    0.373589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.378614E+02    0.377189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.359381E+02    0.400181E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.329207E+02    0.385015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138639E+03   -0.315772E+02    0.358368E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138635E+03   -0.320544E+02    0.327754E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.341794E+02    0.302324E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.377083E+02    0.286171E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.415449E+02    0.285051E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.448826E+02    0.298219E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.466088E+02    0.324028E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.459755E+02    0.357199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.432220E+02    0.386327E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.396347E+02    0.401295E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.392718E+02    0.241297E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.372489E+02    0.243254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.386821E+02    0.227819E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.409844E+02    0.230821E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.409107E+02    0.248587E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.385481E+02    0.256740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.366098E+02    0.268039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.352735E+02    0.257437E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.352889E+02    0.240377E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.361825E+02    0.225356E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.379252E+02    0.214614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.401011E+02    0.210668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.420669E+02    0.215055E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.433666E+02    0.225985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.435550E+02    0.241260E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.425162E+02    0.257361E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.406186E+02    0.269314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.385357E+02    0.272659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.363414E+02    0.296685E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.334890E+02    0.282565E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.321952E+02    0.257566E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138768E+03   -0.326418E+02    0.229969E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.348488E+02    0.205978E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.383850E+02    0.190628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.422305E+02    0.189323E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.453507E+02    0.202202E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.469775E+02    0.224741E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.466253E+02    0.251708E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.438109E+02    0.279721E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.402460E+02    0.294815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678190.515667497     
  ps_ts2 prof sum =   677792.763704950     
  trcom prof sum =    677792.763704950     
  ps_ts2 cur sum  =   10348.6916022216     
  trcom cur sum  =    10348.6916022216     
  
  antenna # iant =            2
  powecha_use(iant) =    673663.358898152     
  ps_ts2 prof sum =   673281.189424946     
  trcom prof sum =    673281.189424945     
  ps_ts2 cur sum  =   12552.3689095390     
  trcom cur sum  =    12552.3689095390     
  
  antenna # iant =            3
  powecha_use(iant) =    528759.861398451     
  ps_ts2 prof sum =   528464.458683049     
  trcom prof sum =    528464.458683050     
  ps_ts2 cur sum  =   6889.22180433739     
  trcom cur sum  =    6889.22180433740     
  
  antenna # iant =            4
  powecha_use(iant) =    568214.323789870     
  ps_ts2 prof sum =   567900.254677236     
  trcom prof sum =    567900.254677235     
  ps_ts2 cur sum  =   9594.71531070526     
  trcom cur sum  =    9594.71531070525     
  
  antenna # iant =            5
  powecha_use(iant) =    548573.572619726     
  ps_ts2 prof sum =   548278.103632345     
  trcom prof sum =    548278.103632345     
  ps_ts2 cur sum  =   11229.1980620273     
  trcom cur sum  =    11229.1980620273     
  
  Total ECH heating:      2995716.77012252     
  Total Current Drive:    50614.1956888306     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3212
 TA= 3.50000E+00 CPU TIME= 1.61153E-01 SECONDS.  DT= 7.32764E-04
  
 TEC1=    3.49999999999995     
 TEC2=    3.50499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.83765583333320     
  %check_save_state: izleft hours =    71.1538888888889     
 --> plasma_hash("gframe"): TA= 3.500000E+00 NSTEP=  3212 Hash code:   91483936
 ->PRGCHK: bdy curvature ratio at t= 3.5050E+00 seconds is:  5.6830E-02
% MHDEQ: TG1=     3.500000 ; TG2=     3.505000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7754E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6830E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.500000 TO TG2=    3.505000 @ NSTEP     3212
   GFRAME TG2 MOMENTS CHECKSUM:  2.4585185632985D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5050E+00  3.5100E+00 total power(Watts):  2.4990E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.50500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.382543E+02    0.383059E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.362420E+02    0.384400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.375928E+02    0.367815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.398763E+02    0.372227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.398732E+02    0.392055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.375041E+02    0.399886E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.355566E+02    0.411374E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.344452E+02    0.397631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.341089E+02    0.381466E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.351169E+02    0.364123E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.368654E+02    0.352087E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.389318E+02    0.348738E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.409860E+02    0.353965E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.422600E+02    0.367658E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.424139E+02    0.385706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.414528E+02    0.402783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.396423E+02    0.414393E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.374569E+02    0.417580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.355202E+02    0.441050E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.325253E+02    0.424553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138661E+03   -0.312032E+02    0.397505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.316927E+02    0.367055E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.338218E+02    0.340604E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.372566E+02    0.324678E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.410834E+02    0.323946E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.442904E+02    0.339206E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.461059E+02    0.366570E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.455704E+02    0.399335E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.430261E+02    0.427378E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.392059E+02    0.442985E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.391863E+02    0.297235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.371660E+02    0.299106E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.386053E+02    0.282742E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.409074E+02    0.286143E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.408241E+02    0.305164E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.384553E+02    0.313526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.365109E+02    0.325324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.351813E+02    0.313689E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.350177E+02    0.297331E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.359134E+02    0.281442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.377522E+02    0.269241E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.399265E+02    0.265094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.418893E+02    0.269879E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.431824E+02    0.281857E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.433651E+02    0.298360E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.424249E+02    0.314785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.405157E+02    0.327257E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.384310E+02    0.330612E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.364154E+02    0.354809E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.333812E+02    0.340134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.321109E+02    0.313485E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.325688E+02    0.284419E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.346827E+02    0.259708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.382159E+02    0.243653E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.420578E+02    0.242287E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.452913E+02    0.255210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.469174E+02    0.280016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.465507E+02    0.309498E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.438134E+02    0.338577E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.401178E+02    0.355141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.381722E+02    0.439337E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.361594E+02    0.440131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.376305E+02    0.422848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.399132E+02    0.428101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.398905E+02    0.448738E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.375112E+02    0.455937E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.355517E+02    0.466837E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.342546E+02    0.453542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.342247E+02    0.435422E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.351495E+02    0.418441E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.368134E+02    0.407348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.389885E+02    0.404066E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.409335E+02    0.410390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.421945E+02    0.424622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.424437E+02    0.442997E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.414637E+02    0.460259E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.396400E+02    0.471203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.374490E+02    0.473546E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.354943E+02    0.495954E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.325099E+02    0.478636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.312069E+02    0.451540E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.316326E+02    0.420882E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.338751E+02    0.394590E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.372251E+02    0.379961E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.410555E+02    0.380252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.442541E+02    0.396728E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.461663E+02    0.424634E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.455942E+02    0.458519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.429073E+02    0.485537E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.392900E+02    0.498899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.385492E+02    0.342898E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.365368E+02    0.344613E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.379825E+02    0.327325E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.402730E+02    0.331267E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.401733E+02    0.351668E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.379112E+02    0.359545E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.359645E+02    0.371464E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.347454E+02    0.358386E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.344965E+02    0.341525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.354989E+02    0.324109E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.372438E+02    0.312323E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.393117E+02    0.308923E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.413731E+02    0.313450E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.426578E+02    0.326317E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.428226E+02    0.344156E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.417583E+02    0.362238E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.399559E+02    0.374159E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.378754E+02    0.377225E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.358512E+02    0.400815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.328395E+02    0.385634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138643E+03   -0.315890E+02    0.358311E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138644E+03   -0.320656E+02    0.327557E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.341897E+02    0.302021E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.377189E+02    0.285798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.414485E+02    0.285351E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.446679E+02    0.299174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.465069E+02    0.324369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.459923E+02    0.357128E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.432375E+02    0.386424E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.395415E+02    0.401923E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.392792E+02    0.240796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.370596E+02    0.244361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.386879E+02    0.227301E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.409907E+02    0.230291E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.409189E+02    0.248086E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.385564E+02    0.256277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.365207E+02    0.268385E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.353757E+02    0.256222E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.351071E+02    0.241525E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.359974E+02    0.226482E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.377333E+02    0.215711E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.400034E+02    0.210905E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.419663E+02    0.215262E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.432643E+02    0.226180E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.434534E+02    0.241472E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.424168E+02    0.257614E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.406287E+02    0.268870E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.384437E+02    0.272982E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.364511E+02    0.295625E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138281E+03   -0.335901E+02    0.281440E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138973E+03   -0.321132E+02    0.257966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.326468E+02    0.229508E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.347586E+02    0.206304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.381924E+02    0.191698E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.421282E+02    0.189498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.453544E+02    0.201570E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.470988E+02    0.223396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.464050E+02    0.252594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.438229E+02    0.279278E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.401518E+02    0.295156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    184908.780718825     
  ps_ts2 prof sum =   184806.611284936     
  trcom prof sum =    184806.611284936     
  ps_ts2 cur sum  =   2829.28597439915     
  trcom cur sum  =    2829.28597439915     
  
  antenna # iant =            2
  powecha_use(iant) =    670470.033973576     
  ps_ts2 prof sum =   670067.781087533     
  trcom prof sum =    670067.781087533     
  ps_ts2 cur sum  =   12545.1168243901     
  trcom cur sum  =    12545.1168243901     
  
  antenna # iant =            3
  powecha_use(iant) =    527004.574365177     
  ps_ts2 prof sum =   526684.093517350     
  trcom prof sum =    526684.093517350     
  ps_ts2 cur sum  =   6876.43669777927     
  trcom cur sum  =    6876.43669777927     
  
  antenna # iant =            4
  powecha_use(iant) =    566236.284204185     
  ps_ts2 prof sum =   565916.595450910     
  trcom prof sum =    565916.595450910     
  ps_ts2 cur sum  =   9595.32642731645     
  trcom cur sum  =    9595.32642731645     
  
  antenna # iant =            5
  powecha_use(iant) =    550336.699262899     
  ps_ts2 prof sum =   550024.589652129     
  trcom prof sum =    550024.589652128     
  ps_ts2 cur sum  =   11315.1173228346     
  trcom cur sum  =    11315.1173228346     
  
  Total ECH heating:      2497499.67099286     
  Total Current Drive:    43161.2832467195     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3217
 TA= 3.50500E+00 CPU TIME= 1.61004E-01 SECONDS.  DT= 9.68945E-04
  
 TEC1=    3.50499999999995     
 TEC2=    3.50999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.85015749999957     
  %check_save_state: izleft hours =    71.1413888888889     
 --> plasma_hash("gframe"): TA= 3.505000E+00 NSTEP=  3217 Hash code:   83884613
 ->PRGCHK: bdy curvature ratio at t= 3.5100E+00 seconds is:  5.6677E-02
% MHDEQ: TG1=     3.505000 ; TG2=     3.510000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7740E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6677E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.505000 TO TG2=    3.510000 @ NSTEP     3217
   GFRAME TG2 MOMENTS CHECKSUM:  2.4585571906992D+04
 %MFRCHK - LABEL "RMC12", #       1= -5.89397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.33412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.33253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.73932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.20258E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.18565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.59814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.91946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.54320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.78727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.25608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -5.25796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.97724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.43747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.33847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.27076E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.95770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.96605E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       6= -1.21887E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.76346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.76346E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5100E+00  3.5150E+00 total power(Watts):  2.3144E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.51000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.391548E+02    0.297110E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.371360E+02    0.299011E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.386758E+02    0.281771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.408738E+02    0.285923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.408996E+02    0.304384E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.385285E+02    0.312803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.363834E+02    0.326000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.353476E+02    0.312264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.351805E+02    0.295775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.360773E+02    0.279719E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.378199E+02    0.268160E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.399965E+02    0.263945E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.419624E+02    0.268776E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.432609E+02    0.280851E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.434429E+02    0.297518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.425035E+02    0.314055E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.405927E+02    0.326589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.384023E+02    0.330608E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.363884E+02    0.354780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.334504E+02    0.339490E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138764E+03   -0.320851E+02    0.313487E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138783E+03   -0.325409E+02    0.284264E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.347451E+02    0.258570E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.382805E+02    0.242416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.421269E+02    0.241011E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.454793E+02    0.253230E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.471147E+02    0.278280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.466335E+02    0.308722E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.440104E+02    0.337323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.400890E+02    0.355090E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.382477E+02    0.439205E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.362328E+02    0.439979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.377059E+02    0.422731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.399913E+02    0.428004E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.398597E+02    0.448948E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.375858E+02    0.455790E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.356180E+02    0.466773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.344231E+02    0.452997E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.342958E+02    0.435258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.351278E+02    0.418725E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.368875E+02    0.407137E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.389594E+02    0.404295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.410126E+02    0.410216E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.422759E+02    0.424536E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.425245E+02    0.442887E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.415430E+02    0.460153E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.397172E+02    0.471160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.375236E+02    0.473515E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.355644E+02    0.496051E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.325767E+02    0.478632E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138189E+03   -0.312726E+02    0.451352E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.316998E+02    0.420723E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.339455E+02    0.394212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.373011E+02    0.379426E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.410258E+02    0.380257E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.443364E+02    0.396395E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.462511E+02    0.424585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.456777E+02    0.458422E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.429867E+02    0.485629E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.392571E+02    0.499246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.386253E+02    0.342254E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.366098E+02    0.343973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.380569E+02    0.326673E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.403502E+02    0.330611E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.402518E+02    0.351042E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.379879E+02    0.358908E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.358399E+02    0.372007E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.348165E+02    0.357747E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.346640E+02    0.340233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.355695E+02    0.323440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.373161E+02    0.311590E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.393857E+02    0.308171E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.414456E+02    0.312740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.426260E+02    0.326273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.429047E+02    0.343504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.418400E+02    0.361604E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.400351E+02    0.373582E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.378486E+02    0.377209E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.359243E+02    0.400515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.329085E+02    0.385141E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138706E+03   -0.315663E+02    0.358296E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138707E+03   -0.320415E+02    0.327580E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.343475E+02    0.300523E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.376877E+02    0.285592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.415228E+02    0.284404E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.447474E+02    0.298329E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.465916E+02    0.323672E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.458420E+02    0.357574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.434351E+02    0.385458E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.396196E+02    0.401647E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.392398E+02    0.240342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.372210E+02    0.242337E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.387509E+02    0.226023E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.409547E+02    0.229758E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.408822E+02    0.247615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.386231E+02    0.255102E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.365871E+02    0.267300E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.354384E+02    0.255061E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.351678E+02    0.240299E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.360569E+02    0.225223E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.378908E+02    0.213618E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.400647E+02    0.209611E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.420310E+02    0.213946E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.433318E+02    0.224859E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.435239E+02    0.240179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.424883E+02    0.256418E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.406998E+02    0.267772E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.385126E+02    0.271932E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.363222E+02    0.296241E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138572E+03   -0.334690E+02    0.282025E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138832E+03   -0.321728E+02    0.256820E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.327026E+02    0.228270E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.348143E+02    0.205046E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.382480E+02    0.190440E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.421868E+02    0.188205E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.454191E+02    0.200226E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.471697E+02    0.222020E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.465971E+02    0.250594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.438994E+02    0.278253E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.402259E+02    0.294290E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.39 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    669659.886728325     
  ps_ts2 prof sum =   669282.185145068     
  trcom prof sum =    669282.185145068     
  ps_ts2 cur sum  =   12498.1852901125     
  trcom cur sum  =    12498.1852901125     
  
  antenna # iant =            3
  powecha_use(iant) =    529403.494931194     
  ps_ts2 prof sum =   529106.697772603     
  trcom prof sum =    529106.697772604     
  ps_ts2 cur sum  =   6872.85894584772     
  trcom cur sum  =    6872.85894584773     
  
  antenna # iant =            4
  powecha_use(iant) =    564604.458219641     
  ps_ts2 prof sum =   564288.180965526     
  trcom prof sum =    564288.180965526     
  ps_ts2 cur sum  =   9537.83429030387     
  trcom cur sum  =    9537.83429030386     
  
  antenna # iant =            5
  powecha_use(iant) =    550703.961424477     
  ps_ts2 prof sum =   550401.468091636     
  trcom prof sum =    550401.468091636     
  ps_ts2 cur sum  =   11302.1518105326     
  trcom cur sum  =    11302.1518105326     
  
  Total ECH heating:      2313078.53197483     
  Total Current Drive:    40211.0303367967     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3221
 TA= 3.51000E+00 CPU TIME= 1.59740E-01 SECONDS.  DT= 1.63237E-03
  
 TEC1=    3.50999999999995     
 TEC2=    3.51499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.86264666666648     
  %check_save_state: izleft hours =    71.1288888888889     
 --> plasma_hash("gframe"): TA= 3.510000E+00 NSTEP=  3221 Hash code:  105444622
 ->PRGCHK: bdy curvature ratio at t= 3.5150E+00 seconds is:  5.6525E-02
% MHDEQ: TG1=     3.510000 ; TG2=     3.515000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7726E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6525E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.510000 TO TG2=    3.515000 @ NSTEP     3221
   GFRAME TG2 MOMENTS CHECKSUM:  2.4585958180999D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5150E+00  3.5200E+00 total power(Watts):  2.9296E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.51500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.383040E+02    0.382591E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.362905E+02    0.383949E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.377456E+02    0.366597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.400347E+02    0.371058E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.399230E+02    0.391751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.376561E+02    0.399263E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.357017E+02    0.411011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.344908E+02    0.397468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.343487E+02    0.379851E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.350675E+02    0.364061E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.369135E+02    0.351412E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.390864E+02    0.347433E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.410372E+02    0.353263E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.423124E+02    0.366993E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.424659E+02    0.385256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.415027E+02    0.402727E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.396907E+02    0.414549E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.376072E+02    0.417315E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.355659E+02    0.441168E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.327553E+02    0.423834E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138553E+03   -0.312470E+02    0.397308E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.317374E+02    0.366433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.338665E+02    0.339965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.374028E+02    0.323291E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.411316E+02    0.323191E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.445705E+02    0.337275E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.460419E+02    0.366402E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.455043E+02    0.399670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.429614E+02    0.428040E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.392536E+02    0.443125E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.392279E+02    0.296237E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.372065E+02    0.298156E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.386440E+02    0.281518E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.409474E+02    0.284961E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.408675E+02    0.304250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.386026E+02    0.312026E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.365550E+02    0.324619E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.354171E+02    0.311505E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.352482E+02    0.294909E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.361442E+02    0.278718E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.378872E+02    0.267058E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.400671E+02    0.262791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.420356E+02    0.267635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.433366E+02    0.279829E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.435262E+02    0.296603E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.424717E+02    0.313933E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.406706E+02    0.325882E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.384775E+02    0.329913E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.364625E+02    0.354138E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.336131E+02    0.338171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.321500E+02    0.312733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138636E+03   -0.326032E+02    0.283313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.348078E+02    0.257398E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.383454E+02    0.241161E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.421959E+02    0.239713E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.455545E+02    0.251967E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.471951E+02    0.277219E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.467164E+02    0.307909E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.438648E+02    0.337854E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.401686E+02    0.354446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.383238E+02    0.439112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.363062E+02    0.439868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.376774E+02    0.423064E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.399614E+02    0.428338E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.399378E+02    0.448855E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.376602E+02    0.455685E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.356949E+02    0.466682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.344937E+02    0.452866E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.341777E+02    0.435956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.351998E+02    0.418594E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.369621E+02    0.406911E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.390370E+02    0.404029E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.409825E+02    0.410493E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.423571E+02    0.424471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.424925E+02    0.443179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.415110E+02    0.460378E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.396856E+02    0.471421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.375970E+02    0.473498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.356349E+02    0.496146E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.327374E+02    0.478325E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.312492E+02    0.451579E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.316757E+02    0.421042E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.338252E+02    0.394866E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.373765E+02    0.378902E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.411068E+02    0.379728E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.445369E+02    0.395582E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.462169E+02    0.424927E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.457617E+02    0.458363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.431807E+02    0.485474E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.393321E+02    0.499374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.387019E+02    0.341593E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.366839E+02    0.343315E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.381311E+02    0.325963E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.404314E+02    0.329896E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.403310E+02    0.350392E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.379605E+02    0.358866E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.360161E+02    0.370840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.346947E+02    0.358335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.345417E+02    0.340883E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.354448E+02    0.324086E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.372870E+02    0.311515E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.394603E+02    0.307367E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.414189E+02    0.312611E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.427063E+02    0.325556E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.428742E+02    0.343441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.419218E+02    0.360974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.401147E+02    0.373014E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.379246E+02    0.376670E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.358977E+02    0.400716E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.329790E+02    0.384649E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.316335E+02    0.357665E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.321071E+02    0.326891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.342253E+02    0.301169E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.377606E+02    0.284617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.415971E+02    0.283423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.449420E+02    0.296769E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.466761E+02    0.322937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.460464E+02    0.356387E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.432897E+02    0.385988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.395907E+02    0.401836E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.393055E+02    0.239069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.372847E+02    0.241089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.387133E+02    0.225523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.410178E+02    0.228468E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.409501E+02    0.246354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.385891E+02    0.254664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.366524E+02    0.266200E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.353116E+02    0.255466E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.353224E+02    0.238241E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.362113E+02    0.223119E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.379501E+02    0.212313E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.401258E+02    0.208281E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.420943E+02    0.212610E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.433992E+02    0.223520E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.435945E+02    0.238869E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.425604E+02    0.255184E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.406655E+02    0.267391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.385817E+02    0.270860E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.364902E+02    0.294646E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.335324E+02    0.281051E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.322311E+02    0.255667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138732E+03   -0.326703E+02    0.227862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138262E+03   -0.348680E+02    0.203771E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.384004E+02    0.188285E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.422455E+02    0.186836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.453730E+02    0.199610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.472407E+02    0.220624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.466718E+02    0.249301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.438633E+02    0.277923E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.401938E+02    0.294110E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    611744.350686909     
  ps_ts2 prof sum =   611376.655202893     
  trcom prof sum =    611376.655202893     
  ps_ts2 cur sum  =   9288.57426707507     
  trcom cur sum  =    9288.57426707506     
  
  antenna # iant =            2
  powecha_use(iant) =    669455.151988828     
  ps_ts2 prof sum =   669108.202359394     
  trcom prof sum =    669108.202359394     
  ps_ts2 cur sum  =   12460.8966831653     
  trcom cur sum  =    12460.8966831653     
  
  antenna # iant =            3
  powecha_use(iant) =    530003.820672936     
  ps_ts2 prof sum =   529694.735425589     
  trcom prof sum =    529694.735425589     
  ps_ts2 cur sum  =   6846.16619136108     
  trcom cur sum  =    6846.16619136108     
  
  antenna # iant =            4
  powecha_use(iant) =    567353.804944635     
  ps_ts2 prof sum =   567000.164703710     
  trcom prof sum =    567000.164703709     
  ps_ts2 cur sum  =   9551.90482459994     
  trcom cur sum  =    9551.90482459994     
  
  antenna # iant =            5
  powecha_use(iant) =    551039.430219637     
  ps_ts2 prof sum =   550749.815024576     
  trcom prof sum =    550749.814994699     
  ps_ts2 cur sum  =   11285.3753525352     
  trcom cur sum  =    11285.3753525352     
  
  Total ECH heating:      2927929.57268628     
  Total Current Drive:    49432.9173187366     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3224
 TA= 3.51500E+00 CPU TIME= 1.59878E-01 SECONDS.  DT= 1.65895E-03
  
 TEC1=    3.51499999999995     
 TEC2=    3.51999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.88016222222177     
  %check_save_state: izleft hours =    71.1113888888889     
 --> plasma_hash("gframe"): TA= 3.515000E+00 NSTEP=  3224 Hash code:   59098546
 ->PRGCHK: bdy curvature ratio at t= 3.5200E+00 seconds is:  5.6374E-02
% MHDEQ: TG1=     3.515000 ; TG2=     3.520000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1500E-03 SECONDS
   DATA R*BT AT EDGE:  2.7711E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6374E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.515000 TO TG2=    3.520000 @ NSTEP     3224
   GFRAME TG2 MOMENTS CHECKSUM:  2.4586344506193D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.09117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.37213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.52025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.94351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.34102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.81391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.69183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.22965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.03598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.41986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  3.02126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.29687E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.30163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.32666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.09949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.45455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.30642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.76546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.97490E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.97490E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5200E+00  3.5250E+00 total power(Watts):  2.9910E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.52000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.383795E+02    0.382099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.363626E+02    0.383479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.378158E+02    0.366034E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.401123E+02    0.370496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.400003E+02    0.391338E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.377304E+02    0.398930E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.355746E+02    0.411739E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.345610E+02    0.397103E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.342258E+02    0.380461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.351390E+02    0.363463E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.369867E+02    0.350781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.391620E+02    0.346786E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.411156E+02    0.352634E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.423931E+02    0.366402E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.425464E+02    0.384801E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.415818E+02    0.402456E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.397667E+02    0.414391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.375779E+02    0.417611E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.356367E+02    0.441061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.326365E+02    0.424593E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.313128E+02    0.396936E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.318042E+02    0.365840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.339347E+02    0.339302E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.374743E+02    0.322551E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.412066E+02    0.322441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.444219E+02    0.337800E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.462449E+02    0.365284E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.457053E+02    0.398917E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.431589E+02    0.427570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.393294E+02    0.443040E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.392998E+02    0.295304E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.372757E+02    0.297257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.387134E+02    0.280481E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.410202E+02    0.283932E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.409423E+02    0.303369E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.385709E+02    0.311914E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.366261E+02    0.323883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137890E+03   -0.352915E+02    0.312110E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.353150E+02    0.293974E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.362105E+02    0.277670E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.379542E+02    0.265921E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.401352E+02    0.261633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.421071E+02    0.266490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.434111E+02    0.278748E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.435983E+02    0.295684E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.425486E+02    0.313133E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.407468E+02    0.325137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.385513E+02    0.329203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.365352E+02    0.353515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.334946E+02    0.338824E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.322142E+02    0.311943E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138491E+03   -0.326648E+02    0.282313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.348692E+02    0.256248E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.384089E+02    0.239932E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.421559E+02    0.239229E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.456280E+02    0.250711E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.472737E+02    0.276090E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.467984E+02    0.307029E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.439460E+02    0.337167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.402459E+02    0.353821E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.382933E+02    0.439406E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.362770E+02    0.440157E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.377514E+02    0.422954E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.400382E+02    0.428252E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.400206E+02    0.448744E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.376303E+02    0.455913E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.356657E+02    0.466913E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.343686E+02    0.453467E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.343389E+02    0.435446E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.352703E+02    0.418446E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.369335E+02    0.407144E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.391129E+02    0.403768E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.410606E+02    0.410302E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.424358E+02    0.424401E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.425721E+02    0.443110E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.415885E+02    0.460308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.397606E+02    0.471379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.375660E+02    0.473749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.356043E+02    0.496468E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.326162E+02    0.478896E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.313135E+02    0.451437E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.317418E+02    0.420883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.338951E+02    0.394466E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.373481E+02    0.378935E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.411858E+02    0.379225E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.446188E+02    0.395234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133754E+03   -0.463000E+02    0.424872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.458437E+02    0.458295E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.430304E+02    0.486013E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.394056E+02    0.499489E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.387768E+02    0.340933E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.367568E+02    0.342665E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.382042E+02    0.325235E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.405044E+02    0.329197E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.404084E+02    0.349752E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.380354E+02    0.358254E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.360855E+02    0.370288E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.347653E+02    0.357720E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.346106E+02    0.340225E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.355141E+02    0.323346E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.373573E+02    0.310703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.395333E+02    0.306523E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.414945E+02    0.311794E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.427853E+02    0.324804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.429546E+02    0.342779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.420016E+02    0.360365E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.400845E+02    0.373011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.379996E+02    0.376140E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.359700E+02    0.400391E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.331405E+02    0.383612E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.316950E+02    0.357077E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.321719E+02    0.326167E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.342910E+02    0.300282E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.378262E+02    0.283626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.415621E+02    0.283106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.450201E+02    0.295829E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.465223E+02    0.323410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.461306E+02    0.355755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.433715E+02    0.385530E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.396673E+02    0.401537E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.393697E+02    0.237829E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.373466E+02    0.239863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.387744E+02    0.224268E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.410818E+02    0.227196E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.410180E+02    0.245114E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.386546E+02    0.253477E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.367178E+02    0.265069E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.353735E+02    0.254300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.351936E+02    0.238675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.362660E+02    0.221898E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.380081E+02    0.211039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.401853E+02    0.206982E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.421565E+02    0.211302E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.434669E+02    0.222196E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.436633E+02    0.237595E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.426313E+02    0.253955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.407356E+02    0.266240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.385480E+02    0.270503E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.365585E+02    0.293705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.335951E+02    0.280031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.322890E+02    0.254517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.327247E+02    0.226653E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.349206E+02    0.202517E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.384541E+02    0.186966E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.423025E+02    0.185479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.454349E+02    0.198250E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134424E+03   -0.473098E+02    0.219269E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.467459E+02    0.248016E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.439385E+02    0.276817E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.402666E+02    0.293162E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672420.162375040     
  ps_ts2 prof sum =   672009.906974890     
  trcom prof sum =    672009.906974889     
  ps_ts2 cur sum  =   10160.3224619373     
  trcom cur sum  =    10160.3224619373     
  
  antenna # iant =            2
  powecha_use(iant) =    671095.488886844     
  ps_ts2 prof sum =   670722.786383748     
  trcom prof sum =    670722.786383748     
  ps_ts2 cur sum  =   12449.0194524641     
  trcom cur sum  =    12449.0194524641     
  
  antenna # iant =            3
  powecha_use(iant) =    529088.926980458     
  ps_ts2 prof sum =   528758.394874867     
  trcom prof sum =    528758.394874867     
  ps_ts2 cur sum  =   6797.33988164902     
  trcom cur sum  =    6797.33988164903     
  
  antenna # iant =            4
  powecha_use(iant) =    567828.089257659     
  ps_ts2 prof sum =   567490.594370151     
  trcom prof sum =    567490.594370150     
  ps_ts2 cur sum  =   9520.81366058747     
  trcom cur sum  =    9520.81366058746     
  
  antenna # iant =            5
  powecha_use(iant) =    550597.967024673     
  ps_ts2 prof sum =   550302.682338003     
  trcom prof sum =    550302.682338003     
  ps_ts2 cur sum  =   11247.4597836818     
  trcom cur sum  =    11247.4597836818     
  
  Total ECH heating:      2989284.36494166     
  Total Current Drive:    50174.9552403196     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3227
 TA= 3.52000E+00 CPU TIME= 1.59895E-01 SECONDS.  DT= 1.58419E-03
  
 TEC1=    3.51999999999995     
 TEC2=    3.52499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.89512722222184     
  %check_save_state: izleft hours =    71.0961111111111     
 --> plasma_hash("gframe"): TA= 3.520000E+00 NSTEP=  3227 Hash code:  113932351
 ->PRGCHK: bdy curvature ratio at t= 3.5250E+00 seconds is:  5.6225E-02
% MHDEQ: TG1=     3.520000 ; TG2=     3.525000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7697E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6225E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.520000 TO TG2=    3.525000 @ NSTEP     3227
   GFRAME TG2 MOMENTS CHECKSUM:  2.4586730831388D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5250E+00  3.5300E+00 total power(Watts):  2.9972E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.52500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.383525E+02    0.382198E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.363417E+02    0.383565E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.377941E+02    0.366036E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.400849E+02    0.370525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.400796E+02    0.390988E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.377029E+02    0.399136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.357469E+02    0.411090E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.344400E+02    0.397809E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.342980E+02    0.379991E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.353094E+02    0.362304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.370618E+02    0.350164E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.391351E+02    0.346762E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.411965E+02    0.352029E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.424760E+02    0.365862E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.426297E+02    0.384391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.416627E+02    0.402212E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.398451E+02    0.414255E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.376529E+02    0.417492E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.357084E+02    0.440974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.327050E+02    0.424476E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.313796E+02    0.396597E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.317813E+02    0.365896E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.341001E+02    0.337954E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.374485E+02    0.322421E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.412869E+02    0.321639E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.445064E+02    0.337107E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134068E+03   -0.463323E+02    0.364735E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.457916E+02    0.398647E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.430099E+02    0.428330E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.394066E+02    0.442977E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.393746E+02    0.294290E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.373483E+02    0.296254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.387857E+02    0.279393E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.410964E+02    0.282845E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.410216E+02    0.302397E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.386480E+02    0.311020E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.367003E+02    0.323089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.354587E+02    0.310519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.351919E+02    0.294459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.360852E+02    0.278121E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.380247E+02    0.264815E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.401036E+02    0.261271E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.421831E+02    0.265352E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.433789E+02    0.278343E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.435677E+02    0.295338E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.426300E+02    0.312244E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.407189E+02    0.325011E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.385240E+02    0.329110E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.364093E+02    0.354142E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.335641E+02    0.338139E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.321896E+02    0.311798E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.327293E+02    0.281251E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.350266E+02    0.254383E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.384757E+02    0.238820E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.422272E+02    0.238095E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.454772E+02    0.251046E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.473617E+02    0.274893E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.467660E+02    0.306741E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.440301E+02    0.336469E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.403257E+02    0.353220E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.383699E+02    0.439342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.363499E+02    0.440083E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.378256E+02    0.422875E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.401161E+02    0.428203E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.399843E+02    0.449045E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.377050E+02    0.455839E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.357375E+02    0.466863E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.345365E+02    0.453005E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.344096E+02    0.435363E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.352441E+02    0.418771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.370084E+02    0.406931E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.390843E+02    0.404010E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.411409E+02    0.410127E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.424048E+02    0.424743E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.426532E+02    0.443080E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.416685E+02    0.460257E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.398373E+02    0.471373E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.376395E+02    0.473756E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.356744E+02    0.496590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.326832E+02    0.478908E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.312903E+02    0.451682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.318092E+02    0.420745E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.340608E+02    0.393601E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.374247E+02    0.378463E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.412671E+02    0.378773E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.444714E+02    0.395872E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133593E+03   -0.463849E+02    0.424855E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133644E+03   -0.458087E+02    0.458587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.431102E+02    0.486117E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.393783E+02    0.499845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.387497E+02    0.340899E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.367307E+02    0.342633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.381777E+02    0.325122E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.404757E+02    0.329101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.403792E+02    0.349741E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.381122E+02    0.357664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.361599E+02    0.369764E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.349344E+02    0.356519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.347743E+02    0.338911E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.356849E+02    0.321865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.374342E+02    0.309791E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.396111E+02    0.305583E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.415751E+02    0.310890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.428700E+02    0.324003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.430379E+02    0.342114E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.419727E+02    0.360372E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.401648E+02    0.372504E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.379733E+02    0.376209E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.360432E+02    0.400114E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.330232E+02    0.384284E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138451E+03   -0.316779E+02    0.357082E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.321481E+02    0.326113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.343595E+02    0.299317E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.378978E+02    0.282557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.416389E+02    0.282014E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.448743E+02    0.296139E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.467277E+02    0.321972E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.462237E+02    0.355140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.434555E+02    0.385138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.397461E+02    0.401279E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.394373E+02    0.236708E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.372156E+02    0.240390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.388385E+02    0.223103E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.411495E+02    0.226023E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.410890E+02    0.244004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.387242E+02    0.252382E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.366890E+02    0.264750E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.355337E+02    0.252419E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.352557E+02    0.237591E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.361400E+02    0.222385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.380656E+02    0.209830E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.401467E+02    0.206530E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.422221E+02    0.210032E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.434255E+02    0.221781E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.436212E+02    0.237247E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.427051E+02    0.252844E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.408095E+02    0.265099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.386200E+02    0.269391E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.366294E+02    0.292688E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.337536E+02    0.278180E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.322613E+02    0.254283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.327819E+02    0.225529E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.349760E+02    0.201253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.385114E+02    0.185618E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.422594E+02    0.184915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.455013E+02    0.196892E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.471532E+02    0.219525E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.468236E+02    0.246853E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.440178E+02    0.275686E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.403427E+02    0.292121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    683521.147724917     
  ps_ts2 prof sum =   683124.167587244     
  trcom prof sum =    683124.167587244     
  ps_ts2 cur sum  =   10290.1597834619     
  trcom cur sum  =    10290.1597834619     
  
  antenna # iant =            2
  powecha_use(iant) =    666364.244322455     
  ps_ts2 prof sum =   665962.233982579     
  trcom prof sum =    665962.233944384     
  ps_ts2 cur sum  =   12333.9663587551     
  trcom cur sum  =    12333.9663587551     
  
  antenna # iant =            3
  powecha_use(iant) =    528603.031117695     
  ps_ts2 prof sum =   528294.781580000     
  trcom prof sum =    528294.781580000     
  ps_ts2 cur sum  =   6758.85753127732     
  trcom cur sum  =    6758.85753127733     
  
  antenna # iant =            4
  powecha_use(iant) =    566723.452464251     
  ps_ts2 prof sum =   566396.028994335     
  trcom prof sum =    566396.028994334     
  ps_ts2 cur sum  =   9474.97115139465     
  trcom cur sum  =    9474.97115139464     
  
  antenna # iant =            5
  powecha_use(iant) =    552011.721748582     
  ps_ts2 prof sum =   551707.039588574     
  trcom prof sum =    551707.039588574     
  ps_ts2 cur sum  =   11257.1542556833     
  trcom cur sum  =    11257.1542556833     
  
  Total ECH heating:      2995484.25169454     
  Total Current Drive:    50115.1090805723     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3230
 TA= 3.52500E+00 CPU TIME= 1.64536E-01 SECONDS.  DT= 1.79447E-03
  
 TEC1=    3.52499999999995     
 TEC2=    3.52999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.90956333333293     
  %check_save_state: izleft hours =    71.0819444444444     
 --> plasma_hash("gframe"): TA= 3.525000E+00 NSTEP=  3230 Hash code:   58538546
 ->PRGCHK: bdy curvature ratio at t= 3.5300E+00 seconds is:  5.6077E-02
% MHDEQ: TG1=     3.525000 ; TG2=     3.530000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7683E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6077E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.525000 TO TG2=    3.530000 @ NSTEP     3230
   GFRAME TG2 MOMENTS CHECKSUM:  2.4587117156582D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.26939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.40648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.68991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.22429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.46614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.90565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.00892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.48610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.50563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.06828E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.56787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.84057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.68199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.55921E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.31598E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.04094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.99983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.19190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.47063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.96465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.96465E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.5300E+00  3.5350E+00 total power(Watts):  3.0020E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.53000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.384292E+02    0.381754E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.364109E+02    0.383147E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.378696E+02    0.365516E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.401639E+02    0.370019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.400500E+02    0.391117E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.377775E+02    0.398829E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.358191E+02    0.410884E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.346067E+02    0.396965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.344646E+02    0.378970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.353811E+02    0.361760E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.370353E+02    0.350188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.392123E+02    0.346165E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.411632E+02    0.352062E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.424459E+02    0.365879E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.427116E+02    0.383969E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.416321E+02    0.402401E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.398153E+02    0.414535E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.377277E+02    0.417347E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.356821E+02    0.441262E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.326800E+02    0.424795E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.313569E+02    0.396770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.318488E+02    0.365353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.339802E+02    0.338638E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.375170E+02    0.321713E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.412569E+02    0.321550E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.447050E+02    0.335835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.464161E+02    0.364213E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.458761E+02    0.398361E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.430910E+02    0.428274E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.393763E+02    0.443274E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.393459E+02    0.294079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.373205E+02    0.296083E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.388590E+02    0.278400E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.411676E+02    0.281886E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.410984E+02    0.301505E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.387219E+02    0.310202E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.366725E+02    0.323043E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.355304E+02    0.309693E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.353576E+02    0.292798E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.362507E+02    0.276365E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.379942E+02    0.264596E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.401758E+02    0.260261E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.421491E+02    0.265101E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.434569E+02    0.277344E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.436473E+02    0.294399E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.427099E+02    0.311420E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.407967E+02    0.324280E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.386005E+02    0.328406E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.365835E+02    0.352939E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.337260E+02    0.336818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.322563E+02    0.310980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.327046E+02    0.281076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.349040E+02    0.255020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.384429E+02    0.238613E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.422987E+02    0.237060E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.455542E+02    0.250024E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.474396E+02    0.273877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.468508E+02    0.305861E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.442277E+02    0.335181E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.402970E+02    0.353239E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.384454E+02    0.439267E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.364233E+02    0.439989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.377978E+02    0.423183E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.400855E+02    0.428533E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.400616E+02    0.448976E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.377797E+02    0.455748E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.358086E+02    0.466785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.346109E+02    0.452888E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.342869E+02    0.436074E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.353159E+02    0.418619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.370823E+02    0.406692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.391612E+02    0.403738E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.412203E+02    0.409930E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.424855E+02    0.424667E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.428467E+02    0.442682E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.417470E+02    0.460209E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.398061E+02    0.471630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.377133E+02    0.473721E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.357444E+02    0.496684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.328429E+02    0.478604E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.313554E+02    0.451564E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.317847E+02    0.421055E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.339410E+02    0.394273E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.375001E+02    0.377997E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.412376E+02    0.378844E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.445550E+02    0.395555E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133649E+03   -0.463502E+02    0.425187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.458918E+02    0.458561E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.433031E+02    0.485963E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.394480E+02    0.499981E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.388264E+02    0.340258E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.368040E+02    0.342018E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.382519E+02    0.324399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.405544E+02    0.328392E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.404594E+02    0.349143E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.380848E+02    0.357707E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.361335E+02    0.369828E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.350061E+02    0.355939E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.348493E+02    0.338247E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.357551E+02    0.321120E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.375041E+02    0.308976E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.395806E+02    0.305424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.416529E+02    0.310064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.428365E+02    0.323925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.431195E+02    0.341488E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.420543E+02    0.359810E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.402437E+02    0.372007E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.380496E+02    0.375726E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.360169E+02    0.400301E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.330918E+02    0.383847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.317436E+02    0.356506E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.322159E+02    0.325379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.345227E+02    0.297681E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.378691E+02    0.282329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.417163E+02    0.281010E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.449554E+02    0.295215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.468127E+02    0.321212E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.463036E+02    0.354588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.436523E+02    0.384230E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.398236E+02    0.400993E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.395058E+02    0.235680E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.373798E+02    0.238567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.389036E+02    0.222021E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.412183E+02    0.224946E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.411595E+02    0.242987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.387936E+02    0.251391E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.367568E+02    0.263761E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.355995E+02    0.251440E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.353185E+02    0.236576E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.362005E+02    0.221325E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.379355E+02    0.210344E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.402102E+02    0.205359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.421832E+02    0.209683E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.434959E+02    0.220678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.436980E+02    0.236174E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.426700E+02    0.252595E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.408829E+02    0.264111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.386908E+02    0.268395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.365032E+02    0.293253E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.336344E+02    0.278781E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.323222E+02    0.253328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.328394E+02    0.224487E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.349423E+02    0.200957E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.383755E+02    0.186097E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.423216E+02    0.183659E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.455686E+02    0.195648E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.472258E+02    0.218397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.466700E+02    0.247305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.440963E+02    0.274667E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.404185E+02    0.291179E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688491.045703932     
  ps_ts2 prof sum =   688085.978174967     
  trcom prof sum =    688085.978174967     
  ps_ts2 cur sum  =   10325.3889263095     
  trcom cur sum  =    10325.3889263095     
  
  antenna # iant =            2
  powecha_use(iant) =    665350.467650752     
  ps_ts2 prof sum =   664987.626577334     
  trcom prof sum =    664987.626577334     
  ps_ts2 cur sum  =   12287.1314442958     
  trcom cur sum  =    12287.1314439007     
  
  antenna # iant =            3
  powecha_use(iant) =    529039.518462946     
  ps_ts2 prof sum =   528739.570965358     
  trcom prof sum =    528739.570965359     
  ps_ts2 cur sum  =   6729.86432241330     
  trcom cur sum  =    6729.86432241330     
  
  antenna # iant =            4
  powecha_use(iant) =    568242.723410346     
  ps_ts2 prof sum =   567946.054274201     
  trcom prof sum =    567946.054274200     
  ps_ts2 cur sum  =   9471.05688434508     
  trcom cur sum  =    9471.05688434507     
  
  antenna # iant =            5
  powecha_use(iant) =    550847.905724797     
  ps_ts2 prof sum =   550509.273517108     
  trcom prof sum =    550509.273517108     
  ps_ts2 cur sum  =   11212.3009336360     
  trcom cur sum  =    11212.3009336360     
  
  Total ECH heating:      3000268.50350897     
  Total Current Drive:    50025.7425106046     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3233
 TA= 3.53000E+00 CPU TIME= 1.60213E-01 SECONDS.  DT= 1.20306E-03
  
 TEC1=    3.52999999999995     
 TEC2=    3.53499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    8.92625166666653     
  %check_save_state: izleft hours =    71.0652777777778     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  3.5300000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 3.530000E+00 NSTEP=  3233 Hash code:   17284439
 ->PRGCHK: bdy curvature ratio at t= 3.5350E+00 seconds is:  5.5930E-02
% MHDEQ: TG1=     3.530000 ; TG2=     3.535000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7669E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5930E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.530000 TO TG2=    3.535000 @ NSTEP     3233
   GFRAME TG2 MOMENTS CHECKSUM:  2.4587503481776D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5350E+00  3.5400E+00 total power(Watts):  2.9923E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.53500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.385041E+02    0.381303E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.364831E+02    0.382700E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.379438E+02    0.364975E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.402366E+02    0.369534E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.401277E+02    0.390724E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.378512E+02    0.398496E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.357904E+02    0.411121E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.346760E+02    0.396609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.343426E+02    0.379619E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.352564E+02    0.362412E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.371081E+02    0.349590E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.392878E+02    0.345537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.412453E+02    0.351451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.425258E+02    0.365349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.426793E+02    0.384046E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.417104E+02    0.402095E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.398911E+02    0.414346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.376975E+02    0.417622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.357522E+02    0.441172E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.327464E+02    0.424644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.314220E+02    0.396394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.319145E+02    0.364809E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.340480E+02    0.337985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.375941E+02    0.320923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.413339E+02    0.320772E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.447865E+02    0.335157E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133767E+03   -0.465021E+02    0.363686E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.459588E+02    0.398047E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.431702E+02    0.428200E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.394517E+02    0.443200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.394176E+02    0.293157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.373896E+02    0.295167E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.388257E+02    0.278173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.411386E+02    0.281589E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.410656E+02    0.301328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.387949E+02    0.309367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.367439E+02    0.322292E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.355976E+02    0.308876E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.354237E+02    0.291878E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.363190E+02    0.275385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.380625E+02    0.263585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.402465E+02    0.259240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.422223E+02    0.264069E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.435330E+02    0.276316E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.437249E+02    0.293467E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.426770E+02    0.311258E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.408735E+02    0.323530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.386738E+02    0.327695E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.366557E+02    0.352361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.336062E+02    0.337501E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.323192E+02    0.310162E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.327669E+02    0.280122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.349674E+02    0.254020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.385077E+02    0.237556E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.423678E+02    0.235977E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.456281E+02    0.248961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.475197E+02    0.272817E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.469331E+02    0.304966E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.443079E+02    0.334513E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.403740E+02    0.352657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.384144E+02    0.439567E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.363940E+02    0.440285E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.378710E+02    0.423059E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.401621E+02    0.428437E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.401376E+02    0.448903E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.377490E+02    0.455997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.357792E+02    0.467017E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.344821E+02    0.453501E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.344519E+02    0.435566E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.353855E+02    0.418458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.370533E+02    0.406888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.392360E+02    0.403445E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.411879E+02    0.410146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.425641E+02    0.424573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.426996E+02    0.443331E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.417133E+02    0.460450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.398811E+02    0.471574E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.376820E+02    0.473960E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.357138E+02    0.496987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.327226E+02    0.479137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.314205E+02    0.451440E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.318502E+02    0.420881E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.340098E+02    0.393891E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.374715E+02    0.378072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.413161E+02    0.378375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.447527E+02    0.394739E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.464351E+02    0.425111E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133321E+03   -0.459730E+02    0.458530E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.433807E+02    0.486009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.395210E+02    0.500083E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.389013E+02    0.339614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.368758E+02    0.341387E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.383253E+02    0.323656E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.406309E+02    0.327667E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.405365E+02    0.348541E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.381590E+02    0.357142E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.362053E+02    0.369314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.348823E+02    0.356601E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.347265E+02    0.338909E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.356294E+02    0.321748E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.374747E+02    0.308846E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.396542E+02    0.304561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.416207E+02    0.309904E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.429157E+02    0.323168E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.430857E+02    0.341468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.421337E+02    0.359253E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.403209E+02    0.371502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.381241E+02    0.375242E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.360873E+02    0.399975E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.332534E+02    0.382836E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.318088E+02    0.355932E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.322795E+02    0.324660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.343986E+02    0.298291E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.379375E+02    0.281366E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.417897E+02    0.280024E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.450350E+02    0.294270E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.468960E+02    0.320426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.462691E+02    0.354574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.435054E+02    0.384800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.397925E+02    0.401163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.394691E+02    0.235421E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.374436E+02    0.237512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.389666E+02    0.220891E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.412841E+02    0.223819E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.411231E+02    0.242725E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.388612E+02    0.250362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.368232E+02    0.262757E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.354720E+02    0.252065E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.354733E+02    0.234691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.362606E+02    0.220207E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.380925E+02    0.208331E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.402750E+02    0.204126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.422475E+02    0.208483E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.435634E+02    0.219517E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.437690E+02    0.235077E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.427420E+02    0.251555E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.409546E+02    0.263066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.387599E+02    0.267391E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.366698E+02    0.291590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.336985E+02    0.277814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138334E+03   -0.323811E+02    0.252336E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.328069E+02    0.224261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.349972E+02    0.199770E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.384322E+02    0.184845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.423812E+02    0.182371E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.456347E+02    0.194359E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.472973E+02    0.217192E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.467447E+02    0.246231E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.441727E+02    0.273641E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.404923E+02    0.290229E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678623.872968396     
  ps_ts2 prof sum =   678218.468432586     
  trcom prof sum =    678218.468432586     
  ps_ts2 cur sum  =   10132.0410392065     
  trcom cur sum  =    10132.0410392065     
  
  antenna # iant =            2
  powecha_use(iant) =    667478.991007256     
  ps_ts2 prof sum =   667100.777093033     
  trcom prof sum =    667100.777093033     
  ps_ts2 cur sum  =   12291.2217141965     
  trcom cur sum  =    12291.2217141965     
  
  antenna # iant =            3
  powecha_use(iant) =    528499.963729236     
  ps_ts2 prof sum =   528174.570845756     
  trcom prof sum =    528174.570845756     
  ps_ts2 cur sum  =   6686.36200924292     
  trcom cur sum  =    6686.36200924293     
  
  antenna # iant =            4
  powecha_use(iant) =    567270.076263498     
  ps_ts2 prof sum =   566920.356202734     
  trcom prof sum =    566920.356172198     
  ps_ts2 cur sum  =   9421.07030988076     
  trcom cur sum  =    9421.07030988076     
  
  antenna # iant =            5
  powecha_use(iant) =    550433.989728215     
  ps_ts2 prof sum =   550113.545664838     
  trcom prof sum =    550113.545664838     
  ps_ts2 cur sum  =   11179.8550021792     
  trcom cur sum  =    11179.8550021792     
  
  Total ECH heating:      2990527.71820841     
  Total Current Drive:    49710.5500747058     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3237
 TA= 3.53500E+00 CPU TIME= 1.61033E-01 SECONDS.  DT= 5.16644E-04
  
 TEC1=    3.53499999999995     
 TEC2=    3.53999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.94100750000007     
  %check_save_state: izleft hours =    71.0505555555556     
 --> plasma_hash("gframe"): TA= 3.535000E+00 NSTEP=  3237 Hash code:   16617105
 ->PRGCHK: bdy curvature ratio at t= 3.5400E+00 seconds is:  5.5784E-02
% MHDEQ: TG1=     3.535000 ; TG2=     3.540000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5784E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.535000 TO TG2=    3.540000 @ NSTEP     3237
   GFRAME TG2 MOMENTS CHECKSUM:  2.4587889806970D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.48558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.44815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.89570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.35189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.61790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.46137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.56756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.24545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.23656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.50568E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.19225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.74741E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.28875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.11916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.87165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.30302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.75693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.44825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.46061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.11302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.93818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.93818E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5400E+00  3.5450E+00 total power(Watts):  2.9850E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.54000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.385784E+02    0.380869E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.365547E+02    0.382273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.379145E+02    0.365055E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.402099E+02    0.369586E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.402044E+02    0.390326E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.378211E+02    0.398643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.358667E+02    0.410839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.345528E+02    0.397267E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.344115E+02    0.379166E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.354244E+02    0.361293E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.371800E+02    0.349060E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.393620E+02    0.345013E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.413228E+02    0.350926E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.426051E+02    0.364874E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.427590E+02    0.383632E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.417886E+02    0.401786E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.399669E+02    0.414118E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.377705E+02    0.417419E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.358225E+02    0.441052E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.328129E+02    0.424480E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.314867E+02    0.396023E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.318897E+02    0.364911E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.342104E+02    0.336752E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.376655E+02    0.320294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.414104E+02    0.320139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.448654E+02    0.334586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133615E+03   -0.465854E+02    0.363193E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.459234E+02    0.398175E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.433629E+02    0.427705E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.395268E+02    0.443099E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.394898E+02    0.292419E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.374597E+02    0.294436E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.388964E+02    0.277380E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.412123E+02    0.280813E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.411434E+02    0.300603E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.387638E+02    0.309387E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.368143E+02    0.321666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.354725E+02    0.309630E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.352983E+02    0.292642E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.363873E+02    0.274595E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.381298E+02    0.262793E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.403154E+02    0.258456E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.422945E+02    0.263291E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.436040E+02    0.275559E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.438025E+02    0.292719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.427544E+02    0.310587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.409494E+02    0.322910E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.387474E+02    0.327090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.367273E+02    0.351826E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.336724E+02    0.336931E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.323830E+02    0.309486E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.328303E+02    0.279347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.350302E+02    0.253228E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.385734E+02    0.236707E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.424369E+02    0.235123E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.457021E+02    0.248142E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.475999E+02    0.272011E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133881E+03   -0.470148E+02    0.304269E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.441596E+02    0.335183E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.404505E+02    0.352129E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.384884E+02    0.439460E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.364652E+02    0.440172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.379441E+02    0.422901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.402380E+02    0.428319E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.402136E+02    0.448804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.378221E+02    0.455870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.358498E+02    0.466889E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.346478E+02    0.453009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.345206E+02    0.435442E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.353567E+02    0.418713E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.371258E+02    0.406594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.393115E+02    0.403135E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.412656E+02    0.409883E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.425305E+02    0.424838E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.427784E+02    0.443254E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.417910E+02    0.460347E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.399565E+02    0.471474E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.377550E+02    0.473855E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.357832E+02    0.497035E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.327888E+02    0.479049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.313952E+02    0.451662E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.319150E+02    0.420693E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.341737E+02    0.392989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.375445E+02    0.377623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.413940E+02    0.377936E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134071E+03   -0.448332E+02    0.394401E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133327E+03   -0.465148E+02    0.425014E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133160E+03   -0.460547E+02    0.458450E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.432317E+02    0.486454E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.394882E+02    0.500366E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.389746E+02    0.339055E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.368467E+02    0.341479E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.383979E+02    0.323038E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.407066E+02    0.327069E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.406130E+02    0.348010E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.382330E+02    0.356622E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.362769E+02    0.368832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.350488E+02    0.355471E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.348910E+02    0.337687E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.357960E+02    0.320427E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.375457E+02    0.308160E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.397279E+02    0.303860E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.416969E+02    0.309226E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.429941E+02    0.322542E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.431666E+02    0.340899E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.422124E+02    0.358751E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.402899E+02    0.371589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.381978E+02    0.374785E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.361578E+02    0.399635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.331339E+02    0.383515E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.317844E+02    0.356049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.322534E+02    0.324731E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.344628E+02    0.297582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.380071E+02    0.280592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.418640E+02    0.279227E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.451139E+02    0.293526E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.469783E+02    0.319796E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133879E+03   -0.463520E+02    0.354068E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.435859E+02    0.384390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.398685E+02    0.400829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.395342E+02    0.234568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.375082E+02    0.236660E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.389313E+02    0.220795E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.412468E+02    0.223715E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.411919E+02    0.241885E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.388261E+02    0.250353E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.368884E+02    0.261972E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.355350E+02    0.251269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.353473E+02    0.235513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.364175E+02    0.218422E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.381561E+02    0.207330E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.403362E+02    0.203141E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.423150E+02    0.207479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.436331E+02    0.218570E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.438397E+02    0.234217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.428141E+02    0.250737E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.409193E+02    0.263054E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.388289E+02    0.266598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.367387E+02    0.290845E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.337617E+02    0.277045E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.324410E+02    0.251537E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.328648E+02    0.223353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.350554E+02    0.198756E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.385899E+02    0.182909E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.424453E+02    0.181276E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.457034E+02    0.193289E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134103E+03   -0.474848E+02    0.215448E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.468212E+02    0.245389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.442493E+02    0.272840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.404592E+02    0.290212E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.72 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677024.939029116     
  ps_ts2 prof sum =   676649.809065992     
  trcom prof sum =    676649.809065992     
  ps_ts2 cur sum  =   10068.4701229614     
  trcom cur sum  =    10068.4701229613     
  
  antenna # iant =            2
  powecha_use(iant) =    663798.316050588     
  ps_ts2 prof sum =   663407.719449182     
  trcom prof sum =    663407.719449182     
  ps_ts2 cur sum  =   12188.7012289832     
  trcom cur sum  =    12188.7012289832     
  
  antenna # iant =            3
  powecha_use(iant) =    528575.654460774     
  ps_ts2 prof sum =   528276.496997037     
  trcom prof sum =    528276.496997037     
  ps_ts2 cur sum  =   6655.47807023161     
  trcom cur sum  =    6655.47807023161     
  
  antenna # iant =            4
  powecha_use(iant) =    565009.860306513     
  ps_ts2 prof sum =   564686.401966234     
  trcom prof sum =    564686.401966233     
  ps_ts2 cur sum  =   9352.34816473781     
  trcom cur sum  =    9352.34816473780     
  
  antenna # iant =            5
  powecha_use(iant) =    550597.671546212     
  ps_ts2 prof sum =   550292.540210398     
  trcom prof sum =    550292.540210398     
  ps_ts2 cur sum  =   11157.8663730204     
  trcom cur sum  =    11157.8663730204     
  
  Total ECH heating:      2983312.96768884     
  Total Current Drive:    49422.8639599344     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3243
 TA= 3.54000E+00 CPU TIME= 1.60021E-01 SECONDS.  DT= 9.49861E-04
  
 TEC1=    3.53999999999995     
 TEC2=    3.54499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.95698527777722     
  %check_save_state: izleft hours =    71.0344444444444     
 --> plasma_hash("gframe"): TA= 3.540000E+00 NSTEP=  3243 Hash code:  108444213
 ->PRGCHK: bdy curvature ratio at t= 3.5450E+00 seconds is:  5.5640E-02
% MHDEQ: TG1=     3.540000 ; TG2=     3.545000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5640E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.540000 TO TG2=    3.545000 @ NSTEP     3243
   GFRAME TG2 MOMENTS CHECKSUM:  2.4588276132164D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5450E+00  3.5500E+00 total power(Watts):  2.9925E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.54500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.385489E+02    0.380992E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.365266E+02    0.382404E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.379885E+02    0.364600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.402868E+02    0.369148E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.402809E+02    0.389966E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.378960E+02    0.398305E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.359315E+02    0.410601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.347189E+02    0.396407E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.345769E+02    0.378172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.354946E+02    0.360809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.372521E+02    0.348567E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.393322E+02    0.345116E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.414009E+02    0.350434E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.426800E+02    0.364443E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.428389E+02    0.383236E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.418668E+02    0.401488E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.399343E+02    0.414355E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.378434E+02    0.417227E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.357932E+02    0.441354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.327864E+02    0.424765E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.314621E+02    0.396191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.319552E+02    0.364432E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.342796E+02    0.336197E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.376362E+02    0.320378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.414873E+02    0.319540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.447187E+02    0.335288E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133675E+03   -0.465508E+02    0.363276E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133605E+03   -0.460055E+02    0.397886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134616E+03   -0.432149E+02    0.428402E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.396014E+02    0.443041E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.395632E+02    0.291675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.375306E+02    0.293716E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.389683E+02    0.276615E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.412871E+02    0.280048E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.412164E+02    0.299923E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.388370E+02    0.308747E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.368856E+02    0.321061E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.356376E+02    0.308259E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.353664E+02    0.291910E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.362581E+02    0.275389E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.381990E+02    0.262001E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.402827E+02    0.258430E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.423693E+02    0.262483E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.436863E+02    0.274745E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.438810E+02    0.291990E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.428329E+02    0.309935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.409178E+02    0.322994E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.387173E+02    0.327181E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.366987E+02    0.351955E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.337405E+02    0.336384E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.323575E+02    0.309568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.328929E+02    0.278576E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.351894E+02    0.251591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.386416E+02    0.235848E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.424017E+02    0.235053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.458953E+02    0.246533E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.475624E+02    0.271936E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133735E+03   -0.470972E+02    0.303594E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.442408E+02    0.334640E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.405275E+02    0.351638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.385618E+02    0.439393E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.365360E+02    0.440091E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.379138E+02    0.423184E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.403134E+02    0.428227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.401810E+02    0.449091E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.378947E+02    0.455788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.359197E+02    0.466785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.347162E+02    0.452907E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.343965E+02    0.436149E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.354266E+02    0.418520E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.371973E+02    0.406328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.392809E+02    0.403318E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.413425E+02    0.409650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.426089E+02    0.424729E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.428566E+02    0.443216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.418681E+02    0.460289E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.400314E+02    0.471394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.378275E+02    0.473763E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.358521E+02    0.497082E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.329469E+02    0.478684E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.314594E+02    0.451541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.318895E+02    0.420961E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.340518E+02    0.393669E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.376178E+02    0.377197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.414718E+02    0.377529E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.449156E+02    0.394068E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.465967E+02    0.424933E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133217E+03   -0.460176E+02    0.458711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.433096E+02    0.486441E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.395615E+02    0.500446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.389453E+02    0.339167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.369184E+02    0.340948E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.383684E+02    0.323117E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.406756E+02    0.327149E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.405820E+02    0.348121E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.383069E+02    0.356132E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.362491E+02    0.368950E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.351182E+02    0.354971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.349611E+02    0.337141E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.358659E+02    0.319816E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.376170E+02    0.307514E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.398021E+02    0.303177E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.417738E+02    0.308571E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.430730E+02    0.321958E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.432464E+02    0.340391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.422914E+02    0.358277E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.403670E+02    0.371152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.381685E+02    0.374907E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.362306E+02    0.399307E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.332018E+02    0.383094E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.318499E+02    0.355550E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.323187E+02    0.324150E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.346267E+02    0.296100E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.380783E+02    0.279796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.418310E+02    0.279207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.453092E+02    0.292086E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133638E+03   -0.470615E+02    0.319194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133727E+03   -0.464354E+02    0.353590E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.436665E+02    0.384007E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.399444E+02    0.400532E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.396049E+02    0.233698E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.375750E+02    0.235806E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.389987E+02    0.219889E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.413173E+02    0.222810E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.412633E+02    0.241047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.388956E+02    0.249531E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.367602E+02    0.262768E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.356959E+02    0.249629E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.354116E+02    0.234654E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.362915E+02    0.219212E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.382208E+02    0.206397E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.404036E+02    0.202188E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.423836E+02    0.206541E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.437056E+02    0.217642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.439140E+02    0.233332E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.428881E+02    0.249923E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.409926E+02    0.262250E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.387976E+02    0.266580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.368084E+02    0.290103E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.339197E+02    0.275462E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.324135E+02    0.251563E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.329242E+02    0.222460E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.351129E+02    0.197824E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.386525E+02    0.181928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.425122E+02    0.180279E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.456641E+02    0.193105E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.475606E+02    0.214506E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.470157E+02    0.243783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.442143E+02    0.272792E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.405338E+02    0.289472E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    680215.122811930     
  ps_ts2 prof sum =   679824.038281939     
  trcom prof sum =    679824.038247058     
  ps_ts2 cur sum  =   10082.9651010324     
  trcom cur sum  =    10082.9651010323     
  
  antenna # iant =            2
  powecha_use(iant) =    664019.988494447     
  ps_ts2 prof sum =   663641.016321528     
  trcom prof sum =    663641.016321528     
  ps_ts2 cur sum  =   12166.4241271723     
  trcom cur sum  =    12166.4241271723     
  
  antenna # iant =            3
  powecha_use(iant) =    529497.638886040     
  ps_ts2 prof sum =   529188.537440802     
  trcom prof sum =    529188.537440803     
  ps_ts2 cur sum  =   6636.75263913833     
  trcom cur sum  =    6636.75263913833     
  
  antenna # iant =            4
  powecha_use(iant) =    568209.030931609     
  ps_ts2 prof sum =   567902.949736416     
  trcom prof sum =    567902.949736415     
  ps_ts2 cur sum  =   9379.10597171477     
  trcom cur sum  =    9379.10597171476     
  
  antenna # iant =            5
  powecha_use(iant) =    550595.790165649     
  ps_ts2 prof sum =   550296.240409163     
  trcom prof sum =    550296.240409163     
  ps_ts2 cur sum  =   11137.4318224206     
  trcom cur sum  =    11137.4318224206     
  
  Total ECH heating:      2990852.78215497     
  Total Current Drive:    49402.6796614783     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3247
 TA= 3.54500E+00 CPU TIME= 1.59203E-01 SECONDS.  DT= 1.72332E-03
  
 TEC1=    3.54499999999995     
 TEC2=    3.54999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.97020249999969     
  %check_save_state: izleft hours =    71.0213888888889     
 --> plasma_hash("gframe"): TA= 3.545000E+00 NSTEP=  3247 Hash code:  119155671
 ->PRGCHK: bdy curvature ratio at t= 3.5500E+00 seconds is:  5.5498E-02
% MHDEQ: TG1=     3.545000 ; TG2=     3.550000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7626E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5498E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.545000 TO TG2=    3.550000 @ NSTEP     3247
   GFRAME TG2 MOMENTS CHECKSUM:  2.4588662457358D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.68278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.48617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.08343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.55608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.50439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.52254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.46122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.00893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.68132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.50644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.91119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.65687E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.39863E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.15665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.29121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  3.05421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.92878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.70572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.78680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.95659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.95659E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.5500E+00  3.5550E+00 total power(Watts):  2.9990E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.55000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.386254E+02    0.380583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.366002E+02    0.381993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.380642E+02    0.364136E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.403654E+02    0.368707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.402520E+02    0.390107E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.379711E+02    0.397976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.359046E+02    0.410814E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.347898E+02    0.396056E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.344561E+02    0.378866E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.353715E+02    0.361542E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.372254E+02    0.348698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.394089E+02    0.344630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.413715E+02    0.350562E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.426546E+02    0.364524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.429206E+02    0.382856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.418360E+02    0.401666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.400125E+02    0.414121E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.378142E+02    0.417465E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.358650E+02    0.441268E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.328546E+02    0.424595E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.315285E+02    0.395826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.320219E+02    0.363955E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.341593E+02    0.337015E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.377101E+02    0.319784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.414553E+02    0.319634E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.448019E+02    0.334775E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.466364E+02    0.362840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.460906E+02    0.397571E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.432958E+02    0.428307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.395713E+02    0.443342E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.395341E+02    0.291665E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.375028E+02    0.293720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.390413E+02    0.275798E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.413640E+02    0.279244E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.412941E+02    0.299213E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.389120E+02    0.308090E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.368584E+02    0.321167E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.357043E+02    0.307616E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.355325E+02    0.290406E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.364244E+02    0.273795E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.381698E+02    0.261952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.403567E+02    0.257584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.423381E+02    0.262391E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.436543E+02    0.274660E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.438510E+02    0.291945E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.429128E+02    0.309299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.410007E+02    0.322389E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.387929E+02    0.326624E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.367721E+02    0.351477E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.337155E+02    0.336533E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.324236E+02    0.308900E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.328676E+02    0.278561E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.350674E+02    0.252392E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.386111E+02    0.235795E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.424762E+02    0.234169E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.457464E+02    0.247198E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.476465E+02    0.271083E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.470636E+02    0.303597E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.443234E+02    0.334125E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.404984E+02    0.351765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.385325E+02    0.439703E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.365082E+02    0.440392E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.379882E+02    0.423027E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.402831E+02    0.428518E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.402582E+02    0.449029E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.378657E+02    0.456037E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.358920E+02    0.466991E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.345929E+02    0.453526E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.345633E+02    0.435657E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.354977E+02    0.418319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.371701E+02    0.406515E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.393580E+02    0.403018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.413109E+02    0.409857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.426892E+02    0.424598E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.428241E+02    0.443528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.418363E+02    0.460526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.400007E+02    0.471593E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.377979E+02    0.473969E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.358232E+02    0.497408E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.328298E+02    0.479164E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.315253E+02    0.451430E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.319557E+02    0.420759E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.341222E+02    0.393298E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.375908E+02    0.377325E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.414425E+02    0.377645E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.447673E+02    0.394685E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133225E+03   -0.465621E+02    0.425207E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133057E+03   -0.461007E+02    0.458683E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133754E+03   -0.435028E+02    0.486214E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.396363E+02    0.500589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.390215E+02    0.338656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.369936E+02    0.340437E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.384435E+02    0.322539E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.407534E+02    0.326599E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.406608E+02    0.347632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.382796E+02    0.356255E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.363208E+02    0.368509E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.349964E+02    0.355726E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.348386E+02    0.337951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.357419E+02    0.320619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.376902E+02    0.306852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.397727E+02    0.303212E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.418527E+02    0.307916E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.431539E+02    0.321380E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.433279E+02    0.339896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.422613E+02    0.358389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.404457E+02    0.370716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.382444E+02    0.374477E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.362038E+02    0.399476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.333639E+02    0.382122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.319164E+02    0.355053E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.323849E+02    0.323559E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.345066E+02    0.296884E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.380490E+02    0.279783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.419086E+02    0.278401E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.451616E+02    0.292757E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.470283E+02    0.319243E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133575E+03   -0.465209E+02    0.353118E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.438628E+02    0.383123E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.399153E+02    0.400696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.396758E+02    0.232823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.375451E+02    0.235761E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.390674E+02    0.218990E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.413891E+02    0.221912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.413328E+02    0.240210E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.389671E+02    0.248673E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.369281E+02    0.261128E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.357631E+02    0.248774E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.354768E+02    0.233787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.363562E+02    0.218331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.380907E+02    0.207206E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.403699E+02    0.202119E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.424556E+02    0.205621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.436695E+02    0.217550E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.438799E+02    0.233237E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.429648E+02    0.249059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.410678E+02    0.261401E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.388698E+02    0.265748E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.366822E+02    0.290859E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.337996E+02    0.276252E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.324802E+02    0.250677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.329861E+02    0.221571E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.350870E+02    0.197778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.387175E+02    0.180956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.424752E+02    0.180144E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.457362E+02    0.192178E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.476384E+02    0.213575E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.470958E+02    0.242904E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.442941E+02    0.271964E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.406102E+02    0.288711E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681704.768540424     
  ps_ts2 prof sum =   681279.217105321     
  trcom prof sum =    681279.217105321     
  ps_ts2 cur sum  =   10065.6508896033     
  trcom cur sum  =    10065.6508896033     
  
  antenna # iant =            2
  powecha_use(iant) =    664687.375795261     
  ps_ts2 prof sum =   664291.302864285     
  trcom prof sum =    664291.302864284     
  ps_ts2 cur sum  =   12150.7943622070     
  trcom cur sum  =    12150.7943622070     
  
  antenna # iant =            3
  powecha_use(iant) =    530154.165886562     
  ps_ts2 prof sum =   529812.085758874     
  trcom prof sum =    529812.085758875     
  ps_ts2 cur sum  =   6614.74174057716     
  trcom cur sum  =    6614.74174057717     
  
  antenna # iant =            4
  powecha_use(iant) =    571776.518156259     
  ps_ts2 prof sum =   571434.704763266     
  trcom prof sum =    571434.704763265     
  ps_ts2 cur sum  =   9408.80121804415     
  trcom cur sum  =    9408.80121804414     
  
  antenna # iant =            5
  powecha_use(iant) =    550717.026096014     
  ps_ts2 prof sum =   550403.246176221     
  trcom prof sum =    550403.246176221     
  ps_ts2 cur sum  =   11122.4450980535     
  trcom cur sum  =    11122.4450980535     
  
  Total ECH heating:      2997220.55666797     
  Total Current Drive:    49362.4333084852     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3250
 TA= 3.55000E+00 CPU TIME= 1.59113E-01 SECONDS.  DT= 1.40317E-03
  
 TEC1=    3.54999999999995     
 TEC2=    3.55499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    8.98604694444407     
  %check_save_state: izleft hours =    71.0055555555556     
 --> plasma_hash("gframe"): TA= 3.550000E+00 NSTEP=  3250 Hash code:   83967238
 ->PRGCHK: bdy curvature ratio at t= 3.5550E+00 seconds is:  5.5356E-02
% MHDEQ: TG1=     3.550000 ; TG2=     3.555000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7611E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5356E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.550000 TO TG2=    3.555000 @ NSTEP     3250
   GFRAME TG2 MOMENTS CHECKSUM:  2.4589048782553D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5550E+00  3.5600E+00 total power(Watts):  2.9891E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.55500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.387013E+02    0.380185E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.366734E+02    0.381597E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.380366E+02    0.364274E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.403364E+02    0.368840E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.403299E+02    0.389749E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.379432E+02    0.398138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.359768E+02    0.410546E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.346671E+02    0.396725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.345267E+02    0.378449E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.355407E+02    0.360486E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.372993E+02    0.348226E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.394853E+02    0.344168E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.414504E+02    0.350102E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.427357E+02    0.364097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.428896E+02    0.382991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.419159E+02    0.401359E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.400885E+02    0.413910E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.378895E+02    0.417248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.359360E+02    0.441200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.330139E+02    0.423984E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.315946E+02    0.395461E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.319984E+02    0.364110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.343226E+02    0.335838E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.377834E+02    0.319210E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.415360E+02    0.319052E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.449997E+02    0.333666E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133369E+03   -0.467216E+02    0.362414E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133293E+03   -0.461738E+02    0.397294E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134066E+03   -0.434923E+02    0.427824E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.396469E+02    0.443303E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.396091E+02    0.290940E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.375753E+02    0.293005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.390129E+02    0.275778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.413334E+02    0.279214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.412639E+02    0.299250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.388834E+02    0.308148E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.369306E+02    0.320601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.355854E+02    0.308387E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.354097E+02    0.291188E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.364948E+02    0.272998E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.382419E+02    0.261138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.404310E+02    0.256766E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.424153E+02    0.261568E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.437337E+02    0.273875E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.439297E+02    0.291234E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.428819E+02    0.309361E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.410742E+02    0.321858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.388683E+02    0.326088E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.368452E+02    0.351009E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.337811E+02    0.336046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.324888E+02    0.308257E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.329322E+02    0.277791E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.351344E+02    0.251566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.386812E+02    0.234940E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.425550E+02    0.233290E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.458264E+02    0.246354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.477298E+02    0.270288E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133653E+03   -0.471481E+02    0.302949E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.445199E+02    0.333012E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.405766E+02    0.351302E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.386071E+02    0.439646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.365801E+02    0.440325E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.380617E+02    0.422861E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.403600E+02    0.428408E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.403382E+02    0.448995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.379393E+02    0.455983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.359631E+02    0.466906E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.347590E+02    0.453096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.346315E+02    0.435558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.354708E+02    0.418552E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.372437E+02    0.406228E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.394346E+02    0.402712E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.413899E+02    0.409606E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.428814E+02    0.424061E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.429036E+02    0.443501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.419146E+02    0.460490E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.400767E+02    0.471541E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.378712E+02    0.473909E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.358928E+02    0.497557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.328963E+02    0.479100E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.315005E+02    0.451702E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.319315E+02    0.421005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.342888E+02    0.392403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.376655E+02    0.376913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.415214E+02    0.377257E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133816E+03   -0.449659E+02    0.393895E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133066E+03   -0.466459E+02    0.425080E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132895E+03   -0.461828E+02    0.458685E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.433552E+02    0.486673E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.396038E+02    0.500975E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.390974E+02    0.338170E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.369659E+02    0.340589E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.385182E+02    0.321985E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.408315E+02    0.326069E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.407392E+02    0.347173E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.383550E+02    0.355802E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.363953E+02    0.368063E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.351640E+02    0.354647E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.350050E+02    0.336783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.359106E+02    0.319349E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.376624E+02    0.306925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.398488E+02    0.302554E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.418223E+02    0.307978E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.431228E+02    0.321486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.432969E+02    0.340028E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.423418E+02    0.357946E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.404166E+02    0.370849E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.383199E+02    0.374061E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.362763E+02    0.399143E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.332463E+02    0.382825E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.318933E+02    0.355219E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.323609E+02    0.323702E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.345752E+02    0.296172E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.381221E+02    0.279000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.419860E+02    0.277617E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.452437E+02    0.292040E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133551E+03   -0.471130E+02    0.318701E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133635E+03   -0.464877E+02    0.353252E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.437175E+02    0.383763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.399929E+02    0.400373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.396450E+02    0.232785E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.376144E+02    0.234902E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.390361E+02    0.218953E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.413557E+02    0.221863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.413055E+02    0.240129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.389373E+02    0.248656E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.369985E+02    0.260310E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.356403E+02    0.249599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.354492E+02    0.233770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.365178E+02    0.216588E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.382563E+02    0.205454E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.404392E+02    0.201216E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.424217E+02    0.205549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.437458E+02    0.216646E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.439563E+02    0.232383E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.429325E+02    0.249006E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.410368E+02    0.261386E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.389430E+02    0.264944E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.368526E+02    0.289369E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.338666E+02    0.275462E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.325393E+02    0.249885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.329589E+02    0.221579E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.351491E+02    0.196878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.385859E+02    0.181753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.425445E+02    0.179169E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.458106E+02    0.191235E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.474868E+02    0.214244E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.469450E+02    0.243585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.443745E+02    0.271167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.406864E+02    0.287968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676928.714975286     
  ps_ts2 prof sum =   676562.423372992     
  trcom prof sum =    676562.423372992     
  ps_ts2 cur sum  =   9957.74868561523     
  trcom cur sum  =    9957.74868561523     
  
  antenna # iant =            2
  powecha_use(iant) =    665402.451732313     
  ps_ts2 prof sum =   665006.733165093     
  trcom prof sum =    665006.733165092     
  ps_ts2 cur sum  =   12136.5084568121     
  trcom cur sum  =    12136.5084568121     
  
  antenna # iant =            3
  powecha_use(iant) =    529372.375398333     
  ps_ts2 prof sum =   529071.600082181     
  trcom prof sum =    529071.600082181     
  ps_ts2 cur sum  =   6573.21560305891     
  trcom cur sum  =    6573.21560305891     
  
  antenna # iant =            4
  powecha_use(iant) =    567616.143246306     
  ps_ts2 prof sum =   567283.675350648     
  trcom prof sum =    567283.675350647     
  ps_ts2 cur sum  =   9312.75803587487     
  trcom cur sum  =    9312.75803587486     
  
  antenna # iant =            5
  powecha_use(iant) =    549765.696005797     
  ps_ts2 prof sum =   549433.106814415     
  trcom prof sum =    549433.106814415     
  ps_ts2 cur sum  =   11088.1592330920     
  trcom cur sum  =    11088.1592330920     
  
  Total ECH heating:      2987357.53878533     
  Total Current Drive:    49068.3900144530     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3253
 TA= 3.55500E+00 CPU TIME= 1.63017E-01 SECONDS.  DT= 2.30360E-03
  
 TEC1=    3.55499999999995     
 TEC2=    3.55999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.00239722222182     
  %check_save_state: izleft hours =    70.9891666666667     
 --> plasma_hash("gframe"): TA= 3.555000E+00 NSTEP=  3253 Hash code:   25135382
 ->PRGCHK: bdy curvature ratio at t= 3.5600E+00 seconds is:  5.5382E-02
% MHDEQ: TG1=     3.555000 ; TG2=     3.560000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7605E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5382E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.555000 TO TG2=    3.560000 @ NSTEP     3253
   GFRAME TG2 MOMENTS CHECKSUM:  2.4591444550266D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.85761E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.46238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.08437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.44589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.84006E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.51261E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.31606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.56473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.92862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.93700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.62253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.98217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.26204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -3.60544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.23996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.26672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.35507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.37845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.79410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.75784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.16056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.16056E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  3.5600E+00  3.5650E+00 total power(Watts):  2.9731E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.56000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.386923E+02    0.380044E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.366648E+02    0.381461E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.381342E+02    0.363531E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.404342E+02    0.368131E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.403205E+02    0.389608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.380370E+02    0.397527E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.359682E+02    0.410460E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.348515E+02    0.395593E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.345187E+02    0.378323E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.354349E+02    0.360965E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.372906E+02    0.348082E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.394759E+02    0.344014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.414406E+02    0.349940E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.427257E+02    0.363939E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.429886E+02    0.382336E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.419062E+02    0.401229E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.400789E+02    0.413816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.378794E+02    0.417179E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.359270E+02    0.441212E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.329142E+02    0.424373E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.315871E+02    0.395361E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.320814E+02    0.363381E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.342167E+02    0.336399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.377739E+02    0.319046E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.415257E+02    0.318863E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.448741E+02    0.334100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133409E+03   -0.467111E+02    0.362219E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133331E+03   -0.461633E+02    0.397134E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.433655E+02    0.428151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.396370E+02    0.443308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.397028E+02    0.290031E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.375649E+02    0.292842E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.391047E+02    0.274858E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.414296E+02    0.278300E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.413613E+02    0.298347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.389768E+02    0.307275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.369217E+02    0.320445E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.357700E+02    0.306780E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.355925E+02    0.289513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.364847E+02    0.272853E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.382309E+02    0.261010E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.404194E+02    0.256639E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.425117E+02    0.260666E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.437217E+02    0.273698E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.439181E+02    0.291038E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.429821E+02    0.308480E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.410641E+02    0.321685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.388586E+02    0.325927E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.368366E+02    0.350865E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.337760E+02    0.335892E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.324812E+02    0.308110E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.329229E+02    0.277653E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.351252E+02    0.251462E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.386699E+02    0.234853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.425386E+02    0.233213E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.458133E+02    0.246221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133615E+03   -0.477169E+02    0.270094E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.470183E+02    0.303401E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.443952E+02    0.333445E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.405670E+02    0.351150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.385971E+02    0.439650E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.365710E+02    0.440334E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.380519E+02    0.422793E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.403501E+02    0.428359E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.403245E+02    0.449016E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.379297E+02    0.456002E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.359538E+02    0.466929E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.346536E+02    0.453474E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.346229E+02    0.435557E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.353646E+02    0.418937E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.372351E+02    0.406127E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.394255E+02    0.402595E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.413801E+02    0.409496E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.427583E+02    0.424394E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.428929E+02    0.443504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.419040E+02    0.460504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.400664E+02    0.471549E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.378614E+02    0.473919E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.358833E+02    0.497614E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.328874E+02    0.479122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.315823E+02    0.451361E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.320142E+02    0.420504E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.342794E+02    0.392292E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.376568E+02    0.376779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.415125E+02    0.377090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134072E+03   -0.448402E+02    0.394202E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132885E+03   -0.467529E+02    0.424638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132928E+03   -0.461727E+02    0.458686E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133628E+03   -0.435707E+02    0.486234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.396998E+02    0.500836E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.390880E+02    0.338011E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.370570E+02    0.339805E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.385086E+02    0.321815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.408215E+02    0.325888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.407297E+02    0.347004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.383460E+02    0.355666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.363867E+02    0.367923E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.350592E+02    0.355134E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.349005E+02    0.337311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.358030E+02    0.319889E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.377533E+02    0.306033E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.398384E+02    0.302372E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.419207E+02    0.307094E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.432239E+02    0.320638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.433989E+02    0.339245E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.423318E+02    0.357792E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.405145E+02    0.370146E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.383110E+02    0.373921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.362677E+02    0.399040E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.332388E+02    0.382706E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.319762E+02    0.354448E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.324433E+02    0.322852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.345658E+02    0.296015E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.381117E+02    0.278840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.419748E+02    0.277441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.454643E+02    0.290404E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133591E+03   -0.471017E+02    0.318481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133460E+03   -0.465950E+02    0.352507E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.439349E+02    0.382590E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.399836E+02    0.400249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.397357E+02    0.231864E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.376030E+02    0.234822E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.391244E+02    0.218035E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.414491E+02    0.220946E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.413994E+02    0.239215E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.390275E+02    0.247740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.369878E+02    0.260188E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.358213E+02    0.247839E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.356273E+02    0.231997E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.364150E+02    0.217351E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.381460E+02    0.206240E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.404266E+02    0.201140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.425146E+02    0.204634E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.437317E+02    0.216563E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.439434E+02    0.232275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.430292E+02    0.248102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.411298E+02    0.260469E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.389320E+02    0.264804E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.367435E+02    0.289953E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.338571E+02    0.275324E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.325309E+02    0.249794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.330367E+02    0.220644E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.351377E+02    0.196813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.387681E+02    0.179890E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.426351E+02    0.178188E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.457950E+02    0.191127E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.477028E+02    0.212564E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.471631E+02    0.241923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.443624E+02    0.270987E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.406755E+02    0.287791E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665286.774818137     
  ps_ts2 prof sum =   664874.708407868     
  trcom prof sum =    664874.708407868     
  ps_ts2 cur sum  =   9809.98472341744     
  trcom cur sum  =    9809.98472341743     
  
  antenna # iant =            2
  powecha_use(iant) =    664091.017232239     
  ps_ts2 prof sum =   663694.545077893     
  trcom prof sum =    663694.545077893     
  ps_ts2 cur sum  =   12133.8287824712     
  trcom cur sum  =    12133.8287824712     
  
  antenna # iant =            3
  powecha_use(iant) =    529298.318799981     
  ps_ts2 prof sum =   528959.436222369     
  trcom prof sum =    528959.436222370     
  ps_ts2 cur sum  =   6590.96209473458     
  trcom cur sum  =    6590.96209473458     
  
  antenna # iant =            4
  powecha_use(iant) =    563306.409494633     
  ps_ts2 prof sum =   562965.177308763     
  trcom prof sum =    562965.177308762     
  ps_ts2 cur sum  =   9261.37123636266     
  trcom cur sum  =    9261.37123636265     
  
  antenna # iant =            5
  powecha_use(iant) =    551078.408010214     
  ps_ts2 prof sum =   550772.689742289     
  trcom prof sum =    550772.689742289     
  ps_ts2 cur sum  =   11129.6706935648     
  trcom cur sum  =    11129.6706935648     
  
  Total ECH heating:      2971266.55675918     
  Total Current Drive:    48925.8175305506     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3255
 TA= 3.56000E+00 CPU TIME= 1.63916E-01 SECONDS.  DT= 3.37050E-03
  
 TEC1=    3.55999999999995     
 TEC2=    3.56499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.01527444444446     
  %check_save_state: izleft hours =    70.9763888888889     
 --> plasma_hash("gframe"): TA= 3.560000E+00 NSTEP=  3255 Hash code:   76054304
 ->PRGCHK: bdy curvature ratio at t= 3.5650E+00 seconds is:  5.5409E-02
% MHDEQ: TG1=     3.560000 ; TG2=     3.565000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7599E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5409E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.560000 TO TG2=    3.565000 @ NSTEP     3255
   GFRAME TG2 MOMENTS CHECKSUM:  2.4593840317979D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.5650E+00  3.5700E+00 total power(Watts):  2.9717E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.56500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.386818E+02    0.379901E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.366559E+02    0.381326E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.381204E+02    0.363398E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.404237E+02    0.367973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.404172E+02    0.388964E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.380270E+02    0.397408E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.360576E+02    0.409908E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.348452E+02    0.395467E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.347009E+02    0.377066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.356207E+02    0.359603E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.373817E+02    0.347295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.394656E+02    0.343832E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.415391E+02    0.349156E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.428264E+02    0.363202E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.429806E+02    0.382161E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.420058E+02    0.400633E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.400683E+02    0.413732E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.379719E+02    0.416680E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.359140E+02    0.441282E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.329038E+02    0.424362E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.315785E+02    0.395263E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.320728E+02    0.363255E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.342110E+02    0.336224E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.377638E+02    0.318861E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.416229E+02    0.317997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.448623E+02    0.333895E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133447E+03   -0.466993E+02    0.362031E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133369E+03   -0.461514E+02    0.396985E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.433535E+02    0.428111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.396258E+02    0.443371E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.396911E+02    0.289851E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.376546E+02    0.291907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.390927E+02    0.274700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.414170E+02    0.278128E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.413490E+02    0.298153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.389661E+02    0.307084E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.370111E+02    0.319577E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.357597E+02    0.306613E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.354863E+02    0.290102E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.363757E+02    0.273511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.383196E+02    0.260093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.405116E+02    0.255732E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.424986E+02    0.260526E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.438198E+02    0.272786E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.440178E+02    0.290128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.429700E+02    0.308279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.410528E+02    0.321495E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.388479E+02    0.325752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.368271E+02    0.350705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.338606E+02    0.335070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.324721E+02    0.307954E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.330031E+02    0.276724E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.353018E+02    0.249721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.387580E+02    0.233928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.426330E+02    0.232295E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.459128E+02    0.245328E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.478208E+02    0.269176E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.472414E+02    0.301818E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.443833E+02    0.333255E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.406637E+02    0.350376E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.386907E+02    0.439322E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.366608E+02    0.440014E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.380432E+02    0.422748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.404471E+02    0.427931E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.403129E+02    0.449100E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.380219E+02    0.455764E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.360426E+02    0.466702E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.348368E+02    0.452861E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.345170E+02    0.435998E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.355510E+02    0.417980E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.373266E+02    0.405554E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.394151E+02    0.402491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.414788E+02    0.408946E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.427473E+02    0.424332E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.429933E+02    0.443210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.420028E+02    0.460293E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.401622E+02    0.471344E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.379537E+02    0.473702E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.359721E+02    0.497397E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.330631E+02    0.478601E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.315732E+02    0.451453E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.320063E+02    0.420456E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.341753E+02    0.392703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.377490E+02    0.376080E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.416114E+02    0.376397E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133676E+03   -0.450600E+02    0.393101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132922E+03   -0.467409E+02    0.424563E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132964E+03   -0.461583E+02    0.458778E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133884E+03   -0.434452E+02    0.486484E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.396888E+02    0.500827E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.390776E+02    0.337833E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.370470E+02    0.339643E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.384979E+02    0.321642E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.408103E+02    0.325708E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.407190E+02    0.346839E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.384391E+02    0.354900E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.363771E+02    0.367785E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.352427E+02    0.353752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.350833E+02    0.335826E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.359891E+02    0.318318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.377397E+02    0.305881E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.399323E+02    0.301459E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.419089E+02    0.306892E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.432107E+02    0.320442E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.433877E+02    0.339039E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.424317E+02    0.357029E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.405041E+02    0.369985E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.383010E+02    0.373772E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.363576E+02    0.398426E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.333230E+02    0.382026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.319663E+02    0.354325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.324342E+02    0.322704E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.347445E+02    0.294338E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.382016E+02    0.277921E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.420705E+02    0.276522E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.453337E+02    0.290908E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133420E+03   -0.472075E+02    0.317607E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.465869E+02    0.352269E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.438102E+02    0.382930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.400800E+02    0.399653E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.397208E+02    0.231776E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.376893E+02    0.233896E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.391119E+02    0.217935E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.414345E+02    0.220853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.413860E+02    0.239115E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.390154E+02    0.247632E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.368778E+02    0.260884E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.358092E+02    0.247752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.355206E+02    0.232771E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.365898E+02    0.215581E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.383298E+02    0.204421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.405151E+02    0.200182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.425004E+02    0.204522E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.438260E+02    0.215647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.440394E+02    0.231368E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.430159E+02    0.247975E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.411187E+02    0.260335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.389198E+02    0.264675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.369312E+02    0.288260E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.340314E+02    0.273595E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.325202E+02    0.249717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.330263E+02    0.220565E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.352173E+02    0.195829E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.387560E+02    0.179743E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.426210E+02    0.178015E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.458921E+02    0.190151E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.475727E+02    0.213220E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134085E+03   -0.470324E+02    0.242561E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.444613E+02    0.270078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.406641E+02    0.287606E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660241.384065265     
  ps_ts2 prof sum =   659838.826642156     
  trcom prof sum =    659838.826642157     
  ps_ts2 cur sum  =   9759.58427200948     
  trcom cur sum  =    9759.58427200947     
  
  antenna # iant =            2
  powecha_use(iant) =    665263.797965134     
  ps_ts2 prof sum =   664877.317766648     
  trcom prof sum =    664877.317766647     
  ps_ts2 cur sum  =   12176.6053310337     
  trcom cur sum  =    12176.6053310337     
  
  antenna # iant =            3
  powecha_use(iant) =    528915.941108433     
  ps_ts2 prof sum =   528610.338266570     
  trcom prof sum =    528610.338237890     
  ps_ts2 cur sum  =   6603.82294380836     
  trcom cur sum  =    6603.82294380836     
  
  antenna # iant =            4
  powecha_use(iant) =    566567.104974866     
  ps_ts2 prof sum =   566255.294935254     
  trcom prof sum =    566255.294935253     
  ps_ts2 cur sum  =   9334.84288935391     
  trcom cur sum  =    9334.84288935390     
  
  antenna # iant =            5
  powecha_use(iant) =    550734.505039370     
  ps_ts2 prof sum =   550434.451067868     
  trcom prof sum =    550434.451067868     
  ps_ts2 cur sum  =   11133.7670362274     
  trcom cur sum  =    11133.7670362274     
  
  Total ECH heating:      2970016.22864981     
  Total Current Drive:    49008.6224724329     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3257
 TA= 3.56500E+00 CPU TIME= 1.46197E-01 SECONDS.  DT= 2.03687E-03
  
 TEC1=    3.56499999999995     
 TEC2=    3.56999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.02808083333298     
  %check_save_state: izleft hours =    70.9636111111111     
 --> plasma_hash("gframe"): TA= 3.565000E+00 NSTEP=  3257 Hash code:  113156668
 ->PRGCHK: bdy curvature ratio at t= 3.5700E+00 seconds is:  5.5435E-02
% MHDEQ: TG1=     3.565000 ; TG2=     3.570000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4840E-03 SECONDS
   DATA R*BT AT EDGE:  2.7593E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5435E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.565000 TO TG2=    3.570000 @ NSTEP     3257
   GFRAME TG2 MOMENTS CHECKSUM:  2.4596236099107D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.00371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.38038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.90628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -2.99732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.86785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.48714E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.83838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.55635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.99284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.17532E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.54394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.96126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -3.94709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.90116E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.12651E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23110E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.31709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.83827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.72858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.01497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.94051E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.94051E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.5700E+00  3.5750E+00 total power(Watts):  2.9693E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.57000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.387775E+02    0.379255E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.367466E+02    0.380683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.381120E+02    0.363287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.405220E+02    0.367289E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.404083E+02    0.388857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.380182E+02    0.397321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.360491E+02    0.409848E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.347382E+02    0.395920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.345976E+02    0.377531E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.356127E+02    0.359494E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.373732E+02    0.347173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.395617E+02    0.343071E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.415300E+02    0.349009E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.428170E+02    0.363071E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.429709E+02    0.382041E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.419962E+02    0.400540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.401687E+02    0.413203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.379628E+02    0.416632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.360063E+02    0.440956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.330810E+02    0.423458E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.316608E+02    0.394656E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.320637E+02    0.363176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.343921E+02    0.334758E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.378564E+02    0.318011E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.416134E+02    0.317831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.450825E+02    0.332476E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133271E+03   -0.468074E+02    0.361337E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133190E+03   -0.462586E+02    0.396416E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.435695E+02    0.427307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.397219E+02    0.443072E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.396770E+02    0.289707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.376455E+02    0.291742E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.390830E+02    0.274554E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.414070E+02    0.277954E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.413396E+02    0.297975E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.389574E+02    0.306902E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.370025E+02    0.319429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.356543E+02    0.307192E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.356692E+02    0.288425E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.365618E+02    0.271785E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.383097E+02    0.259961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.405014E+02    0.255598E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.424879E+02    0.260374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.438096E+02    0.272593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.440077E+02    0.289918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.429602E+02    0.308091E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.411513E+02    0.320657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.389428E+02    0.324926E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.369191E+02    0.349951E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.338527E+02    0.334937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.325540E+02    0.307065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.329975E+02    0.276577E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.352931E+02    0.249610E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.387477E+02    0.233821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.426216E+02    0.232172E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.459009E+02    0.245184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.478096E+02    0.268973E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133562E+03   -0.472308E+02    0.301603E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.446019E+02    0.331822E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.406546E+02    0.350238E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.386807E+02    0.439370E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.366480E+02    0.440078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.381362E+02    0.422306E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.404361E+02    0.427924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.404101E+02    0.448836E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.380120E+02    0.455856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.360331E+02    0.466784E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.348277E+02    0.452952E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.347004E+02    0.435233E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.355420E+02    0.417949E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.373179E+02    0.405482E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.395117E+02    0.401932E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.414698E+02    0.408855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.429611E+02    0.423498E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.429774E+02    0.443279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.419918E+02    0.460386E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.401517E+02    0.471421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.379469E+02    0.473755E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.359623E+02    0.497429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.329615E+02    0.478943E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.315652E+02    0.451547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.320010E+02    0.420430E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.343569E+02    0.391566E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.377416E+02    0.375968E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.416022E+02    0.376274E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.450499E+02    0.392985E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132958E+03   -0.467296E+02    0.424518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132779E+03   -0.462641E+02    0.458579E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133919E+03   -0.434336E+02    0.486528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.396784E+02    0.500848E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.391732E+02    0.337049E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.370387E+02    0.339514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.385919E+02    0.320805E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.409086E+02    0.324882E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.408177E+02    0.346078E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.384305E+02    0.354774E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.364684E+02    0.367094E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.352351E+02    0.353644E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.350761E+02    0.335691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.359807E+02    0.318173E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.377340E+02    0.305687E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.399229E+02    0.301289E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.418991E+02    0.306705E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.432024E+02    0.320259E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.433781E+02    0.338876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.424226E+02    0.356895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.404951E+02    0.369867E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.383957E+02    0.373104E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.363492E+02    0.398345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.333154E+02    0.381940E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.319591E+02    0.354225E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.324266E+02    0.322578E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.346417E+02    0.294950E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.381920E+02    0.277766E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.420606E+02    0.276339E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.453232E+02    0.290709E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.471970E+02    0.317411E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.466911E+02    0.351564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.437975E+02    0.382819E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.400708E+02    0.399562E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.397102E+02    0.231662E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.376791E+02    0.233793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.392014E+02    0.216987E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.415286E+02    0.219905E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.413751E+02    0.238994E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.390050E+02    0.247515E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.370646E+02    0.259144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.357043E+02    0.248479E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.355109E+02    0.232673E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.365794E+02    0.215480E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.383201E+02    0.204301E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.405036E+02    0.200060E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.424886E+02    0.204395E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.438142E+02    0.215513E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.440305E+02    0.231224E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.430016E+02    0.247868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.412145E+02    0.259406E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.390123E+02    0.263736E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.369216E+02    0.288111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.339304E+02    0.274263E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.325994E+02    0.248782E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.330162E+02    0.220478E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.352070E+02    0.195722E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.386458E+02    0.180477E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.426087E+02    0.177838E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.458789E+02    0.190002E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.475601E+02    0.213074E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133706E+03   -0.472522E+02    0.240874E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.444507E+02    0.269893E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.407604E+02    0.286679E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658081.798030501     
  ps_ts2 prof sum =   657721.157800327     
  trcom prof sum =    657721.157800327     
  ps_ts2 cur sum  =   9756.79536018759     
  trcom cur sum  =    9756.79536018758     
  
  antenna # iant =            2
  powecha_use(iant) =    664379.654085062     
  ps_ts2 prof sum =   663996.868441226     
  trcom prof sum =    663996.868441226     
  ps_ts2 cur sum  =   12192.8766507513     
  trcom cur sum  =    12192.8766507513     
  
  antenna # iant =            3
  powecha_use(iant) =    528173.888766568     
  ps_ts2 prof sum =   527868.798465046     
  trcom prof sum =    527868.798465047     
  ps_ts2 cur sum  =   6615.01372001909     
  trcom cur sum  =    6615.01372001909     
  
  antenna # iant =            4
  powecha_use(iant) =    568417.651444726     
  ps_ts2 prof sum =   568075.690412779     
  trcom prof sum =    568075.690412778     
  ps_ts2 cur sum  =   9391.94715202722     
  trcom cur sum  =    9391.94715202721     
  
  antenna # iant =            5
  powecha_use(iant) =    550261.792219709     
  ps_ts2 prof sum =   549941.828586345     
  trcom prof sum =    549941.828586345     
  ps_ts2 cur sum  =   11148.5457954617     
  trcom cur sum  =    11148.5457954617     
  
  Total ECH heating:      2967604.34370572     
  Total Current Drive:    49105.1786784469     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3260
 TA= 3.57000E+00 CPU TIME= 1.88168E-01 SECONDS.  DT= 5.21298E-04
  
 TEC1=    3.56999999999995     
 TEC2=    3.57499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.04362249999986     
  %check_save_state: izleft hours =    70.9480555555556     
 --> plasma_hash("gframe"): TA= 3.570000E+00 NSTEP=  3260 Hash code:  122734669
 ->PRGCHK: bdy curvature ratio at t= 3.5750E+00 seconds is:  5.5462E-02
% MHDEQ: TG1=     3.570000 ; TG2=     3.575000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7587E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5462E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.570000 TO TG2=    3.575000 @ NSTEP     3260
   GFRAME TG2 MOMENTS CHECKSUM:  2.4598631880235D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5750E+00  3.5800E+00 total power(Watts):  2.9651E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.57500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.387693E+02    0.379140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.367391E+02    0.380575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.382065E+02    0.362583E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.405136E+02    0.367162E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.403995E+02    0.388734E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.381128E+02    0.396727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.360410E+02    0.409780E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.349232E+02    0.394799E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.345898E+02    0.377436E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.355077E+02    0.360008E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.373652E+02    0.347059E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.395533E+02    0.342951E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.415212E+02    0.348880E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.428079E+02    0.362939E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.430741E+02    0.381393E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.419926E+02    0.400423E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.401570E+02    0.413156E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.379542E+02    0.416578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.359971E+02    0.441029E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.329808E+02    0.423885E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.316539E+02    0.394572E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.321489E+02    0.362451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.342901E+02    0.335331E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.378481E+02    0.317903E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.417132E+02    0.317018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.449580E+02    0.332954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133319E+03   -0.467925E+02    0.361217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133228E+03   -0.462487E+02    0.396292E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.434463E+02    0.427670E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.397121E+02    0.443147E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.397775E+02    0.288808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.376375E+02    0.291633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.391762E+02    0.273706E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.415049E+02    0.277107E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.414382E+02    0.297118E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.390517E+02    0.306075E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.369944E+02    0.319297E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.358404E+02    0.305602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.356609E+02    0.288326E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.365532E+02    0.271717E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.383009E+02    0.259916E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.404919E+02    0.255552E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.425834E+02    0.259570E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.439111E+02    0.271756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.442230E+02    0.288347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.430617E+02    0.307255E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.411424E+02    0.320525E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.389343E+02    0.324803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.369109E+02    0.349843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.338456E+02    0.334846E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.325466E+02    0.306971E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.329871E+02    0.276527E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.351878E+02    0.250432E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.387365E+02    0.233801E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.426116E+02    0.232139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.458902E+02    0.245136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.477987E+02    0.268874E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133390E+03   -0.473387E+02    0.300767E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.444783E+02    0.332309E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.406465E+02    0.350104E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.386712E+02    0.439422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.366422E+02    0.440132E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.381266E+02    0.422282E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.404275E+02    0.427897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.403998E+02    0.448937E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.380024E+02    0.455973E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.360240E+02    0.466894E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.347258E+02    0.453399E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.346919E+02    0.435265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.354361E+02    0.418359E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.373097E+02    0.405396E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.395026E+02    0.401834E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.414606E+02    0.408769E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134415E+03   -0.428384E+02    0.423868E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.431965E+02    0.442651E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.419811E+02    0.460506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.401415E+02    0.471527E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.379341E+02    0.473866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.359532E+02    0.497450E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.329539E+02    0.479005E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.315572E+02    0.451659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.320813E+02    0.419952E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.343493E+02    0.391476E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.377326E+02    0.375861E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.415934E+02    0.376149E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.449249E+02    0.393340E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132777E+03   -0.468370E+02    0.424099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132812E+03   -0.462524E+02    0.458699E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.436434E+02    0.486133E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.397747E+02    0.500667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.391648E+02    0.336927E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.371310E+02    0.338751E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.385835E+02    0.320682E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.408996E+02    0.324756E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.408090E+02    0.345951E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.384221E+02    0.354661E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.364606E+02    0.366986E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.351310E+02    0.354155E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.349714E+02    0.336269E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.358750E+02    0.318768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.378267E+02    0.304835E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.399140E+02    0.301161E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.419990E+02    0.305872E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.433048E+02    0.319453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.434814E+02    0.338114E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.424136E+02    0.356770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.405941E+02    0.369184E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.383876E+02    0.372988E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.363412E+02    0.398246E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.333078E+02    0.381839E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.320424E+02    0.353494E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.325097E+02    0.321761E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.346335E+02    0.294849E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.381827E+02    0.277683E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.420506E+02    0.276246E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.455428E+02    0.289153E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.471870E+02    0.317250E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133363E+03   -0.466814E+02    0.351412E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.440183E+02    0.381659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.400621E+02    0.399466E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.398033E+02    0.230806E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.376697E+02    0.233773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.391928E+02    0.216956E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.415174E+02    0.219872E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.414712E+02    0.238153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.390976E+02    0.246670E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.370558E+02    0.259102E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.356984E+02    0.248435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.356913E+02    0.230946E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.364749E+02    0.216317E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.382113E+02    0.205149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.404943E+02    0.200018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.425852E+02    0.203506E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.438043E+02    0.215473E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.440175E+02    0.231202E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.431037E+02    0.247016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.412049E+02    0.259351E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.390034E+02    0.263682E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.368138E+02    0.288781E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.339199E+02    0.274223E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.325917E+02    0.248763E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.330086E+02    0.220470E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.351961E+02    0.195701E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.388326E+02    0.178638E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.425993E+02    0.177752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.458678E+02    0.189938E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.477791E+02    0.211442E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.472412E+02    0.240827E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.444403E+02    0.269820E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.407506E+02    0.286588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656729.599586314     
  ps_ts2 prof sum =   656319.822881983     
  trcom prof sum =    656319.822881983     
  ps_ts2 cur sum  =   9767.74057809928     
  trcom cur sum  =    9767.74057809928     
  
  antenna # iant =            2
  powecha_use(iant) =    663160.974705094     
  ps_ts2 prof sum =   662792.395102277     
  trcom prof sum =    662792.395102276     
  ps_ts2 cur sum  =   12200.5594596485     
  trcom cur sum  =    12200.5594596485     
  
  antenna # iant =            3
  powecha_use(iant) =    528444.942945608     
  ps_ts2 prof sum =   528101.536967399     
  trcom prof sum =    528101.536967399     
  ps_ts2 cur sum  =   6639.99621159225     
  trcom cur sum  =    6639.99621159225     
  
  antenna # iant =            4
  powecha_use(iant) =    566827.595953628     
  ps_ts2 prof sum =   566477.572246836     
  trcom prof sum =    566477.572234188     
  ps_ts2 cur sum  =   9392.46194200217     
  trcom cur sum  =    9392.46194200216     
  
  antenna # iant =            5
  powecha_use(iant) =    549929.778568777     
  ps_ts2 prof sum =   549602.861588516     
  trcom prof sum =    549602.861588516     
  ps_ts2 cur sum  =   11168.1303707616     
  trcom cur sum  =    11168.1303707616     
  
  Total ECH heating:      2963294.18877436     
  Total Current Drive:    49168.8885621037     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3266
 TA= 3.57500E+00 CPU TIME= 1.59436E-01 SECONDS.  DT= 9.02119E-04
  
 TEC1=    3.57499999999995     
 TEC2=    3.57999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.06088555555561     
  %check_save_state: izleft hours =    70.9305555555556     
 --> plasma_hash("gframe"): TA= 3.575000E+00 NSTEP=  3266 Hash code:   71648565
 ->PRGCHK: bdy curvature ratio at t= 3.5800E+00 seconds is:  5.5490E-02
% MHDEQ: TG1=     3.575000 ; TG2=     3.580000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7580E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5490E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.575000 TO TG2=    3.580000 @ NSTEP     3266
   GFRAME TG2 MOMENTS CHECKSUM:  2.4601027661363D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.16253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.29123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.71269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.59676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.89805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.58025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.54724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.06265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.60848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.45852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.93853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.55245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.30334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.00319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.19238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.25792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.42378E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.65735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.29448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.01403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.01403E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5800E+00  3.5850E+00 total power(Watts):  2.9763E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.58000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.387620E+02    0.379038E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.367322E+02    0.380475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.381993E+02    0.362498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.405059E+02    0.367062E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.403919E+02    0.388635E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.381054E+02    0.396626E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.361327E+02    0.409243E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.349161E+02    0.394710E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.347747E+02    0.376210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.355005E+02    0.359927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.373580E+02    0.346973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.395457E+02    0.342862E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.415176E+02    0.348765E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.429116E+02    0.362270E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.430663E+02    0.381282E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.420896E+02    0.399861E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.401496E+02    0.413076E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.380492E+02    0.416077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.359895E+02    0.441086E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.329746E+02    0.423864E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.316473E+02    0.394491E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.321424E+02    0.362388E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.342836E+02    0.335258E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.378410E+02    0.317814E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.417050E+02    0.316921E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.449496E+02    0.332843E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.467891E+02    0.361069E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133267E+03   -0.462408E+02    0.396150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.434372E+02    0.427635E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.397032E+02    0.443202E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.397694E+02    0.288729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.376295E+02    0.291552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.391682E+02    0.273644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.414961E+02    0.277029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.414299E+02    0.297022E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.390421E+02    0.305995E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.369871E+02    0.319231E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.358335E+02    0.305530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.356541E+02    0.288251E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.365459E+02    0.271667E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.382929E+02    0.259879E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.404835E+02    0.255517E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.425775E+02    0.259511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.439020E+02    0.271692E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.441016E+02    0.288970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.430535E+02    0.307146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.411343E+02    0.320432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.389266E+02    0.324721E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.369038E+02    0.349765E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.340262E+02    0.333408E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.325403E+02    0.306884E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.329803E+02    0.276482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.351819E+02    0.250412E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.387297E+02    0.233786E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.426029E+02    0.232116E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134098E+03   -0.461091E+02    0.243559E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.476710E+02    0.269527E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133428E+03   -0.473296E+02    0.300648E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.444698E+02    0.332208E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.406388E+02    0.350009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.387672E+02    0.439088E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.366344E+02    0.440183E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.381194E+02    0.422234E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.404193E+02    0.427873E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.403910E+02    0.449021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.380968E+02    0.455745E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.361151E+02    0.466681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.349078E+02    0.452814E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.346846E+02    0.435294E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.356247E+02    0.417416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.373020E+02    0.405325E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.394952E+02    0.401742E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.415684E+02    0.408220E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.428298E+02    0.423824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.430749E+02    0.443043E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.420825E+02    0.460309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.401326E+02    0.471615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.380287E+02    0.473666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.360444E+02    0.497221E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.329466E+02    0.479063E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.316398E+02    0.451388E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.320742E+02    0.419927E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.342487E+02    0.391908E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.378275E+02    0.375206E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.415852E+02    0.376047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.451477E+02    0.392271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132814E+03   -0.468275E+02    0.424047E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132847E+03   -0.462423E+02    0.458803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133767E+03   -0.435265E+02    0.486404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.397663E+02    0.500659E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.391570E+02    0.336852E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.371238E+02    0.338672E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.385759E+02    0.320596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.408918E+02    0.324661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.408013E+02    0.345845E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.384150E+02    0.354572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.364536E+02    0.366899E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.351244E+02    0.354066E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.349645E+02    0.336199E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.360633E+02    0.317280E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.378188E+02    0.304761E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.399060E+02    0.301071E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.419907E+02    0.305773E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.432964E+02    0.319354E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.434730E+02    0.338032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.424057E+02    0.356664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.405864E+02    0.369082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.383803E+02    0.372890E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.363342E+02    0.398159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.334879E+02    0.380632E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.320362E+02    0.353412E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.325033E+02    0.321691E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.348165E+02    0.293242E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.382763E+02    0.276836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.420419E+02    0.276187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.455339E+02    0.289047E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.472965E+02    0.316485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133401E+03   -0.466728E+02    0.351294E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.438964E+02    0.382047E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.401612E+02    0.398886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.397951E+02    0.230786E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.376619E+02    0.233759E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.391840E+02    0.216927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.415107E+02    0.219837E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.414627E+02    0.238131E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.390891E+02    0.246662E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.370481E+02    0.259074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.358785E+02    0.246782E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.355895E+02    0.231787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.364676E+02    0.216293E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.384001E+02    0.203379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.404860E+02    0.199969E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.425767E+02    0.203455E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.439045E+02    0.214618E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.440085E+02    0.231175E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.430951E+02    0.246983E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.411965E+02    0.259309E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.389950E+02    0.263653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.370052E+02    0.287175E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.339154E+02    0.274156E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.325847E+02    0.248756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.330908E+02    0.219573E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.351892E+02    0.195646E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.388251E+02    0.178545E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.426958E+02    0.176782E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.458600E+02    0.189847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133648E+03   -0.477698E+02    0.211381E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.472317E+02    0.240792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.444315E+02    0.269741E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.407408E+02    0.286503E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664492.420316223     
  ps_ts2 prof sum =   664085.528666336     
  trcom prof sum =    664085.528666336     
  ps_ts2 cur sum  =   9916.08203551222     
  trcom cur sum  =    9916.08203551221     
  
  antenna # iant =            2
  powecha_use(iant) =    662769.084769869     
  ps_ts2 prof sum =   662392.558383454     
  trcom prof sum =    662392.558383454     
  ps_ts2 cur sum  =   12227.6740354994     
  trcom cur sum  =    12227.6740354995     
  
  antenna # iant =            3
  powecha_use(iant) =    529601.481045767     
  ps_ts2 prof sum =   529287.341447338     
  trcom prof sum =    529287.341447338     
  ps_ts2 cur sum  =   6679.96683333476     
  trcom cur sum  =    6679.96683333477     
  
  antenna # iant =            4
  powecha_use(iant) =    569754.693175694     
  ps_ts2 prof sum =   569430.379053284     
  trcom prof sum =    569430.379053283     
  ps_ts2 cur sum  =   9470.28569709653     
  trcom cur sum  =    9470.28569709653     
  
  antenna # iant =            5
  powecha_use(iant) =    549635.916744752     
  ps_ts2 prof sum =   549340.310620902     
  trcom prof sum =    549340.310620902     
  ps_ts2 cur sum  =   11188.6091847397     
  trcom cur sum  =    11188.6091847397     
  
  Total ECH heating:      2974536.11817131     
  Total Current Drive:    49482.6177861827     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3270
 TA= 3.58000E+00 CPU TIME= 1.59043E-01 SECONDS.  DT= 1.95084E-03
  
 TEC1=    3.57999999999995     
 TEC2=    3.58499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.07319694444436     
  %check_save_state: izleft hours =    70.9183333333333     
 --> plasma_hash("gframe"): TA= 3.580000E+00 NSTEP=  3270 Hash code:   67350581
 ->PRGCHK: bdy curvature ratio at t= 3.5850E+00 seconds is:  5.5518E-02
% MHDEQ: TG1=     3.580000 ; TG2=     3.585000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7574E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5518E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.580000 TO TG2=    3.585000 @ NSTEP     3270
   GFRAME TG2 MOMENTS CHECKSUM:  2.4603423442491D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.5850E+00  3.5900E+00 total power(Watts):  2.9787E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.58500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.387537E+02    0.378881E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.367224E+02    0.380341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.381888E+02    0.362363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.404950E+02    0.366924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.404889E+02    0.387966E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.380948E+02    0.396506E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.361231E+02    0.409134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.349067E+02    0.394591E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.347654E+02    0.376085E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.356861E+02    0.358586E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.374487E+02    0.346221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.395353E+02    0.342731E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.416111E+02    0.348049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.429002E+02    0.362123E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.430551E+02    0.381113E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.420787E+02    0.399716E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.402461E+02    0.412522E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.380397E+02    0.415973E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.359797E+02    0.441108E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.331503E+02    0.422920E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.316389E+02    0.394380E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.321338E+02    0.362276E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.344633E+02    0.333791E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.378298E+02    0.317700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.416932E+02    0.316799E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.451674E+02    0.331445E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133172E+03   -0.468951E+02    0.360348E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133089E+03   -0.463465E+02    0.395520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133851E+03   -0.436517E+02    0.426793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.397985E+02    0.442875E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.397575E+02    0.288649E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.377187E+02    0.290714E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.391568E+02    0.273579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.414841E+02    0.276966E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.414178E+02    0.296907E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.390324E+02    0.305882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.370763E+02    0.318409E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.358221E+02    0.305435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.355459E+02    0.288960E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.366326E+02    0.270831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.383819E+02    0.259057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.405762E+02    0.254699E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.425647E+02    0.259479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.438890E+02    0.271629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.440888E+02    0.288866E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.430412E+02    0.307024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.412307E+02    0.319634E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.390193E+02    0.323930E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.368940E+02    0.349637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.339229E+02    0.333999E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.325307E+02    0.306807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.330609E+02    0.275637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.353600E+02    0.248745E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.388187E+02    0.232937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.426978E+02    0.231284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.459812E+02    0.244310E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133378E+03   -0.478934E+02    0.267985E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133463E+03   -0.473160E+02    0.300515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.446861E+02    0.330800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.407351E+02    0.349279E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.387566E+02    0.439088E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.367244E+02    0.439814E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.381091E+02    0.422158E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.405155E+02    0.427413E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.403799E+02    0.449071E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.380863E+02    0.455820E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.361051E+02    0.466753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.348980E+02    0.452880E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.345791E+02    0.435691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.356150E+02    0.417326E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.373935E+02    0.404728E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.394849E+02    0.401610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.415512E+02    0.408105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.428183E+02    0.423736E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134206E+03   -0.430631E+02    0.443051E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.420709E+02    0.460378E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.402289E+02    0.471398E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.380183E+02    0.473720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.360350E+02    0.497178E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.331237E+02    0.478517E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.316310E+02    0.451461E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.320655E+02    0.419859E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.342394E+02    0.391786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.378174E+02    0.375069E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.416839E+02    0.375352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133611E+03   -0.451360E+02    0.392091E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132837E+03   -0.468221E+02    0.423943E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132661E+03   -0.463473E+02    0.458583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133801E+03   -0.435149E+02    0.486412E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.397555E+02    0.500616E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.391461E+02    0.336735E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.371135E+02    0.338562E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.385649E+02    0.320486E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.408801E+02    0.324542E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.408979E+02    0.345092E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.385080E+02    0.353827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.363445E+02    0.367362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.353078E+02    0.352709E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.351468E+02    0.334745E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.360529E+02    0.317170E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.378078E+02    0.304658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.399981E+02    0.300247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.419787E+02    0.305662E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.432841E+02    0.319217E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.434613E+02    0.337883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.425052E+02    0.355935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.405756E+02    0.368939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.383701E+02    0.372754E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.364233E+02    0.397546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.333856E+02    0.381071E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.320274E+02    0.353324E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.324937E+02    0.321596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.347108E+02    0.293939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.382651E+02    0.276779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.421364E+02    0.275367E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.454057E+02    0.289648E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133361E+03   -0.472834E+02    0.316329E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133438E+03   -0.466604E+02    0.351129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.438850E+02    0.381884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.401504E+02    0.398753E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.397832E+02    0.230766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.377487E+02    0.232908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.391672E+02    0.216897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.414983E+02    0.219789E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.414499E+02    0.238133E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.390773E+02    0.246655E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.369389E+02    0.259869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.358676E+02    0.246776E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.355786E+02    0.231774E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.366479E+02    0.214502E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.383892E+02    0.203266E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.405767E+02    0.198977E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.425647E+02    0.203334E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.438923E+02    0.214539E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.441054E+02    0.230351E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.430819E+02    0.246973E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.411840E+02    0.259287E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.389836E+02    0.263614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.369930E+02    0.287102E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.340902E+02    0.272508E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.325744E+02    0.248766E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137770E+03   -0.330803E+02    0.219524E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.352722E+02    0.194602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.388147E+02    0.178350E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.426846E+02    0.176563E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.459585E+02    0.188827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.476414E+02    0.212093E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.471015E+02    0.241541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.445307E+02    0.268939E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.407305E+02    0.286407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.36 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663828.631558549     
  ps_ts2 prof sum =   663475.881103744     
  trcom prof sum =    663475.881103744     
  ps_ts2 cur sum  =   9930.08996479453     
  trcom cur sum  =    9930.08996479452     
  
  antenna # iant =            2
  powecha_use(iant) =    666984.160180229     
  ps_ts2 prof sum =   666619.818481157     
  trcom prof sum =    666619.818481156     
  ps_ts2 cur sum  =   12323.6656374373     
  trcom cur sum  =    12323.6656374373     
  
  antenna # iant =            3
  powecha_use(iant) =    527608.585317109     
  ps_ts2 prof sum =   527282.640280154     
  trcom prof sum =    527282.640280154     
  ps_ts2 cur sum  =   6672.93795535910     
  trcom cur sum  =    6672.93795535910     
  
  antenna # iant =            4
  powecha_use(iant) =    569031.796995604     
  ps_ts2 prof sum =   568684.154599835     
  trcom prof sum =    568684.154599834     
  ps_ts2 cur sum  =   9477.80763096200     
  trcom cur sum  =    9477.80763096200     
  
  antenna # iant =            5
  powecha_use(iant) =    551291.518205048     
  ps_ts2 prof sum =   550984.671336182     
  trcom prof sum =    550984.671336182     
  ps_ts2 cur sum  =   11234.6968693127     
  trcom cur sum  =    11234.6968693127     
  
  Total ECH heating:      2977047.16580107     
  Total Current Drive:    49639.1980578656     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3273
 TA= 3.58500E+00 CPU TIME= 1.61422E-01 SECONDS.  DT= 7.63259E-04
  
 TEC1=    3.58499999999995     
 TEC2=    3.58999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.09146305555532     
  %check_save_state: izleft hours =    70.9000000000000     
 --> plasma_hash("gframe"): TA= 3.585000E+00 NSTEP=  3273 Hash code:   88005497
 ->PRGCHK: bdy curvature ratio at t= 3.5900E+00 seconds is:  5.5546E-02
% MHDEQ: TG1=     3.585000 ; TG2=     3.590000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7568E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5546E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.585000 TO TG2=    3.590000 @ NSTEP     3273
   GFRAME TG2 MOMENTS CHECKSUM:  2.4605819223619D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.30585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.21078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.53799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.13770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.05461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.53902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.51321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.38142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.91802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.20448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.36624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.89189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.32915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.10697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.69838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.59308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.54672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.89496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.89496E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5900E+00  3.5950E+00 total power(Watts):  2.9696E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.59000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.388419E+02    0.378264E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.368094E+02    0.379705E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.382779E+02    0.361749E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.405917E+02    0.366284E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.404745E+02    0.387858E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.380821E+02    0.396366E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.361104E+02    0.409005E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.347992E+02    0.394991E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.346576E+02    0.376590E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.356731E+02    0.358578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.374350E+02    0.346249E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.396260E+02    0.342137E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.415960E+02    0.348065E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.428845E+02    0.362094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.431521E+02    0.380486E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.420643E+02    0.399565E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.402323E+02    0.412378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.380266E+02    0.415844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.360659E+02    0.440673E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.330463E+02    0.423266E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.317175E+02    0.393746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.321222E+02    0.362265E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.344506E+02    0.333864E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.379173E+02    0.317101E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.416781E+02    0.316902E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.451508E+02    0.331518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133203E+03   -0.468784E+02    0.360305E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.463311E+02    0.395346E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.435239E+02    0.427040E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.397849E+02    0.442810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.397433E+02    0.288803E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.377053E+02    0.290863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.391439E+02    0.273752E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.415776E+02    0.276381E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.415108E+02    0.296336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.391219E+02    0.305282E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.370627E+02    0.318511E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.357125E+02    0.306292E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.357269E+02    0.287559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.366204E+02    0.271011E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.383695E+02    0.259260E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.405632E+02    0.254914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.425508E+02    0.259688E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.438743E+02    0.271813E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.440728E+02    0.289026E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.431369E+02    0.306440E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.412156E+02    0.319734E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.390050E+02    0.324010E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.369805E+02    0.349024E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.339104E+02    0.334078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.326048E+02    0.306209E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.330498E+02    0.275807E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.353487E+02    0.248952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.388077E+02    0.233138E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.426854E+02    0.231498E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.459669E+02    0.244539E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133400E+03   -0.478772E+02    0.268186E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.472981E+02    0.300641E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.446698E+02    0.330870E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.407202E+02    0.349286E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.387424E+02    0.439009E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.367119E+02    0.439748E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.381994E+02    0.421612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.404965E+02    0.427290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.404736E+02    0.448690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.380737E+02    0.455798E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.360933E+02    0.466735E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.348863E+02    0.452867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.347597E+02    0.434800E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.356025E+02    0.417211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.373808E+02    0.404585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.395771E+02    0.400989E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.415368E+02    0.407957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.429164E+02    0.423181E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.430484E+02    0.442975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.420626E+02    0.460333E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.402158E+02    0.471362E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.380060E+02    0.473672E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.360288E+02    0.497048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.330203E+02    0.478754E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.316200E+02    0.451457E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.320544E+02    0.419762E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.344174E+02    0.390619E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.378037E+02    0.374998E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.416692E+02    0.375267E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.450050E+02    0.392421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132670E+03   -0.469186E+02    0.423394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132695E+03   -0.463322E+02    0.458539E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133392E+03   -0.437278E+02    0.485871E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.398503E+02    0.500261E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.392361E+02    0.336147E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.372001E+02    0.337963E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.386526E+02    0.319901E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.409726E+02    0.323964E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.408830E+02    0.345120E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.384938E+02    0.353838E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.365299E+02    0.366143E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.352923E+02    0.352736E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.350383E+02    0.335480E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.360397E+02    0.317275E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.377941E+02    0.304779E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.399850E+02    0.300374E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.419637E+02    0.305777E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.432685E+02    0.319325E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.435579E+02    0.337311E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.424896E+02    0.355926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.406634E+02    0.368351E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.384594E+02    0.372127E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.364105E+02    0.397423E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.333740E+02    0.380999E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.320156E+02    0.353338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.324817E+02    0.321696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.346986E+02    0.294075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.382520E+02    0.276948E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.421237E+02    0.275537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.453894E+02    0.289803E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133387E+03   -0.472663E+02    0.316441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133256E+03   -0.467616E+02    0.350542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.440970E+02    0.380737E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.401365E+02    0.398612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.397730E+02    0.230971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.377377E+02    0.233114E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.392628E+02    0.216201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.415914E+02    0.219151E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.414377E+02    0.238335E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.390653E+02    0.246868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.371233E+02    0.258447E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.357611E+02    0.247825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.355685E+02    0.231969E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.366387E+02    0.214663E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.383802E+02    0.203390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.405673E+02    0.199090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.425543E+02    0.203469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.438806E+02    0.214718E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.440927E+02    0.230566E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.430688E+02    0.247190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.412771E+02    0.258708E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.390731E+02    0.263015E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.369803E+02    0.287249E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.339863E+02    0.273489E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.326530E+02    0.248118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.330718E+02    0.219699E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.352642E+02    0.194696E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.387088E+02    0.179271E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.426759E+02    0.176598E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.459488E+02    0.188900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.476281E+02    0.212275E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133615E+03   -0.473189E+02    0.240233E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.445160E+02    0.269124E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.408229E+02    0.285813E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659633.830621057     
  ps_ts2 prof sum =   659243.272401400     
  trcom prof sum =    659243.272401400     
  ps_ts2 cur sum  =   9886.67542501793     
  trcom cur sum  =    9886.67542501793     
  
  antenna # iant =            2
  powecha_use(iant) =    666612.068615761     
  ps_ts2 prof sum =   666238.501459967     
  trcom prof sum =    666238.501459967     
  ps_ts2 cur sum  =   12328.8385495903     
  trcom cur sum  =    12328.8385495903     
  
  antenna # iant =            3
  powecha_use(iant) =    527424.741693348     
  ps_ts2 prof sum =   527103.893255636     
  trcom prof sum =    527103.893255636     
  ps_ts2 cur sum  =   6688.09617781591     
  trcom cur sum  =    6688.09617781591     
  
  antenna # iant =            4
  powecha_use(iant) =    565315.899791538     
  ps_ts2 prof sum =   564974.244218993     
  trcom prof sum =    564974.244218992     
  ps_ts2 cur sum  =   9429.62225632246     
  trcom cur sum  =    9429.62225632245     
  
  antenna # iant =            5
  powecha_use(iant) =    550648.254229856     
  ps_ts2 prof sum =   550319.954898665     
  trcom prof sum =    550319.954898665     
  ps_ts2 cur sum  =   11229.2381126897     
  trcom cur sum  =    11229.2381126897     
  
  Total ECH heating:      2967879.86623466     
  Total Current Drive:    49562.4705214363     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3278
 TA= 3.59000E+00 CPU TIME= 1.59744E-01 SECONDS.  DT= 7.49172E-04
  
 TEC1=    3.58999999999995     
 TEC2=    3.59499999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.10664694444449     
  %check_save_state: izleft hours =    70.8850000000000     
 --> plasma_hash("gframe"): TA= 3.590000E+00 NSTEP=  3278 Hash code:   69453836
 ->PRGCHK: bdy curvature ratio at t= 3.5950E+00 seconds is:  5.5574E-02
% MHDEQ: TG1=     3.590000 ; TG2=     3.595000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0640E-03 SECONDS
   DATA R*BT AT EDGE:  2.7562E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5574E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.590000 TO TG2=    3.595000 @ NSTEP     3278
   GFRAME TG2 MOMENTS CHECKSUM:  2.4608215004747D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.5950E+00  3.6000E+00 total power(Watts):  2.9654E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.59500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.388266E+02    0.378318E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.367949E+02    0.379761E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.382623E+02    0.361836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.405717E+02    0.366384E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.405663E+02    0.387351E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.381706E+02    0.395846E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.361983E+02    0.408441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.349785E+02    0.393940E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.348353E+02    0.375516E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.355607E+02    0.359278E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.374198E+02    0.346329E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.396099E+02    0.342222E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.416883E+02    0.347532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.429792E+02    0.361597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.431354E+02    0.380524E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.421592E+02    0.399043E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.402183E+02    0.412245E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.381158E+02    0.415257E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.360535E+02    0.440452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.330349E+02    0.423101E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.317054E+02    0.393756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.321991E+02    0.361736E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.343421E+02    0.334631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.379020E+02    0.317192E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.417701E+02    0.316311E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.450177E+02    0.332215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133230E+03   -0.468598E+02    0.360379E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133155E+03   -0.463138E+02    0.395307E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.435088E+02    0.426813E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.397713E+02    0.442570E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.398326E+02    0.288196E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.376897E+02    0.291006E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.392323E+02    0.273180E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.415617E+02    0.276569E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.414949E+02    0.296452E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.391063E+02    0.305387E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.370477E+02    0.318601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.358927E+02    0.304917E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.357138E+02    0.287704E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.366068E+02    0.271208E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.383557E+02    0.259488E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.405487E+02    0.255148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.426448E+02    0.259133E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.439694E+02    0.271276E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.441686E+02    0.288448E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134917E+03   -0.431197E+02    0.306548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.411990E+02    0.319824E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.389893E+02    0.324107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.369655E+02    0.349111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.340839E+02    0.332800E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.325965E+02    0.306274E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.330377E+02    0.275985E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.352422E+02    0.250007E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.387978E+02    0.233329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.426716E+02    0.231710E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133960E+03   -0.461792E+02    0.243241E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133212E+03   -0.479772E+02    0.267683E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133304E+03   -0.473987E+02    0.300070E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134372E+03   -0.445377E+02    0.331574E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.408112E+02    0.348758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.388344E+02    0.438391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.367993E+02    0.439136E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.381858E+02    0.421430E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.404872E+02    0.427080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.404600E+02    0.448459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.381634E+02    0.455279E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.361794E+02    0.466294E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.349703E+02    0.452343E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.347455E+02    0.434602E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.356883E+02    0.416609E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.373674E+02    0.404513E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.395624E+02    0.400937E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.416319E+02    0.407395E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.429015E+02    0.422981E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.431466E+02    0.442353E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.421536E+02    0.459848E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.403090E+02    0.470941E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.380960E+02    0.473268E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.361104E+02    0.496694E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.330087E+02    0.478660E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.316984E+02    0.450920E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.321339E+02    0.419150E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.343095E+02    0.391161E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.378910E+02    0.374500E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.416528E+02    0.375324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133464E+03   -0.452170E+02    0.391455E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132704E+03   -0.469027E+02    0.423160E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132730E+03   -0.463166E+02    0.458303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133649E+03   -0.435997E+02    0.485963E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.398368E+02    0.500117E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.392201E+02    0.336235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.371870E+02    0.338042E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.386382E+02    0.319982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.409562E+02    0.324056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.408663E+02    0.345218E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.384782E+02    0.353923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.365152E+02    0.366227E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.351840E+02    0.353435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.350239E+02    0.335569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.361228E+02    0.316658E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.378801E+02    0.304158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.399692E+02    0.300488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.420562E+02    0.305178E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.433628E+02    0.318750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.435401E+02    0.337401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.424725E+02    0.356009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.406524E+02    0.368396E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.384443E+02    0.372197E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.363978E+02    0.397380E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.335470E+02    0.379925E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.320921E+02    0.352785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.325591E+02    0.321076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.348747E+02    0.292681E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.383388E+02    0.276359E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.421077E+02    0.275731E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.456014E+02    0.288525E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133203E+03   -0.473657E+02    0.315882E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133283E+03   -0.467429E+02    0.350619E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.439665E+02    0.381277E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.402289E+02    0.398080E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.398626E+02    0.230347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.377257E+02    0.233326E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.392511E+02    0.216370E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.415794E+02    0.219331E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.415297E+02    0.237753E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.391536E+02    0.246275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.371083E+02    0.258688E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.359397E+02    0.246391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.356518E+02    0.231311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.365326E+02    0.215688E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.384684E+02    0.202643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.406590E+02    0.198340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.426479E+02    0.202767E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.439756E+02    0.214077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.440785E+02    0.230779E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.431629E+02    0.246648E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.412620E+02    0.258935E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.390586E+02    0.263233E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.370656E+02    0.286632E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.339739E+02    0.273675E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.326420E+02    0.248328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.331507E+02    0.218981E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.354394E+02    0.192992E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.388958E+02    0.177517E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.427703E+02    0.175754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.460482E+02    0.188136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133519E+03   -0.478439E+02    0.210865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.473027E+02    0.240486E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.447245E+02    0.267845E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.408075E+02    0.285973E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655149.395575065     
  ps_ts2 prof sum =   654750.971271408     
  trcom prof sum =    654750.971271408     
  ps_ts2 cur sum  =   9833.78169347214     
  trcom cur sum  =    9833.78169317135     
  
  antenna # iant =            2
  powecha_use(iant) =    664985.090233619     
  ps_ts2 prof sum =   664619.592278287     
  trcom prof sum =    664619.592278286     
  ps_ts2 cur sum  =   12306.1314872329     
  trcom cur sum  =    12306.1314872329     
  
  antenna # iant =            3
  powecha_use(iant) =    527604.314942108     
  ps_ts2 prof sum =   527291.606464728     
  trcom prof sum =    527291.606464728     
  ps_ts2 cur sum  =   6706.17633966680     
  trcom cur sum  =    6706.17633966681     
  
  antenna # iant =            4
  powecha_use(iant) =    565441.205575068     
  ps_ts2 prof sum =   565113.346933157     
  trcom prof sum =    565113.346933156     
  ps_ts2 cur sum  =   9440.87512208188     
  trcom cur sum  =    9440.87512208187     
  
  antenna # iant =            5
  powecha_use(iant) =    552257.916499704     
  ps_ts2 prof sum =   551988.298353576     
  trcom prof sum =    551988.298353576     
  ps_ts2 cur sum  =   11266.2176966775     
  trcom cur sum  =    11266.2176966775     
  
  Total ECH heating:      2963763.81530116     
  Total Current Drive:    49553.1823388305     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3283
 TA= 3.59500E+00 CPU TIME= 1.60126E-01 SECONDS.  DT= 8.50694E-04
  
 TEC1=    3.59499999999995     
 TEC2=    3.59999999999995     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.12296555555509     
  %check_save_state: izleft hours =    70.8686111111111     
 --> plasma_hash("gframe"): TA= 3.595000E+00 NSTEP=  3283 Hash code:   53163404
 ->PRGCHK: bdy curvature ratio at t= 3.6000E+00 seconds is:  5.5603E-02
% MHDEQ: TG1=     3.595000 ; TG2=     3.600000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7556E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5603E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.595000 TO TG2=    3.600000 @ NSTEP     3283
   GFRAME TG2 MOMENTS CHECKSUM:  2.4610610785875D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.46599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.12089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.34278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.74215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.95576E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.52983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.93489E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.29528E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.89510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.05043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.80919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.76753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.08194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.05567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.00521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.52126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.82856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.17050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.17050E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.6000E+00  3.6050E+00 total power(Watts):  2.9714E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.60000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.388133E+02    0.378430E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.367819E+02    0.379867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.382492E+02    0.361972E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.405581E+02    0.366515E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.405528E+02    0.387427E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.381605E+02    0.395880E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.361848E+02    0.408406E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.349669E+02    0.393991E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.348235E+02    0.375630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.357396E+02    0.358218E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.375081E+02    0.345828E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.395966E+02    0.342355E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.416741E+02    0.347670E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.429645E+02    0.361734E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.431210E+02    0.380622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.421454E+02    0.399063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.403124E+02    0.411741E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.381038E+02    0.415183E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.360423E+02    0.440279E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.332096E+02    0.422097E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.316946E+02    0.393809E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.321882E+02    0.361874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.345190E+02    0.333426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.378898E+02    0.317337E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.417566E+02    0.316450E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.452373E+02    0.331087E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133044E+03   -0.469622E+02    0.359966E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132969E+03   -0.464163E+02    0.394872E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133736E+03   -0.437221E+02    0.425866E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.398652E+02    0.442019E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.398211E+02    0.288376E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.377798E+02    0.290417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.392206E+02    0.273401E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.415499E+02    0.276787E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.414864E+02    0.296588E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.390942E+02    0.305522E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.371350E+02    0.318050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.358806E+02    0.305066E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.356072E+02    0.288650E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.364970E+02    0.272242E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.384462E+02    0.258914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.405380E+02    0.255386E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.426332E+02    0.259374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.439569E+02    0.271507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.441552E+02    0.288646E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.431057E+02    0.306706E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.412935E+02    0.319280E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.389800E+02    0.324227E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.369527E+02    0.349259E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.339787E+02    0.333619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.325862E+02    0.306409E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.330279E+02    0.276197E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.352338E+02    0.250227E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.388866E+02    0.232732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.426622E+02    0.231928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.460494E+02    0.244298E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133233E+03   -0.479633E+02    0.267932E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133329E+03   -0.473838E+02    0.300230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.447511E+02    0.330450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.407974E+02    0.348893E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.388220E+02    0.438212E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.367882E+02    0.438960E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.382773E+02    0.420885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.405823E+02    0.426530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.405548E+02    0.447937E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.381511E+02    0.455136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.361682E+02    0.466189E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.349595E+02    0.452200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.346396E+02    0.434840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.356775E+02    0.416530E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.374520E+02    0.404049E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.395496E+02    0.400945E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.416185E+02    0.407365E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.431122E+02    0.422037E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.431336E+02    0.442147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.421404E+02    0.459694E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.402968E+02    0.470825E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.380841E+02    0.473170E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.360999E+02    0.496583E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.331855E+02    0.478004E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.316882E+02    0.450794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.321238E+02    0.419066E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.342981E+02    0.391231E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.378780E+02    0.374621E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.417484E+02    0.374894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.452046E+02    0.391494E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132738E+03   -0.468883E+02    0.423010E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132547E+03   -0.464200E+02    0.457833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.435862E+02    0.485852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.398239E+02    0.500002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.392070E+02    0.336367E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.371722E+02    0.338183E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.386254E+02    0.320105E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.409427E+02    0.324191E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.409602E+02    0.344733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.385681E+02    0.353452E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.365024E+02    0.366366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.353653E+02    0.352310E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.352044E+02    0.334352E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.361112E+02    0.316791E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.378683E+02    0.304298E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.400622E+02    0.299909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.420427E+02    0.305325E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.433487E+02    0.318887E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.435255E+02    0.337537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.425690E+02    0.355559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.406386E+02    0.368531E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.384313E+02    0.372321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.364846E+02    0.396921E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.334426E+02    0.380594E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.320811E+02    0.352919E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.325491E+02    0.321188E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.348598E+02    0.292870E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.383275E+02    0.276576E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.422042E+02    0.275187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.454729E+02    0.289422E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133228E+03   -0.473496E+02    0.316045E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133309E+03   -0.467271E+02    0.350762E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.439516E+02    0.381383E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.402155E+02    0.398109E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.398536E+02    0.230552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.378156E+02    0.232697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.392433E+02    0.216533E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.415709E+02    0.219507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.415195E+02    0.237987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.391444E+02    0.246510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.371001E+02    0.258911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.359308E+02    0.246611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.356429E+02    0.231524E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.365261E+02    0.215833E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.384611E+02    0.202763E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.406524E+02    0.198446E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.426412E+02    0.202879E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.439663E+02    0.214248E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.441789E+02    0.230194E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.431521E+02    0.246892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.412507E+02    0.259179E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.390479E+02    0.263464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.370540E+02    0.286816E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.339640E+02    0.273894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.326339E+02    0.248556E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.331432E+02    0.219146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.353429E+02    0.193961E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.388893E+02    0.177563E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.427624E+02    0.175803E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.460406E+02    0.188217E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.477201E+02    0.211813E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.471752E+02    0.241511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.445994E+02    0.268830E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.407950E+02    0.286165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.67 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652970.659257213     
  ps_ts2 prof sum =   652621.244940959     
  trcom prof sum =    652621.244940959     
  ps_ts2 cur sum  =   9824.64073563655     
  trcom cur sum  =    9824.64073563655     
  
  antenna # iant =            2
  powecha_use(iant) =    670134.643309022     
  ps_ts2 prof sum =   669715.942023995     
  trcom prof sum =    669715.942023994     
  ps_ts2 cur sum  =   12431.0682949505     
  trcom cur sum  =    12431.0682949505     
  
  antenna # iant =            3
  powecha_use(iant) =    528942.957534106     
  ps_ts2 prof sum =   528626.258968299     
  trcom prof sum =    528626.258968300     
  ps_ts2 cur sum  =   6741.34764064304     
  trcom cur sum  =    6741.34764064304     
  
  antenna # iant =            4
  powecha_use(iant) =    566493.577592693     
  ps_ts2 prof sum =   566168.279433891     
  trcom prof sum =    566168.279433891     
  ps_ts2 cur sum  =   9481.42365793380     
  trcom cur sum  =    9481.42365793379     
  
  antenna # iant =            5
  powecha_use(iant) =    552827.733491630     
  ps_ts2 prof sum =   552509.416830765     
  trcom prof sum =    552509.416830765     
  ps_ts2 cur sum  =   11301.0530821304     
  trcom cur sum  =    11301.0530821304     
  
  Total ECH heating:      2969641.14219791     
  Total Current Drive:    49779.5334112942     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3288
 TA= 3.60000E+00 CPU TIME= 1.69727E-01 SECONDS.  DT= 1.19019E-04
  
 TEC1=    3.59999999999995     
 TEC2=    3.60499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.13743583333280     
  %check_save_state: izleft hours =    70.8541666666667     
 --> plasma_hash("gframe"): TA= 3.600000E+00 NSTEP=  3288 Hash code:   79896726
 ->PRGCHK: bdy curvature ratio at t= 3.6050E+00 seconds is:  5.5632E-02
% MHDEQ: TG1=     3.600000 ; TG2=     3.605000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7549E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5632E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.600000 TO TG2=    3.605000 @ NSTEP     3288
   GFRAME TG2 MOMENTS CHECKSUM:  2.4613006567003D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6050E+00  3.6100E+00 total power(Watts):  2.9616E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.60500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.389048E+02    0.377948E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.368700E+02    0.379385E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.382365E+02    0.362074E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.406515E+02    0.366048E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.405398E+02    0.387473E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.381458E+02    0.395894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.361738E+02    0.408343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.348597E+02    0.394530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.347161E+02    0.376286E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.357319E+02    0.358304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.374933E+02    0.345965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.396882E+02    0.341839E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.416602E+02    0.347783E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.429501E+02    0.361837E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.432192E+02    0.380162E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.421325E+02    0.399040E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.403008E+02    0.411643E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.380930E+02    0.415065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.361291E+02    0.439720E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.331078E+02    0.422409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.317740E+02    0.393297E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.321775E+02    0.361980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.345076E+02    0.333544E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.379783E+02    0.316775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.417429E+02    0.316587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.452174E+02    0.331228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133072E+03   -0.469465E+02    0.360068E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132999E+03   -0.464020E+02    0.394865E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.435964E+02    0.426073E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.398481E+02    0.441817E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.398089E+02    0.288569E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.377685E+02    0.290602E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.392092E+02    0.273631E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.415378E+02    0.277021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.414691E+02    0.296784E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.390816E+02    0.305672E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.371231E+02    0.318184E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.357722E+02    0.305946E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.355935E+02    0.288862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.366836E+02    0.270877E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.384364E+02    0.259172E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.406318E+02    0.254859E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.426216E+02    0.259643E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.439442E+02    0.271757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.441418E+02    0.288835E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.430917E+02    0.306861E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.412799E+02    0.319406E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.390669E+02    0.323698E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.370427E+02    0.348727E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.339676E+02    0.333733E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.325750E+02    0.306555E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.331094E+02    0.275615E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.354132E+02    0.248822E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.388774E+02    0.232986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.427601E+02    0.231379E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134210E+03   -0.460422E+02    0.244553E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133253E+03   -0.479489E+02    0.268217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.473682E+02    0.300410E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.447361E+02    0.330578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.407838E+02    0.349007E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.388113E+02    0.438008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.367760E+02    0.438783E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.382659E+02    0.420745E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.405712E+02    0.426349E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.405431E+02    0.447743E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.381400E+02    0.454976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.361573E+02    0.466077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.349490E+02    0.452044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.348215E+02    0.433848E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.356666E+02    0.416415E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.374449E+02    0.403989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.396430E+02    0.400436E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.416060E+02    0.407295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.429877E+02    0.422280E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.433452E+02    0.441247E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.421283E+02    0.459516E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.402851E+02    0.470702E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.380728E+02    0.473065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.360887E+02    0.496485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.330809E+02    0.478220E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.316788E+02    0.450651E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.321142E+02    0.418959E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.344766E+02    0.390206E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.378657E+02    0.374705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.417346E+02    0.374974E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133735E+03   -0.450748E+02    0.391976E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132556E+03   -0.469934E+02    0.422440E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132583E+03   -0.464069E+02    0.457626E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133275E+03   -0.438003E+02    0.485279E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.399194E+02    0.499678E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.392980E+02    0.335843E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.371598E+02    0.338309E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.387157E+02    0.319558E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.410366E+02    0.323653E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.409465E+02    0.344847E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.385546E+02    0.353559E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.365896E+02    0.365875E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.353535E+02    0.352416E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.351926E+02    0.334471E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.360992E+02    0.316916E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.378563E+02    0.304446E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.400501E+02    0.300074E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.420287E+02    0.305494E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.433345E+02    0.319029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.437357E+02    0.336416E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.425547E+02    0.355667E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.407321E+02    0.368066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.385214E+02    0.371851E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.364731E+02    0.396921E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.334299E+02    0.380675E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.320702E+02    0.353042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.325357E+02    0.321345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.347581E+02    0.293769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.383162E+02    0.276797E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.421917E+02    0.275429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.454589E+02    0.289625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133259E+03   -0.473319E+02    0.316187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.468293E+02    0.350297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133841E+03   -0.441646E+02    0.380411E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.402031E+02    0.398095E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.398440E+02    0.230799E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.378068E+02    0.232932E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.392354E+02    0.216736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.415620E+02    0.219731E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.415097E+02    0.238253E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.391292E+02    0.246815E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.369913E+02    0.259966E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.358266E+02    0.247688E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.356347E+02    0.231743E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.367093E+02    0.214304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.384551E+02    0.202907E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.406458E+02    0.198574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.426340E+02    0.203034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.439586E+02    0.214449E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.441680E+02    0.230456E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.431408E+02    0.247166E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.412393E+02    0.259448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.390365E+02    0.263732E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.370427E+02    0.287012E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.340470E+02    0.273314E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.326257E+02    0.248798E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.331363E+02    0.219335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.353374E+02    0.194065E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.387890E+02    0.178493E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.427604E+02    0.175832E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.460343E+02    0.188315E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.477105E+02    0.212027E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.471633E+02    0.241794E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.445814E+02    0.269123E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.408889E+02    0.285622E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647728.477547627     
  ps_ts2 prof sum =   647349.019778364     
  trcom prof sum =    647349.019778365     
  ps_ts2 cur sum  =   9767.41902537442     
  trcom cur sum  =    9767.41902537441     
  
  antenna # iant =            2
  powecha_use(iant) =    669095.763513855     
  ps_ts2 prof sum =   668692.720240211     
  trcom prof sum =    668692.720240211     
  ps_ts2 cur sum  =   12430.1543056147     
  trcom cur sum  =    12430.1543056147     
  
  antenna # iant =            3
  powecha_use(iant) =    527597.117356433     
  ps_ts2 prof sum =   527285.105673529     
  trcom prof sum =    527285.105673530     
  ps_ts2 cur sum  =   6743.98862958077     
  trcom cur sum  =    6743.98862958078     
  
  antenna # iant =            4
  powecha_use(iant) =    564795.183933553     
  ps_ts2 prof sum =   564478.684690250     
  trcom prof sum =    564478.684690250     
  ps_ts2 cur sum  =   9469.31382035610     
  trcom cur sum  =    9469.31382035609     
  
  antenna # iant =            5
  powecha_use(iant) =    552384.793113716     
  ps_ts2 prof sum =   552030.962277202     
  trcom prof sum =    552030.962277202     
  ps_ts2 cur sum  =   11306.8514985008     
  trcom cur sum  =    11306.8514985008     
  
  Total ECH heating:      2959836.49265956     
  Total Current Drive:    49717.7272794268     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3299
 TA= 3.60500E+00 CPU TIME= 1.49470E-01 SECONDS.  DT= 1.30283E-03
  
 TEC1=    3.60499999999994     
 TEC2=    3.60999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.15030333333289     
  %check_save_state: izleft hours =    70.8413888888889     
 --> plasma_hash("gframe"): TA= 3.605000E+00 NSTEP=  3299 Hash code:   80769141
 ->PRGCHK: bdy curvature ratio at t= 3.6100E+00 seconds is:  5.5718E-02
% MHDEQ: TG1=     3.605000 ; TG2=     3.610000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7569E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5718E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.605000 TO TG2=    3.610000 @ NSTEP     3299
   GFRAME TG2 MOMENTS CHECKSUM:  2.4608754273369D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.41952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.00259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.35797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.81500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.95791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.58903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.20504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.14314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.37740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.85650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.07075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.86075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.74280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.81210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.58664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.03666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.54437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.83916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.12041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.12041E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.6100E+00  3.6150E+00 total power(Watts):  2.9630E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.61000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.388299E+02    0.378170E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.367980E+02    0.379606E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.382649E+02    0.361787E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.405745E+02    0.366307E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.404625E+02    0.387670E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.381739E+02    0.395622E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.361043E+02    0.408633E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.349815E+02    0.393733E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.346463E+02    0.376533E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.356610E+02    0.358647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.374221E+02    0.346385E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.396122E+02    0.342301E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.415810E+02    0.348186E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.428704E+02    0.362112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.431387E+02    0.380356E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.420532E+02    0.399249E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.402230E+02    0.411938E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.380183E+02    0.415392E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.360589E+02    0.440106E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.330395E+02    0.422796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.317085E+02    0.393555E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.321112E+02    0.362321E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.343441E+02    0.334775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.379048E+02    0.317435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.416642E+02    0.317238E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.450198E+02    0.332397E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133234E+03   -0.468626E+02    0.360325E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133164E+03   -0.463184E+02    0.395040E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.435144E+02    0.426451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.397773E+02    0.442201E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.397328E+02    0.289283E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.376953E+02    0.291319E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.391350E+02    0.274300E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.414603E+02    0.277693E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.414988E+02    0.296784E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.391099E+02    0.305669E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.370505E+02    0.318832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.357017E+02    0.306655E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.357179E+02    0.288023E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.366117E+02    0.271556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.383625E+02    0.259811E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.405571E+02    0.255466E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.425438E+02    0.260267E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.438643E+02    0.272412E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.440605E+02    0.289546E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.431224E+02    0.306871E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.412019E+02    0.320046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.389915E+02    0.324309E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.369677E+02    0.349153E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.338990E+02    0.334297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.325991E+02    0.306529E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.330435E+02    0.276306E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.353449E+02    0.249444E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.388070E+02    0.233561E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.426832E+02    0.231942E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.459608E+02    0.245119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133405E+03   -0.478648E+02    0.268858E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133501E+03   -0.472835E+02    0.301112E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.446541E+02    0.331112E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.407056E+02    0.349404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.387360E+02    0.438408E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.367045E+02    0.439175E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.381910E+02    0.421101E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.404926E+02    0.426733E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.404661E+02    0.448084E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.380663E+02    0.455257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.360870E+02    0.466260E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.347829E+02    0.452715E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.347513E+02    0.434258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.354970E+02    0.417222E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.373714E+02    0.404246E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.395664E+02    0.400675E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.415272E+02    0.407549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.429069E+02    0.422625E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133848E+03   -0.432654E+02    0.441625E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.420502E+02    0.459755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.402093E+02    0.470858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.381033E+02    0.472914E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.360190E+02    0.496613E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.330147E+02    0.478355E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.317034E+02    0.450598E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.321377E+02    0.418868E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.344077E+02    0.390431E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.377920E+02    0.374938E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.416560E+02    0.375186E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.449904E+02    0.392162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132716E+03   -0.469089E+02    0.422773E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132744E+03   -0.463244E+02    0.457884E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133440E+03   -0.437217E+02    0.485357E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.398447E+02    0.499800E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.392223E+02    0.336361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.371893E+02    0.338139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.386410E+02    0.320195E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.409589E+02    0.324257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.408687E+02    0.345278E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.384806E+02    0.353930E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.365176E+02    0.366161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.351863E+02    0.353444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.350263E+02    0.335701E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.360283E+02    0.317581E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.377831E+02    0.305156E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.399737E+02    0.300770E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.419497E+02    0.306198E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.432539E+02    0.319653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.435423E+02    0.337530E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.424750E+02    0.355996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.406551E+02    0.368308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.384472E+02    0.372090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.364009E+02    0.397154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.333635E+02    0.380912E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.320046E+02    0.353442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.324715E+02    0.321970E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.346905E+02    0.294490E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.382431E+02    0.277480E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.421139E+02    0.276105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.453758E+02    0.290335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133405E+03   -0.472498E+02    0.316808E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133283E+03   -0.467453E+02    0.350645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134007E+03   -0.440836E+02    0.380596E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.401256E+02    0.398328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.397713E+02    0.231382E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.377363E+02    0.233526E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.392648E+02    0.216456E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.415929E+02    0.219456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.414348E+02    0.238827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.390623E+02    0.247375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.371154E+02    0.259003E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.357577E+02    0.248306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.355666E+02    0.232350E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.366409E+02    0.214888E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.383836E+02    0.203488E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.405725E+02    0.199129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.426643E+02    0.202740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.438810E+02    0.214996E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.440897E+02    0.231010E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.430631E+02    0.247749E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.412693E+02    0.259283E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.390654E+02    0.263571E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.369718E+02    0.287723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.339801E+02    0.274000E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.326507E+02    0.248572E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.330731E+02    0.219940E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.352709E+02    0.194654E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.389132E+02    0.177252E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.427897E+02    0.175459E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.459555E+02    0.188800E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.478570E+02    0.210976E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133623E+03   -0.473129E+02    0.240815E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.445060E+02    0.269735E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.408124E+02    0.286327E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647220.409143634     
  ps_ts2 prof sum =   646821.881096120     
  trcom prof sum =    646821.881096121     
  ps_ts2 cur sum  =   9784.06202934892     
  trcom cur sum  =    9784.06202934891     
  
  antenna # iant =            2
  powecha_use(iant) =    668820.677343286     
  ps_ts2 prof sum =   668439.677221873     
  trcom prof sum =    668439.677221872     
  ps_ts2 cur sum  =   12446.4142523161     
  trcom cur sum  =    12446.4142523161     
  
  antenna # iant =            3
  powecha_use(iant) =    527981.412237640     
  ps_ts2 prof sum =   527646.536122835     
  trcom prof sum =    527646.536122835     
  ps_ts2 cur sum  =   6768.27831351059     
  trcom cur sum  =    6768.27831351059     
  
  antenna # iant =            4
  powecha_use(iant) =    565598.124852242     
  ps_ts2 prof sum =   565238.240086579     
  trcom prof sum =    565238.240086579     
  ps_ts2 cur sum  =   9502.34969907305     
  trcom cur sum  =    9502.34969907305     
  
  antenna # iant =            5
  powecha_use(iant) =    553370.469669751     
  ps_ts2 prof sum =   553069.064501899     
  trcom prof sum =    553069.064501899     
  ps_ts2 cur sum  =   11352.1589380275     
  trcom cur sum  =    11352.1589380275     
  
  Total ECH heating:      2961215.39902931     
  Total Current Drive:    49853.2632322762     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3303
 TA= 3.61000E+00 CPU TIME= 1.59068E-01 SECONDS.  DT= 4.11827E-05
  
 TEC1=    3.60999999999994     
 TEC2=    3.61499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.16469999999958     
  %check_save_state: izleft hours =    70.8269444444445     
 --> plasma_hash("gframe"): TA= 3.610000E+00 NSTEP=  3303 Hash code:    8271429
 ->PRGCHK: bdy curvature ratio at t= 3.6150E+00 seconds is:  5.5804E-02
% MHDEQ: TG1=     3.610000 ; TG2=     3.615000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7588E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5804E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.610000 TO TG2=    3.615000 @ NSTEP     3303
   GFRAME TG2 MOMENTS CHECKSUM:  2.4604501979735D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6150E+00  3.6200E+00 total power(Watts):  2.9688E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.61500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.387565E+02    0.378526E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.367253E+02    0.379980E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.381903E+02    0.362228E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.404970E+02    0.366721E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.403848E+02    0.388012E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.380994E+02    0.395965E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.361284E+02    0.408520E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.349107E+02    0.394097E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.347680E+02    0.375782E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.354925E+02    0.359722E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.373491E+02    0.346918E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.395362E+02    0.342854E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.415028E+02    0.348698E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.429016E+02    0.361972E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.430579E+02    0.380709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.420839E+02    0.399112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.401458E+02    0.412290E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.380464E+02    0.415309E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.359872E+02    0.440419E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.329715E+02    0.423181E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.316431E+02    0.393920E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.321353E+02    0.362162E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.342752E+02    0.335370E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.378322E+02    0.318107E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.415861E+02    0.317928E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.449374E+02    0.333001E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133391E+03   -0.467783E+02    0.360743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.462342E+02    0.395354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.434333E+02    0.426801E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.397009E+02    0.442493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.396585E+02    0.290043E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.376229E+02    0.292085E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.391647E+02    0.274271E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.414912E+02    0.277679E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.414217E+02    0.297547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.390353E+02    0.306417E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.369787E+02    0.319518E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.358263E+02    0.305936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.356489E+02    0.288788E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.365425E+02    0.272281E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.382925E+02    0.260506E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.404821E+02    0.256155E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.424670E+02    0.260951E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.437854E+02    0.273126E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.439806E+02    0.290305E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.430429E+02    0.307600E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.411240E+02    0.320731E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.389173E+02    0.324949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.368951E+02    0.349671E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.338307E+02    0.334896E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.325345E+02    0.307265E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.329779E+02    0.277047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.351841E+02    0.250948E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.387355E+02    0.234208E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.426084E+02    0.232565E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.458816E+02    0.245753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133556E+03   -0.477826E+02    0.269546E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133649E+03   -0.471996E+02    0.301867E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.444580E+02    0.332365E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.406285E+02    0.349910E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.387647E+02    0.438359E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.367321E+02    0.439108E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.381160E+02    0.421473E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.404153E+02    0.427091E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.403893E+02    0.448316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.380957E+02    0.455091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.361148E+02    0.466052E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.349064E+02    0.452195E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.346819E+02    0.434616E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.356215E+02    0.416682E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.372975E+02    0.404604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.394897E+02    0.401020E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.415574E+02    0.407444E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.428256E+02    0.422989E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.430725E+02    0.442263E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.420825E+02    0.459577E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.402369E+02    0.470659E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.380300E+02    0.472997E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.360426E+02    0.496525E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.331335E+02    0.477879E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.316383E+02    0.450816E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.320711E+02    0.419254E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.342425E+02    0.391339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.378200E+02    0.374763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.415772E+02    0.375555E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133629E+03   -0.451408E+02    0.391520E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132875E+03   -0.468238E+02    0.423135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132906E+03   -0.462421E+02    0.458006E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133826E+03   -0.435288E+02    0.485649E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.397689E+02    0.499951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.391470E+02    0.336941E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.371141E+02    0.338740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.385664E+02    0.320880E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.408813E+02    0.324914E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.407910E+02    0.345810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.384060E+02    0.354411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.364456E+02    0.366579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.351159E+02    0.353940E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.349565E+02    0.336303E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.358600E+02    0.318985E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.378108E+02    0.305178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.398949E+02    0.301563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.419811E+02    0.306227E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.432854E+02    0.319672E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.434616E+02    0.338099E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.423954E+02    0.356455E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.405776E+02    0.368710E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.383724E+02    0.372482E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.363285E+02    0.397514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.334815E+02    0.380163E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.320285E+02    0.353310E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.324964E+02    0.321941E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.346212E+02    0.295255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.381710E+02    0.278223E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.420332E+02    0.276864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.452945E+02    0.291098E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.471652E+02    0.317502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.466612E+02    0.351122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.438880E+02    0.381456E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.401547E+02    0.398185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.397002E+02    0.232018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.376709E+02    0.234143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.391939E+02    0.217093E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.415191E+02    0.220075E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.414675E+02    0.238645E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.390919E+02    0.247232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.370483E+02    0.259679E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.356906E+02    0.248972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.356898E+02    0.231300E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.364782E+02    0.216392E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.382168E+02    0.204984E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.405009E+02    0.199751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.425911E+02    0.203342E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.438058E+02    0.215590E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.440142E+02    0.231627E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.429863E+02    0.248404E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.411944E+02    0.259975E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.389925E+02    0.264288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.368012E+02    0.289246E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.339136E+02    0.274732E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.325872E+02    0.249254E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.330121E+02    0.220608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.352065E+02    0.195304E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.388450E+02    0.177842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.427163E+02    0.176010E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.458795E+02    0.189361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133674E+03   -0.477804E+02    0.211536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.472326E+02    0.241445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.444266E+02    0.270442E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.407358E+02    0.287087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651317.168417289     
  ps_ts2 prof sum =   650916.806771099     
  trcom prof sum =    650916.806771099     
  ps_ts2 cur sum  =   9873.49885282648     
  trcom cur sum  =    9873.49885282648     
  
  antenna # iant =            2
  powecha_use(iant) =    669225.222064959     
  ps_ts2 prof sum =   668829.372229818     
  trcom prof sum =    668829.372229817     
  ps_ts2 cur sum  =   12488.0426880828     
  trcom cur sum  =    12488.0426880828     
  
  antenna # iant =            3
  powecha_use(iant) =    527912.978929466     
  ps_ts2 prof sum =   527615.799141915     
  trcom prof sum =    527615.799141915     
  ps_ts2 cur sum  =   6786.21092835067     
  trcom cur sum  =    6786.21092835067     
  
  antenna # iant =            4
  powecha_use(iant) =    568638.596962415     
  ps_ts2 prof sum =   568285.683819427     
  trcom prof sum =    568285.683819427     
  ps_ts2 cur sum  =   9577.69575620986     
  trcom cur sum  =    9577.69575620985     
  
  antenna # iant =            5
  powecha_use(iant) =    551699.022618254     
  ps_ts2 prof sum =   551370.924547856     
  trcom prof sum =    551370.924547856     
  ps_ts2 cur sum  =   11356.9758807921     
  trcom cur sum  =    11356.9758807921     
  
  Total ECH heating:      2967018.58651011     
  Total Current Drive:    50082.4241062619     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3319
 TA= 3.61500E+00 CPU TIME= 1.59221E-01 SECONDS.  DT= 6.03506E-04
  
 TEC1=    3.61499999999994     
 TEC2=    3.61999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.17882222222215     
  %check_save_state: izleft hours =    70.8127777777778     
 --> plasma_hash("gframe"): TA= 3.615000E+00 NSTEP=  3319 Hash code:   97933413
 ->PRGCHK: bdy curvature ratio at t= 3.6200E+00 seconds is:  5.5891E-02
% MHDEQ: TG1=     3.615000 ; TG2=     3.620000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7608E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5891E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.615000 TO TG2=    3.620000 @ NSTEP     3319
   GFRAME TG2 MOMENTS CHECKSUM:  2.4600249673421D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.16992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.85241E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.57888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.37202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.93253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.22475E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.71701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.15451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.15057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.62648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.80124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.31141E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.53242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.81434E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.51067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.72895E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.80067E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.66086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.58560E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.46045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.46045E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6200E+00  3.6250E+00 total power(Watts):  2.9579E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.62000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.386786E+02    0.379029E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.366522E+02    0.380472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.381154E+02    0.362747E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.404189E+02    0.367224E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.404140E+02    0.387973E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.380248E+02    0.396408E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.360566E+02    0.408915E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.348409E+02    0.394550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.346976E+02    0.376285E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.356162E+02    0.359023E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.373759E+02    0.346825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.394593E+02    0.343394E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.415322E+02    0.348626E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.428207E+02    0.362477E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.429767E+02    0.381188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.420041E+02    0.399534E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.401760E+02    0.412195E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.379718E+02    0.415653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.359171E+02    0.440518E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.329043E+02    0.423478E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.315773E+02    0.394387E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.320692E+02    0.362690E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.342054E+02    0.335937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.377573E+02    0.318737E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.416155E+02    0.317857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.448541E+02    0.333541E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.466887E+02    0.361266E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133480E+03   -0.461501E+02    0.395780E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.433535E+02    0.427036E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.397321E+02    0.442201E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.396869E+02    0.289986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.375497E+02    0.292778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.390900E+02    0.274939E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.414131E+02    0.278365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.413427E+02    0.298216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.389595E+02    0.307062E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.369052E+02    0.320129E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.357544E+02    0.306599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.355784E+02    0.289483E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.364721E+02    0.272968E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.382191E+02    0.261168E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.404061E+02    0.256800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.424969E+02    0.260827E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.438158E+02    0.273057E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.441244E+02    0.289542E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.429623E+02    0.308232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.410455E+02    0.321318E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.388412E+02    0.325548E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.368218E+02    0.350205E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.339495E+02    0.334096E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.324676E+02    0.307933E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.329120E+02    0.277741E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.351155E+02    0.251593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.386619E+02    0.234826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.425309E+02    0.233159E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.457992E+02    0.246362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.476971E+02    0.270230E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133589E+03   -0.472323E+02    0.301835E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.443752E+02    0.332911E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.406574E+02    0.349832E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.386907E+02    0.438489E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.366615E+02    0.439217E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.380426E+02    0.421762E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.404466E+02    0.426927E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.403135E+02    0.448328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.380231E+02    0.455067E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.360448E+02    0.466038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.348376E+02    0.452204E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.345177E+02    0.435203E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.355500E+02    0.417024E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.373253E+02    0.404537E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.394132E+02    0.401443E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.414789E+02    0.407820E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.427458E+02    0.423266E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.429936E+02    0.442330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134593E+03   -0.420052E+02    0.459512E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.401657E+02    0.470600E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.379573E+02    0.472985E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.359770E+02    0.496689E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.330661E+02    0.477942E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.315741E+02    0.450848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.320052E+02    0.419582E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.341731E+02    0.391803E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.377453E+02    0.375260E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.414977E+02    0.376049E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133785E+03   -0.450578E+02    0.391961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.467404E+02    0.423382E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133071E+03   -0.461608E+02    0.457918E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.434489E+02    0.485660E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.396940E+02    0.500080E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.390707E+02    0.337490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.370407E+02    0.339283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.384911E+02    0.321481E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.408029E+02    0.325492E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.407124E+02    0.346343E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.384336E+02    0.354327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.363727E+02    0.367093E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.352379E+02    0.353229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.350778E+02    0.335521E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.359837E+02    0.318188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.377373E+02    0.305841E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.398209E+02    0.302213E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.419015E+02    0.306874E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.432042E+02    0.320264E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.433799E+02    0.338636E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.423146E+02    0.356968E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.404994E+02    0.369209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.382970E+02    0.372983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.363560E+02    0.397445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.333198E+02    0.381224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.319620E+02    0.353852E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.324297E+02    0.322551E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.347404E+02    0.294441E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.381986E+02    0.278130E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.419579E+02    0.277527E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.454411E+02    0.290347E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.470797E+02    0.318091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133593E+03   -0.465762E+02    0.351631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.438058E+02    0.381931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.400780E+02    0.398604E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.397284E+02    0.231793E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.374970E+02    0.235628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.391223E+02    0.217674E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.414437E+02    0.220655E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.413902E+02    0.239263E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.390185E+02    0.247854E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.369771E+02    0.260344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.358129E+02    0.247957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.355265E+02    0.232776E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.364100E+02    0.216992E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.383437E+02    0.203818E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.405293E+02    0.199437E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.425144E+02    0.203888E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.438376E+02    0.215317E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.439352E+02    0.232210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.430164E+02    0.248238E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.411173E+02    0.260630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.389181E+02    0.264949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.369265E+02    0.288418E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.338459E+02    0.275426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.325226E+02    0.249911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.330356E+02    0.220348E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.352315E+02    0.194977E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.387743E+02    0.178354E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.426426E+02    0.176482E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.459112E+02    0.189014E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.476995E+02    0.212047E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.471495E+02    0.242034E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.443449E+02    0.271118E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.406586E+02    0.287775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    644208.623225973     
  ps_ts2 prof sum =   643829.949213065     
  trcom prof sum =    643829.949213065     
  ps_ts2 cur sum  =   9782.12363126688     
  trcom cur sum  =    9782.12363126688     
  
  antenna # iant =            2
  powecha_use(iant) =    669883.323601649     
  ps_ts2 prof sum =   669513.330418221     
  trcom prof sum =    669513.330418220     
  ps_ts2 cur sum  =   12523.1588494670     
  trcom cur sum  =    12523.1588494670     
  
  antenna # iant =            3
  powecha_use(iant) =    527023.558743538     
  ps_ts2 prof sum =   526703.091774632     
  trcom prof sum =    526703.091774633     
  ps_ts2 cur sum  =   6791.57854852828     
  trcom cur sum  =    6791.57854852828     
  
  antenna # iant =            4
  powecha_use(iant) =    565490.954163075     
  ps_ts2 prof sum =   565185.720615483     
  trcom prof sum =    565185.720615482     
  ps_ts2 cur sum  =   9541.55459041565     
  trcom cur sum  =    9541.55459041564     
  
  antenna # iant =            5
  powecha_use(iant) =    551296.632935041     
  ps_ts2 prof sum =   551000.486214520     
  trcom prof sum =    551000.486214520     
  ps_ts2 cur sum  =   11373.4548684036     
  trcom cur sum  =    11373.4548684036     
  
  Total ECH heating:      2956232.57823592     
  Total Current Drive:    50011.8704880814     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3325
 TA= 3.62000E+00 CPU TIME= 1.59789E-01 SECONDS.  DT= 5.87622E-05
  
 TEC1=    3.61999999999994     
 TEC2=    3.62499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.19477861111091     
  %check_save_state: izleft hours =    70.7966666666667     
 --> plasma_hash("gframe"): TA= 3.620000E+00 NSTEP=  3325 Hash code:   11301812
 ->PRGCHK: bdy curvature ratio at t= 3.6250E+00 seconds is:  5.5980E-02
% MHDEQ: TG1=     3.620000 ; TG2=     3.625000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7627E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.5980E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.620000 TO TG2=    3.625000 @ NSTEP     3325
   GFRAME TG2 MOMENTS CHECKSUM:  2.4595997367107D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.6250E+00  3.6300E+00 total power(Watts):  2.9529E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.62500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.386036E+02    0.379536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.365819E+02    0.380969E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.380408E+02    0.363277E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.403411E+02    0.367748E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.403368E+02    0.388458E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.379505E+02    0.396877E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.359852E+02    0.409329E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.346745E+02    0.395548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.346279E+02    0.376810E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.355452E+02    0.359573E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.373028E+02    0.347391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.393834E+02    0.343958E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.414539E+02    0.349169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.427404E+02    0.363007E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.428966E+02    0.381679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.419248E+02    0.399987E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.400995E+02    0.412578E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.378988E+02    0.416008E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.359475E+02    0.440263E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.329294E+02    0.423360E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.316012E+02    0.394340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.320027E+02    0.363241E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.343257E+02    0.335181E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.376843E+02    0.319374E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.415373E+02    0.318496E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.447717E+02    0.334119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133698E+03   -0.466086E+02    0.361771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133635E+03   -0.460666E+02    0.396233E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.434996E+02    0.426536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.396572E+02    0.442314E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.396111E+02    0.290714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.375772E+02    0.292756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.390151E+02    0.275683E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.413358E+02    0.279096E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.412658E+02    0.298918E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.388852E+02    0.307746E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.369330E+02    0.320065E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.356848E+02    0.307280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.354131E+02    0.290970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.363044E+02    0.274483E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.382483E+02    0.261069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.403326E+02    0.257494E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.424199E+02    0.261519E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.437366E+02    0.273779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.439310E+02    0.290983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.428827E+02    0.308903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.409676E+02    0.321952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.387661E+02    0.326159E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.367488E+02    0.350771E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.337875E+02    0.335387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.324018E+02    0.308621E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.329382E+02    0.277667E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.350482E+02    0.252284E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.386920E+02    0.234639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.424558E+02    0.233776E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.459477E+02    0.245466E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.476101E+02    0.270951E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133739E+03   -0.471483E+02    0.302511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.442934E+02    0.333489E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.405801E+02    0.350390E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.386168E+02    0.438643E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.365901E+02    0.439368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.380725E+02    0.421652E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.403705E+02    0.427202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.403456E+02    0.448044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.379502E+02    0.455108E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.359744E+02    0.466086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.347692E+02    0.452264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.346413E+02    0.434588E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.354800E+02    0.417381E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.372519E+02    0.404971E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.393373E+02    0.401887E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.414005E+02    0.408231E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.426674E+02    0.423559E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.429150E+02    0.442435E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.419277E+02    0.459520E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.400901E+02    0.470630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.378789E+02    0.473053E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.359065E+02    0.496841E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.329067E+02    0.478346E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.315098E+02    0.450935E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.319397E+02    0.419937E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.342938E+02    0.391239E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.376711E+02    0.375783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.415283E+02    0.376020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.449753E+02    0.392436E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133191E+03   -0.466577E+02    0.423665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133016E+03   -0.461973E+02    0.457609E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134155E+03   -0.433707E+02    0.485730E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.396187E+02    0.500221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.389952E+02    0.338067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.369685E+02    0.339862E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.384168E+02    0.322110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.407256E+02    0.326092E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.407374E+02    0.346314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.383591E+02    0.354879E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.364000E+02    0.367039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.351675E+02    0.353782E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.350077E+02    0.336113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.359128E+02    0.318837E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.376594E+02    0.306552E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.398507E+02    0.302186E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.418236E+02    0.307532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.431217E+02    0.320895E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.432992E+02    0.339197E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.423462E+02    0.356928E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.404218E+02    0.369736E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.382220E+02    0.373503E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.362840E+02    0.397913E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.332517E+02    0.381749E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.318966E+02    0.354413E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.323637E+02    0.323188E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.346719E+02    0.295165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.381256E+02    0.278876E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.418797E+02    0.278256E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.453591E+02    0.291073E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133646E+03   -0.471138E+02    0.318069E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.464964E+02    0.352152E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.437243E+02    0.382432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.400011E+02    0.399062E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.396556E+02    0.232433E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.374279E+02    0.236274E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.390512E+02    0.218248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.413700E+02    0.221241E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.413157E+02    0.239912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.389464E+02    0.248533E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.369069E+02    0.261047E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.357437E+02    0.248646E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.354594E+02    0.233425E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.363424E+02    0.217579E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.382751E+02    0.204339E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.404595E+02    0.199924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.424410E+02    0.204376E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.437608E+02    0.215878E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.438585E+02    0.232817E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.429403E+02    0.248903E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.410414E+02    0.261323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.388463E+02    0.265669E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.368557E+02    0.289144E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.337803E+02    0.276149E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.324588E+02    0.250605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.329729E+02    0.220962E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.351672E+02    0.195474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.387098E+02    0.178752E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.425706E+02    0.176871E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.458387E+02    0.189391E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.476191E+02    0.212572E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.470684E+02    0.242677E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.442646E+02    0.271840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.405828E+02    0.288495E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    642714.643938297     
  ps_ts2 prof sum =   642349.369204344     
  trcom prof sum =    642349.369204344     
  ps_ts2 cur sum  =   9785.87050502839     
  trcom cur sum  =    9785.87050502839     
  
  antenna # iant =            2
  powecha_use(iant) =    667195.473838151     
  ps_ts2 prof sum =   666805.105740470     
  trcom prof sum =    666805.105740469     
  ps_ts2 cur sum  =   12504.6205667303     
  trcom cur sum  =    12504.6205667303     
  
  antenna # iant =            3
  powecha_use(iant) =    525996.784966167     
  ps_ts2 prof sum =   525683.767754886     
  trcom prof sum =    525683.767754887     
  ps_ts2 cur sum  =   6799.75739681860     
  trcom cur sum  =    6799.75739681860     
  
  antenna # iant =            4
  powecha_use(iant) =    563146.327233712     
  ps_ts2 prof sum =   562842.729834177     
  trcom prof sum =    562842.729834177     
  ps_ts2 cur sum  =   9526.43848919534     
  trcom cur sum  =    9526.43848919533     
  
  antenna # iant =            5
  powecha_use(iant) =    553817.968576672     
  ps_ts2 prof sum =   553498.830836569     
  trcom prof sum =    553498.830836569     
  ps_ts2 cur sum  =   11458.1587236248     
  trcom cur sum  =    11458.1587236248     
  
  Total ECH heating:      2951179.80337045     
  Total Current Drive:    50074.8456813974     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3339
 TA= 3.62500E+00 CPU TIME= 1.60002E-01 SECONDS.  DT= 1.19942E-03
  
 TEC1=    3.62499999999994     
 TEC2=    3.62999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.21211361111113     
  %check_save_state: izleft hours =    70.7794444444445     
 --> plasma_hash("gframe"): TA= 3.625000E+00 NSTEP=  3339 Hash code:  113643458
 ->PRGCHK: bdy curvature ratio at t= 3.6300E+00 seconds is:  5.6069E-02
% MHDEQ: TG1=     3.625000 ; TG2=     3.630000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6069E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.625000 TO TG2=    3.630000 @ NSTEP     3339
   GFRAME TG2 MOMENTS CHECKSUM:  2.4591745060792D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.92947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.70774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  5.79168E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.94527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.90808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.69273E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.84029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.10584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.15773E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.86643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.74800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.61658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.21613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.88326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.22029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.86604E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.57333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.77308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.34134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.99148E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.99148E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6300E+00  3.6350E+00 total power(Watts):  2.9684E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.63000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.386322E+02    0.379537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.366068E+02    0.380974E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.379664E+02    0.363845E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.402636E+02    0.368312E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.402599E+02    0.388962E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.378766E+02    0.397353E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.359137E+02    0.409756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.346046E+02    0.396045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.344621E+02    0.377922E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.354740E+02    0.360151E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.372295E+02    0.347995E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.393077E+02    0.344559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.413751E+02    0.349772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.426599E+02    0.363573E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.428159E+02    0.382205E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.418456E+02    0.400449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.400227E+02    0.412987E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.378236E+02    0.416410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.358755E+02    0.440470E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.328627E+02    0.423709E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.315351E+02    0.394846E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.319365E+02    0.363819E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.342572E+02    0.335809E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.376114E+02    0.320044E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.414594E+02    0.319169E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.446895E+02    0.334739E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133851E+03   -0.465241E+02    0.362334E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133790E+03   -0.459829E+02    0.396703E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134355E+03   -0.434205E+02    0.426830E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.395822E+02    0.442493E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.395365E+02    0.291472E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.375117E+02    0.293473E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.389490E+02    0.276404E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.412609E+02    0.279854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.411889E+02    0.299658E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.388112E+02    0.308461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.368612E+02    0.320743E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.355180E+02    0.308730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.353443E+02    0.291737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.362354E+02    0.275239E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.381775E+02    0.261803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.402598E+02    0.258206E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.423428E+02    0.262270E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.436577E+02    0.274539E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.438514E+02    0.291738E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.428035E+02    0.309611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.408905E+02    0.322611E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.387956E+02    0.326120E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.367765E+02    0.350738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.337158E+02    0.336033E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.323366E+02    0.309340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.328721E+02    0.278450E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.351706E+02    0.251344E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.386221E+02    0.235302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.423778E+02    0.234453E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.458685E+02    0.246149E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.475311E+02    0.271706E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.470646E+02    0.303244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.442120E+02    0.334115E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.405024E+02    0.350980E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.385433E+02    0.438843E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.365187E+02    0.439576E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.379981E+02    0.422009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.402932E+02    0.427525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.402697E+02    0.448191E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.378773E+02    0.455247E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.359040E+02    0.466220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.346033E+02    0.452787E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.345725E+02    0.434836E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.353116E+02    0.418216E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.371791E+02    0.405414E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.393671E+02    0.401861E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.413223E+02    0.408649E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.428118E+02    0.423086E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.428359E+02    0.442613E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.418500E+02    0.459649E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.400148E+02    0.470745E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.378117E+02    0.473163E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.358373E+02    0.496888E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.328409E+02    0.478485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.315348E+02    0.450731E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.319646E+02    0.419847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.342294E+02    0.391716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.375970E+02    0.376329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.414494E+02    0.376560E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.448928E+02    0.392921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133348E+03   -0.465736E+02    0.424006E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133178E+03   -0.461158E+02    0.457694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.435188E+02    0.485358E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.396514E+02    0.500038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.389200E+02    0.338686E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.368957E+02    0.340475E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.383431E+02    0.322771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.406484E+02    0.326746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.406649E+02    0.346888E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.382844E+02    0.355467E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.363279E+02    0.367601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.350978E+02    0.354375E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.349383E+02    0.336736E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.358428E+02    0.319507E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.375922E+02    0.307244E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.397756E+02    0.302915E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.417454E+02    0.308264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.430440E+02    0.321541E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.432186E+02    0.339807E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.422661E+02    0.357507E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.403440E+02    0.370286E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.382505E+02    0.373489E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.362121E+02    0.398390E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.331838E+02    0.382285E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.318307E+02    0.355006E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.322980E+02    0.323858E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.345110E+02    0.296667E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.380548E+02    0.279641E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.418038E+02    0.279005E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.452780E+02    0.291824E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133796E+03   -0.470300E+02    0.318736E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.464077E+02    0.352761E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.436432E+02    0.382948E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.399243E+02    0.399529E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.395853E+02    0.233084E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.375571E+02    0.235276E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.389825E+02    0.218864E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.412977E+02    0.221846E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.412421E+02    0.240588E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.388755E+02    0.249230E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.367395E+02    0.262588E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.356771E+02    0.249352E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.353953E+02    0.234090E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.364672E+02    0.216458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.382076E+02    0.204874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.403896E+02    0.200432E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.423692E+02    0.204890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.436864E+02    0.216446E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.438927E+02    0.232654E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.428643E+02    0.249599E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.409676E+02    0.262066E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.387742E+02    0.266416E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.367837E+02    0.289916E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.338988E+02    0.275328E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.323981E+02    0.251319E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.329112E+02    0.221598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.351052E+02    0.195980E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.385426E+02    0.180113E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.425005E+02    0.177284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.457604E+02    0.189839E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.475414E+02    0.213115E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.469884E+02    0.243347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.441856E+02    0.272580E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.405063E+02    0.289262E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654935.471742194     
  ps_ts2 prof sum =   654541.773071544     
  trcom prof sum =    654541.773071543     
  ps_ts2 cur sum  =   9992.90376073630     
  trcom cur sum  =    9992.90376073630     
  
  antenna # iant =            2
  powecha_use(iant) =    666119.007397961     
  ps_ts2 prof sum =   665729.007964422     
  trcom prof sum =    665729.007964421     
  ps_ts2 cur sum  =   12515.0972123675     
  trcom cur sum  =    12515.0972123675     
  
  antenna # iant =            3
  powecha_use(iant) =    526806.195219253     
  ps_ts2 prof sum =   526502.110098542     
  trcom prof sum =    526502.110098543     
  ps_ts2 cur sum  =   6826.81932502276     
  trcom cur sum  =    6826.81932502276     
  
  antenna # iant =            4
  powecha_use(iant) =    567982.706796134     
  ps_ts2 prof sum =   567657.736080348     
  trcom prof sum =    567657.736080347     
  ps_ts2 cur sum  =   9627.76801780213     
  trcom cur sum  =    9627.76801780212     
  
  antenna # iant =            5
  powecha_use(iant) =    552535.046212721     
  ps_ts2 prof sum =   552230.014450926     
  trcom prof sum =    552230.014450926     
  ps_ts2 cur sum  =   11468.6898142765     
  trcom cur sum  =    11468.6898142765     
  
  Total ECH heating:      2966660.64166578     
  Total Current Drive:    50431.2781302052     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3343
 TA= 3.63000E+00 CPU TIME= 1.59322E-01 SECONDS.  DT= 5.34003E-04
  
 TEC1=    3.62999999999994     
 TEC2=    3.63499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.22718527777715     
  %check_save_state: izleft hours =    70.7644444444445     
 --> plasma_hash("gframe"): TA= 3.630000E+00 NSTEP=  3343 Hash code:   73891170
 ->PRGCHK: bdy curvature ratio at t= 3.6350E+00 seconds is:  5.6159E-02
% MHDEQ: TG1=     3.630000 ; TG2=     3.635000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7666E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6159E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.630000 TO TG2=    3.635000 @ NSTEP     3343
   GFRAME TG2 MOMENTS CHECKSUM:  2.4587492754478D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6350E+00  3.6400E+00 total power(Watts):  2.9693E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.63500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.385555E+02    0.380057E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.365332E+02    0.381493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.379937E+02    0.363806E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.402924E+02    0.368280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.401814E+02    0.389453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.379044E+02    0.397313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.358413E+02    0.410162E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.347261E+02    0.395479E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.343913E+02    0.378452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.354020E+02    0.360707E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.371557E+02    0.348570E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.393352E+02    0.344526E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.412957E+02    0.350341E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.425782E+02    0.364112E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.427341E+02    0.382713E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.417653E+02    0.400891E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.399442E+02    0.413377E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.377496E+02    0.416770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.358037E+02    0.440704E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.327955E+02    0.424043E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.314687E+02    0.395329E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.319603E+02    0.363756E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.340930E+02    0.337085E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.376389E+02    0.320000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.413788E+02    0.319817E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.446061E+02    0.335332E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.465568E+02    0.362329E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133729E+03   -0.460159E+02    0.396691E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.432254E+02    0.427518E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.395057E+02    0.442705E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.394607E+02    0.292204E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.374326E+02    0.294241E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.388687E+02    0.277195E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.411827E+02    0.280599E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.411105E+02    0.300372E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.387359E+02    0.309139E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.367885E+02    0.321379E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.354466E+02    0.309427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.352740E+02    0.292475E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.363598E+02    0.274418E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.381047E+02    0.262531E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.402891E+02    0.258136E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.422662E+02    0.262981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.435766E+02    0.275288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.437707E+02    0.292472E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.427228E+02    0.310285E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.409236E+02    0.322559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.387198E+02    0.326754E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.367037E+02    0.351309E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.336504E+02    0.336615E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.323601E+02    0.309306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.328080E+02    0.279198E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.351037E+02    0.252049E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.385515E+02    0.235968E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.424126E+02    0.234262E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.457873E+02    0.246827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.474466E+02    0.272424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134037E+03   -0.469795E+02    0.303933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.441290E+02    0.334703E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.404240E+02    0.351553E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.384675E+02    0.439083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.364460E+02    0.439812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379233E+02    0.422345E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.402161E+02    0.427806E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.401926E+02    0.448381E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.378032E+02    0.455432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.359321E+02    0.466077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.345333E+02    0.452994E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.345023E+02    0.435092E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.354364E+02    0.417669E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.371048E+02    0.405843E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.392850E+02    0.402315E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.412428E+02    0.409059E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.426194E+02    0.423811E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.427557E+02    0.442805E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.417712E+02    0.459812E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.399384E+02    0.470897E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.378408E+02    0.473029E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.358658E+02    0.496642E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.327731E+02    0.478634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.314698E+02    0.450949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.318979E+02    0.420211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.340589E+02    0.392767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.375219E+02    0.376854E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.413693E+02    0.377082E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.448091E+02    0.393385E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133505E+03   -0.464896E+02    0.424297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133337E+03   -0.460330E+02    0.457836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.434393E+02    0.485436E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.395764E+02    0.499986E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.389481E+02    0.338633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.369232E+02    0.340413E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.383708E+02    0.322711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.406780E+02    0.326707E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.405858E+02    0.347469E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.382085E+02    0.356035E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.362555E+02    0.368145E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.349293E+02    0.355579E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.347710E+02    0.338005E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.357711E+02    0.320156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.375185E+02    0.307936E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.396991E+02    0.303614E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.416659E+02    0.308942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.429626E+02    0.322185E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.431366E+02    0.340395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.421850E+02    0.358063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.402651E+02    0.370824E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.381746E+02    0.374022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.361394E+02    0.398846E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.333013E+02    0.381678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.318539E+02    0.354949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.323220E+02    0.323792E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.344416E+02    0.297396E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.379776E+02    0.280409E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.417254E+02    0.279751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.451952E+02    0.292556E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.469443E+02    0.319357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134051E+03   -0.463221E+02    0.353318E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.435605E+02    0.383451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.398467E+02    0.399971E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.395134E+02    0.233738E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.374870E+02    0.235942E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.389114E+02    0.219471E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.412248E+02    0.222453E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.411672E+02    0.241248E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.388019E+02    0.249934E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.366683E+02    0.263328E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.355145E+02    0.250869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.353279E+02    0.234757E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.363996E+02    0.217069E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.381378E+02    0.205427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.403178E+02    0.200949E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.422945E+02    0.205420E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.436105E+02    0.217022E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.438145E+02    0.233299E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.427865E+02    0.250277E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.408917E+02    0.262777E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.387006E+02    0.267139E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.367132E+02    0.290652E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.337396E+02    0.276878E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138330E+03   -0.324221E+02    0.251179E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.328482E+02    0.222238E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.350393E+02    0.196515E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.386698E+02    0.178800E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.424276E+02    0.177715E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.456843E+02    0.190279E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.474613E+02    0.213661E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.469064E+02    0.244008E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.441047E+02    0.273313E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.404293E+02    0.289997E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.55 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652899.789613766     
  ps_ts2 prof sum =   652518.669860670     
  trcom prof sum =    652518.669860670     
  ps_ts2 cur sum  =   9980.11257995941     
  trcom cur sum  =    9980.11257995940     
  
  antenna # iant =            2
  powecha_use(iant) =    666813.754861396     
  ps_ts2 prof sum =   666441.420771671     
  trcom prof sum =    666441.420771670     
  ps_ts2 cur sum  =   12551.9693072938     
  trcom cur sum  =    12551.9693072938     
  
  antenna # iant =            3
  powecha_use(iant) =    526738.588774055     
  ps_ts2 prof sum =   526416.806048771     
  trcom prof sum =    526416.806048772     
  ps_ts2 cur sum  =   6842.69487716252     
  trcom cur sum  =    6842.69487716253     
  
  antenna # iant =            4
  powecha_use(iant) =    571241.428299000     
  ps_ts2 prof sum =   570919.943887895     
  trcom prof sum =    570919.943887894     
  ps_ts2 cur sum  =   9700.85606787376     
  trcom cur sum  =    9700.85606787375     
  
  antenna # iant =            5
  powecha_use(iant) =    551637.775544412     
  ps_ts2 prof sum =   551311.067015904     
  trcom prof sum =    551311.067015904     
  ps_ts2 cur sum  =   11478.3789345083     
  trcom cur sum  =    11478.3789345083     
  
  Total ECH heating:      2967607.90758491     
  Total Current Drive:    50554.0117667978     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3349
 TA= 3.63500E+00 CPU TIME= 1.45955E-01 SECONDS.  DT= 7.71772E-04
  
 TEC1=    3.63499999999994     
 TEC2=    3.63999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.24360416666627     
  %check_save_state: izleft hours =    70.7480555555556     
 --> plasma_hash("gframe"): TA= 3.635000E+00 NSTEP=  3349 Hash code:   92252118
 ->PRGCHK: bdy curvature ratio at t= 3.6400E+00 seconds is:  5.6249E-02
% MHDEQ: TG1=     3.635000 ; TG2=     3.640000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7686E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6249E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.635000 TO TG2=    3.640000 @ NSTEP     3349
   GFRAME TG2 MOMENTS CHECKSUM:  2.4583240448164D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.68260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.55920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.01017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.50712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.09302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.96687E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.05586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.16508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.11280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.69335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -4.79276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.87447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.95402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.92215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.00680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.33991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.88830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.09056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.99140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.99140E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6400E+00  3.6450E+00 total power(Watts):  2.9588E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.64000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.384779E+02    0.380622E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.364582E+02    0.382052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.379169E+02    0.364407E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.402124E+02    0.368870E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.401014E+02    0.389981E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.378277E+02    0.397809E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.358668E+02    0.410115E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.346539E+02    0.395986E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.345112E+02    0.377889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.352313E+02    0.361926E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.370806E+02    0.349195E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.392578E+02    0.345149E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.412147E+02    0.350973E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.424949E+02    0.364718E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.428757E+02    0.382233E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.416834E+02    0.401367E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.398652E+02    0.413777E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.376739E+02    0.417154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.357304E+02    0.440963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.327260E+02    0.424389E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.314012E+02    0.395842E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.318919E+02    0.364358E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.340235E+02    0.337717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.375640E+02    0.320677E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.413002E+02    0.320488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.447518E+02    0.334726E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.464695E+02    0.362930E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.459292E+02    0.397182E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.431427E+02    0.427815E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.394272E+02    0.442956E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.393843E+02    0.292966E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.373588E+02    0.294992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.387934E+02    0.277959E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.411036E+02    0.281365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.410315E+02    0.301109E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.386598E+02    0.309852E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.367147E+02    0.322057E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.353745E+02    0.310146E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.353961E+02    0.291711E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.362890E+02    0.275191E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.380311E+02    0.263286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.402130E+02    0.258874E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.421879E+02    0.263713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.434969E+02    0.276046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.436884E+02    0.293213E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.426414E+02    0.310988E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.408401E+02    0.323240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.386430E+02    0.327407E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.366283E+02    0.351944E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.335806E+02    0.337258E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.322951E+02    0.310015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.327402E+02    0.279979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.349419E+02    0.253591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.384797E+02    0.236636E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.423367E+02    0.234914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.457069E+02    0.247509E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.473619E+02    0.273194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.468936E+02    0.304657E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.440450E+02    0.335339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.403442E+02    0.352176E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.384952E+02    0.438950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.364723E+02    0.439684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.378468E+02    0.422692E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.401363E+02    0.428120E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.401134E+02    0.448624E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.378305E+02    0.455350E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.358572E+02    0.466359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.346550E+02    0.452532E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.343345E+02    0.435783E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.353631E+02    0.418057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.370291E+02    0.406299E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.392113E+02    0.402774E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.411613E+02    0.409497E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.425371E+02    0.424138E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134600E+03   -0.428990E+02    0.442329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.418012E+02    0.459743E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.398591E+02    0.471166E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.377654E+02    0.473288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.357938E+02    0.496700E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.328914E+02    0.478283E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.314025E+02    0.451225E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.318301E+02    0.420587E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.339872E+02    0.393290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.374455E+02    0.377430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.412876E+02    0.377656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.447237E+02    0.393893E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133661E+03   -0.464032E+02    0.424613E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.459474E+02    0.458069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.433572E+02    0.485644E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.394994E+02    0.500012E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.388715E+02    0.339263E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.368479E+02    0.341048E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.382951E+02    0.323385E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.405982E+02    0.327365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.405063E+02    0.348095E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.381314E+02    0.356652E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.361802E+02    0.368746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.348569E+02    0.356197E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.347007E+02    0.338633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.356011E+02    0.321540E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.374440E+02    0.308646E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.396217E+02    0.304350E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.415864E+02    0.309653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.428805E+02    0.322853E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.430535E+02    0.341021E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.421028E+02    0.358664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.402926E+02    0.370849E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.380974E+02    0.374603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.360650E+02    0.399337E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.332312E+02    0.382242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.317864E+02    0.355574E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.322545E+02    0.324467E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.343720E+02    0.298145E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.379078E+02    0.281152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.417552E+02    0.279770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.451119E+02    0.293298E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.468578E+02    0.320045E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134202E+03   -0.462350E+02    0.353940E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.434760E+02    0.384002E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.397668E+02    0.400459E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.394405E+02    0.234395E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.374153E+02    0.236614E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.389401E+02    0.219248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.411483E+02    0.223087E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.410922E+02    0.241920E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.387297E+02    0.250637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.367947E+02    0.262455E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.354455E+02    0.251592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.354483E+02    0.233736E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.362370E+02    0.218550E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.379706E+02    0.206853E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.402460E+02    0.201489E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.423227E+02    0.205148E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.435339E+02    0.217612E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.437362E+02    0.233944E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.427086E+02    0.250970E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.408151E+02    0.263514E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.387283E+02    0.267114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.366408E+02    0.291413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.336709E+02    0.277650E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.323573E+02    0.251914E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.328727E+02    0.222008E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.351582E+02    0.195271E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.386017E+02    0.179289E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.424595E+02    0.177307E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.456075E+02    0.190740E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.472655E+02    0.215025E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.468232E+02    0.244689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.442488E+02    0.272601E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.403518E+02    0.290754E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647467.339627451     
  ps_ts2 prof sum =   647099.540257086     
  trcom prof sum =    647099.540257086     
  ps_ts2 cur sum  =   9907.53844775744     
  trcom cur sum  =    9907.53844775744     
  
  antenna # iant =            2
  powecha_use(iant) =    664376.264708381     
  ps_ts2 prof sum =   663993.042455453     
  trcom prof sum =    663993.042455453     
  ps_ts2 cur sum  =   12520.8116939712     
  trcom cur sum  =    12520.8116937262     
  
  antenna # iant =            3
  powecha_use(iant) =    525459.696711430     
  ps_ts2 prof sum =   525164.268359866     
  trcom prof sum =    525164.268359867     
  ps_ts2 cur sum  =   6834.79199713741     
  trcom cur sum  =    6834.79199713741     
  
  antenna # iant =            4
  powecha_use(iant) =    568954.650737188     
  ps_ts2 prof sum =   568616.943404870     
  trcom prof sum =    568616.943393947     
  ps_ts2 cur sum  =   9671.49139273914     
  trcom cur sum  =    9671.49139273912     
  
  antenna # iant =            5
  powecha_use(iant) =    552537.633227252     
  ps_ts2 prof sum =   552244.304656492     
  trcom prof sum =    552244.304656492     
  ps_ts2 cur sum  =   11516.1110798121     
  trcom cur sum  =    11516.1110798121     
  
  Total ECH heating:      2957118.09912284     
  Total Current Drive:    50450.7446111723     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3354
 TA= 3.64000E+00 CPU TIME= 1.59123E-01 SECONDS.  DT= 6.87815E-04
  
 TEC1=    3.63999999999994     
 TEC2=    3.64499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.26287722222173     
  %check_save_state: izleft hours =    70.7286111111111     
 --> plasma_hash("gframe"): TA= 3.640000E+00 NSTEP=  3354 Hash code:    8354973
 ->PRGCHK: bdy curvature ratio at t= 3.6450E+00 seconds is:  5.6341E-02
% MHDEQ: TG1=     3.640000 ; TG2=     3.645000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7705E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6341E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.640000 TO TG2=    3.645000 @ NSTEP     3354
   GFRAME TG2 MOMENTS CHECKSUM:  2.4578988141850D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6450E+00  3.6500E+00 total power(Watts):  2.9678E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.64500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.383986E+02    0.381175E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.363820E+02    0.382605E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.378387E+02    0.365010E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.401310E+02    0.369457E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.400198E+02    0.390504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.377496E+02    0.398292E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.357920E+02    0.410522E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.345804E+02    0.396480E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.344381E+02    0.378463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.353487E+02    0.361342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.370033E+02    0.349828E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.391783E+02    0.345779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.411322E+02    0.351586E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.424108E+02    0.365307E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.426783E+02    0.383293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.417110E+02    0.401353E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.397853E+02    0.414155E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.376990E+02    0.417079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.356562E+02    0.441202E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.328415E+02    0.423805E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.314223E+02    0.395810E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.318232E+02    0.364970E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.339508E+02    0.338368E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.374877E+02    0.321361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.412186E+02    0.321164E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.446673E+02    0.335365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.463804E+02    0.363530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.458411E+02    0.397655E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.430583E+02    0.428086E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.394540E+02    0.442812E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.393070E+02    0.293704E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.372839E+02    0.295742E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.387185E+02    0.278700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.410244E+02    0.282117E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.409512E+02    0.301834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.386858E+02    0.309852E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.366394E+02    0.322734E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.354959E+02    0.309415E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.353237E+02    0.292470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.362191E+02    0.275916E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.379582E+02    0.263993E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.401372E+02    0.259561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.421081E+02    0.264432E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.434123E+02    0.276790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.436051E+02    0.293954E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.425588E+02    0.311690E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.407593E+02    0.323912E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.385700E+02    0.328038E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.365524E+02    0.352567E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.336973E+02    0.336557E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.322270E+02    0.310738E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138581E+03   -0.326739E+02    0.280728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138146E+03   -0.348710E+02    0.254296E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.384058E+02    0.237305E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.422589E+02    0.235570E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.455090E+02    0.248938E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.471582E+02    0.274640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.468059E+02    0.305386E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.441879E+02    0.334741E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.402627E+02    0.352795E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.384170E+02    0.439189E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.363971E+02    0.439920E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.377693E+02    0.423009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.400561E+02    0.428383E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.400330E+02    0.448845E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.377531E+02    0.455583E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.357831E+02    0.466611E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.345825E+02    0.452777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.342616E+02    0.436047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.352856E+02    0.418425E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.370542E+02    0.406246E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.391314E+02    0.403228E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.411891E+02    0.409445E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.424534E+02    0.424437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.427025E+02    0.442903E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.417190E+02    0.459960E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.398877E+02    0.471092E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.376879E+02    0.473529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.357208E+02    0.496792E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.327258E+02    0.478804E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.313345E+02    0.451480E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138219E+03   -0.317602E+02    0.420941E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.339146E+02    0.393801E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.374702E+02    0.377439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.412046E+02    0.378220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.446429E+02    0.394366E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133600E+03   -0.464343E+02    0.424509E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.458607E+02    0.458271E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.431602E+02    0.486042E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.394215E+02    0.500084E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.387916E+02    0.339906E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.367719E+02    0.341688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.382176E+02    0.324063E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.405175E+02    0.328025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.404247E+02    0.348722E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.380529E+02    0.357262E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.361047E+02    0.369336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.349769E+02    0.355569E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.348183E+02    0.337956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.357228E+02    0.320825E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.374686E+02    0.308668E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.395433E+02    0.305066E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.415049E+02    0.310361E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.427968E+02    0.323522E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.429689E+02    0.341670E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.420243E+02    0.359253E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.402111E+02    0.371431E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.380189E+02    0.375177E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.360889E+02    0.399313E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.330669E+02    0.383358E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138454E+03   -0.317178E+02    0.356192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.321856E+02    0.325149E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.342998E+02    0.298890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.378319E+02    0.281913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.416743E+02    0.280523E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.449119E+02    0.294742E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.467696E+02    0.320720E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.461463E+02    0.354556E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.436181E+02    0.383525E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.397929E+02    0.400445E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.393652E+02    0.235066E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.373440E+02    0.237296E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.388680E+02    0.219905E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.411789E+02    0.222901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.410155E+02    0.242583E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.387562E+02    0.250518E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.367224E+02    0.263176E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.355654E+02    0.250637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.352860E+02    0.235261E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.361679E+02    0.219218E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.380960E+02    0.205775E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.402752E+02    0.201249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.422507E+02    0.205746E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.434549E+02    0.218255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.436571E+02    0.234596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.426290E+02    0.251659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.408430E+02    0.263458E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.386540E+02    0.267833E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.364681E+02    0.292915E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138374E+03   -0.336025E+02    0.278401E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.322928E+02    0.252611E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.328084E+02    0.222697E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.350002E+02    0.196792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.385326E+02    0.179844E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.423892E+02    0.177802E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.455288E+02    0.191287E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.471837E+02    0.215636E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.466254E+02    0.246088E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.440535E+02    0.274074E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.403795E+02    0.290767E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658434.085549542     
  ps_ts2 prof sum =   658079.530147439     
  trcom prof sum =    658079.530147438     
  ps_ts2 cur sum  =   10081.1146486059     
  trcom cur sum  =    10081.1146483451     
  
  antenna # iant =            2
  powecha_use(iant) =    664397.024322950     
  ps_ts2 prof sum =   664019.384928081     
  trcom prof sum =    664019.384928081     
  ps_ts2 cur sum  =   12530.7408597609     
  trcom cur sum  =    12530.7408597609     
  
  antenna # iant =            3
  powecha_use(iant) =    525955.382373791     
  ps_ts2 prof sum =   525632.180920374     
  trcom prof sum =    525632.180920375     
  ps_ts2 cur sum  =   6846.85686545401     
  trcom cur sum  =    6846.85686545401     
  
  antenna # iant =            4
  powecha_use(iant) =    566944.196553568     
  ps_ts2 prof sum =   566628.832823360     
  trcom prof sum =    566628.832823360     
  ps_ts2 cur sum  =   9642.50329948281     
  trcom cur sum  =    9642.50329948281     
  
  antenna # iant =            5
  powecha_use(iant) =    552088.085402913     
  ps_ts2 prof sum =   551775.897928691     
  trcom prof sum =    551775.897928691     
  ps_ts2 cur sum  =   11523.7570035641     
  trcom cur sum  =    11523.7570035641     
  
  Total ECH heating:      2966135.82674794     
  Total Current Drive:    50624.9726766069     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3359
 TA= 3.64500E+00 CPU TIME= 1.66165E-01 SECONDS.  DT= 1.29290E-03
  
 TEC1=    3.64499999999994     
 TEC2=    3.64999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.27601777777750     
  %check_save_state: izleft hours =    70.7155555555556     
 --> plasma_hash("gframe"): TA= 3.645000E+00 NSTEP=  3359 Hash code:   82767560
 ->PRGCHK: bdy curvature ratio at t= 3.6500E+00 seconds is:  5.6433E-02
% MHDEQ: TG1=     3.645000 ; TG2=     3.650000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7725E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6433E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.645000 TO TG2=    3.650000 @ NSTEP     3359
   GFRAME TG2 MOMENTS CHECKSUM:  2.4574735843071D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.42066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.40160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.24199E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.04224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.85635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.33474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.10117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.00283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.17288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.37419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.63536E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.30342E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  2.99034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.02910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.60583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -5.15614E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.69624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.01055E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.82447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.72702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.72702E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6500E+00  3.6550E+00 total power(Watts):  2.9760E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.65000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.383211E+02    0.381754E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.363073E+02    0.383182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.377624E+02    0.365628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.400536E+02    0.370054E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.400477E+02    0.390537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.376729E+02    0.398794E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.357180E+02    0.410964E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.344127E+02    0.397507E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.343664E+02    0.379047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.352797E+02    0.361942E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.370296E+02    0.349841E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.391001E+02    0.346427E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.410515E+02    0.352223E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.423282E+02    0.365920E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.425951E+02    0.383865E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.416296E+02    0.401827E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.398134E+02    0.414123E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.376231E+02    0.417449E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.356820E+02    0.441098E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.326785E+02    0.424599E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.313560E+02    0.396324E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.317555E+02    0.365581E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.338813E+02    0.339020E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.374132E+02    0.322058E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.411393E+02    0.321860E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.445807E+02    0.336034E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.462935E+02    0.364143E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.457549E+02    0.398150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.429757E+02    0.428373E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.393757E+02    0.443077E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.392316E+02    0.294454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.372120E+02    0.296485E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.387476E+02    0.278692E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.409482E+02    0.282871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.408730E+02    0.302579E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.386099E+02    0.310584E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.365663E+02    0.323427E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.354248E+02    0.310135E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.352550E+02    0.293214E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.361464E+02    0.276685E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.378856E+02    0.264720E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.400631E+02    0.260266E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.420315E+02    0.265142E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.433343E+02    0.277538E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.435241E+02    0.294706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.424781E+02    0.312409E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.406807E+02    0.324589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.384891E+02    0.328740E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.364782E+02    0.353200E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.335338E+02    0.337881E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138697E+03   -0.321592E+02    0.311473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138739E+03   -0.326077E+02    0.281492E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.348045E+02    0.254980E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.383317E+02    0.237994E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.421830E+02    0.236220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.454306E+02    0.249587E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.470738E+02    0.275395E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.467179E+02    0.306123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.441039E+02    0.335401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.401835E+02    0.353421E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.383404E+02    0.439453E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.363228E+02    0.440201E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.377964E+02    0.422907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.400849E+02    0.428271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.399539E+02    0.449105E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.376770E+02    0.455856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.357106E+02    0.466881E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.345110E+02    0.453056E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.343831E+02    0.435504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.352156E+02    0.418786E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.369788E+02    0.406706E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.390521E+02    0.403712E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.411081E+02    0.409887E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.423714E+02    0.424747E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.426202E+02    0.443151E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.416343E+02    0.460235E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.398082E+02    0.471369E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.376126E+02    0.473776E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.356459E+02    0.496910E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.326595E+02    0.479037E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.313574E+02    0.451391E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.317835E+02    0.420832E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.340342E+02    0.393263E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.373939E+02    0.378036E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.411234E+02    0.378810E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.444358E+02    0.395380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.463480E+02    0.424812E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133809E+03   -0.457751E+02    0.458520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.430781E+02    0.486229E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.393440E+02    0.500178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.387154E+02    0.340551E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.366983E+02    0.342333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.381417E+02    0.324748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.404385E+02    0.328703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.403452E+02    0.349354E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.380800E+02    0.357286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.360304E+02    0.369944E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.349036E+02    0.356203E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.347482E+02    0.338610E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.356509E+02    0.321523E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.373951E+02    0.309385E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.394662E+02    0.305821E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.414255E+02    0.311084E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.427153E+02    0.324210E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.428914E+02    0.342286E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.419370E+02    0.359897E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.401314E+02    0.372034E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.379421E+02    0.375770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.360153E+02    0.399805E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.329969E+02    0.383928E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138615E+03   -0.316507E+02    0.356824E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138626E+03   -0.321189E+02    0.325834E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.344225E+02    0.298127E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.377605E+02    0.282667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.415974E+02    0.281278E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.448293E+02    0.295495E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.466836E+02    0.321415E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.460598E+02    0.355186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135035E+03   -0.435342E+02    0.384090E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.397139E+02    0.400932E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.393963E+02    0.234898E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.371769E+02    0.238789E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.387984E+02    0.220560E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.411064E+02    0.223548E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.409408E+02    0.243239E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.386845E+02    0.251193E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.366514E+02    0.263894E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.354980E+02    0.251319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.352199E+02    0.235925E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.361017E+02    0.219891E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137323E+03   -0.380280E+02    0.206440E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.402097E+02    0.201875E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.421780E+02    0.206398E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.433806E+02    0.218888E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.435804E+02    0.235236E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.425530E+02    0.252316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.407684E+02    0.264168E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.385813E+02    0.268562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.363972E+02    0.293657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.335358E+02    0.279154E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138817E+03   -0.322299E+02    0.253300E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.327467E+02    0.223381E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.349372E+02    0.197461E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.384657E+02    0.180464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.423147E+02    0.178429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.454539E+02    0.191896E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.471047E+02    0.216267E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.465452E+02    0.246740E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.439726E+02    0.274827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.403025E+02    0.291525E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664585.703555407     
  ps_ts2 prof sum =   664206.194493990     
  trcom prof sum =    664206.194493990     
  ps_ts2 cur sum  =   10188.9648617965     
  trcom cur sum  =    10188.9648617965     
  
  antenna # iant =            2
  powecha_use(iant) =    663953.714406064     
  ps_ts2 prof sum =   663557.313331623     
  trcom prof sum =    663557.313331623     
  ps_ts2 cur sum  =   12542.5204823093     
  trcom cur sum  =    12542.5204820223     
  
  antenna # iant =            3
  powecha_use(iant) =    528292.682150663     
  ps_ts2 prof sum =   527994.309933410     
  trcom prof sum =    527994.309933410     
  ps_ts2 cur sum  =   6887.43129204760     
  trcom cur sum  =    6887.43129204761     
  
  antenna # iant =            4
  powecha_use(iant) =    567082.444548214     
  ps_ts2 prof sum =   566772.781775291     
  trcom prof sum =    566772.781775290     
  ps_ts2 cur sum  =   9659.12597470341     
  trcom cur sum  =    9659.12597470341     
  
  antenna # iant =            5
  powecha_use(iant) =    552087.300296019     
  ps_ts2 prof sum =   551756.458250592     
  trcom prof sum =    551756.458250592     
  ps_ts2 cur sum  =   11546.2095128322     
  trcom cur sum  =    11546.2095128322     
  
  Total ECH heating:      2974287.05778491     
  Total Current Drive:    50824.2521234020     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3363
 TA= 3.65000E+00 CPU TIME= 1.65145E-01 SECONDS.  DT= 8.85342E-05
  
 TEC1=    3.64999999999994     
 TEC2=    3.65499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.28985666666631     
  %check_save_state: izleft hours =    70.7016666666667     
 --> plasma_hash("gframe"): TA= 3.650000E+00 NSTEP=  3363 Hash code:   92121698
 ->PRGCHK: bdy curvature ratio at t= 3.6550E+00 seconds is:  5.6527E-02
% MHDEQ: TG1=     3.650000 ; TG2=     3.655000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7744E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6527E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.650000 TO TG2=    3.655000 @ NSTEP     3363
   GFRAME TG2 MOMENTS CHECKSUM:  2.4570483544292D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6550E+00  3.6600E+00 total power(Watts):  2.9712E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.65500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.382428E+02    0.382345E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.363325E+02    0.383215E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.376853E+02    0.366258E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.399709E+02    0.370692E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.399674E+02    0.391076E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.375956E+02    0.399296E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.356438E+02    0.411380E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.343397E+02    0.398029E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.341981E+02    0.380207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.352065E+02    0.362579E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.369543E+02    0.350497E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.390220E+02    0.347090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.409733E+02    0.352861E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.423569E+02    0.365991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.425115E+02    0.384441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.415473E+02    0.402310E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.397339E+02    0.414497E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.375460E+02    0.417810E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.356082E+02    0.441367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.326091E+02    0.424913E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.312880E+02    0.396843E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.316873E+02    0.366211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.339996E+02    0.338360E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.373410E+02    0.322750E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.410592E+02    0.322568E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.444965E+02    0.336707E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.462117E+02    0.364754E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.456678E+02    0.398650E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.428925E+02    0.428643E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.392972E+02    0.443337E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.392615E+02    0.294495E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.371397E+02    0.297250E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.386724E+02    0.279465E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.409803E+02    0.282886E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.409020E+02    0.302632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.385336E+02    0.311329E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.363927E+02    0.324822E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.353558E+02    0.310867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.350862E+02    0.294755E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.359783E+02    0.278227E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.378145E+02    0.265442E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.399885E+02    0.260959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.419538E+02    0.265861E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.432563E+02    0.278284E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.434425E+02    0.295472E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.425079E+02    0.312473E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.406011E+02    0.325296E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.384126E+02    0.329440E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.364033E+02    0.353853E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.334639E+02    0.338555E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138851E+03   -0.320925E+02    0.312208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138678E+03   -0.326324E+02    0.281467E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.347380E+02    0.255675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.383662E+02    0.237799E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.421081E+02    0.236868E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.453511E+02    0.250244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.469895E+02    0.276159E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.466349E+02    0.306869E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.440202E+02    0.336076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.402109E+02    0.353475E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.382627E+02    0.439715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.362479E+02    0.440472E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.377198E+02    0.423222E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.400050E+02    0.428557E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.399823E+02    0.449005E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.376003E+02    0.456120E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.356359E+02    0.467150E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.343418E+02    0.453696E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.343114E+02    0.435786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.350444E+02    0.419586E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.369030E+02    0.407152E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.389744E+02    0.404167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.410268E+02    0.410309E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.422886E+02    0.425043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.425373E+02    0.443396E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.415561E+02    0.460480E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.397300E+02    0.471593E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.375365E+02    0.474006E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.355757E+02    0.496994E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.325906E+02    0.479241E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.312896E+02    0.451678E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.317152E+02    0.421167E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.339632E+02    0.393794E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.373176E+02    0.378629E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.410417E+02    0.379402E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.443500E+02    0.395897E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133913E+03   -0.462610E+02    0.425099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.456891E+02    0.458752E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.429955E+02    0.486378E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.392666E+02    0.500240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.386375E+02    0.341227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.366233E+02    0.343005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.380658E+02    0.325451E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.403598E+02    0.329390E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.402650E+02    0.350016E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.380023E+02    0.357935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.360555E+02    0.369986E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.348323E+02    0.356842E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.346774E+02    0.339280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.355783E+02    0.322242E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.373231E+02    0.310120E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.393895E+02    0.306564E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.414547E+02    0.311135E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.426332E+02    0.324917E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.429158E+02    0.342371E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.418544E+02    0.360533E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.400509E+02    0.372655E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.378647E+02    0.376381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.359399E+02    0.400306E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138345E+03   -0.329266E+02    0.384515E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138775E+03   -0.315829E+02    0.357469E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138786E+03   -0.320535E+02    0.326528E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.343504E+02    0.298915E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.376850E+02    0.283442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.415204E+02    0.282041E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.447463E+02    0.296267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.465970E+02    0.322132E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.458544E+02    0.356404E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.434495E+02    0.384665E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.396344E+02    0.401414E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.393254E+02    0.235546E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.371072E+02    0.239442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.387289E+02    0.221231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.410345E+02    0.224195E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.409726E+02    0.243092E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.386127E+02    0.251872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.365821E+02    0.264616E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.354309E+02    0.252004E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.351536E+02    0.236597E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.362251E+02    0.218856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.379602E+02    0.207123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.401348E+02    0.202574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.421055E+02    0.207061E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.433057E+02    0.219537E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.435039E+02    0.235878E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.424744E+02    0.252997E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.406926E+02    0.264886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.385072E+02    0.269305E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.365232E+02    0.292941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138689E+03   -0.334689E+02    0.279920E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138978E+03   -0.321670E+02    0.253995E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138854E+03   -0.326847E+02    0.224067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138461E+03   -0.348721E+02    0.198148E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.383004E+02    0.182012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.422439E+02    0.179057E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.453789E+02    0.192526E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.470262E+02    0.216897E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.464639E+02    0.247397E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.438939E+02    0.275570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.402253E+02    0.292298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659198.099444164     
  ps_ts2 prof sum =   658815.002708524     
  trcom prof sum =    658815.002708524     
  ps_ts2 cur sum  =   10115.7902164628     
  trcom cur sum  =    10115.7902164628     
  
  antenna # iant =            2
  powecha_use(iant) =    664613.003425013     
  ps_ts2 prof sum =   664203.093710198     
  trcom prof sum =    664203.093710197     
  ps_ts2 cur sum  =   12577.6918158524     
  trcom cur sum  =    12577.6918158524     
  
  antenna # iant =            3
  powecha_use(iant) =    527267.315375712     
  ps_ts2 prof sum =   526936.226672350     
  trcom prof sum =    526936.226672351     
  ps_ts2 cur sum  =   6880.77402192460     
  trcom cur sum  =    6880.77402192460     
  
  antenna # iant =            4
  powecha_use(iant) =    567608.081033404     
  ps_ts2 prof sum =   567287.005354131     
  trcom prof sum =    567287.005354130     
  ps_ts2 cur sum  =   9678.80031839191     
  trcom cur sum  =    9678.80031839190     
  
  antenna # iant =            5
  powecha_use(iant) =    552539.426011835     
  ps_ts2 prof sum =   552211.488060734     
  trcom prof sum =    552211.488060734     
  ps_ts2 cur sum  =   11584.7554971031     
  trcom cur sum  =    11584.7554971031     
  
  Total ECH heating:      2969452.81650594     
  Total Current Drive:    50837.8118697348     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3376
 TA= 3.65500E+00 CPU TIME= 1.59580E-01 SECONDS.  DT= 2.50961E-04
  
 TEC1=    3.65499999999994     
 TEC2=    3.65999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.30286555555517     
  %check_save_state: izleft hours =    70.6886111111111     
 --> plasma_hash("gframe"): TA= 3.655000E+00 NSTEP=  3376 Hash code:   19146003
 ->PRGCHK: bdy curvature ratio at t= 3.6600E+00 seconds is:  5.6559E-02
% MHDEQ: TG1=     3.655000 ; TG2=     3.660000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7740E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6559E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.655000 TO TG2=    3.660000 @ NSTEP     3376
   GFRAME TG2 MOMENTS CHECKSUM:  2.4568864971874D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.47990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.42817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.42779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.48260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.38940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.11296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.02321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.15430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.34958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.52712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -1.56360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.36853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.99174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.62626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.99544E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.68957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.96178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.69080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.68052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.68052E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6600E+00  3.6650E+00 total power(Watts):  2.9709E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.66000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.382478E+02    0.382361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.362367E+02    0.383775E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.376899E+02    0.366299E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.399759E+02    0.370730E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.399729E+02    0.391075E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.376005E+02    0.399277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.356483E+02    0.411312E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.343428E+02    0.398011E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.342019E+02    0.380231E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.352107E+02    0.362619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.369584E+02    0.350552E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.390266E+02    0.347155E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.409751E+02    0.352937E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.422502E+02    0.366603E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.425167E+02    0.384470E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.415548E+02    0.402279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.397388E+02    0.414426E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.375511E+02    0.417718E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.356131E+02    0.441259E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.326132E+02    0.424806E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138521E+03   -0.312911E+02    0.396830E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138698E+03   -0.316911E+02    0.366242E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.340048E+02    0.338410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.373434E+02    0.322856E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.410648E+02    0.322665E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.445022E+02    0.336800E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.462114E+02    0.364846E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.456735E+02    0.398642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.428985E+02    0.428528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.393027E+02    0.443227E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.391627E+02    0.295321E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.371449E+02    0.297348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.386785E+02    0.279541E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.408779E+02    0.283730E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.408002E+02    0.303454E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.385413E+02    0.311418E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.364974E+02    0.324217E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.353604E+02    0.310957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.351880E+02    0.294089E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.360821E+02    0.277511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.378210E+02    0.265469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.399954E+02    0.260985E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.419610E+02    0.265904E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.432631E+02    0.278383E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.434491E+02    0.295593E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.424028E+02    0.313264E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.406065E+02    0.325391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.384173E+02    0.329517E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.364075E+02    0.353894E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.334690E+02    0.338603E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.320965E+02    0.312288E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138646E+03   -0.326385E+02    0.281523E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.347450E+02    0.255647E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.382740E+02    0.238554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.421176E+02    0.236790E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.453597E+02    0.250234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.471151E+02    0.275548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.466413E+02    0.307007E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.440258E+02    0.336165E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.401082E+02    0.354132E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.382682E+02    0.439601E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.362530E+02    0.440356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.377250E+02    0.423114E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.400106E+02    0.428441E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.399875E+02    0.448914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.376054E+02    0.456036E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.356428E+02    0.467049E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.343486E+02    0.453597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.343159E+02    0.435674E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.350487E+02    0.419493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.369073E+02    0.407110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.389791E+02    0.404137E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.410319E+02    0.410251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.422945E+02    0.424932E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.425473E+02    0.443292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.415616E+02    0.460401E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.397359E+02    0.471507E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.375421E+02    0.473921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.355815E+02    0.496858E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.325955E+02    0.479140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.312940E+02    0.451585E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.317196E+02    0.421070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.339674E+02    0.393781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.373221E+02    0.378653E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.410468E+02    0.379433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.443557E+02    0.395892E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.462675E+02    0.424985E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.456958E+02    0.458658E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.430025E+02    0.486267E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.392733E+02    0.500098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.386424E+02    0.341294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.366277E+02    0.343062E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.380710E+02    0.325535E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.403646E+02    0.329473E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.402700E+02    0.350078E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.380070E+02    0.357985E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.358607E+02    0.371179E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137711E+03   -0.348364E+02    0.356886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.346808E+02    0.339340E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.355849E+02    0.322308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.373284E+02    0.310217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.393971E+02    0.306657E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.413516E+02    0.311940E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.426390E+02    0.325017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.428087E+02    0.343060E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.418596E+02    0.360599E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.400559E+02    0.372698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.378694E+02    0.376406E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.359447E+02    0.400276E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.329305E+02    0.384523E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.315866E+02    0.357499E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.320576E+02    0.326591E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.343553E+02    0.299003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.376915E+02    0.283522E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.415265E+02    0.282139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.447531E+02    0.296392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.466031E+02    0.322254E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.459780E+02    0.355916E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.434548E+02    0.384690E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.396393E+02    0.401387E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.393341E+02    0.235471E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.371165E+02    0.239372E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.387375E+02    0.221123E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.410437E+02    0.224095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.409811E+02    0.243040E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.386202E+02    0.251849E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.365886E+02    0.264633E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.354382E+02    0.251972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.351613E+02    0.236517E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.360427E+02    0.220471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.379690E+02    0.206996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.401442E+02    0.202442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.421151E+02    0.206934E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.433156E+02    0.219428E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.435137E+02    0.235800E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.424831E+02    0.252979E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.407002E+02    0.264922E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.385129E+02    0.269359E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.365269E+02    0.293043E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.334779E+02    0.279951E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138950E+03   -0.321732E+02    0.253956E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138828E+03   -0.326924E+02    0.223963E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.348823E+02    0.198003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.384072E+02    0.180933E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.422539E+02    0.178859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.453891E+02    0.192364E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.470375E+02    0.216778E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.465889E+02    0.246607E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.439010E+02    0.275662E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.402334E+02    0.292393E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661636.875842326     
  ps_ts2 prof sum =   661253.412737699     
  trcom prof sum =    661253.412737699     
  ps_ts2 cur sum  =   10156.7701281120     
  trcom cur sum  =    10156.7701281120     
  
  antenna # iant =            2
  powecha_use(iant) =    660956.484688627     
  ps_ts2 prof sum =   660576.678099937     
  trcom prof sum =    660576.678099936     
  ps_ts2 cur sum  =   12511.5924758929     
  trcom cur sum  =    12511.5924758929     
  
  antenna # iant =            3
  powecha_use(iant) =    527775.598398583     
  ps_ts2 prof sum =   527449.521962764     
  trcom prof sum =    527449.521962765     
  ps_ts2 cur sum  =   6889.92767398074     
  trcom cur sum  =    6889.92767398074     
  
  antenna # iant =            4
  powecha_use(iant) =    567299.453624873     
  ps_ts2 prof sum =   566973.430804088     
  trcom prof sum =    566973.430804087     
  ps_ts2 cur sum  =   9675.70703458002     
  trcom cur sum  =    9675.70703458002     
  
  antenna # iant =            5
  powecha_use(iant) =    553272.499492132     
  ps_ts2 prof sum =   552960.543446168     
  trcom prof sum =    552960.543446168     
  ps_ts2 cur sum  =   11608.0803941754     
  trcom cur sum  =    11608.0803941754     
  
  Total ECH heating:      2969213.58705066     
  Total Current Drive:    50842.0777067411     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3385
 TA= 3.66000E+00 CPU TIME= 1.46127E-01 SECONDS.  DT= 2.55780E-05
  
 TEC1=    3.65999999999994     
 TEC2=    3.66499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.31906527777778     
  %check_save_state: izleft hours =    70.6725000000000     
 --> plasma_hash("gframe"): TA= 3.660000E+00 NSTEP=  3385 Hash code:   54737701
 ->PRGCHK: bdy curvature ratio at t= 3.6650E+00 seconds is:  5.6591E-02
% MHDEQ: TG1=     3.660000 ; TG2=     3.665000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7736E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6591E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.660000 TO TG2=    3.665000 @ NSTEP     3385
   GFRAME TG2 MOMENTS CHECKSUM:  2.4567246399457D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.6650E+00  3.6700E+00 total power(Watts):  2.9756E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.66500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.382501E+02    0.382354E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.361388E+02    0.384305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.376922E+02    0.366309E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.399784E+02    0.370746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.399757E+02    0.391047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.376029E+02    0.399222E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.356516E+02    0.411207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.343462E+02    0.397955E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.342042E+02    0.380222E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.352128E+02    0.362628E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.369610E+02    0.350567E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.390291E+02    0.347174E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.409777E+02    0.352957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.422528E+02    0.366620E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.425195E+02    0.384461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.415559E+02    0.402219E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.397420E+02    0.414313E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.375543E+02    0.417594E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.356168E+02    0.441111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.326165E+02    0.424664E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.312933E+02    0.396783E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138660E+03   -0.316964E+02    0.366226E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.340055E+02    0.338444E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.373464E+02    0.322907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.410676E+02    0.322741E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.445046E+02    0.336857E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.462139E+02    0.364881E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.456766E+02    0.398599E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.429027E+02    0.428369E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.393068E+02    0.443074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.391638E+02    0.295427E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.371470E+02    0.297435E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.386820E+02    0.279618E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.408808E+02    0.283830E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.409114E+02    0.302837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.385440E+02    0.311496E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.363984E+02    0.324962E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.353618E+02    0.311038E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.350949E+02    0.294917E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.359879E+02    0.278357E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.378249E+02    0.265505E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.400005E+02    0.261011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.419654E+02    0.265956E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.432671E+02    0.278471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.434526E+02    0.295706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.424057E+02    0.313348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.406096E+02    0.325452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.384198E+02    0.329564E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.364102E+02    0.353906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.334701E+02    0.338637E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.320988E+02    0.312346E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.326414E+02    0.281583E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.347490E+02    0.255638E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.382790E+02    0.238513E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.421234E+02    0.236755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.453649E+02    0.250244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.471196E+02    0.275651E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.466444E+02    0.307116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.440282E+02    0.336224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.401125E+02    0.354146E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.382719E+02    0.439452E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.362529E+02    0.440226E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.377284E+02    0.422970E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.400145E+02    0.428286E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.399917E+02    0.448773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.376096E+02    0.455906E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.356461E+02    0.466938E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.343504E+02    0.453476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.343190E+02    0.435528E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.350521E+02    0.419362E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.369104E+02    0.407024E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.389828E+02    0.404059E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.410356E+02    0.410152E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.422986E+02    0.424780E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.425476E+02    0.443135E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.415667E+02    0.460260E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.397404E+02    0.471378E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.375469E+02    0.473791E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.355867E+02    0.496675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.325996E+02    0.479001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.312971E+02    0.451463E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.317263E+02    0.420915E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.339695E+02    0.393747E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.373277E+02    0.378639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.410493E+02    0.379434E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.443589E+02    0.395855E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.462718E+02    0.424828E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.457009E+02    0.458516E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.430083E+02    0.486101E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.392789E+02    0.499909E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.386448E+02    0.341325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.366300E+02    0.343086E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.380738E+02    0.325587E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.403673E+02    0.329529E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.402724E+02    0.350101E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.380096E+02    0.357997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.358627E+02    0.371181E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.348386E+02    0.356894E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.346826E+02    0.339368E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.355874E+02    0.322359E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.373306E+02    0.310296E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.394000E+02    0.306742E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.413544E+02    0.312023E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.426422E+02    0.325077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.429238E+02    0.342488E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.418624E+02    0.360619E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.400584E+02    0.372705E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.378667E+02    0.376433E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.359475E+02    0.400215E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.329325E+02    0.384502E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138712E+03   -0.315884E+02    0.357509E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138720E+03   -0.320588E+02    0.326635E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.343587E+02    0.299071E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.376946E+02    0.283611E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.415299E+02    0.282238E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.447563E+02    0.296501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.466060E+02    0.322333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.458629E+02    0.356508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.434547E+02    0.384693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.396426E+02    0.401328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.393393E+02    0.235427E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.371215E+02    0.239327E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.387432E+02    0.221054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.410496E+02    0.224034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.409862E+02    0.243016E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.386253E+02    0.251844E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.365919E+02    0.264669E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.354397E+02    0.251973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.351654E+02    0.236465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.362389E+02    0.218672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.379752E+02    0.206914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.401501E+02    0.202356E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.421215E+02    0.206853E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.433219E+02    0.219358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.435196E+02    0.235762E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.424901E+02    0.252974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.407028E+02    0.264960E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.385164E+02    0.269414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.365297E+02    0.293121E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.334778E+02    0.280034E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138920E+03   -0.321771E+02    0.253937E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138801E+03   -0.326980E+02    0.223888E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138411E+03   -0.348875E+02    0.197902E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.383158E+02    0.181683E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.422612E+02    0.178709E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.453964E+02    0.192254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.470443E+02    0.216711E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.464786E+02    0.247369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.439049E+02    0.275751E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.402362E+02    0.292492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665063.852716750     
  ps_ts2 prof sum =   664660.255462219     
  trcom prof sum =    664660.255462219     
  ps_ts2 cur sum  =   10200.3638392196     
  trcom cur sum  =    10200.3638392196     
  
  antenna # iant =            2
  powecha_use(iant) =    663427.218328117     
  ps_ts2 prof sum =   663007.736064066     
  trcom prof sum =    663007.736064066     
  ps_ts2 cur sum  =   12545.3791329521     
  trcom cur sum  =    12545.3791329521     
  
  antenna # iant =            3
  powecha_use(iant) =    527548.508526254     
  ps_ts2 prof sum =   527220.264571893     
  trcom prof sum =    527220.264571894     
  ps_ts2 cur sum  =   6881.44619324546     
  trcom cur sum  =    6881.44619324547     
  
  antenna # iant =            4
  powecha_use(iant) =    568356.437246342     
  ps_ts2 prof sum =   568022.353638585     
  trcom prof sum =    568022.353638584     
  ps_ts2 cur sum  =   9683.68271870945     
  trcom cur sum  =    9683.68271870943     
  
  antenna # iant =            5
  powecha_use(iant) =    551203.881622806     
  ps_ts2 prof sum =   550879.044545398     
  trcom prof sum =    550879.044545397     
  ps_ts2 cur sum  =   11556.9618750030     
  trcom cur sum  =    11556.9618750030     
  
  Total ECH heating:      2973789.65428216     
  Total Current Drive:    50867.8337591296     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3403
 TA= 3.66500E+00 CPU TIME= 1.68591E-01 SECONDS.  DT= 6.98430E-04
  
 TEC1=    3.66499999999994     
 TEC2=    3.66999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.33534583333312     
  %check_save_state: izleft hours =    70.6561111111111     
 --> plasma_hash("gframe"): TA= 3.665000E+00 NSTEP=  3403 Hash code:   65198708
 ->PRGCHK: bdy curvature ratio at t= 3.6700E+00 seconds is:  5.6625E-02
% MHDEQ: TG1=     3.665000 ; TG2=     3.670000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7732E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6625E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.665000 TO TG2=    3.670000 @ NSTEP     3403
   GFRAME TG2 MOMENTS CHECKSUM:  2.4565627827040D+04
 %MFRCHK - LABEL "RMC12", #       1= -6.85415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.63511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.57593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.82142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.80642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.18521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.00590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.11585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.10931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.04552E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.36577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  5.25346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.35752E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.84345E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  5.97538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.52664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.92143E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.74459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.68091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.90130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.90130E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.6700E+00  3.6750E+00 total power(Watts):  2.9734E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.67000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.382545E+02    0.382349E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.362475E+02    0.383739E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.376963E+02    0.366322E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.399826E+02    0.370758E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.399801E+02    0.391030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.376079E+02    0.399174E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.356559E+02    0.411116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.343505E+02    0.397910E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.342077E+02    0.380220E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.352163E+02    0.362643E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.369649E+02    0.350584E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.390329E+02    0.347197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.409821E+02    0.352986E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.422571E+02    0.366652E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.425241E+02    0.384461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.415607E+02    0.402171E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.397475E+02    0.414208E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.375592E+02    0.417475E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.356209E+02    0.440987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.326205E+02    0.424538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.312967E+02    0.396743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138635E+03   -0.316963E+02    0.366251E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.340092E+02    0.338469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.373502E+02    0.322964E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.410721E+02    0.322805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.445093E+02    0.336908E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.462186E+02    0.364916E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134246E+03   -0.456823E+02    0.398555E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.429083E+02    0.428231E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.393120E+02    0.442951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.391696E+02    0.295511E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.371515E+02    0.297518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.386868E+02    0.279701E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.408860E+02    0.283919E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.408085E+02    0.303632E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.385480E+02    0.311568E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.365041E+02    0.324314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.353658E+02    0.311104E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.351952E+02    0.294253E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.360902E+02    0.277647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.378303E+02    0.265543E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.400063E+02    0.261041E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.419712E+02    0.266011E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.432719E+02    0.278568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.434579E+02    0.295804E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.424105E+02    0.313433E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.406141E+02    0.325511E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.384227E+02    0.329620E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.364137E+02    0.353933E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.334738E+02    0.338656E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138752E+03   -0.321029E+02    0.312408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.326437E+02    0.281657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.347507E+02    0.255651E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.382856E+02    0.238463E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.421306E+02    0.236708E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.453720E+02    0.250242E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.471287E+02    0.275742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134520E+03   -0.466494E+02    0.307223E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.440329E+02    0.336271E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.401145E+02    0.354183E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.382773E+02    0.439319E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.362614E+02    0.440084E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.377335E+02    0.422838E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.400198E+02    0.428146E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.399974E+02    0.448645E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.376149E+02    0.455799E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.356511E+02    0.466827E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.343551E+02    0.453373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.343235E+02    0.435397E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.350565E+02    0.419246E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.369148E+02    0.406951E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.389869E+02    0.404007E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.410406E+02    0.410066E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.423041E+02    0.424650E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.425535E+02    0.442995E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.415724E+02    0.460155E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.397464E+02    0.471266E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.375524E+02    0.473660E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.355927E+02    0.496514E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.326043E+02    0.478879E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.313011E+02    0.451360E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.317260E+02    0.420815E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.339727E+02    0.393716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.373284E+02    0.378657E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.410539E+02    0.379442E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.443636E+02    0.395830E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.462779E+02    0.424689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133877E+03   -0.457070E+02    0.458408E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.430156E+02    0.485946E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.392908E+02    0.499734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.386488E+02    0.341353E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.366340E+02    0.343110E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.380780E+02    0.325640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.403717E+02    0.329579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.402751E+02    0.350137E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.380135E+02    0.358018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.358666E+02    0.371193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.348422E+02    0.356910E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.346818E+02    0.339419E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.355909E+02    0.322413E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.373364E+02    0.310356E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.394042E+02    0.306826E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.413598E+02    0.312102E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.426489E+02    0.325130E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.428157E+02    0.343136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.418667E+02    0.360647E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.400625E+02    0.372716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.378757E+02    0.376418E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.359516E+02    0.400167E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.329360E+02    0.384492E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138682E+03   -0.315919E+02    0.357513E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.320622E+02    0.326671E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.343629E+02    0.299143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.376993E+02    0.283690E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.415347E+02    0.282331E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.447618E+02    0.296609E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.466112E+02    0.322417E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.459910E+02    0.355969E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.434623E+02    0.384684E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.396472E+02    0.401280E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.393462E+02    0.235375E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.371280E+02    0.239273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.387494E+02    0.220982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.410571E+02    0.223958E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.409923E+02    0.242994E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.386313E+02    0.251836E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.365968E+02    0.264698E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.354477E+02    0.251942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138271E+03   -0.351713E+02    0.236405E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.362460E+02    0.218584E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.379781E+02    0.206853E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.401583E+02    0.202250E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.421298E+02    0.206755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.433301E+02    0.219277E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.435272E+02    0.235709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.424946E+02    0.252985E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.407094E+02    0.265022E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.385219E+02    0.269472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.365341E+02    0.293203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.334824E+02    0.280090E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138891E+03   -0.321819E+02    0.253913E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138774E+03   -0.327040E+02    0.223804E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138386E+03   -0.348944E+02    0.197787E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.383238E+02    0.181521E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.422696E+02    0.178540E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.454058E+02    0.192126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.470530E+02    0.216627E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.464859E+02    0.247367E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.439100E+02    0.275842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.402401E+02    0.292591E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665634.515958279     
  ps_ts2 prof sum =   665252.788556269     
  trcom prof sum =    665252.788556269     
  ps_ts2 cur sum  =   10204.7461107977     
  trcom cur sum  =    10204.7461107976     
  
  antenna # iant =            2
  powecha_use(iant) =    661882.213535106     
  ps_ts2 prof sum =   661501.282656138     
  trcom prof sum =    661501.282656138     
  ps_ts2 cur sum  =   12508.6791710257     
  trcom cur sum  =    12508.6791710257     
  
  antenna # iant =            3
  powecha_use(iant) =    526332.762445331     
  ps_ts2 prof sum =   526013.045894956     
  trcom prof sum =    526013.045894956     
  ps_ts2 cur sum  =   6863.97650577345     
  trcom cur sum  =    6863.97650577346     
  
  antenna # iant =            4
  powecha_use(iant) =    567881.349055203     
  ps_ts2 prof sum =   567557.179582452     
  trcom prof sum =    567557.179582452     
  ps_ts2 cur sum  =   9670.33486326777     
  trcom cur sum  =    9670.33486326776     
  
  antenna # iant =            5
  powecha_use(iant) =    551658.824503087     
  ps_ts2 prof sum =   551338.818725790     
  trcom prof sum =    551338.818725790     
  ps_ts2 cur sum  =   11560.8716439770     
  trcom cur sum  =    11560.8716439770     
  
  Total ECH heating:      2971663.11541560     
  Total Current Drive:    50808.6082948416     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3408
 TA= 3.67000E+00 CPU TIME= 1.60602E-01 SECONDS.  DT= 1.21639E-03
  
 TEC1=    3.66999999999994     
 TEC2=    3.67499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.35236361111106     
  %check_save_state: izleft hours =    70.6391666666667     
 --> plasma_hash("gframe"): TA= 3.670000E+00 NSTEP=  3408 Hash code:   93271596
 ->PRGCHK: bdy curvature ratio at t= 3.6750E+00 seconds is:  5.6659E-02
% MHDEQ: TG1=     3.670000 ; TG2=     3.675000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7728E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6659E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.670000 TO TG2=    3.675000 @ NSTEP     3408
   GFRAME TG2 MOMENTS CHECKSUM:  2.4564009254623D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6750E+00  3.6800E+00 total power(Watts):  2.9723E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.67500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.382582E+02    0.382356E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.362464E+02    0.383754E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.376999E+02    0.366354E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.399867E+02    0.370785E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.399844E+02    0.391012E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.376123E+02    0.399124E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.356601E+02    0.411013E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.343501E+02    0.397883E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.343072E+02    0.379659E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.352197E+02    0.362672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.369685E+02    0.350626E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.390372E+02    0.347251E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.409862E+02    0.353034E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.422614E+02    0.366686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.425298E+02    0.384458E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.415654E+02    0.402114E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.397524E+02    0.414095E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.375640E+02    0.417353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.356260E+02    0.440859E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138037E+03   -0.326246E+02    0.424405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138431E+03   -0.313005E+02    0.396695E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.316993E+02    0.366271E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.338281E+02    0.339807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.373543E+02    0.323040E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.410771E+02    0.322887E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.445134E+02    0.336992E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.462231E+02    0.364964E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.456878E+02    0.398507E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.429139E+02    0.428085E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.393174E+02    0.442815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.391746E+02    0.295609E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.371561E+02    0.297618E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.385894E+02    0.280543E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.408916E+02    0.284006E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.408131E+02    0.303731E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.385525E+02    0.311666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.365080E+02    0.324386E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.353700E+02    0.311186E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.351994E+02    0.294332E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.360952E+02    0.277702E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.378363E+02    0.265562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.400122E+02    0.261056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.419770E+02    0.266050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.432778E+02    0.278653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.434629E+02    0.295919E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.424154E+02    0.313540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.406178E+02    0.325594E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.384274E+02    0.329693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.364173E+02    0.353964E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.334774E+02    0.338697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138719E+03   -0.321067E+02    0.312473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138768E+03   -0.325599E+02    0.282486E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.347598E+02    0.255599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.382917E+02    0.238389E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.421380E+02    0.236635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.453789E+02    0.250234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.471316E+02    0.275856E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.466548E+02    0.307349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.438086E+02    0.337582E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.401187E+02    0.354225E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.382824E+02    0.439184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.362662E+02    0.439954E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.377399E+02    0.422696E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.400250E+02    0.428005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.398947E+02    0.448877E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.376201E+02    0.455688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.356566E+02    0.466723E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.343598E+02    0.453268E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.343282E+02    0.435262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.351591E+02    0.418666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.369190E+02    0.406868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.389913E+02    0.403941E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.410455E+02    0.409972E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.423096E+02    0.424505E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.425590E+02    0.442864E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.415787E+02    0.460037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.397524E+02    0.471148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.375581E+02    0.473540E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.355985E+02    0.496355E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.326088E+02    0.478757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.313052E+02    0.451253E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.317302E+02    0.420685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.339765E+02    0.393684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.373321E+02    0.378667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.410581E+02    0.379457E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.443684E+02    0.395807E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133796E+03   -0.462835E+02    0.424557E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133844E+03   -0.457155E+02    0.458291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.430222E+02    0.485810E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.392924E+02    0.499571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.386530E+02    0.341408E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.366376E+02    0.343158E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.380818E+02    0.325721E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.403760E+02    0.329656E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.402807E+02    0.350179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.380172E+02    0.358057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.359695E+02    0.370635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.348458E+02    0.356939E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.346904E+02    0.339432E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.355938E+02    0.322500E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.373382E+02    0.310463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.394088E+02    0.306929E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.413643E+02    0.312204E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.426512E+02    0.325232E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.428202E+02    0.343203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.418709E+02    0.360691E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.400664E+02    0.372746E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.378795E+02    0.376435E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.359556E+02    0.400113E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138221E+03   -0.329393E+02    0.384486E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.315952E+02    0.357537E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.320663E+02    0.326724E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.343672E+02    0.299231E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.377046E+02    0.283776E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.415404E+02    0.282423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.448819E+02    0.296038E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.466157E+02    0.322526E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.459899E+02    0.356049E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.434669E+02    0.384689E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.396515E+02    0.401228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.393526E+02    0.235298E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.371336E+02    0.239204E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.387573E+02    0.220874E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.410639E+02    0.223868E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.410002E+02    0.242936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.386375E+02    0.251806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.366032E+02    0.264712E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.354532E+02    0.251916E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.351783E+02    0.236315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.360623E+02    0.220197E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.379900E+02    0.206696E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.401662E+02    0.202126E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.421375E+02    0.206632E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.433382E+02    0.219170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.435347E+02    0.235640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.425012E+02    0.252977E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.407203E+02    0.265016E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.385274E+02    0.269516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.363414E+02    0.294774E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138560E+03   -0.334875E+02    0.280145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138862E+03   -0.321871E+02    0.253877E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138749E+03   -0.327102E+02    0.223698E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.349010E+02    0.197667E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.383344E+02    0.181330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.422780E+02    0.178365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.454162E+02    0.191970E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.470619E+02    0.216519E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.464937E+02    0.247341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.439160E+02    0.275923E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.402452E+02    0.292691E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664570.200130541     
  ps_ts2 prof sum =   664191.765678867     
  trcom prof sum =    664191.765678866     
  ps_ts2 cur sum  =   10181.9565631266     
  trcom cur sum  =    10181.9565631266     
  
  antenna # iant =            2
  powecha_use(iant) =    662854.766922880     
  ps_ts2 prof sum =   662455.589039226     
  trcom prof sum =    662455.589039226     
  ps_ts2 cur sum  =   12521.1004946889     
  trcom cur sum  =    12521.1004946889     
  
  antenna # iant =            3
  powecha_use(iant) =    527152.645116307     
  ps_ts2 prof sum =   526844.628550630     
  trcom prof sum =    526844.628550631     
  ps_ts2 cur sum  =   6872.50128542235     
  trcom cur sum  =    6872.50128542236     
  
  antenna # iant =            4
  powecha_use(iant) =    565417.671330552     
  ps_ts2 prof sum =   565119.355400471     
  trcom prof sum =    565119.355400470     
  ps_ts2 cur sum  =   9621.45157873841     
  trcom cur sum  =    9621.45157873840     
  
  antenna # iant =            5
  powecha_use(iant) =    552333.587507945     
  ps_ts2 prof sum =   551989.645855299     
  trcom prof sum =    551989.645855299     
  ps_ts2 cur sum  =   11575.7103332133     
  trcom cur sum  =    11575.7103332133     
  
  Total ECH heating:      2970600.98452449     
  Total Current Drive:    50772.7202551895     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3412
 TA= 3.67500E+00 CPU TIME= 1.59598E-01 SECONDS.  DT= 4.53129E-04
  
 TEC1=    3.67499999999994     
 TEC2=    3.67999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.36589305555549     
  %check_save_state: izleft hours =    70.6255555555556     
 --> plasma_hash("gframe"): TA= 3.675000E+00 NSTEP=  3412 Hash code:  109635501
 ->PRGCHK: bdy curvature ratio at t= 3.6800E+00 seconds is:  5.6694E-02
% MHDEQ: TG1=     3.675000 ; TG2=     3.680000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7724E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6694E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.675000 TO TG2=    3.680000 @ NSTEP     3412
   GFRAME TG2 MOMENTS CHECKSUM:  2.4562390682206D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.22763E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.84163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.72377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.15750E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.97531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.89906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.20829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.06442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.74208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.20476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.96325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.34246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.69546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.32379E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.05880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.15487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.52784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.67104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.72691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.72691E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6800E+00  3.6850E+00 total power(Watts):  2.9754E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.68000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.382627E+02    0.382387E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.362506E+02    0.383778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.377039E+02    0.366408E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.399914E+02    0.370836E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.398808E+02    0.391538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.376164E+02    0.399113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.356645E+02    0.410947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.343580E+02    0.397852E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.343109E+02    0.379689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.352238E+02    0.362717E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.368715E+02    0.351297E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.390419E+02    0.347302E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.409911E+02    0.353096E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.422663E+02    0.366749E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.425336E+02    0.384501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.415704E+02    0.402094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.396499E+02    0.414470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.375688E+02    0.417270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.356306E+02    0.440775E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.326286E+02    0.424310E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.313032E+02    0.396686E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138573E+03   -0.317032E+02    0.366302E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.338281E+02    0.339888E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.373592E+02    0.323126E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.410820E+02    0.322985E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.445193E+02    0.337070E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.462287E+02    0.365034E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.456933E+02    0.398503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.429195E+02    0.427988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.393226E+02    0.442733E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.391806E+02    0.295732E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.371616E+02    0.297734E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.385960E+02    0.280649E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.408983E+02    0.284133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.408190E+02    0.303857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.385569E+02    0.311778E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.365133E+02    0.324459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.353749E+02    0.311283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.352053E+02    0.294443E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.361009E+02    0.277808E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.378432E+02    0.265637E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.400193E+02    0.261122E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.419836E+02    0.266143E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.432847E+02    0.278789E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.434693E+02    0.296059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.424212E+02    0.313660E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.406224E+02    0.325692E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.384329E+02    0.329769E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.364217E+02    0.354014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.334813E+02    0.338753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.321110E+02    0.312561E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138735E+03   -0.325653E+02    0.282586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.347666E+02    0.255614E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.382998E+02    0.238361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.421469E+02    0.236612E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.455008E+02    0.249514E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.471391E+02    0.276007E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.464253E+02    0.308805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.438145E+02    0.337663E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.401234E+02    0.354284E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.382873E+02    0.439096E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.362708E+02    0.439869E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.377428E+02    0.422613E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.400300E+02    0.427908E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.398999E+02    0.448804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.376252E+02    0.455628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.356610E+02    0.466666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.343640E+02    0.453201E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.343323E+02    0.435172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.351636E+02    0.418580E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.369237E+02    0.406817E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.389961E+02    0.403907E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.410507E+02    0.409916E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.423151E+02    0.424410E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.425644E+02    0.442784E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.415841E+02    0.459979E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.397578E+02    0.471078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.375633E+02    0.473464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.356037E+02    0.496235E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.326133E+02    0.478674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.313083E+02    0.451192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.317340E+02    0.420598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.339799E+02    0.393681E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.373365E+02    0.378701E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.410629E+02    0.379499E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.444900E+02    0.395335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.461707E+02    0.424837E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.457197E+02    0.458231E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.430284E+02    0.485707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.392982E+02    0.499446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.386576E+02    0.341470E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.366424E+02    0.343224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.380872E+02    0.325794E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.403811E+02    0.329747E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.402857E+02    0.350235E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.380217E+02    0.358107E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.359736E+02    0.370681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.348499E+02    0.356985E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.346943E+02    0.339491E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.355941E+02    0.322604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.372424E+02    0.311273E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.394135E+02    0.307055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.413696E+02    0.312324E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.426566E+02    0.325337E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.428252E+02    0.343273E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.418758E+02    0.360753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.400713E+02    0.372790E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.378840E+02    0.376472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.359601E+02    0.400089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.329433E+02    0.384501E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.315975E+02    0.357583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138624E+03   -0.320709E+02    0.326789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.343719E+02    0.299337E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.377106E+02    0.283887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.415470E+02    0.282553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.448834E+02    0.296215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.463851E+02    0.323902E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.459952E+02    0.356127E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.432441E+02    0.385732E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.396562E+02    0.401207E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.393609E+02    0.235264E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.371421E+02    0.239169E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.387655E+02    0.220820E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.410735E+02    0.223806E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.409030E+02    0.243726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.386449E+02    0.251825E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.366097E+02    0.264782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.354600E+02    0.251921E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.351835E+02    0.236296E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.360707E+02    0.220135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.379989E+02    0.206629E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.401752E+02    0.202056E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.421474E+02    0.206573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.433477E+02    0.219118E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.435439E+02    0.235617E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.425103E+02    0.253003E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.406158E+02    0.265900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.385340E+02    0.269603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.363469E+02    0.294894E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.334931E+02    0.280237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138833E+03   -0.321934E+02    0.253879E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.327177E+02    0.223635E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.349105E+02    0.197587E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.384385E+02    0.180366E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.422886E+02    0.178271E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.454254E+02    0.191910E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.470726E+02    0.216466E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.466183E+02    0.246612E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.438108E+02    0.276785E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.401453E+02    0.293535E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667109.288193035     
  ps_ts2 prof sum =   666723.317680630     
  trcom prof sum =    666723.317680629     
  ps_ts2 cur sum  =   10219.8593056104     
  trcom cur sum  =    10219.8593056104     
  
  antenna # iant =            2
  powecha_use(iant) =    662104.108964955     
  ps_ts2 prof sum =   661718.441610141     
  trcom prof sum =    661718.441610140     
  ps_ts2 cur sum  =   12502.7881357939     
  trcom cur sum  =    12502.7881357939     
  
  antenna # iant =            3
  powecha_use(iant) =    526766.874471350     
  ps_ts2 prof sum =   526465.871605576     
  trcom prof sum =    526465.871605576     
  ps_ts2 cur sum  =   6866.86216221938     
  trcom cur sum  =    6866.86216221938     
  
  antenna # iant =            4
  powecha_use(iant) =    567112.644941653     
  ps_ts2 prof sum =   566799.772252020     
  trcom prof sum =    566799.772252019     
  ps_ts2 cur sum  =   9647.72552464706     
  trcom cur sum  =    9647.72552464705     
  
  antenna # iant =            5
  powecha_use(iant) =    552306.010669863     
  ps_ts2 prof sum =   551972.565550419     
  trcom prof sum =    551972.565550419     
  ps_ts2 cur sum  =   11575.9696546875     
  trcom cur sum  =    11575.9696546875     
  
  Total ECH heating:      2973679.96869878     
  Total Current Drive:    50813.2047829581     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3418
 TA= 3.68000E+00 CPU TIME= 1.59227E-01 SECONDS.  DT= 1.60145E-03
  
 TEC1=    3.67999999999994     
 TEC2=    3.68499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.38176333333308     
  %check_save_state: izleft hours =    70.6097222222222     
 --> plasma_hash("gframe"): TA= 3.680000E+00 NSTEP=  3418 Hash code:   15909258
 ->PRGCHK: bdy curvature ratio at t= 3.6850E+00 seconds is:  5.6730E-02
% MHDEQ: TG1=     3.680000 ; TG2=     3.685000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0005E-02 SECONDS
   DATA R*BT AT EDGE:  2.7720E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6730E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.680000 TO TG2=    3.685000 @ NSTEP     3418
   GFRAME TG2 MOMENTS CHECKSUM:  2.4560772109788D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.6850E+00  3.6900E+00 total power(Watts):  2.9702E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.68500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.382662E+02    0.382408E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.362549E+02    0.383783E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.377075E+02    0.366448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.399951E+02    0.370873E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.398850E+02    0.391537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.376206E+02    0.399079E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.356682E+02    0.410867E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.343610E+02    0.397829E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.343142E+02    0.379705E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.352269E+02    0.362753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.368752E+02    0.351338E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.390458E+02    0.347347E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.409950E+02    0.353144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.422702E+02    0.366800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.425380E+02    0.384518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.415748E+02    0.402053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.396542E+02    0.414382E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.375767E+02    0.417155E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.356346E+02    0.440669E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.326321E+02    0.424199E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138371E+03   -0.313070E+02    0.396652E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.317055E+02    0.366336E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.338314E+02    0.339923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.373634E+02    0.323184E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.410863E+02    0.323068E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.442935E+02    0.338354E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.462328E+02    0.365096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.456976E+02    0.398493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.429189E+02    0.427883E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.393270E+02    0.442628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.391852E+02    0.295824E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.371718E+02    0.297779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.386007E+02    0.280731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.409035E+02    0.284225E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.408240E+02    0.303947E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.385610E+02    0.311855E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.365168E+02    0.324531E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.353788E+02    0.311354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.352087E+02    0.294527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.361057E+02    0.277875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.378481E+02    0.265674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.400251E+02    0.261145E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.419896E+02    0.266190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.432905E+02    0.278879E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.434749E+02    0.296168E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.424259E+02    0.313744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.406266E+02    0.325761E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.384376E+02    0.329813E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.364251E+02    0.354047E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.334797E+02    0.338818E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138654E+03   -0.321145E+02    0.312620E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138703E+03   -0.325696E+02    0.282639E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.347719E+02    0.255594E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.383063E+02    0.238289E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.421520E+02    0.236554E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.455079E+02    0.249502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.471448E+02    0.276108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.464302E+02    0.308917E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.438187E+02    0.337727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.401274E+02    0.354322E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.382917E+02    0.438984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.362749E+02    0.439761E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.377469E+02    0.422501E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.400345E+02    0.427790E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.399016E+02    0.448726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.376295E+02    0.455536E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.356656E+02    0.466567E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.344648E+02    0.452744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.343361E+02    0.435055E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.351673E+02    0.418476E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.369277E+02    0.406754E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.390000E+02    0.403859E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.410550E+02    0.409846E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.423197E+02    0.424299E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.425695E+02    0.442671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.415890E+02    0.459887E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.397631E+02    0.470969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.375684E+02    0.473358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.356090E+02    0.496080E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.326179E+02    0.478547E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.313130E+02    0.451096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138153E+03   -0.317373E+02    0.420491E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.339832E+02    0.393666E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.373399E+02    0.378727E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.410667E+02    0.379531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.444945E+02    0.395328E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.461754E+02    0.424735E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133789E+03   -0.457257E+02    0.458116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.430346E+02    0.485561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.393042E+02    0.499282E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.386613E+02    0.341516E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.366458E+02    0.343257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.380911E+02    0.325855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.403857E+02    0.329798E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.402895E+02    0.350282E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.379220E+02    0.358743E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.359770E+02    0.370714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.348531E+02    0.357019E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.346978E+02    0.339527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.356026E+02    0.322629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.372465E+02    0.311350E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.394182E+02    0.307133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.413745E+02    0.312410E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.426610E+02    0.325412E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.428294E+02    0.343331E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.418796E+02    0.360804E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.400749E+02    0.372830E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.378874E+02    0.376502E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.359636E+02    0.400052E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.329462E+02    0.384513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138588E+03   -0.316018E+02    0.357596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.320739E+02    0.326837E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.341872E+02    0.300894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.377153E+02    0.283969E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.415526E+02    0.282639E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.448934E+02    0.296307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.463899E+02    0.323992E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.459993E+02    0.356191E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.432486E+02    0.385749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.396642E+02    0.401155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.393676E+02    0.235186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.371484E+02    0.239092E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.387725E+02    0.220708E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.410808E+02    0.223700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.409093E+02    0.243680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.386508E+02    0.251812E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.366150E+02    0.264808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.354654E+02    0.251894E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138192E+03   -0.351916E+02    0.236191E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.360773E+02    0.220021E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.380061E+02    0.206504E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.401828E+02    0.201924E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.421549E+02    0.206443E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.433556E+02    0.219003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.435509E+02    0.235545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.425168E+02    0.253000E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.406213E+02    0.265952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.385412E+02    0.269648E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.363509E+02    0.294975E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138496E+03   -0.334975E+02    0.280297E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138805E+03   -0.321984E+02    0.253847E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138697E+03   -0.327236E+02    0.223528E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.349171E+02    0.197446E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.383484E+02    0.181087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.422968E+02    0.178089E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.454341E+02    0.191758E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.470809E+02    0.216355E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.466255E+02    0.246593E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.438167E+02    0.276867E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.401502E+02    0.293630E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661793.022044308     
  ps_ts2 prof sum =   661403.504227013     
  trcom prof sum =    661403.504227013     
  ps_ts2 cur sum  =   10129.0483517469     
  trcom cur sum  =    10129.0483517469     
  
  antenna # iant =            2
  powecha_use(iant) =    663664.079360376     
  ps_ts2 prof sum =   663280.123591910     
  trcom prof sum =    663280.123591910     
  ps_ts2 cur sum  =   12526.9936538469     
  trcom cur sum  =    12526.9936538469     
  
  antenna # iant =            3
  powecha_use(iant) =    526038.890081896     
  ps_ts2 prof sum =   525752.473104447     
  trcom prof sum =    525752.473104448     
  ps_ts2 cur sum  =   6850.89758079640     
  trcom cur sum  =    6850.89758079640     
  
  antenna # iant =            4
  powecha_use(iant) =    566828.650488776     
  ps_ts2 prof sum =   566500.774357205     
  trcom prof sum =    566500.774357204     
  ps_ts2 cur sum  =   9636.14310063271     
  trcom cur sum  =    9636.14310063270     
  
  antenna # iant =            5
  powecha_use(iant) =    551847.225981482     
  ps_ts2 prof sum =   551504.607507673     
  trcom prof sum =    551504.607507673     
  ps_ts2 cur sum  =   11565.1702270835     
  trcom cur sum  =    11565.1702270835     
  
  Total ECH heating:      2968441.48278825     
  Total Current Drive:    50708.2529141064     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3421
 TA= 3.68500E+00 CPU TIME= 1.59527E-01 SECONDS.  DT= 1.74593E-03
  
 TEC1=    3.68499999999994     
 TEC2=    3.68999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.39606638888881     
  %check_save_state: izleft hours =    70.5955555555555     
 --> plasma_hash("gframe"): TA= 3.685000E+00 NSTEP=  3421 Hash code:   36774317
 ->PRGCHK: bdy curvature ratio at t= 3.6900E+00 seconds is:  5.6767E-02
% MHDEQ: TG1=     3.685000 ; TG2=     3.690000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6767E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.685000 TO TG2=    3.690000 @ NSTEP     3421
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559153537371D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.56109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.02602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.85577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.35039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.75967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.36158E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.46641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.80367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.29083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.02433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.47116E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.06100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  5.08142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.22282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.56334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.63486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.64110E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.47045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.33432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.66222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.34937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.34937E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.6900E+00  3.6950E+00 total power(Watts):  2.9619E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.69000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.382686E+02    0.382442E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.362566E+02    0.383819E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.377100E+02    0.366484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.399973E+02    0.370923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.398875E+02    0.391558E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.376228E+02    0.399073E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.356707E+02    0.410820E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.343630E+02    0.397824E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.343160E+02    0.379734E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.352290E+02    0.362783E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.369787E+02    0.350733E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.390470E+02    0.347370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.409977E+02    0.353170E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.422728E+02    0.366848E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.425406E+02    0.384560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.415773E+02    0.402047E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.397642E+02    0.413879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.375752E+02    0.417104E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.356368E+02    0.440603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.326341E+02    0.424119E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.313084E+02    0.396646E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.317076E+02    0.366353E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.338335E+02    0.339909E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.373661E+02    0.323165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.410888E+02    0.323050E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.445266E+02    0.337152E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.462355E+02    0.365156E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.457004E+02    0.398503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.429273E+02    0.427788E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.393296E+02    0.442563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.391891E+02    0.295775E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.371697E+02    0.297767E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.386015E+02    0.280703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.409079E+02    0.284181E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.408277E+02    0.303911E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.385645E+02    0.311826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.365196E+02    0.324504E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.353818E+02    0.311315E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.352129E+02    0.294477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.361095E+02    0.277832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.378520E+02    0.265627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.400284E+02    0.261103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.419943E+02    0.266149E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.432950E+02    0.278839E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.434786E+02    0.296124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.424253E+02    0.313744E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.406306E+02    0.325747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.384398E+02    0.329806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.364274E+02    0.354067E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.334868E+02    0.338772E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.321172E+02    0.312576E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138674E+03   -0.325728E+02    0.282589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.347757E+02    0.255537E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.383104E+02    0.238213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.421585E+02    0.236465E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.454002E+02    0.250202E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.471500E+02    0.276071E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.466699E+02    0.307592E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.438220E+02    0.337733E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.401300E+02    0.354352E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.382942E+02    0.438919E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.362772E+02    0.439694E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.377493E+02    0.422429E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.400373E+02    0.427711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.399076E+02    0.448647E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.376312E+02    0.455493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.356681E+02    0.466508E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.343696E+02    0.453063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.343383E+02    0.434983E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.351695E+02    0.418407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.369297E+02    0.406717E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.390037E+02    0.403831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.410576E+02    0.409807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.423227E+02    0.424223E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.425726E+02    0.442600E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.415923E+02    0.459837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.397662E+02    0.470903E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.375712E+02    0.473288E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.356120E+02    0.495963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.326203E+02    0.478464E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.313140E+02    0.451051E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.317392E+02    0.420419E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.339860E+02    0.393665E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.373419E+02    0.378766E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.410691E+02    0.379575E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.443813E+02    0.395818E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133708E+03   -0.462987E+02    0.424243E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133757E+03   -0.457289E+02    0.458067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.430381E+02    0.485468E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.393076E+02    0.499165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.386643E+02    0.341529E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.366484E+02    0.343258E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.380938E+02    0.325848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.403885E+02    0.329796E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.402921E+02    0.350302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.380229E+02    0.358202E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.359792E+02    0.370751E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.348554E+02    0.357039E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.347002E+02    0.339523E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.356055E+02    0.322606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.373506E+02    0.310612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.394216E+02    0.307094E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.413781E+02    0.312384E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.426643E+02    0.325405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.428325E+02    0.343347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.418822E+02    0.360845E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.400772E+02    0.372875E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.378893E+02    0.376544E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.359657E+02    0.400040E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.329480E+02    0.384534E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138557E+03   -0.316034E+02    0.357618E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.320749E+02    0.326812E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.343794E+02    0.299367E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.377191E+02    0.283924E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.415568E+02    0.282591E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.448977E+02    0.296267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.466297E+02    0.322742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.460022E+02    0.356239E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.434790E+02    0.384785E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.396626E+02    0.401160E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.393719E+02    0.235107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.371523E+02    0.239016E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.387768E+02    0.220596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.410854E+02    0.223601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.410194E+02    0.242817E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.386550E+02    0.251756E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.366188E+02    0.264760E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.354692E+02    0.251838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.351955E+02    0.236111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.362713E+02    0.218198E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.380098E+02    0.206375E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.401873E+02    0.201786E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.421595E+02    0.206309E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.433604E+02    0.218894E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.435557E+02    0.235464E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.425218E+02    0.252939E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.407315E+02    0.265134E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.385452E+02    0.269597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.363544E+02    0.294930E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.335010E+02    0.280245E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138777E+03   -0.322017E+02    0.253789E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.327266E+02    0.223426E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.349208E+02    0.197302E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.383522E+02    0.180914E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.423012E+02    0.177903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.454392E+02    0.191592E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.470862E+02    0.216238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.465151E+02    0.247284E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.439336E+02    0.276106E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.402602E+02    0.292868E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.69 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655661.766039555     
  ps_ts2 prof sum =   655287.388098543     
  trcom prof sum =    655287.388098543     
  ps_ts2 cur sum  =   10016.7577648416     
  trcom cur sum  =    10016.7577648416     
  
  antenna # iant =            2
  powecha_use(iant) =    662027.999318013     
  ps_ts2 prof sum =   661633.303496096     
  trcom prof sum =    661633.303496095     
  ps_ts2 cur sum  =   12475.1471252422     
  trcom cur sum  =    12475.1471252422     
  
  antenna # iant =            3
  powecha_use(iant) =    526936.253741447     
  ps_ts2 prof sum =   526631.806617819     
  trcom prof sum =    526631.806617820     
  ps_ts2 cur sum  =   6850.39437318462     
  trcom cur sum  =    6850.39437318463     
  
  antenna # iant =            4
  powecha_use(iant) =    563588.156719607     
  ps_ts2 prof sum =   563295.214482223     
  trcom prof sum =    563295.214482222     
  ps_ts2 cur sum  =   9563.73249861321     
  trcom cur sum  =    9563.73249861319     
  
  antenna # iant =            5
  powecha_use(iant) =    553636.480077420     
  ps_ts2 prof sum =   553301.811514498     
  trcom prof sum =    553301.811514497     
  ps_ts2 cur sum  =   11583.7171542281     
  trcom cur sum  =    11583.7171542281     
  
  Total ECH heating:      2960149.52420918     
  Total Current Drive:    50489.7489161097     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3424
 TA= 3.69000E+00 CPU TIME= 1.66817E-01 SECONDS.  DT= 1.33957E-03
  
 TEC1=    3.68999999999994     
 TEC2=    3.69499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.41017805555521     
  %check_save_state: izleft hours =    70.5813888888889     
 --> plasma_hash("gframe"): TA= 3.690000E+00 NSTEP=  3424 Hash code:   53015537
 ->PRGCHK: bdy curvature ratio at t= 3.6950E+00 seconds is:  5.6804E-02
% MHDEQ: TG1=     3.690000 ; TG2=     3.695000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7712E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6804E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.690000 TO TG2=    3.695000 @ NSTEP     3424
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557534964954D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.6950E+00  3.7000E+00 total power(Watts):  2.9669E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.69500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.382716E+02    0.382459E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.362588E+02    0.383831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.377124E+02    0.366505E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.400000E+02    0.370948E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.399975E+02    0.391064E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.376253E+02    0.399057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.356730E+02    0.410756E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.343653E+02    0.397800E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.343182E+02    0.379752E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.352310E+02    0.362798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.369815E+02    0.350725E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.390506E+02    0.347361E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.410005E+02    0.353172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.422755E+02    0.366877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.425432E+02    0.384584E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.415803E+02    0.402015E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.397671E+02    0.413813E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.375780E+02    0.417026E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.356395E+02    0.440526E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.326365E+02    0.424031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.313103E+02    0.396626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.317095E+02    0.366368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.340247E+02    0.338571E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.373692E+02    0.323123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.410908E+02    0.323019E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.445296E+02    0.337142E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.462384E+02    0.365195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.457088E+02    0.398471E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.429308E+02    0.427698E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.393329E+02    0.442481E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.391925E+02    0.295726E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.371730E+02    0.297719E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.387112E+02    0.279885E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.409116E+02    0.284134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.408312E+02    0.303866E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.385677E+02    0.311784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.365221E+02    0.324466E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.353820E+02    0.311289E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.352156E+02    0.294431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.361132E+02    0.277778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.378556E+02    0.265595E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.400334E+02    0.261075E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.419982E+02    0.266118E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.432991E+02    0.278797E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.434845E+02    0.296077E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.424331E+02    0.313685E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.406391E+02    0.325675E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.384427E+02    0.329777E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.364296E+02    0.354076E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.334890E+02    0.338749E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.321198E+02    0.312522E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138425E+03   -0.326659E+02    0.281763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.347792E+02    0.255502E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.384144E+02    0.237365E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.421626E+02    0.236430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.454045E+02    0.250175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.471543E+02    0.276043E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.466737E+02    0.307557E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.440530E+02    0.336505E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.401327E+02    0.354357E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.382972E+02    0.438836E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.362800E+02    0.439613E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.377522E+02    0.422340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.400404E+02    0.427620E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.399104E+02    0.448579E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.376358E+02    0.455418E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.356712E+02    0.466434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.344699E+02    0.452632E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.343419E+02    0.434897E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.351721E+02    0.418326E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.369323E+02    0.406667E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.390053E+02    0.403800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.410607E+02    0.409752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.423312E+02    0.424116E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.425762E+02    0.442521E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.415957E+02    0.459779E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.397698E+02    0.470824E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.375746E+02    0.473207E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.356156E+02    0.495843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.326233E+02    0.478367E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.313169E+02    0.450983E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.317413E+02    0.420335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.339879E+02    0.393661E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.373442E+02    0.378790E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.410718E+02    0.379602E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.443843E+02    0.395816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133677E+03   -0.463020E+02    0.424164E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133727E+03   -0.457328E+02    0.458002E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134655E+03   -0.430426E+02    0.485353E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.393118E+02    0.499035E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.386670E+02    0.341506E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.366508E+02    0.343237E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.380966E+02    0.325812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.403917E+02    0.329761E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.402948E+02    0.350303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.380298E+02    0.358196E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.359822E+02    0.370761E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.348576E+02    0.357045E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.347022E+02    0.339499E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.356082E+02    0.322562E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.373536E+02    0.310564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.394249E+02    0.307054E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.413813E+02    0.312339E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.426677E+02    0.325367E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.428355E+02    0.343329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.418850E+02    0.360867E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.400799E+02    0.372905E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.378918E+02    0.376567E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.359682E+02    0.400011E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.329504E+02    0.384541E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138527E+03   -0.316051E+02    0.357618E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.320780E+02    0.326770E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.343822E+02    0.299315E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.377251E+02    0.283862E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.415606E+02    0.282549E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.447870E+02    0.296909E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.466333E+02    0.322714E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.460052E+02    0.356264E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.434818E+02    0.384814E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.396655E+02    0.401131E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.393757E+02    0.235064E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.373521E+02    0.237326E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.387808E+02    0.220538E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.410893E+02    0.223543E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.410191E+02    0.242803E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.386590E+02    0.251720E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.366222E+02    0.264729E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.354725E+02    0.251806E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.351989E+02    0.236063E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.362747E+02    0.218132E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.380137E+02    0.206295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.401913E+02    0.201700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.421640E+02    0.206231E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.434736E+02    0.218012E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.435601E+02    0.235423E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.425260E+02    0.252912E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.407357E+02    0.265111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.385489E+02    0.269569E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.363575E+02    0.294880E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138437E+03   -0.335040E+02    0.280201E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138747E+03   -0.322047E+02    0.253752E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138642E+03   -0.327299E+02    0.223365E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.349243E+02    0.197202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.385528E+02    0.179006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.423055E+02    0.177782E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.455545E+02    0.190665E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.470908E+02    0.216175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.465187E+02    0.247265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.439378E+02    0.276067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.402637E+02    0.292817E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657533.549129064     
  ps_ts2 prof sum =   657178.496910373     
  trcom prof sum =    657178.496910373     
  ps_ts2 cur sum  =   10023.7389557465     
  trcom cur sum  =    10023.7389557465     
  
  antenna # iant =            2
  powecha_use(iant) =    663646.862364195     
  ps_ts2 prof sum =   663269.038034512     
  trcom prof sum =    663269.038034512     
  ps_ts2 cur sum  =   12479.7512005623     
  trcom cur sum  =    12479.7512005623     
  
  antenna # iant =            3
  powecha_use(iant) =    526415.076691089     
  ps_ts2 prof sum =   526120.609579990     
  trcom prof sum =    526120.609579991     
  ps_ts2 cur sum  =   6829.98237607581     
  trcom cur sum  =    6829.98237607582     
  
  antenna # iant =            4
  powecha_use(iant) =    566399.301703310     
  ps_ts2 prof sum =   566093.037143661     
  trcom prof sum =    566093.037143660     
  ps_ts2 cur sum  =   9590.86694335648     
  trcom cur sum  =    9590.86694335648     
  
  antenna # iant =            5
  powecha_use(iant) =    552898.428135710     
  ps_ts2 prof sum =   552583.772837468     
  trcom prof sum =    552583.772837468     
  ps_ts2 cur sum  =   11544.3337852891     
  trcom cur sum  =    11544.3337852891     
  
  Total ECH heating:      2965244.95450600     
  Total Current Drive:    50468.6732610302     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3427
 TA= 3.69500E+00 CPU TIME= 1.59161E-01 SECONDS.  DT= 2.48246E-03
  
 TEC1=    3.69499999999994     
 TEC2=    3.69999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.42684749999989     
  %check_save_state: izleft hours =    70.5647222222222     
 --> plasma_hash("gframe"): TA= 3.695000E+00 NSTEP=  3427 Hash code:   20229321
 ->PRGCHK: bdy curvature ratio at t= 3.7000E+00 seconds is:  5.6843E-02
% MHDEQ: TG1=     3.695000 ; TG2=     3.700000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6843E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.695000 TO TG2=    3.700000 @ NSTEP     3427
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555916422694D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.97460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.25467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.01945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.82965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.34060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.68539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.39319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.97463E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.12516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.88273E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -4.61718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.60053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.39949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.02061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.12312E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.62174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.98433E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.65129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.88358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.88358E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7000E+00  3.7050E+00 total power(Watts):  2.9760E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.70000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.382755E+02    0.382542E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.362621E+02    0.383914E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.377168E+02    0.366596E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.400046E+02    0.371048E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.398913E+02    0.391646E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.376296E+02    0.399083E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.356769E+02    0.410747E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.343691E+02    0.397832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.343263E+02    0.379810E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.352353E+02    0.362884E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.369863E+02    0.350812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.390557E+02    0.347435E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.410055E+02    0.353272E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.422805E+02    0.366983E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.425477E+02    0.384688E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.415849E+02    0.402050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.396641E+02    0.414245E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.375821E+02    0.417004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.356434E+02    0.440501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.326399E+02    0.423992E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.313134E+02    0.396654E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138449E+03   -0.317131E+02    0.366433E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.338406E+02    0.339925E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.373746E+02    0.323167E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.410991E+02    0.323065E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.445358E+02    0.337221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.462438E+02    0.365321E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.457088E+02    0.398541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.429355E+02    0.427669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.393374E+02    0.442453E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.391996E+02    0.295754E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.371797E+02    0.297743E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.386161E+02    0.280670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.409187E+02    0.284182E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.408383E+02    0.303906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.385739E+02    0.311816E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.365277E+02    0.324503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.353909E+02    0.311294E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.352232E+02    0.294438E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.361201E+02    0.277809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.378637E+02    0.265630E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.400416E+02    0.261113E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.420068E+02    0.266167E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.433076E+02    0.278845E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.434903E+02    0.296129E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.424399E+02    0.313728E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.406405E+02    0.325752E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.384483E+02    0.329826E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.364345E+02    0.354151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.334940E+02    0.338787E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.321254E+02    0.312541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.325820E+02    0.282560E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.347866E+02    0.255532E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.383225E+02    0.238195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.421721E+02    0.236452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.454141E+02    0.250230E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.471634E+02    0.276097E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.466815E+02    0.307617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.438312E+02    0.337794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.401376E+02    0.354450E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.383013E+02    0.438809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.362841E+02    0.439583E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.377563E+02    0.422315E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.400446E+02    0.427579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.399153E+02    0.448556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.376399E+02    0.455404E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.356795E+02    0.466391E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.344729E+02    0.452618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.343443E+02    0.434865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.351759E+02    0.418298E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.369363E+02    0.406671E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.390097E+02    0.403820E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.410653E+02    0.409754E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.423307E+02    0.424106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.425807E+02    0.442500E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.416003E+02    0.459761E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.397741E+02    0.470789E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.375788E+02    0.473157E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.356195E+02    0.495763E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.326272E+02    0.478302E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.313214E+02    0.450963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.317444E+02    0.420304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.339912E+02    0.393708E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.373486E+02    0.378870E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.410809E+02    0.379685E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.445052E+02    0.395413E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.463073E+02    0.424134E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133696E+03   -0.457376E+02    0.458004E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.430474E+02    0.485291E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.393163E+02    0.498953E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.386757E+02    0.341550E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.366562E+02    0.343297E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.381023E+02    0.325856E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.403974E+02    0.329817E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.402998E+02    0.350388E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.380344E+02    0.358283E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.359856E+02    0.370856E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.348616E+02    0.357121E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.347070E+02    0.339544E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.356132E+02    0.322606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.373597E+02    0.310594E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.394317E+02    0.307084E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.413880E+02    0.312380E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.426740E+02    0.325434E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.428412E+02    0.343409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.418900E+02    0.360972E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.400845E+02    0.373003E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.378962E+02    0.376659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.359718E+02    0.400040E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.329536E+02    0.384610E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138496E+03   -0.316090E+02    0.357681E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138503E+03   -0.320832E+02    0.326787E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.343894E+02    0.299327E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.377300E+02    0.283899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.415686E+02    0.282591E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.449094E+02    0.296279E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.466403E+02    0.322785E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.460107E+02    0.356380E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.432584E+02    0.385918E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.396699E+02    0.401163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.393848E+02    0.235089E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.371640E+02    0.238994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.387897E+02    0.220532E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.410984E+02    0.223553E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.410324E+02    0.242819E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.386672E+02    0.251758E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.366293E+02    0.264770E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.354801E+02    0.251833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.352069E+02    0.236072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.362834E+02    0.218108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.380228E+02    0.206252E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.402008E+02    0.201654E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.421740E+02    0.206195E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.434836E+02    0.218011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.435700E+02    0.235460E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.425349E+02    0.252962E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.407452E+02    0.265154E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.385563E+02    0.269602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.363641E+02    0.294906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.335104E+02    0.280224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138723E+03   -0.322097E+02    0.253794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.327375E+02    0.223345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138235E+03   -0.349331E+02    0.197136E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.383677E+02    0.180701E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.423163E+02    0.177691E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.455657E+02    0.190595E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.471020E+02    0.216166E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.465295E+02    0.247321E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.439463E+02    0.276125E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.402710E+02    0.292851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661659.884829111     
  ps_ts2 prof sum =   661281.332496458     
  trcom prof sum =    661281.332496457     
  ps_ts2 cur sum  =   10077.8370486637     
  trcom cur sum  =    10077.8370486637     
  
  antenna # iant =            2
  powecha_use(iant) =    664026.204756229     
  ps_ts2 prof sum =   663629.368508447     
  trcom prof sum =    663629.368508446     
  ps_ts2 cur sum  =   12482.6520330587     
  trcom cur sum  =    12482.6520330587     
  
  antenna # iant =            3
  powecha_use(iant) =    527781.129655889     
  ps_ts2 prof sum =   527495.141392768     
  trcom prof sum =    527495.141392769     
  ps_ts2 cur sum  =   6841.09284292036     
  trcom cur sum  =    6841.09284292036     
  
  antenna # iant =            4
  powecha_use(iant) =    569933.604092270     
  ps_ts2 prof sum =   569628.984544787     
  trcom prof sum =    569628.984544787     
  ps_ts2 cur sum  =   9644.31783568495     
  trcom cur sum  =    9644.31783568495     
  
  antenna # iant =            5
  powecha_use(iant) =    552584.175907458     
  ps_ts2 prof sum =   552254.107063210     
  trcom prof sum =    552254.107063210     
  ps_ts2 cur sum  =   11539.3714724169     
  trcom cur sum  =    11539.3714724169     
  
  Total ECH heating:      2974288.93400567     
  Total Current Drive:    50585.2712327446     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3429
 TA= 3.70000E+00 CPU TIME= 1.86350E-01 SECONDS.  DT= 3.14693E-03
  
 TEC1=    3.69999999999994     
 TEC2=    3.70499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.44467499999973     
  %check_save_state: izleft hours =    70.5469444444444     
 --> plasma_hash("gframe"): TA= 3.700000E+00 NSTEP=  3429 Hash code:   14308493
 ->PRGCHK: bdy curvature ratio at t= 3.7050E+00 seconds is:  5.6882E-02
% MHDEQ: TG1=     3.700000 ; TG2=     3.705000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0022E-02 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6882E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.700000 TO TG2=    3.705000 @ NSTEP     3429
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554297880434D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7050E+00  3.7100E+00 total power(Watts):  2.9699E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.70500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.382806E+02    0.382653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.362682E+02    0.384004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.377223E+02    0.366712E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.400104E+02    0.371179E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.399003E+02    0.391725E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.376349E+02    0.399137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.356817E+02    0.410758E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.343740E+02    0.397884E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.343271E+02    0.379926E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.352404E+02    0.362995E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.368910E+02    0.351524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.390622E+02    0.347542E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.410121E+02    0.353393E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.422873E+02    0.367114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.426660E+02    0.384299E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.414799E+02    0.402572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.396697E+02    0.414251E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.375872E+02    0.417003E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.354496E+02    0.441273E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.326446E+02    0.423969E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.313176E+02    0.396704E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.317179E+02    0.366537E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.338468E+02    0.339994E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.373817E+02    0.323234E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.411075E+02    0.323134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.443137E+02    0.338541E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.461322E+02    0.366008E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.457149E+02    0.398627E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.429414E+02    0.427663E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.393380E+02    0.442470E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.392085E+02    0.295801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.371861E+02    0.297802E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.386266E+02    0.280711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.409296E+02    0.284220E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.408471E+02    0.303959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.385819E+02    0.311873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.365347E+02    0.324568E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.353980E+02    0.311334E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.352313E+02    0.294470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.361290E+02    0.277845E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.378733E+02    0.265665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.400519E+02    0.261165E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.420176E+02    0.266215E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.433181E+02    0.278900E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.434999E+02    0.296188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.424486E+02    0.313801E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.406477E+02    0.325841E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.384554E+02    0.329904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.364401E+02    0.354257E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.335934E+02    0.338197E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.321336E+02    0.312578E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.325897E+02    0.282587E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.347956E+02    0.255569E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.383331E+02    0.238221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.421836E+02    0.236478E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.455398E+02    0.249534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.471746E+02    0.276166E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.464557E+02    0.309001E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.438386E+02    0.337903E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.401439E+02    0.354576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.383064E+02    0.438795E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.362887E+02    0.439574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.376580E+02    0.422730E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.400500E+02    0.427568E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.399201E+02    0.448564E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.376437E+02    0.455412E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.356746E+02    0.466390E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.344774E+02    0.452616E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.343487E+02    0.434852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.351806E+02    0.418288E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.369415E+02    0.406695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.390151E+02    0.403858E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.410710E+02    0.409779E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.423365E+02    0.424102E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.426996E+02    0.442137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.416057E+02    0.459767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.397794E+02    0.470769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.375837E+02    0.473126E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.356246E+02    0.495684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.326316E+02    0.478255E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.312329E+02    0.451347E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.317486E+02    0.420287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.338056E+02    0.394813E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.373540E+02    0.378981E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.410827E+02    0.379820E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.445114E+02    0.395508E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.461945E+02    0.424527E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.457435E+02    0.458013E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.431674E+02    0.484994E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.393217E+02    0.498883E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.386789E+02    0.341655E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.366623E+02    0.343386E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.381095E+02    0.325927E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.404048E+02    0.329902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.403063E+02    0.350510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.379371E+02    0.358993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.359908E+02    0.370967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.348671E+02    0.357228E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.347131E+02    0.339619E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.354253E+02    0.324027E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.372668E+02    0.311342E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.394399E+02    0.307140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.413934E+02    0.312469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.426824E+02    0.325513E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.428486E+02    0.343525E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.418963E+02    0.361108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.400904E+02    0.373130E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.379017E+02    0.376769E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.359766E+02    0.400084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.329583E+02    0.384697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.316137E+02    0.357771E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.320890E+02    0.326844E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.342086E+02    0.300828E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.377403E+02    0.283937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.415778E+02    0.282653E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.449191E+02    0.296347E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.465306E+02    0.323518E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.460177E+02    0.356532E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.432642E+02    0.386045E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.396755E+02    0.401213E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.393949E+02    0.235107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.372724E+02    0.238193E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.388008E+02    0.220522E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.411157E+02    0.223516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.409381E+02    0.243639E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.386775E+02    0.251796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.366388E+02    0.264800E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.354900E+02    0.251863E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.352166E+02    0.236084E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.361036E+02    0.219808E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.380339E+02    0.206214E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.402128E+02    0.201610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.421898E+02    0.206138E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.433872E+02    0.218819E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.435820E+02    0.235483E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.425459E+02    0.253014E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.406494E+02    0.265959E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.385665E+02    0.269646E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.364716E+02    0.294199E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.335184E+02    0.280250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.322206E+02    0.253802E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138586E+03   -0.327460E+02    0.223333E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.349466E+02    0.197041E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.383794E+02    0.180610E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.423292E+02    0.177603E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.454685E+02    0.191365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.471154E+02    0.216175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.466613E+02    0.246607E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.438449E+02    0.276895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.401744E+02    0.293619E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661150.643799556     
  ps_ts2 prof sum =   660755.385264152     
  trcom prof sum =    660755.385264153     
  ps_ts2 cur sum  =   10065.4941854567     
  trcom cur sum  =    10065.4941854567     
  
  antenna # iant =            2
  powecha_use(iant) =    662002.466940135     
  ps_ts2 prof sum =   661638.840804749     
  trcom prof sum =    661638.840804748     
  ps_ts2 cur sum  =   12449.4691846195     
  trcom cur sum  =    12449.4691846195     
  
  antenna # iant =            3
  powecha_use(iant) =    527693.331349611     
  ps_ts2 prof sum =   527400.540336661     
  trcom prof sum =    527400.540336661     
  ps_ts2 cur sum  =   6833.56354495010     
  trcom cur sum  =    6833.56354495011     
  
  antenna # iant =            4
  powecha_use(iant) =    566403.725453992     
  ps_ts2 prof sum =   566078.373817053     
  trcom prof sum =    566078.373817052     
  ps_ts2 cur sum  =   9584.49056434062     
  trcom cur sum  =    9584.49056434060     
  
  antenna # iant =            5
  powecha_use(iant) =    552666.391582964     
  ps_ts2 prof sum =   552347.489407131     
  trcom prof sum =    552347.489407131     
  ps_ts2 cur sum  =   11553.1547920273     
  trcom cur sum  =    11553.1547920273     
  
  Total ECH heating:      2968220.62962975     
  Total Current Drive:    50486.1722713942     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3431
 TA= 3.70500E+00 CPU TIME= 1.59918E-01 SECONDS.  DT= 2.31634E-03
  
 TEC1=    3.70499999999994     
 TEC2=    3.70999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.45700444444446     
  %check_save_state: izleft hours =    70.5344444444444     
 --> plasma_hash("gframe"): TA= 3.705000E+00 NSTEP=  3431 Hash code:   78056594
 ->PRGCHK: bdy curvature ratio at t= 3.7100E+00 seconds is:  5.6830E-02
% MHDEQ: TG1=     3.705000 ; TG2=     3.710000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6830E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.705000 TO TG2=    3.710000 @ NSTEP     3431
   GFRAME TG2 MOMENTS CHECKSUM:  2.4556632102063D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.29200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.44782E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.22263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.73457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.32237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.62209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.45644E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.45934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  6.47249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.73046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.49563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.82871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.30232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.31822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.60028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10=  4.33551E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.86380E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.61091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.66693E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.66693E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7100E+00  3.7150E+00 total power(Watts):  2.9688E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.71000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.382580E+02    0.382809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.363460E+02    0.383627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.376998E+02    0.366904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.399868E+02    0.371352E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.399875E+02    0.391376E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.376115E+02    0.399324E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.356590E+02    0.410963E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.343529E+02    0.398062E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.342108E+02    0.380637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.352199E+02    0.363187E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.369708E+02    0.351155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.390395E+02    0.347814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.409884E+02    0.353631E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.423739E+02    0.366756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.425288E+02    0.384961E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.415652E+02    0.402299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.397523E+02    0.414012E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.375636E+02    0.417206E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.356255E+02    0.440589E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.326233E+02    0.424161E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.312983E+02    0.396879E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.317891E+02    0.366113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.340160E+02    0.338989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.373600E+02    0.323591E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.411919E+02    0.322855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.445179E+02    0.337665E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.462234E+02    0.365679E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.456877E+02    0.398813E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.431418E+02    0.427050E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.393180E+02    0.442542E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.392913E+02    0.295439E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.371661E+02    0.298147E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.387084E+02    0.280267E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.410144E+02    0.283817E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.409319E+02    0.303642E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.385598E+02    0.312246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.366133E+02    0.324242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.353782E+02    0.311701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.351161E+02    0.295558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.360123E+02    0.278891E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.379539E+02    0.265137E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.400314E+02    0.261393E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.419957E+02    0.266467E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.432951E+02    0.279210E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.434737E+02    0.296567E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.425355E+02    0.313524E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.406255E+02    0.326189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.384335E+02    0.330245E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.363189E+02    0.355098E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.334804E+02    0.339160E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138570E+03   -0.321156E+02    0.312922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.326627E+02    0.282103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.349657E+02    0.254140E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.384145E+02    0.237568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.421630E+02    0.236638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.454038E+02    0.250476E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.470323E+02    0.277178E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.466647E+02    0.308101E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.440415E+02    0.337021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.402279E+02    0.354224E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.382823E+02    0.438907E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.362658E+02    0.439680E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.377378E+02    0.422489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.400250E+02    0.427743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.400034E+02    0.448270E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.376194E+02    0.455453E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.356570E+02    0.466419E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.343586E+02    0.453024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.343251E+02    0.434986E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.350603E+02    0.418942E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.369184E+02    0.406897E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.390969E+02    0.403580E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.410455E+02    0.409985E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.423105E+02    0.424286E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.425599E+02    0.442597E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.415797E+02    0.459792E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.397541E+02    0.470810E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.375595E+02    0.473178E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.356011E+02    0.495754E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.326097E+02    0.478327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.313035E+02    0.451014E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.317284E+02    0.420480E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.339751E+02    0.393940E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.373315E+02    0.379141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.410576E+02    0.379983E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.443687E+02    0.396153E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.462851E+02    0.424331E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.457149E+02    0.458048E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.430260E+02    0.485293E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.394033E+02    0.498717E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.386567E+02    0.341960E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.366411E+02    0.343675E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.380878E+02    0.326270E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.403780E+02    0.330269E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.402829E+02    0.350766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.380180E+02    0.358618E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.360659E+02    0.370581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.348463E+02    0.357445E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.346929E+02    0.339921E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.356001E+02    0.323004E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.373465E+02    0.311021E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.394178E+02    0.307516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.414821E+02    0.312158E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.426584E+02    0.325880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.429360E+02    0.343230E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.418719E+02    0.361315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.400667E+02    0.373299E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.378791E+02    0.376933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.359543E+02    0.400273E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.329378E+02    0.384854E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138502E+03   -0.315955E+02    0.357984E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138507E+03   -0.320711E+02    0.327176E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.343779E+02    0.299714E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.378177E+02    0.283523E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.415565E+02    0.282963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.447803E+02    0.297403E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134235E+03   -0.466225E+02    0.323274E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.458735E+02    0.357309E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.433526E+02    0.385700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.396510E+02    0.401404E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.393761E+02    0.235273E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.373521E+02    0.237532E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.387825E+02    0.220671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.410908E+02    0.223705E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.410231E+02    0.243020E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.386581E+02    0.251986E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.366199E+02    0.265045E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.353768E+02    0.252873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.351995E+02    0.236251E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.362767E+02    0.218243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.380164E+02    0.206362E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.401945E+02    0.201756E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.421671E+02    0.206304E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.434755E+02    0.218158E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.435611E+02    0.235640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.426335E+02    0.252438E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.407345E+02    0.265445E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.385461E+02    0.269904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.365495E+02    0.293815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.336851E+02    0.278985E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138497E+03   -0.322964E+02    0.253128E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.327302E+02    0.223486E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.349268E+02    0.197231E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.385568E+02    0.178984E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.423103E+02    0.177751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.455590E+02    0.190679E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.473232E+02    0.214735E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.465193E+02    0.247549E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.439340E+02    0.276471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.402581E+02    0.293253E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663397.393221892     
  ps_ts2 prof sum =   663028.254064177     
  trcom prof sum =    663028.254064176     
  ps_ts2 cur sum  =   10069.5876536925     
  trcom cur sum  =    10069.5876536925     
  
  antenna # iant =            2
  powecha_use(iant) =    661966.544264655     
  ps_ts2 prof sum =   661574.749543699     
  trcom prof sum =    661574.749543698     
  ps_ts2 cur sum  =   12418.2763892263     
  trcom cur sum  =    12418.2763892263     
  
  antenna # iant =            3
  powecha_use(iant) =    527347.707742555     
  ps_ts2 prof sum =   527008.340935166     
  trcom prof sum =    527008.340935167     
  ps_ts2 cur sum  =   6805.18411838729     
  trcom cur sum  =    6805.18411838729     
  
  antenna # iant =            4
  powecha_use(iant) =    563294.951047868     
  ps_ts2 prof sum =   562968.840891231     
  trcom prof sum =    562968.840891231     
  ps_ts2 cur sum  =   9505.77935822000     
  trcom cur sum  =    9505.77935821999     
  
  antenna # iant =            5
  powecha_use(iant) =    552786.655371762     
  ps_ts2 prof sum =   552493.347512659     
  trcom prof sum =    552493.347512659     
  ps_ts2 cur sum  =   11532.3781857741     
  trcom cur sum  =    11532.3781857741     
  
  Total ECH heating:      2967073.53294693     
  Total Current Drive:    50331.2057053002     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3433
 TA= 3.71000E+00 CPU TIME= 1.59204E-01 SECONDS.  DT= 3.35458E-03
  
 TEC1=    3.70999999999994     
 TEC2=    3.71499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.47379222222230     
  %check_save_state: izleft hours =    70.5177777777778     
 --> plasma_hash("gframe"): TA= 3.710000E+00 NSTEP=  3433 Hash code:  113503188
 ->PRGCHK: bdy curvature ratio at t= 3.7150E+00 seconds is:  5.6779E-02
% MHDEQ: TG1=     3.710000 ; TG2=     3.715000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6779E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.710000 TO TG2=    3.715000 @ NSTEP     3433
   GFRAME TG2 MOMENTS CHECKSUM:  2.4558966323691D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7150E+00  3.7200E+00 total power(Watts):  2.9812E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.71500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.383369E+02    0.382437E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.363219E+02    0.383786E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.377779E+02    0.366521E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.400681E+02    0.370980E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.399571E+02    0.391547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.376890E+02    0.399007E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.357339E+02    0.410681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.345223E+02    0.397212E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.343793E+02    0.379693E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.350994E+02    0.363970E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.369462E+02    0.351406E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.391214E+02    0.347455E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.410711E+02    0.353285E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.423466E+02    0.366945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.425010E+02    0.385117E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.415373E+02    0.402478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.397252E+02    0.414209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.376370E+02    0.416963E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.356010E+02    0.440684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.327867E+02    0.423435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.313664E+02    0.396522E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.317683E+02    0.366304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.338994E+02    0.339934E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.374381E+02    0.323246E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.411667E+02    0.323189E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.443752E+02    0.338575E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.461937E+02    0.365871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.455394E+02    0.399441E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.429991E+02    0.427613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.392913E+02    0.442627E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.392673E+02    0.295778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.372418E+02    0.297771E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.386841E+02    0.280556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.409897E+02    0.284111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.409066E+02    0.303989E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.385361E+02    0.312591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.365904E+02    0.324569E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.352596E+02    0.312744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.352861E+02    0.294399E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.361852E+02    0.277642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.379318E+02    0.265363E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.401151E+02    0.260815E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.420812E+02    0.265938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.433806E+02    0.278768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.435626E+02    0.296207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.425082E+02    0.313875E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.407064E+02    0.325890E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.385131E+02    0.329911E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.364951E+02    0.354115E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.336457E+02    0.338139E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.321848E+02    0.312543E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.326428E+02    0.282378E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.348515E+02    0.255137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.383933E+02    0.237728E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.422474E+02    0.235997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.456059E+02    0.249137E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.472404E+02    0.276059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134348E+03   -0.466361E+02    0.308472E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.439000E+02    0.337937E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.402021E+02    0.354457E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.383608E+02    0.438628E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.363414E+02    0.439390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.377119E+02    0.422670E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.399979E+02    0.427915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.399762E+02    0.448327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.376981E+02    0.455133E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.357317E+02    0.466125E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.345286E+02    0.452340E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.342071E+02    0.435518E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.352324E+02    0.418220E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.369948E+02    0.406612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.390748E+02    0.403747E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.410178E+02    0.410177E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.423939E+02    0.424066E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.427570E+02    0.441967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.416625E+02    0.459490E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.398343E+02    0.470533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.376369E+02    0.472912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.356755E+02    0.495557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.326798E+02    0.478077E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.312819E+02    0.451068E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138115E+03   -0.317067E+02    0.420663E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.338572E+02    0.394624E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.374089E+02    0.378763E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.411403E+02    0.379627E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.445707E+02    0.395386E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133689E+03   -0.462540E+02    0.424511E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.458027E+02    0.457750E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.432242E+02    0.484839E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.393758E+02    0.498757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.387358E+02    0.341623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.367171E+02    0.343321E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.381663E+02    0.325951E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.404633E+02    0.329933E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.403647E+02    0.350422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.379920E+02    0.358834E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.360448E+02    0.370751E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.347272E+02    0.358267E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.345752E+02    0.340854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.354806E+02    0.324014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.373232E+02    0.311365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.394981E+02    0.307174E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.414564E+02    0.312510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.427424E+02    0.325583E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.429090E+02    0.343513E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.419558E+02    0.360960E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.401481E+02    0.372928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.379574E+02    0.376553E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.358305E+02    0.400945E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.330096E+02    0.384459E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.316645E+02    0.357577E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138318E+03   -0.321410E+02    0.326803E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.342626E+02    0.300778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.377980E+02    0.283795E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.415318E+02    0.283259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.449817E+02    0.296402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.465934E+02    0.323634E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.460798E+02    0.356438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.433247E+02    0.385848E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.397269E+02    0.401120E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.393545E+02    0.235430E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.373315E+02    0.237692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.388619E+02    0.219988E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.411733E+02    0.223040E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.410005E+02    0.243186E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.387370E+02    0.251375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.366962E+02    0.264482E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.353562E+02    0.253053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.352741E+02    0.235570E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.361623E+02    0.219267E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.380941E+02    0.205669E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.402751E+02    0.201072E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.422506E+02    0.205634E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.434526E+02    0.218309E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.436469E+02    0.235013E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.426096E+02    0.252620E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.407110E+02    0.265667E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.386253E+02    0.269380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.365286E+02    0.294130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.335727E+02    0.280031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.322735E+02    0.253351E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138450E+03   -0.328022E+02    0.222780E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.349999E+02    0.196514E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.385355E+02    0.179168E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.423918E+02    0.177056E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.455356E+02    0.190846E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.471838E+02    0.215670E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.467240E+02    0.246230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.439082E+02    0.276747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.402328E+02    0.293599E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663136.114141396     
  ps_ts2 prof sum =   662741.779481249     
  trcom prof sum =    662741.779481249     
  ps_ts2 cur sum  =   10028.3205059430     
  trcom cur sum  =    10028.3205059430     
  
  antenna # iant =            2
  powecha_use(iant) =    665566.691335142     
  ps_ts2 prof sum =   665199.954926603     
  trcom prof sum =    665199.954926603     
  ps_ts2 cur sum  =   12449.1237862664     
  trcom cur sum  =    12449.1237862664     
  
  antenna # iant =            3
  powecha_use(iant) =    531638.328770794     
  ps_ts2 prof sum =   531323.584823051     
  trcom prof sum =    531323.584823051     
  ps_ts2 cur sum  =   6831.85468745251     
  trcom cur sum  =    6831.85468745251     
  
  antenna # iant =            4
  powecha_use(iant) =    567059.479111743     
  ps_ts2 prof sum =   566702.095277438     
  trcom prof sum =    566702.095277437     
  ps_ts2 cur sum  =   9537.55160657692     
  trcom cur sum  =    9537.55160657691     
  
  antenna # iant =            5
  powecha_use(iant) =    553762.563843564     
  ps_ts2 prof sum =   553438.508970485     
  trcom prof sum =    553438.508970484     
  ps_ts2 cur sum  =   11524.1926599790     
  trcom cur sum  =    11524.1926599790     
  
  Total ECH heating:      2979405.92347883     
  Total Current Drive:    50371.0432462179     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3435
 TA= 3.71500E+00 CPU TIME= 1.67634E-01 SECONDS.  DT= 2.05678E-03
  
 TEC1=    3.71499999999994     
 TEC2=    3.71999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.48653416666684     
  %check_save_state: izleft hours =    70.5050000000000     
 --> plasma_hash("gframe"): TA= 3.715000E+00 NSTEP=  3435 Hash code:   19954251
 ->PRGCHK: bdy curvature ratio at t= 3.7200E+00 seconds is:  5.6728E-02
% MHDEQ: TG1=     3.715000 ; TG2=     3.720000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7674E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6728E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.715000 TO TG2=    3.720000 @ NSTEP     3435
   GFRAME TG2 MOMENTS CHECKSUM:  2.4561300545319D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.54358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.62091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.47152E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.80120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.24676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.60306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.48923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.43589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.38117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.59228E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.17044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.93961E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.25768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.19324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.04395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      11= -3.43734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.84731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.54266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.77719E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.77719E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.7200E+00  3.7250E+00 total power(Watts):  2.9807E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.72000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.384153E+02    0.382071E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.363974E+02    0.383412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.377521E+02    0.366717E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.400418E+02    0.371164E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.400371E+02    0.391211E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.376632E+02    0.399171E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.357094E+02    0.410858E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.344023E+02    0.397884E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.342605E+02    0.380411E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.352711E+02    0.362996E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.370230E+02    0.351048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.390944E+02    0.347726E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.411533E+02    0.352955E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.424306E+02    0.366597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.425847E+02    0.384778E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.416199E+02    0.402178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.398055E+02    0.413938E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.376154E+02    0.417126E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.356756E+02    0.440386E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.326712E+02    0.424049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.313453E+02    0.396680E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.317471E+02    0.366499E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.340675E+02    0.338913E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.374142E+02    0.323557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.412492E+02    0.322861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.444616E+02    0.338283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.462819E+02    0.365548E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.457444E+02    0.398695E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.432030E+02    0.426968E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.393712E+02    0.442337E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.393475E+02    0.295347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.371202E+02    0.298760E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.387650E+02    0.280051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.410708E+02    0.283653E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.409899E+02    0.303603E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.386161E+02    0.312209E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.366663E+02    0.324211E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.354285E+02    0.311653E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.351691E+02    0.295407E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.360670E+02    0.278647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.380104E+02    0.264809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.400903E+02    0.261042E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.421657E+02    0.265409E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.433559E+02    0.279014E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.435365E+02    0.296500E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.425928E+02    0.313537E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.406810E+02    0.326197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.384879E+02    0.330216E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.365706E+02    0.353747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.335352E+02    0.339054E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.321651E+02    0.312832E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.327134E+02    0.281846E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.350199E+02    0.253743E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.384725E+02    0.237133E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.422246E+02    0.236221E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.454670E+02    0.250125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.473307E+02    0.275608E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.467252E+02    0.308148E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.439858E+02    0.337641E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.402834E+02    0.354112E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.383346E+02    0.438732E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.363165E+02    0.439488E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.377893E+02    0.422414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.400786E+02    0.427662E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.400570E+02    0.448030E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.376724E+02    0.455159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.357067E+02    0.466147E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.344083E+02    0.452744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.343760E+02    0.434817E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.351103E+02    0.418847E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.369695E+02    0.406786E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.391497E+02    0.403461E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.410998E+02    0.409897E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.423653E+02    0.424228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.426153E+02    0.442406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.416343E+02    0.459504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.398070E+02    0.470552E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.376110E+02    0.472933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.356505E+02    0.495596E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.326568E+02    0.478121E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.313504E+02    0.450733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.317752E+02    0.420373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.340247E+02    0.393730E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.373840E+02    0.378929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.412225E+02    0.379272E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.444256E+02    0.396006E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.463418E+02    0.424290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.457717E+02    0.457772E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.430808E+02    0.485097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.394553E+02    0.498578E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.387110E+02    0.341909E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.366933E+02    0.343603E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.381426E+02    0.326252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.404378E+02    0.330247E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.403387E+02    0.350674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.380717E+02    0.358464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.361201E+02    0.370365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.348974E+02    0.357282E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.347444E+02    0.339847E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.356514E+02    0.322973E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.374006E+02    0.310977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.394748E+02    0.307473E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.415391E+02    0.312156E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.428262E+02    0.325278E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.429937E+02    0.343207E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.419286E+02    0.361177E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.401217E+02    0.373107E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.379322E+02    0.376725E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.360049E+02    0.400118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.329869E+02    0.384619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.316415E+02    0.357813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.321202E+02    0.327104E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.344298E+02    0.299596E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.378763E+02    0.283311E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.416153E+02    0.282784E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.448351E+02    0.297390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.466818E+02    0.323351E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.461678E+02    0.356130E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.434094E+02    0.385517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.397045E+02    0.401270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.394351E+02    0.234839E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.374090E+02    0.237101E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.388411E+02    0.220200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.411515E+02    0.223249E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.410833E+02    0.242616E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.387153E+02    0.251602E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.365776E+02    0.265483E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.354317E+02    0.252471E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.352530E+02    0.235810E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.363328E+02    0.217763E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.380726E+02    0.205860E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.402540E+02    0.201255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.422286E+02    0.205819E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.435384E+02    0.217704E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.436235E+02    0.235231E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.426947E+02    0.252081E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.407936E+02    0.265129E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.386032E+02    0.269607E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.366052E+02    0.293673E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.337368E+02    0.278722E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.323436E+02    0.252748E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138487E+03   -0.327843E+02    0.222996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.349814E+02    0.196696E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.386137E+02    0.178450E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.424745E+02    0.176353E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.456231E+02    0.190175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.473885E+02    0.214296E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.468139E+02    0.245707E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.439940E+02    0.276274E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.403157E+02    0.293150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660425.387761105     
  ps_ts2 prof sum =   660046.680260338     
  trcom prof sum =    660046.680260339     
  ps_ts2 cur sum  =   9949.22965683502     
  trcom cur sum  =    9949.22965683501     
  
  antenna # iant =            2
  powecha_use(iant) =    665718.311404749     
  ps_ts2 prof sum =   665327.451863235     
  trcom prof sum =    665327.451863235     
  ps_ts2 cur sum  =   12414.5713671153     
  trcom cur sum  =    12414.5713671153     
  
  antenna # iant =            3
  powecha_use(iant) =    530867.769112415     
  ps_ts2 prof sum =   530527.490187252     
  trcom prof sum =    530527.490187253     
  ps_ts2 cur sum  =   6791.78920157269     
  trcom cur sum  =    6791.78920157269     
  
  antenna # iant =            4
  powecha_use(iant) =    570479.570076853     
  ps_ts2 prof sum =   570158.104318447     
  trcom prof sum =    570158.104318447     
  ps_ts2 cur sum  =   9561.69835089445     
  trcom cur sum  =    9561.69835089444     
  
  antenna # iant =            5
  powecha_use(iant) =    553246.297653803     
  ps_ts2 prof sum =   552939.495831901     
  trcom prof sum =    552939.495831901     
  ps_ts2 cur sum  =   11487.7968621454     
  trcom cur sum  =    11487.7968621454     
  
  Total ECH heating:      2978999.22246117     
  Total Current Drive:    50205.0854385628     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3438
 TA= 3.72000E+00 CPU TIME= 1.59191E-01 SECONDS.  DT= 4.65316E-04
  
 TEC1=    3.71999999999994     
 TEC2=    3.72499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.50086833333284     
  %check_save_state: izleft hours =    70.4908333333333     
 --> plasma_hash("gframe"): TA= 3.720000E+00 NSTEP=  3438 Hash code:   24304913
 ->PRGCHK: bdy curvature ratio at t= 3.7250E+00 seconds is:  5.6677E-02
% MHDEQ: TG1=     3.720000 ; TG2=     3.725000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7664E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6677E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.720000 TO TG2=    3.725000 @ NSTEP     3438
   GFRAME TG2 MOMENTS CHECKSUM:  2.4563634766947D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7250E+00  3.7300E+00 total power(Watts):  2.9700E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.72500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.383924E+02    0.382235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.363755E+02    0.383576E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.378339E+02    0.366328E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.401255E+02    0.370795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.400139E+02    0.391362E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.377432E+02    0.398853E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.357862E+02    0.410577E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.345755E+02    0.397026E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.344313E+02    0.379470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.351531E+02    0.363774E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.370015E+02    0.351271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.391770E+02    0.347349E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.411298E+02    0.353168E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.424060E+02    0.366784E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.425594E+02    0.384944E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.415948E+02    0.402351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.397810E+02    0.414127E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.376949E+02    0.416875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.356532E+02    0.440510E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.326505E+02    0.424232E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.313266E+02    0.396834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.318183E+02    0.366085E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.339527E+02    0.339806E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.374948E+02    0.323133E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.412265E+02    0.323106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.444367E+02    0.338524E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133987E+03   -0.462553E+02    0.365738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.455995E+02    0.399317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.430570E+02    0.427560E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.393467E+02    0.442456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.393269E+02    0.295563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.373015E+02    0.297528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.387446E+02    0.280250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.410495E+02    0.283854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.409678E+02    0.303820E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.385948E+02    0.312441E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.366468E+02    0.324448E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.353125E+02    0.312581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.351504E+02    0.295616E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.362424E+02    0.277320E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.379911E+02    0.265030E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.401741E+02    0.260507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.421443E+02    0.265625E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.434447E+02    0.278494E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.436239E+02    0.296044E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.425695E+02    0.313773E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.406573E+02    0.326455E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.385697E+02    0.329821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.365497E+02    0.353962E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.335125E+02    0.339317E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.322367E+02    0.312342E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.326966E+02    0.282047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.349082E+02    0.254807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.384532E+02    0.237405E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.423109E+02    0.235705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.456715E+02    0.248882E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.473039E+02    0.275824E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134203E+03   -0.467002E+02    0.308392E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.439609E+02    0.337890E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.402602E+02    0.354327E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.384152E+02    0.438484E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.363942E+02    0.439228E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.377660E+02    0.422598E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.400537E+02    0.427842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.400322E+02    0.448122E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.377519E+02    0.454888E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.357840E+02    0.465872E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.345805E+02    0.452085E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.342586E+02    0.435374E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.352843E+02    0.418135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.369467E+02    0.406969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.391260E+02    0.403637E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.410747E+02    0.410084E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.424513E+02    0.424016E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.428144E+02    0.441822E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.417191E+02    0.459253E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.397819E+02    0.470598E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.376904E+02    0.472690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.357270E+02    0.495431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.328225E+02    0.477575E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.313307E+02    0.450801E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.317555E+02    0.420563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.339085E+02    0.394415E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.373618E+02    0.379095E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.411982E+02    0.379439E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.446299E+02    0.395244E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133547E+03   -0.463134E+02    0.424485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.458620E+02    0.457520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.432808E+02    0.484673E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.394293E+02    0.498648E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.387928E+02    0.341525E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.367721E+02    0.343214E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.382243E+02    0.325832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.404150E+02    0.330493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.404230E+02    0.350312E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.380496E+02    0.358666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.360988E+02    0.370542E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.347805E+02    0.358090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.346278E+02    0.340737E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.356326E+02    0.323208E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.373768E+02    0.311222E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.395579E+02    0.307011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.415160E+02    0.312394E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.428002E+02    0.325524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.429692E+02    0.343447E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.420150E+02    0.360816E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.402054E+02    0.372739E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.380129E+02    0.376350E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.359829E+02    0.400290E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.331530E+02    0.383683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.317141E+02    0.357390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.321896E+02    0.326671E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.343167E+02    0.300540E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.378562E+02    0.283506E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.415940E+02    0.282986E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.448164E+02    0.297584E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134119E+03   -0.466568E+02    0.323597E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.461412E+02    0.356344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.433837E+02    0.385680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.396806E+02    0.401434E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.394153E+02    0.235113E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.373904E+02    0.237366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.389218E+02    0.219603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.412358E+02    0.222684E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.410628E+02    0.242891E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.386959E+02    0.251860E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.367544E+02    0.264134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.354132E+02    0.252730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.354246E+02    0.234386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.362184E+02    0.218849E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.381526E+02    0.205202E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.403366E+02    0.200586E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.423139E+02    0.205188E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.435174E+02    0.217937E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.437116E+02    0.234716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.426733E+02    0.252335E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.407729E+02    0.265348E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.385835E+02    0.269818E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.365855E+02    0.293876E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.336272E+02    0.279697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.323274E+02    0.253012E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.328554E+02    0.222368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.350563E+02    0.195969E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.385959E+02    0.178592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.424549E+02    0.176487E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.456016E+02    0.190322E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.472513E+02    0.215314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.467909E+02    0.245967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.439730E+02    0.276464E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.402946E+02    0.293355E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653295.452578876     
  ps_ts2 prof sum =   652900.388353504     
  trcom prof sum =    652900.388353504     
  ps_ts2 cur sum  =   9813.38089760991     
  trcom cur sum  =    9813.38089760991     
  
  antenna # iant =            2
  powecha_use(iant) =    664267.806069570     
  ps_ts2 prof sum =   663879.011096423     
  trcom prof sum =    663879.011096423     
  ps_ts2 cur sum  =   12354.5833028243     
  trcom cur sum  =    12354.5833028243     
  
  antenna # iant =            3
  powecha_use(iant) =    529747.018883215     
  ps_ts2 prof sum =   529444.544121073     
  trcom prof sum =    529444.544121074     
  ps_ts2 cur sum  =   6754.76966244270     
  trcom cur sum  =    6754.76966244271     
  
  antenna # iant =            4
  powecha_use(iant) =    568702.985632794     
  ps_ts2 prof sum =   568371.665773878     
  trcom prof sum =    568371.665743965     
  ps_ts2 cur sum  =   9505.45205271523     
  trcom cur sum  =    9505.45205271522     
  
  antenna # iant =            5
  powecha_use(iant) =    553956.028416441     
  ps_ts2 prof sum =   553643.250630366     
  trcom prof sum =    553643.250630366     
  ps_ts2 cur sum  =   11474.5211472148     
  trcom cur sum  =    11474.5211472148     
  
  Total ECH heating:      2968238.85994533     
  Total Current Drive:    49902.7070628069     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3444
 TA= 3.72500E+00 CPU TIME= 1.67473E-01 SECONDS.  DT= 1.47642E-03
  
 TEC1=    3.72499999999994     
 TEC2=    3.72999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.51685583333324     
  %check_save_state: izleft hours =    70.4747222222222     
 --> plasma_hash("gframe"): TA= 3.725000E+00 NSTEP=  3444 Hash code:   92143324
 ->PRGCHK: bdy curvature ratio at t= 3.7300E+00 seconds is:  5.6627E-02
% MHDEQ: TG1=     3.725000 ; TG2=     3.730000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6627E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.725000 TO TG2=    3.730000 @ NSTEP     3444
   GFRAME TG2 MOMENTS CHECKSUM:  2.4565968988575D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.81462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.80739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.73966E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.85879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.28730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.58257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.52456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.48795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.20546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.44341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.89743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.05909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.20959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.44460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10= -3.20557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.75220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.46913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.89659E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.89659E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7300E+00  3.7350E+00 total power(Watts):  2.9745E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.73000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.383686E+02    0.382431E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.363529E+02    0.383769E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.378108E+02    0.366557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.401011E+02    0.371015E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.400961E+02    0.391053E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.377194E+02    0.399035E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.357629E+02    0.410778E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.344554E+02    0.397729E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.344099E+02    0.379668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.353260E+02    0.362836E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.370799E+02    0.350939E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.391538E+02    0.347644E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.411053E+02    0.353448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.423805E+02    0.367018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.426452E+02    0.384640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.416790E+02    0.402073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.398638E+02    0.413894E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.376705E+02    0.417079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.357288E+02    0.440257E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.327219E+02    0.423979E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.313953E+02    0.396500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.318034E+02    0.366280E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.339318E+02    0.340097E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.374719E+02    0.323452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.412027E+02    0.323423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.446397E+02    0.337653E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.463455E+02    0.365458E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.458051E+02    0.398626E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.430290E+02    0.427753E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.394275E+02    0.442220E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.393073E+02    0.295842E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.372819E+02    0.297816E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.388275E+02    0.279791E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.410305E+02    0.284133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.409439E+02    0.304132E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.386753E+02    0.312073E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.366261E+02    0.324753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.354881E+02    0.311479E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.353224E+02    0.294431E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.362240E+02    0.277598E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.379718E+02    0.265333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.401543E+02    0.260828E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.421236E+02    0.265933E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.434227E+02    0.278787E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.436009E+02    0.296340E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.425467E+02    0.314077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.407426E+02    0.326117E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.385471E+02    0.330129E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.365276E+02    0.354229E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.335850E+02    0.338960E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.322188E+02    0.312636E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.326798E+02    0.282322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.348915E+02    0.255124E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.385351E+02    0.236944E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.422910E+02    0.236055E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.455365E+02    0.249987E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.473992E+02    0.275434E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.467922E+02    0.308065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.441629E+02    0.337002E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.402391E+02    0.354589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.383902E+02    0.438634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.363689E+02    0.439375E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.378445E+02    0.422372E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.401357E+02    0.427628E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.401138E+02    0.447879E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.377269E+02    0.454962E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.357601E+02    0.465924E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.344606E+02    0.452546E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.344285E+02    0.434716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.352612E+02    0.418342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.370243E+02    0.406691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.391011E+02    0.403824E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.411580E+02    0.409838E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.424241E+02    0.424218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.426681E+02    0.442319E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.416923E+02    0.459306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.398633E+02    0.470349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.376678E+02    0.472735E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.357028E+02    0.495498E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.327073E+02    0.477936E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.313996E+02    0.450526E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.318252E+02    0.420302E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.340772E+02    0.393569E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.374462E+02    0.378733E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.411730E+02    0.379638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.444866E+02    0.395896E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133367E+03   -0.464025E+02    0.424307E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133428E+03   -0.458324E+02    0.457586E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.431383E+02    0.484967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.394035E+02    0.498705E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.387700E+02    0.341823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.367503E+02    0.343504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.382020E+02    0.326149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.404991E+02    0.330174E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.403990E+02    0.350593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.381296E+02    0.358338E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.360767E+02    0.370758E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.349520E+02    0.357139E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.347987E+02    0.339742E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.357091E+02    0.322841E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.374596E+02    0.310818E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.395354E+02    0.307315E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.414930E+02    0.312710E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.427791E+02    0.325838E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.430561E+02    0.343158E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.419898E+02    0.361066E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.401809E+02    0.372956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.379864E+02    0.376568E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.360591E+02    0.399983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.330390E+02    0.384423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.316952E+02    0.357628E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.321734E+02    0.326950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.344861E+02    0.299367E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.378366E+02    0.283789E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.416805E+02    0.282556E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.449067E+02    0.297218E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.467478E+02    0.323316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.459966E+02    0.357160E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.435831E+02    0.384893E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.397621E+02    0.401154E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.394987E+02    0.234646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.374706E+02    0.236892E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.389040E+02    0.219936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.412168E+02    0.223024E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.411485E+02    0.242451E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.387783E+02    0.251406E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.367363E+02    0.264446E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.355871E+02    0.251431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.353141E+02    0.235566E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.363931E+02    0.217458E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.381371E+02    0.205490E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.403195E+02    0.200867E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.422956E+02    0.205483E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.436062E+02    0.217455E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.436912E+02    0.235074E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.426567E+02    0.252650E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.408583E+02    0.264899E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.386658E+02    0.269353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.364682E+02    0.294886E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.336100E+02    0.279974E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.323117E+02    0.253338E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.328386E+02    0.222686E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.350415E+02    0.196234E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.386778E+02    0.177952E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.424392E+02    0.176745E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.456938E+02    0.189761E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.474594E+02    0.214077E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.466538E+02    0.247074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.440627E+02    0.276044E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.403790E+02    0.292938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657767.227221906     
  ps_ts2 prof sum =   657379.125663684     
  trcom prof sum =    657379.125663684     
  ps_ts2 cur sum  =   9851.92094380596     
  trcom cur sum  =    9851.92094380595     
  
  antenna # iant =            2
  powecha_use(iant) =    663687.285164158     
  ps_ts2 prof sum =   663295.668138345     
  trcom prof sum =    663295.668138345     
  ps_ts2 cur sum  =   12322.2619526303     
  trcom cur sum  =    12322.2619526303     
  
  antenna # iant =            3
  powecha_use(iant) =    530467.857962150     
  ps_ts2 prof sum =   530142.399549853     
  trcom prof sum =    530142.399549854     
  ps_ts2 cur sum  =   6739.52265679265     
  trcom cur sum  =    6739.52265679265     
  
  antenna # iant =            4
  powecha_use(iant) =    567946.275115981     
  ps_ts2 prof sum =   567630.718666732     
  trcom prof sum =    567630.718632032     
  ps_ts2 cur sum  =   9469.13988541926     
  trcom cur sum  =    9469.13988541926     
  
  antenna # iant =            5
  powecha_use(iant) =    554646.919986902     
  ps_ts2 prof sum =   554329.745755294     
  trcom prof sum =    554329.745755294     
  ps_ts2 cur sum  =   11476.6803934168     
  trcom cur sum  =    11476.6803934168     
  
  Total ECH heating:      2972777.65773921     
  Total Current Drive:    49859.5258320649     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3447
 TA= 3.73000E+00 CPU TIME= 1.58984E-01 SECONDS.  DT= 2.09758E-03
  
 TEC1=    3.72999999999994     
 TEC2=    3.73499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.53272027777757     
  %check_save_state: izleft hours =    70.4588888888889     
 --> plasma_hash("gframe"): TA= 3.730000E+00 NSTEP=  3447 Hash code:  113297766
 ->PRGCHK: bdy curvature ratio at t= 3.7350E+00 seconds is:  5.6577E-02
% MHDEQ: TG1=     3.730000 ; TG2=     3.735000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7644E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6577E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.730000 TO TG2=    3.735000 @ NSTEP     3447
   GFRAME TG2 MOMENTS CHECKSUM:  2.4568303210203D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7350E+00  3.7400E+00 total power(Watts):  2.9753E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.73500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.384493E+02    0.382076E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.364306E+02    0.383407E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.378906E+02    0.366193E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.400773E+02    0.371206E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.400713E+02    0.391228E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.377981E+02    0.398717E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.356417E+02    0.411423E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.346259E+02    0.396878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.342930E+02    0.380396E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.353051E+02    0.363042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.370584E+02    0.351171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.391310E+02    0.347891E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.411909E+02    0.353099E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.424669E+02    0.366678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.426196E+02    0.384809E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.416535E+02    0.402236E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.398376E+02    0.414071E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.376468E+02    0.417261E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.357059E+02    0.440390E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.327011E+02    0.424163E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.313760E+02    0.396666E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.318695E+02    0.365906E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.340069E+02    0.339702E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.374510E+02    0.323721E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.412878E+02    0.323053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.445000E+02    0.338513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.463216E+02    0.365653E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133815E+03   -0.457779E+02    0.398775E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.431152E+02    0.427548E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.394022E+02    0.442354E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.393882E+02    0.295403E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.373612E+02    0.297361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.388074E+02    0.280045E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.411147E+02    0.283680E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.410292E+02    0.303710E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.386511E+02    0.312352E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.367025E+02    0.324369E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.353714E+02    0.312427E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.352087E+02    0.295409E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.363024E+02    0.277097E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.380531E+02    0.264839E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.401343E+02    0.261107E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.422105E+02    0.265461E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.435106E+02    0.278340E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.435778E+02    0.296603E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.426337E+02    0.313694E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.407192E+02    0.326391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.386289E+02    0.329752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.366058E+02    0.353858E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.335651E+02    0.339215E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.322905E+02    0.312182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.327524E+02    0.281796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.349675E+02    0.254605E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.385162E+02    0.237239E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.423775E+02    0.235562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.457410E+02    0.248782E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.473748E+02    0.275701E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.467667E+02    0.308344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.440241E+02    0.337869E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.403199E+02    0.354246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.384702E+02    0.438393E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.364474E+02    0.439120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.378206E+02    0.422558E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.401102E+02    0.427813E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.400887E+02    0.447976E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.378060E+02    0.454704E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.358358E+02    0.465661E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.346319E+02    0.451907E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.343103E+02    0.435281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.353367E+02    0.418078E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.370011E+02    0.406861E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.391825E+02    0.403518E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.411299E+02    0.410017E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.425094E+02    0.424002E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.426475E+02    0.442435E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.416660E+02    0.459366E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.398378E+02    0.470393E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.377441E+02    0.472491E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.357784E+02    0.495341E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.328717E+02    0.477397E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.313796E+02    0.450615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.318050E+02    0.420482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.339610E+02    0.394252E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.374180E+02    0.378933E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.412576E+02    0.379296E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.446909E+02    0.395131E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133405E+03   -0.463736E+02    0.424495E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133250E+03   -0.459218E+02    0.457354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.433349E+02    0.484531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.394845E+02    0.498556E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.387476E+02    0.342078E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.367290E+02    0.343753E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.381791E+02    0.326429E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.404761E+02    0.330441E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.404826E+02    0.350247E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.381071E+02    0.358557E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.361537E+02    0.370383E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.348350E+02    0.357960E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.346836E+02    0.340632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.356884E+02    0.323108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.374390E+02    0.311081E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.396182E+02    0.306898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.415790E+02    0.312308E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.428662E+02    0.325480E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.430311E+02    0.343419E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.420757E+02    0.360724E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.401569E+02    0.373143E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.380697E+02    0.376192E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.360370E+02    0.400146E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.332046E+02    0.383499E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.317660E+02    0.357230E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138240E+03   -0.321542E+02    0.327215E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.343743E+02    0.300343E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.379179E+02    0.283306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.416583E+02    0.282812E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.448829E+02    0.297481E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.467217E+02    0.323605E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.462048E+02    0.356303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.434443E+02    0.385554E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.397378E+02    0.401318E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.394795E+02    0.234941E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.374504E+02    0.237197E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.389857E+02    0.219368E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.413016E+02    0.222487E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.411283E+02    0.242751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.387589E+02    0.251701E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.366197E+02    0.265498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.354735E+02    0.252532E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.354840E+02    0.234178E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.362810E+02    0.218575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.382172E+02    0.204862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.403011E+02    0.201089E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.423817E+02    0.204884E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.435855E+02    0.217731E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.437796E+02    0.234588E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.427401E+02    0.252208E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.408378E+02    0.265170E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.386459E+02    0.269614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.366452E+02    0.293684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.336842E+02    0.279453E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.323832E+02    0.252793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.329128E+02    0.222085E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.351165E+02    0.195564E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.386602E+02    0.178160E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.425252E+02    0.176075E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.456736E+02    0.189971E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134470E+03   -0.473230E+02    0.215123E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.468613E+02    0.245878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.440396E+02    0.276313E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.403549E+02    0.293219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657313.547926549     
  ps_ts2 prof sum =   656900.536436743     
  trcom prof sum =    656900.536436743     
  ps_ts2 cur sum  =   9815.47477596167     
  trcom cur sum  =    9815.47477596167     
  
  antenna # iant =            2
  powecha_use(iant) =    665658.773100810     
  ps_ts2 prof sum =   665279.927724219     
  trcom prof sum =    665279.927724218     
  ps_ts2 cur sum  =   12329.7453376625     
  trcom cur sum  =    12329.7453376625     
  
  antenna # iant =            3
  powecha_use(iant) =    531002.198371993     
  ps_ts2 prof sum =   530694.995168803     
  trcom prof sum =    530694.995168804     
  ps_ts2 cur sum  =   6723.49178680421     
  trcom cur sum  =    6723.49178680422     
  
  antenna # iant =            4
  powecha_use(iant) =    567088.955488299     
  ps_ts2 prof sum =   566751.155494435     
  trcom prof sum =    566751.155494435     
  ps_ts2 cur sum  =   9429.49673328473     
  trcom cur sum  =    9429.49673328472     
  
  antenna # iant =            5
  powecha_use(iant) =    554264.956391951     
  ps_ts2 prof sum =   553953.503228290     
  trcom prof sum =    553953.503228290     
  ps_ts2 cur sum  =   11447.4675745876     
  trcom cur sum  =    11447.4675745876     
  
  Total ECH heating:      2973580.11805249     
  Total Current Drive:    49745.6762083007     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3450
 TA= 3.73500E+00 CPU TIME= 1.61020E-01 SECONDS.  DT= 3.50565E-04
  
 TEC1=    3.73499999999994     
 TEC2=    3.73999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.54644944444408     
  %check_save_state: izleft hours =    70.4450000000000     
 --> plasma_hash("gframe"): TA= 3.735000E+00 NSTEP=  3450 Hash code:   14959740
 ->PRGCHK: bdy curvature ratio at t= 3.7400E+00 seconds is:  5.6527E-02
% MHDEQ: TG1=     3.735000 ; TG2=     3.740000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7634E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6527E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.735000 TO TG2=    3.740000 @ NSTEP     3450
   GFRAME TG2 MOMENTS CHECKSUM:  2.4570637431832D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.07593E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.98717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.99817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.91431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.26977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.30198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.56281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.55862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.50225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.07194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.29989E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  3.59834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.17428E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.36573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.27265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.52025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  1.38883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.69641E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.39824E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.63031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.63031E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.7400E+00  3.7450E+00 total power(Watts):  2.4528E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.74000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.384308E+02    0.382227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.364098E+02    0.383568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.378695E+02    0.366378E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.401619E+02    0.370841E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.401555E+02    0.390893E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.377770E+02    0.398869E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.358179E+02    0.410666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.345104E+02    0.397541E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.344646E+02    0.379457E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.353823E+02    0.362645E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.370381E+02    0.351381E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.392144E+02    0.347499E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.411676E+02    0.353309E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.424435E+02    0.366860E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.427074E+02    0.384474E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.417393E+02    0.401946E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.399210E+02    0.413819E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.377270E+02    0.417013E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.357831E+02    0.440159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.328712E+02    0.423445E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.314467E+02    0.396302E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.318518E+02    0.366091E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.339885E+02    0.339926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.375320E+02    0.323293E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.412660E+02    0.323292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.447051E+02    0.337556E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133668E+03   -0.464108E+02    0.365336E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133639E+03   -0.458692E+02    0.398489E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.430899E+02    0.427739E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.394851E+02    0.442137E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.393683E+02    0.295635E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.373421E+02    0.297591E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.387877E+02    0.280283E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.410948E+02    0.283902E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.410082E+02    0.303944E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.387360E+02    0.311898E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.366830E+02    0.324606E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.355455E+02    0.311266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.353813E+02    0.294174E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.362844E+02    0.277334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.380343E+02    0.265102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.402190E+02    0.260618E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.421900E+02    0.265727E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.434892E+02    0.278578E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.436675E+02    0.296155E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.426115E+02    0.313930E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.408049E+02    0.325998E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.386077E+02    0.329990E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.365856E+02    0.354064E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.337338E+02    0.338134E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.322732E+02    0.312408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.327362E+02    0.282027E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.349505E+02    0.254887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.384979E+02    0.237530E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.423579E+02    0.235850E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.456055E+02    0.249829E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.472348E+02    0.276630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.468600E+02    0.307948E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.442276E+02    0.336912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.402977E+02    0.354455E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.384473E+02    0.438558E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.364251E+02    0.439287E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.379011E+02    0.422326E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.401937E+02    0.427603E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.401719E+02    0.447765E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.377830E+02    0.454816E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.358144E+02    0.465736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.346107E+02    0.452015E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.344816E+02    0.434637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.353155E+02    0.418268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.370809E+02    0.406553E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.391597E+02    0.403681E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.412178E+02    0.409743E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.424843E+02    0.424198E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.427343E+02    0.442240E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.417516E+02    0.459146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.399200E+02    0.470191E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.377208E+02    0.472567E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.357558E+02    0.495436E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.327580E+02    0.477783E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.313602E+02    0.450737E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.317857E+02    0.420671E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.339414E+02    0.394410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.374988E+02    0.378559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.412343E+02    0.379463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.445499E+02    0.395753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133228E+03   -0.464643E+02    0.424318E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133291E+03   -0.458941E+02    0.457456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.431978E+02    0.484847E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.394594E+02    0.498656E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.388309E+02    0.341681E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.368085E+02    0.343356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.382612E+02    0.326009E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.405611E+02    0.330046E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.404606E+02    0.350462E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.380861E+02    0.358753E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.361337E+02    0.370561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.350082E+02    0.356957E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.348559E+02    0.339578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.355721E+02    0.324014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.374193E+02    0.311317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.396015E+02    0.307102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.415575E+02    0.312546E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.428436E+02    0.325723E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.432269E+02    0.342483E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.420526E+02    0.360917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.402417E+02    0.372777E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.380482E+02    0.376360E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.361146E+02    0.399818E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.330926E+02    0.384210E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.317482E+02    0.357427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.322272E+02    0.326765E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.343557E+02    0.300579E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.378985E+02    0.283537E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.417501E+02    0.282304E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.449745E+02    0.297046E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133796E+03   -0.468148E+02    0.323244E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.460622E+02    0.357052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.436465E+02    0.384732E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.398209E+02    0.401011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.395625E+02    0.234422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.373366E+02    0.238299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.389677E+02    0.219640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.412825E+02    0.222765E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.412143E+02    0.242253E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.388415E+02    0.251199E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.367971E+02    0.264204E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.356453E+02    0.251202E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.353739E+02    0.235307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.364525E+02    0.217137E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.381984E+02    0.205110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.403823E+02    0.200495E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.423627E+02    0.205131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.436740E+02    0.217186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.437594E+02    0.234885E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.427192E+02    0.252500E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.409235E+02    0.264685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.387285E+02    0.269110E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.365280E+02    0.294640E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.336677E+02    0.279691E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.323675E+02    0.253076E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.328974E+02    0.222355E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.351012E+02    0.195792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.387414E+02    0.177500E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.425055E+02    0.176322E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.457641E+02    0.189380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.475307E+02    0.213832E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.467236E+02    0.246933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.441298E+02    0.275840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.404424E+02    0.292727E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.53 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    137996.517684335     
  ps_ts2 prof sum =   137920.209226541     
  trcom prof sum =    137920.209226541     
  ps_ts2 cur sum  =   2055.40859028774     
  trcom cur sum  =    2055.40859028774     
  
  antenna # iant =            2
  powecha_use(iant) =    663466.449981316     
  ps_ts2 prof sum =   663083.422753834     
  trcom prof sum =    663083.422753833     
  ps_ts2 cur sum  =   12266.2710392920     
  trcom cur sum  =    12266.2710392921     
  
  antenna # iant =            3
  powecha_use(iant) =    530639.268117033     
  ps_ts2 prof sum =   530305.154754847     
  trcom prof sum =    530305.154754847     
  ps_ts2 cur sum  =   6699.33220632876     
  trcom cur sum  =    6699.33220632876     
  
  antenna # iant =            4
  powecha_use(iant) =    566638.798665475     
  ps_ts2 prof sum =   566308.275142011     
  trcom prof sum =    566308.275142010     
  ps_ts2 cur sum  =   9402.17377125764     
  trcom cur sum  =    9402.17377125763     
  
  antenna # iant =            5
  powecha_use(iant) =    554089.014489323     
  ps_ts2 prof sum =   553774.030307912     
  trcom prof sum =    553774.030307912     
  ps_ts2 cur sum  =   11424.5461664421     
  trcom cur sum  =    11424.5461664421     
  
  Total ECH heating:      2451391.09218514     
  Total Current Drive:    41847.7317736083     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3457
 TA= 3.74000E+00 CPU TIME= 1.59630E-01 SECONDS.  DT= 1.31633E-03
  
 TEC1=    3.73999999999994     
 TEC2=    3.74499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.56081138888862     
  %check_save_state: izleft hours =    70.4308333333333     
 --> plasma_hash("gframe"): TA= 3.740000E+00 NSTEP=  3457 Hash code:   67418067
 ->PRGCHK: bdy curvature ratio at t= 3.7450E+00 seconds is:  5.6478E-02
% MHDEQ: TG1=     3.740000 ; TG2=     3.745000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7624E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6478E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.740000 TO TG2=    3.745000 @ NSTEP     3457
   GFRAME TG2 MOMENTS CHECKSUM:  2.4572971653460D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.7450E+00  3.7500E+00 total power(Watts):  2.3471E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.74500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.385084E+02    0.381894E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.364881E+02    0.383207E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.379505E+02    0.366013E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.401386E+02    0.371038E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.401318E+02    0.391058E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.378569E+02    0.398548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.356929E+02    0.411309E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.346817E+02    0.396690E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.343489E+02    0.380184E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.353623E+02    0.362852E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.371173E+02    0.351024E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.391921E+02    0.347760E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.412529E+02    0.352979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.425301E+02    0.366531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.426825E+02    0.384647E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.417148E+02    0.402099E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.398967E+02    0.413992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.377038E+02    0.417194E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.357609E+02    0.440318E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.327534E+02    0.424096E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.314277E+02    0.396462E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.319227E+02    0.365703E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.341572E+02    0.338899E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.375116E+02    0.323573E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.413519E+02    0.322941E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.445658E+02    0.338438E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.463844E+02    0.365549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.457249E+02    0.399095E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.431765E+02    0.427541E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.394606E+02    0.442291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.394517E+02    0.295216E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.374227E+02    0.297163E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.388701E+02    0.279855E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.411808E+02    0.283488E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.410939E+02    0.303556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.387154E+02    0.312182E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.367621E+02    0.324220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.354303E+02    0.312242E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.352676E+02    0.295190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.361693E+02    0.278400E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.381152E+02    0.264670E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.401994E+02    0.260957E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.422770E+02    0.265331E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.435785E+02    0.278184E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.436455E+02    0.296452E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.426991E+02    0.313579E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.407827E+02    0.326274E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.386896E+02    0.329626E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.366643E+02    0.353701E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.336215E+02    0.339050E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.322560E+02    0.312682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.328096E+02    0.281552E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.351212E+02    0.253626E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.385805E+02    0.237065E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.424453E+02    0.235430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.458106E+02    0.248708E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133845E+03   -0.474455E+02    0.275580E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133917E+03   -0.468354E+02    0.308253E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.440906E+02    0.337788E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.403819E+02    0.354116E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.385282E+02    0.438347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.365030E+02    0.439057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.378778E+02    0.422514E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.401652E+02    0.427805E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.401471E+02    0.447902E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.378629E+02    0.454577E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.358909E+02    0.465493E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.346858E+02    0.451773E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.344599E+02    0.434813E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.353916E+02    0.418000E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.370587E+02    0.406713E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.392411E+02    0.403382E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.411929E+02    0.409904E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.425702E+02    0.423988E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.427079E+02    0.442398E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.417317E+02    0.459231E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.398956E+02    0.470239E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.377997E+02    0.472350E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.358315E+02    0.495292E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.329228E+02    0.477256E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.314301E+02    0.450482E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.318561E+02    0.420405E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.340153E+02    0.394058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.374769E+02    0.378738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.413195E+02    0.379128E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.447543E+02    0.394997E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133265E+03   -0.464365E+02    0.424513E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133113E+03   -0.459836E+02    0.457259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133820E+03   -0.433974E+02    0.484432E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.395407E+02    0.498526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.388086E+02    0.341950E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.367876E+02    0.343610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.382404E+02    0.326287E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.405390E+02    0.330327E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.405450E+02    0.350122E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.381671E+02    0.358399E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.362122E+02    0.370188E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.349882E+02    0.357182E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.348361E+02    0.339840E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.357467E+02    0.322948E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.375000E+02    0.310910E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.396807E+02    0.306737E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.416440E+02    0.312176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.429315E+02    0.325381E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.430962E+02    0.343317E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.421390E+02    0.360587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.402210E+02    0.372958E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.381292E+02    0.376004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.360935E+02    0.399976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.330734E+02    0.384374E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.318191E+02    0.357042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.322093E+02    0.327031E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.344316E+02    0.300133E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.379795E+02    0.283103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.417245E+02    0.282636E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.449515E+02    0.297346E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133830E+03   -0.467896E+02    0.323541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.462710E+02    0.356206E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.435078E+02    0.385396E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.397976E+02    0.401165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.395445E+02    0.234778E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.375148E+02    0.237012E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.390504E+02    0.219131E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.413688E+02    0.222286E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.411952E+02    0.242613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.388226E+02    0.251550E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.366835E+02    0.265291E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.355342E+02    0.252364E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.355449E+02    0.233979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.363418E+02    0.218305E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.380848E+02    0.206262E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.403679E+02    0.200766E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.424504E+02    0.204600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.436555E+02    0.217516E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.438485E+02    0.234455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.428078E+02    0.252097E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.409035E+02    0.265020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.387096E+02    0.269438E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.367055E+02    0.293484E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.337425E+02    0.279214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.324402E+02    0.252594E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.329701E+02    0.221804E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.351780E+02    0.195185E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.387262E+02    0.177783E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.425924E+02    0.175741E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.457462E+02    0.189665E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.473971E+02    0.214938E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134144E+03   -0.469319E+02    0.245820E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.441081E+02    0.276150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.404219E+02    0.293021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    34210.5652386990     
  ps_ts2 prof sum =   34189.3980341630     
  trcom prof sum =    34189.3980323200     
  ps_ts2 cur sum  =   508.148555086975     
  trcom cur sum  =    508.148555086974     
  
  antenna # iant =            2
  powecha_use(iant) =    662882.145096581     
  ps_ts2 prof sum =   662491.261451180     
  trcom prof sum =    662491.261451180     
  ps_ts2 cur sum  =   12233.8124847576     
  trcom cur sum  =    12233.8124847576     
  
  antenna # iant =            3
  powecha_use(iant) =    530892.945771537     
  ps_ts2 prof sum =   530598.092483030     
  trcom prof sum =    530598.092483031     
  ps_ts2 cur sum  =   6681.89097550253     
  trcom cur sum  =    6681.89097550254     
  
  antenna # iant =            4
  powecha_use(iant) =    567051.552358189     
  ps_ts2 prof sum =   566719.742020319     
  trcom prof sum =    566719.742020319     
  ps_ts2 cur sum  =   9386.99046770594     
  trcom cur sum  =    9386.99046770593     
  
  antenna # iant =            5
  powecha_use(iant) =    552108.849499019     
  ps_ts2 prof sum =   551788.291153220     
  trcom prof sum =    551788.291153220     
  ps_ts2 cur sum  =   11371.8035772072     
  trcom cur sum  =    11371.8035772072     
  
  Total ECH heating:      2345786.78514007     
  Total Current Drive:    40182.6460602603     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3460
 TA= 3.74500E+00 CPU TIME= 1.78608E-01 SECONDS.  DT= 2.54782E-03
  
 TEC1=    3.74499999999994     
 TEC2=    3.74999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.57885444444446     
  %check_save_state: izleft hours =    70.4127777777778     
 --> plasma_hash("gframe"): TA= 3.745000E+00 NSTEP=  3460 Hash code:   22498864
 ->PRGCHK: bdy curvature ratio at t= 3.7500E+00 seconds is:  5.6429E-02
% MHDEQ: TG1=     3.745000 ; TG2=     3.750000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7614E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6429E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.745000 TO TG2=    3.750000 @ NSTEP     3460
   GFRAME TG2 MOMENTS CHECKSUM:  2.4575305875088D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.33724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.16695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.25668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.96984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.25224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.32909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.54305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.59267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.51656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.93843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.15636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.29924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.28947E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.07214E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.31162E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.50677E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  2.13949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  3.34083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.32735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.66708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.66708E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7500E+00  3.7550E+00 total power(Watts):  2.9536E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.75000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.384884E+02    0.382048E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.364689E+02    0.383361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379310E+02    0.366185E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.402250E+02    0.370660E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.401107E+02    0.391202E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.378383E+02    0.398694E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.358754E+02    0.410530E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.346625E+02    0.396842E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.345219E+02    0.379237E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.352454E+02    0.363621E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.370984E+02    0.351215E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.392772E+02    0.347354E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.412321E+02    0.353173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.425084E+02    0.366702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.427722E+02    0.384298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.418027E+02    0.401798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.398748E+02    0.414163E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.377856E+02    0.416933E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.357404E+02    0.440507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.329199E+02    0.423405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.314108E+02    0.396616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.319063E+02    0.365870E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.340457E+02    0.339753E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.375939E+02    0.323125E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.413317E+02    0.323151E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.447767E+02    0.337461E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133530E+03   -0.464788E+02    0.365202E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.459353E+02    0.398359E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.431526E+02    0.427750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.395445E+02    0.442113E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.394330E+02    0.295426E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.374050E+02    0.297372E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.388524E+02    0.280072E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.411621E+02    0.283700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.410743E+02    0.303765E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.386968E+02    0.312390E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.367440E+02    0.324434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.354132E+02    0.312449E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.354417E+02    0.293941E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.363459E+02    0.277108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.380979E+02    0.264913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.402846E+02    0.260453E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.422580E+02    0.265571E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.435593E+02    0.278388E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.437367E+02    0.295983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.426786E+02    0.313788E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.408698E+02    0.325851E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.386706E+02    0.329839E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.366457E+02    0.353893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.336039E+02    0.339259E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.323300E+02    0.312175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.327939E+02    0.281768E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.350115E+02    0.254694E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.385629E+02    0.237333E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.424257E+02    0.235690E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.456807E+02    0.249688E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.473078E+02    0.276482E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133744E+03   -0.469303E+02    0.307830E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.440684E+02    0.337991E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.403614E+02    0.354307E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.385058E+02    0.438540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.364821E+02    0.439250E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.378565E+02    0.422714E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.402542E+02    0.427594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.401243E+02    0.448075E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.378412E+02    0.454721E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.358695E+02    0.465603E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.346656E+02    0.451926E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.343443E+02    0.435413E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.353702E+02    0.418195E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.371379E+02    0.406427E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.392205E+02    0.403535E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.412799E+02    0.409630E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.425466E+02    0.424189E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.427963E+02    0.442242E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.418125E+02    0.459062E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.399797E+02    0.470047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.377767E+02    0.472450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.358099E+02    0.495419E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.328089E+02    0.477662E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.314123E+02    0.450623E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.318382E+02    0.420596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.339971E+02    0.394206E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.375588E+02    0.378360E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.412981E+02    0.379282E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.446154E+02    0.395606E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133088E+03   -0.465293E+02    0.424340E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133154E+03   -0.459576E+02    0.457407E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.432586E+02    0.484771E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.395170E+02    0.498652E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.388933E+02    0.341542E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.368693E+02    0.343196E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.383240E+02    0.325847E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.406258E+02    0.329909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.405248E+02    0.350314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.381477E+02    0.358578E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.361929E+02    0.370354E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.348741E+02    0.357967E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.347240E+02    0.340686E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.356319E+02    0.323832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.374811E+02    0.311123E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.396617E+02    0.306948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.416239E+02    0.312379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.429106E+02    0.325595E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.430749E+02    0.343527E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.421177E+02    0.360766E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.403047E+02    0.372598E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.381093E+02    0.376163E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.361733E+02    0.399637E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.331487E+02    0.383976E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.318031E+02    0.357225E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.322836E+02    0.326558E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.344180E+02    0.300318E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.379620E+02    0.283318E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.418127E+02    0.282139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.451582E+02    0.296220E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.468846E+02    0.323155E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133785E+03   -0.462478E+02    0.356394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.437117E+02    0.384563E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.398829E+02    0.400849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.396325E+02    0.234192E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.374983E+02    0.237273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.390337E+02    0.219368E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.413508E+02    0.222528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.411759E+02    0.242882E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.389056E+02    0.251038E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.368586E+02    0.264010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.355175E+02    0.252618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.354356E+02    0.235071E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.363254E+02    0.218534E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.382628E+02    0.204781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.404522E+02    0.200146E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.424320E+02    0.204826E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.437452E+02    0.216953E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.438288E+02    0.234727E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.427885E+02    0.252360E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.408847E+02    0.265269E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.387931E+02    0.268919E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.366880E+02    0.293688E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.337259E+02    0.279435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.324254E+02    0.252861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.329561E+02    0.222046E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.351629E+02    0.195412E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.386128E+02    0.178895E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.425770E+02    0.175955E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.458371E+02    0.189064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.476037E+02    0.213620E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.467962E+02    0.246825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.441995E+02    0.275670E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.404028E+02    0.293232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    632993.213709760     
  ps_ts2 prof sum =   632633.261383994     
  trcom prof sum =    632633.261383994     
  ps_ts2 cur sum  =   9384.88841355173     
  trcom cur sum  =    9384.88841355173     
  
  antenna # iant =            2
  powecha_use(iant) =    665107.329112392     
  ps_ts2 prof sum =   664693.340041413     
  trcom prof sum =    664693.340041412     
  ps_ts2 cur sum  =   12253.2655902045     
  trcom cur sum  =    12253.2655902045     
  
  antenna # iant =            3
  powecha_use(iant) =    533608.182814949     
  ps_ts2 prof sum =   533267.214481779     
  trcom prof sum =    533267.214481779     
  ps_ts2 cur sum  =   6699.83657792519     
  trcom cur sum  =    6699.83657792520     
  
  antenna # iant =            4
  powecha_use(iant) =    568755.338417890     
  ps_ts2 prof sum =   568416.402066630     
  trcom prof sum =    568416.402066629     
  ps_ts2 cur sum  =   9399.06334695697     
  trcom cur sum  =    9399.06334695696     
  
  antenna # iant =            5
  powecha_use(iant) =    553135.757225727     
  ps_ts2 prof sum =   552802.761933143     
  trcom prof sum =    552802.761933143     
  ps_ts2 cur sum  =   11371.9985732247     
  trcom cur sum  =    11371.9985732247     
  
  Total ECH heating:      2951812.97990696     
  Total Current Drive:    49109.0525018631     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3462
 TA= 3.75000E+00 CPU TIME= 1.68457E-01 SECONDS.  DT= 3.06522E-03
  
 TEC1=    3.74999999999994     
 TEC2=    3.75499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.59117916666628     
  %check_save_state: izleft hours =    70.4002777777778     
 --> plasma_hash("gframe"): TA= 3.750000E+00 NSTEP=  3462 Hash code:   33545968
 ->PRGCHK: bdy curvature ratio at t= 3.7550E+00 seconds is:  5.6381E-02
% MHDEQ: TG1=     3.750000 ; TG2=     3.755000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3070E-03 SECONDS
   DATA R*BT AT EDGE:  2.7604E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6381E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.750000 TO TG2=    3.755000 @ NSTEP     3462
   GFRAME TG2 MOMENTS CHECKSUM:  2.4577640096716D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.7550E+00  3.7600E+00 total power(Watts):  2.9882E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.75500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.385702E+02    0.381689E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.365477E+02    0.382989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.379094E+02    0.366377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.402025E+02    0.370841E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.401948E+02    0.390862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.378143E+02    0.398855E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.358540E+02    0.410694E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.345464E+02    0.397498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.344067E+02    0.379955E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.354214E+02    0.362640E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.371787E+02    0.350840E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.392558E+02    0.347589E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.413181E+02    0.352816E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.425908E+02    0.366371E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.427480E+02    0.384459E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.417785E+02    0.401953E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.399581E+02    0.413886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.377631E+02    0.417105E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.358173E+02    0.440299E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.328075E+02    0.424033E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.314816E+02    0.396248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.318880E+02    0.366064E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.342155E+02    0.338706E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.375740E+02    0.323377E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.414179E+02    0.322778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.446344E+02    0.338316E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.464533E+02    0.365397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.459089E+02    0.398511E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.432397E+02    0.427558E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.395147E+02    0.442310E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.395169E+02    0.294949E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.373862E+02    0.297602E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.389357E+02    0.279541E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.412486E+02    0.283198E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.411605E+02    0.303336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.387794E+02    0.311969E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.366257E+02    0.325347E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.355874E+02    0.311313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.353285E+02    0.294896E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.362317E+02    0.278066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.381845E+02    0.264321E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.402664E+02    0.260660E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.423464E+02    0.265029E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.435378E+02    0.278603E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.437146E+02    0.296227E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.427668E+02    0.313399E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.408482E+02    0.326117E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.386499E+02    0.330101E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.366254E+02    0.354105E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.336791E+02    0.338854E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.323132E+02    0.312420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.328678E+02    0.281203E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.351827E+02    0.253297E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.386460E+02    0.236776E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.424072E+02    0.235951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.458831E+02    0.248449E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133710E+03   -0.475190E+02    0.275318E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.469063E+02    0.308099E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.441577E+02    0.337668E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.404462E+02    0.353947E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.384822E+02    0.438729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.364599E+02    0.439431E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.379367E+02    0.422476E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.402300E+02    0.427788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.402073E+02    0.447887E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.378179E+02    0.454857E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.358473E+02    0.465701E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.345482E+02    0.452416E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.345152E+02    0.434789E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.352530E+02    0.418806E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.371181E+02    0.406565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.393030E+02    0.403224E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.412556E+02    0.409795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.427450E+02    0.423582E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.427705E+02    0.442421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.417869E+02    0.459190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.399550E+02    0.470136E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.378573E+02    0.472226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.358860E+02    0.495289E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.327897E+02    0.477742E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.314825E+02    0.450391E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.319093E+02    0.420319E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.341669E+02    0.393328E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.375377E+02    0.378526E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.413840E+02    0.378933E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.448205E+02    0.394840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133127E+03   -0.465019E+02    0.424530E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132976E+03   -0.460475E+02    0.457242E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.434582E+02    0.484386E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.395984E+02    0.498545E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.388717E+02    0.341802E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.368494E+02    0.343442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.383036E+02    0.326110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.406041E+02    0.330173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.405032E+02    0.350542E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.382293E+02    0.358207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.362714E+02    0.369974E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.350473E+02    0.356976E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.348953E+02    0.339655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.358068E+02    0.322754E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.375629E+02    0.310688E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.396412E+02    0.307198E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.417107E+02    0.311981E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.429988E+02    0.325242E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.431631E+02    0.343192E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.422048E+02    0.360419E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.402822E+02    0.372776E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.381905E+02    0.375799E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.361516E+02    0.399797E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.331292E+02    0.384145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.317852E+02    0.357428E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.322660E+02    0.326821E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.345856E+02    0.299125E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.380437E+02    0.282791E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.417925E+02    0.282351E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.450219E+02    0.297134E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.468645E+02    0.323408E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.463399E+02    0.356076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.435739E+02    0.385212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.398596E+02    0.401004E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.396115E+02    0.234489E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.375797E+02    0.236707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.390167E+02    0.219680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.413287E+02    0.222856E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.412627E+02    0.242340E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.388882E+02    0.251256E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.368417E+02    0.264215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.356911E+02    0.251234E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.354203E+02    0.235334E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.365012E+02    0.217148E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.381512E+02    0.205976E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.404349E+02    0.200508E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.425145E+02    0.204377E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.437265E+02    0.217272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.439196E+02    0.234206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.428778E+02    0.251817E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.409713E+02    0.264722E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.387748E+02    0.269125E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.367678E+02    0.293194E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.337110E+02    0.279630E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.324112E+02    0.253068E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.329417E+02    0.222350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.351480E+02    0.195768E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.387912E+02    0.177456E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.426633E+02    0.175429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.458184E+02    0.189435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.474692E+02    0.214728E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.470010E+02    0.245601E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.441792E+02    0.275868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.404881E+02    0.292757E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667163.354835211     
  ps_ts2 prof sum =   666763.077806931     
  trcom prof sum =    666763.077806931     
  ps_ts2 cur sum  =   9869.95466442733     
  trcom cur sum  =    9869.95466442733     
  
  antenna # iant =            2
  powecha_use(iant) =    666051.823770040     
  ps_ts2 prof sum =   665657.851653583     
  trcom prof sum =    665657.851653583     
  ps_ts2 cur sum  =   12251.4293973533     
  trcom cur sum  =    12251.4293973533     
  
  antenna # iant =            3
  powecha_use(iant) =    533549.078463303     
  ps_ts2 prof sum =   533229.850166503     
  trcom prof sum =    533229.850166503     
  ps_ts2 cur sum  =   6679.43966780562     
  trcom cur sum  =    6679.43966780563     
  
  antenna # iant =            4
  powecha_use(iant) =    568021.346411776     
  ps_ts2 prof sum =   567705.376457235     
  trcom prof sum =    567705.376457235     
  ps_ts2 cur sum  =   9368.54429942654     
  trcom cur sum  =    9368.54429942653     
  
  antenna # iant =            5
  powecha_use(iant) =    553374.646470878     
  ps_ts2 prof sum =   553049.679463211     
  trcom prof sum =    553049.679463211     
  ps_ts2 cur sum  =   11362.4435783894     
  trcom cur sum  =    11362.4435783894     
  
  Total ECH heating:      2986405.83554746     
  Total Current Drive:    49531.8116074022     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3464
 TA= 3.75500E+00 CPU TIME= 1.59493E-01 SECONDS.  DT= 2.41847E-03
  
 TEC1=    3.75499999999994     
 TEC2=    3.75999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.60369666666656     
  %check_save_state: izleft hours =    70.3877777777778     
 --> plasma_hash("gframe"): TA= 3.755000E+00 NSTEP=  3464 Hash code:  105937345
 ->PRGCHK: bdy curvature ratio at t= 3.7600E+00 seconds is:  5.6452E-02
% MHDEQ: TG1=     3.755000 ; TG2=     3.760000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7613E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6452E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.755000 TO TG2=    3.760000 @ NSTEP     3464
   GFRAME TG2 MOMENTS CHECKSUM:  2.4575082725431D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.33790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.14186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.21360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.97410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.25592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.33460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.54898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.59069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.26079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.19929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.19253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.03657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.29600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  7.20348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.33308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.04422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9=  1.54592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  4.14424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.32648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.46795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.46795E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7600E+00  3.7650E+00 total power(Watts):  3.0015E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.76000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.384840E+02    0.382273E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.364645E+02    0.383580E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.379265E+02    0.366434E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.402205E+02    0.370909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.401053E+02    0.391431E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.378347E+02    0.398896E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.358701E+02    0.410726E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.346580E+02    0.397043E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.345175E+02    0.379463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.354373E+02    0.362686E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.370955E+02    0.351479E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.392745E+02    0.347623E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.412285E+02    0.353444E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.425039E+02    0.366965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.427669E+02    0.384544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.417969E+02    0.402016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.398692E+02    0.414354E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.377800E+02    0.417132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.356359E+02    0.441059E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.329149E+02    0.423584E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.314067E+02    0.396803E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.319028E+02    0.366095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.340433E+02    0.340009E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.375917E+02    0.323414E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.413291E+02    0.323453E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.447687E+02    0.337786E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133525E+03   -0.464736E+02    0.365487E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.459288E+02    0.398604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.431457E+02    0.427954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.395380E+02    0.442287E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.394320E+02    0.295734E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.374039E+02    0.297669E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.388521E+02    0.280379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.411616E+02    0.284016E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.410730E+02    0.304077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.387977E+02    0.312016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.367419E+02    0.324716E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.356044E+02    0.311345E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.354408E+02    0.294231E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.363460E+02    0.277401E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.380985E+02    0.265219E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.402856E+02    0.260766E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.422586E+02    0.265892E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.435608E+02    0.278712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.437350E+02    0.296320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.426764E+02    0.314102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.408672E+02    0.326151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.386678E+02    0.330128E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.366427E+02    0.354144E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.337875E+02    0.338224E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.323287E+02    0.312445E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.327940E+02    0.282046E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.350133E+02    0.254970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.385652E+02    0.237636E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.424279E+02    0.236021E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.456841E+02    0.250027E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133666E+03   -0.475412E+02    0.275464E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.469279E+02    0.308179E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.442917E+02    0.337116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.403576E+02    0.354574E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.384994E+02    0.438718E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.364762E+02    0.439419E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.378508E+02    0.422904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.402479E+02    0.427790E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.401179E+02    0.448231E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.378349E+02    0.454870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.358633E+02    0.465741E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.346603E+02    0.452067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.343388E+02    0.435584E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.353665E+02    0.418374E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.371291E+02    0.406628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.392151E+02    0.403740E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.412740E+02    0.409839E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.425401E+02    0.424396E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134479E+03   -0.427894E+02    0.442420E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.418053E+02    0.459221E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.399726E+02    0.470190E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.377711E+02    0.472573E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.358033E+02    0.495518E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.328044E+02    0.477774E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.314071E+02    0.450765E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.318337E+02    0.420764E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.339931E+02    0.394404E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.375546E+02    0.378589E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.412933E+02    0.379525E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.446094E+02    0.395847E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133085E+03   -0.465221E+02    0.424559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133152E+03   -0.459496E+02    0.457585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.432509E+02    0.484898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.395096E+02    0.498759E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.388902E+02    0.341826E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.368670E+02    0.343454E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.383212E+02    0.326138E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.406229E+02    0.330206E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.405210E+02    0.350593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.381437E+02    0.358837E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.361893E+02    0.370579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.350633E+02    0.357014E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.347215E+02    0.340940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.356300E+02    0.324112E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.374803E+02    0.311410E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.396603E+02    0.307249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.416217E+02    0.312697E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.429079E+02    0.325903E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.430713E+02    0.343828E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.421133E+02    0.361039E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.403002E+02    0.372846E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.381049E+02    0.376397E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.361684E+02    0.399842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.331444E+02    0.384195E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.318000E+02    0.357452E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.322815E+02    0.326824E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.344183E+02    0.300588E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.379615E+02    0.283619E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.418127E+02    0.282452E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.450428E+02    0.297230E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.468812E+02    0.323493E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.461259E+02    0.357237E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.437062E+02    0.384809E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.398774E+02    0.401068E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.396309E+02    0.234534E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.374029E+02    0.238385E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.390367E+02    0.219661E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.413539E+02    0.222832E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.412825E+02    0.242424E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.389026E+02    0.251373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.368597E+02    0.264314E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.357082E+02    0.251302E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.354380E+02    0.235359E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.365199E+02    0.217110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.382684E+02    0.205045E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.404548E+02    0.200425E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.424362E+02    0.205116E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.437482E+02    0.217265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.438311E+02    0.235057E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.427896E+02    0.252687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.409905E+02    0.264839E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.387932E+02    0.269235E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.366873E+02    0.293989E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.337269E+02    0.279717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.324260E+02    0.253130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.329585E+02    0.222314E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.351678E+02    0.195657E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.388125E+02    0.177352E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.425824E+02    0.176198E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134804E+03   -0.458428E+02    0.189346E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.476074E+02    0.213950E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.467975E+02    0.247181E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.441995E+02    0.276009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.405072E+02    0.292843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684333.832519931     
  ps_ts2 prof sum =   683936.895090955     
  trcom prof sum =    683936.895090955     
  ps_ts2 cur sum  =   10140.0799535342     
  trcom cur sum  =    10140.0799535342     
  
  antenna # iant =            2
  powecha_use(iant) =    663855.781124838     
  ps_ts2 prof sum =   663489.947021708     
  trcom prof sum =    663489.947021707     
  ps_ts2 cur sum  =   12229.4908751082     
  trcom cur sum  =    12229.4908751082     
  
  antenna # iant =            3
  powecha_use(iant) =    530778.993297189     
  ps_ts2 prof sum =   530432.620544873     
  trcom prof sum =    530432.620544873     
  ps_ts2 cur sum  =   6657.03639974003     
  trcom cur sum  =    6657.03639974004     
  
  antenna # iant =            4
  powecha_use(iant) =    568000.481808217     
  ps_ts2 prof sum =   567651.034330573     
  trcom prof sum =    567651.034330573     
  ps_ts2 cur sum  =   9383.53765487933     
  trcom cur sum  =    9383.53765487932     
  
  antenna # iant =            5
  powecha_use(iant) =    554566.024235123     
  ps_ts2 prof sum =   554263.041518914     
  trcom prof sum =    554263.041518914     
  ps_ts2 cur sum  =   11403.9443660595     
  trcom cur sum  =    11403.9443660595     
  
  Total ECH heating:      2999773.53850702     
  Total Current Drive:    49814.0892493212     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3466
 TA= 3.76000E+00 CPU TIME= 1.59133E-01 SECONDS.  DT= 3.22691E-03
  
 TEC1=    3.75999999999994     
 TEC2=    3.76499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.61701722222188     
  %check_save_state: izleft hours =    70.3744444444444     
 --> plasma_hash("gframe"): TA= 3.760000E+00 NSTEP=  3466 Hash code:   98347182
 ->PRGCHK: bdy curvature ratio at t= 3.7650E+00 seconds is:  5.6525E-02
% MHDEQ: TG1=     3.760000 ; TG2=     3.765000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6525E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.760000 TO TG2=    3.765000 @ NSTEP     3466
   GFRAME TG2 MOMENTS CHECKSUM:  2.4572525354146D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.7650E+00  3.7700E+00 total power(Watts):  3.0162E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.76500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.385019E+02    0.382333E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.364815E+02    0.383634E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.379446E+02    0.366485E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.401325E+02    0.371507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.401240E+02    0.391493E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.378492E+02    0.398955E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.356880E+02    0.411683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.346749E+02    0.397078E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.343431E+02    0.380601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.353571E+02    0.363313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.371132E+02    0.351513E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.391881E+02    0.348260E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.412477E+02    0.353496E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.425238E+02    0.367034E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.426748E+02    0.385113E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.417060E+02    0.402530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.398876E+02    0.414391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.376950E+02    0.417582E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.357510E+02    0.440673E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.327456E+02    0.424446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.314219E+02    0.396834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.319184E+02    0.366125E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.341545E+02    0.339374E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.375094E+02    0.324091E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.413491E+02    0.323488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.445613E+02    0.339007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133697E+03   -0.463772E+02    0.366092E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133888E+03   -0.457153E+02    0.399564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.431655E+02    0.427962E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.394499E+02    0.442661E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.394514E+02    0.295771E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.374225E+02    0.297701E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.388714E+02    0.280415E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.411820E+02    0.284058E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.410931E+02    0.304119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.387149E+02    0.312709E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.367599E+02    0.324736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.354297E+02    0.312745E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.352680E+02    0.295708E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.363646E+02    0.277417E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.381186E+02    0.265218E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.403066E+02    0.260767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.422795E+02    0.265916E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.435798E+02    0.278781E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.436449E+02    0.297047E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.426970E+02    0.314148E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.407798E+02    0.326816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.386866E+02    0.330153E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.366603E+02    0.354180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.336191E+02    0.339521E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.323449E+02    0.312455E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.328108E+02    0.282058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.350309E+02    0.254945E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.385850E+02    0.237601E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.424509E+02    0.235978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.458146E+02    0.249321E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.474466E+02    0.276229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.468332E+02    0.308875E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.440908E+02    0.338331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.403766E+02    0.354623E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.384170E+02    0.439082E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.364931E+02    0.439418E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.378685E+02    0.422903E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.401586E+02    0.428188E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.401360E+02    0.448264E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.378521E+02    0.454912E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.358800E+02    0.465803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.346760E+02    0.452098E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.344510E+02    0.435162E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.353833E+02    0.418377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.370502E+02    0.407116E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.392329E+02    0.403792E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.411837E+02    0.410320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.425595E+02    0.424406E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.426966E+02    0.442782E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.417133E+02    0.459594E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.398834E+02    0.470559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.377884E+02    0.472639E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.358197E+02    0.495541E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.329110E+02    0.477545E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.314213E+02    0.450794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.318491E+02    0.420752E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.340092E+02    0.394442E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.374706E+02    0.379176E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.413125E+02    0.379594E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133978E+03   -0.447450E+02    0.395466E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133260E+03   -0.464247E+02    0.424958E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133109E+03   -0.459699E+02    0.457654E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.433838E+02    0.484733E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.395275E+02    0.498788E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.388046E+02    0.342468E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.367861E+02    0.344093E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.382379E+02    0.326804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.405358E+02    0.330863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.405401E+02    0.350641E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.381619E+02    0.358878E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.362061E+02    0.370639E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.349845E+02    0.357638E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.348332E+02    0.340320E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.357449E+02    0.323455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.374989E+02    0.311435E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.396805E+02    0.307281E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.416419E+02    0.312736E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.429285E+02    0.325943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.430915E+02    0.343870E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.421329E+02    0.361101E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.402120E+02    0.373440E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.381229E+02    0.376453E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.360862E+02    0.400371E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.330679E+02    0.384772E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.318153E+02    0.357472E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.322082E+02    0.327501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.344319E+02    0.300639E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.379805E+02    0.283651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.417258E+02    0.283208E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.449508E+02    0.297955E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.467859E+02    0.324151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.462644E+02    0.356777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.434997E+02    0.385868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.397893E+02    0.401586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.395496E+02    0.235303E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.375199E+02    0.237533E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.390571E+02    0.219621E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.413753E+02    0.222800E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.412000E+02    0.243172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.388270E+02    0.252109E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.366846E+02    0.265851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.355377E+02    0.252877E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.355490E+02    0.234483E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.363495E+02    0.218757E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.382886E+02    0.204992E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.404775E+02    0.200368E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.424589E+02    0.205067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.436627E+02    0.218043E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.438547E+02    0.235022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.428118E+02    0.252687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.409058E+02    0.265600E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.387118E+02    0.269997E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.367056E+02    0.294018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.337441E+02    0.279729E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.324429E+02    0.253095E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.329762E+02    0.222254E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.351866E+02    0.195574E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.387362E+02    0.178142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.425998E+02    0.176150E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.457563E+02    0.190111E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.474089E+02    0.215458E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134135E+03   -0.469363E+02    0.246431E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.441099E+02    0.276762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.404217E+02    0.293589E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694858.292658974     
  ps_ts2 prof sum =   694426.883282701     
  trcom prof sum =    694426.883261890     
  ps_ts2 cur sum  =   10317.7769795518     
  trcom cur sum  =    10317.7769795518     
  
  antenna # iant =            2
  powecha_use(iant) =    664152.095472259     
  ps_ts2 prof sum =   663777.214008751     
  trcom prof sum =    663777.214008751     
  ps_ts2 cur sum  =   12255.6030720346     
  trcom cur sum  =    12255.6030720346     
  
  antenna # iant =            3
  powecha_use(iant) =    533788.007893384     
  ps_ts2 prof sum =   533486.793593795     
  trcom prof sum =    533486.793593795     
  ps_ts2 cur sum  =   6711.69583574985     
  trcom cur sum  =    6711.69583574986     
  
  antenna # iant =            4
  powecha_use(iant) =    570262.137095921     
  ps_ts2 prof sum =   569925.399012999     
  trcom prof sum =    569925.399012999     
  ps_ts2 cur sum  =   9438.91442987937     
  trcom cur sum  =    9438.91442987936     
  
  antenna # iant =            5
  powecha_use(iant) =    553178.343576994     
  ps_ts2 prof sum =   552863.266067463     
  trcom prof sum =    552863.266067463     
  ps_ts2 cur sum  =   11391.2453440020     
  trcom cur sum  =    11391.2453440020     
  
  Total ECH heating:      3014479.55594490     
  Total Current Drive:    50115.2356612175     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3468
 TA= 3.76500E+00 CPU TIME= 1.59797E-01 SECONDS.  DT= 2.21636E-03
  
 TEC1=    3.76499999999994     
 TEC2=    3.76999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    9.63094416666649     
  %check_save_state: izleft hours =    70.3605555555555     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  3.7650000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 3.765000E+00 NSTEP=  3468 Hash code:   18471035
 ->PRGCHK: bdy curvature ratio at t= 3.7700E+00 seconds is:  5.6599E-02
% MHDEQ: TG1=     3.765000 ; TG2=     3.770000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7632E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6599E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.765000 TO TG2=    3.770000 @ NSTEP     3468
   GFRAME TG2 MOMENTS CHECKSUM:  2.4569967926881D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.07825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.91219E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.86938E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.28078E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.31854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.58057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.55271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.73695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.85237E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.40810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.81192E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.19400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.22533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.33702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  6.12724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10=  1.95557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.15678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.39555E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.42204E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.42204E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.7700E+00  3.7750E+00 total power(Watts):  3.0109E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.77000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.384165E+02    0.382905E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.363994E+02    0.384207E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.378602E+02    0.367097E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.401486E+02    0.371582E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.401429E+02    0.391547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.377646E+02    0.399477E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.358052E+02    0.411232E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.344996E+02    0.398113E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.344549E+02    0.380098E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.353740E+02    0.363352E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.371314E+02    0.351543E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.392072E+02    0.348299E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.411588E+02    0.354125E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.424327E+02    0.367636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.426945E+02    0.385184E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.417252E+02    0.402582E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.399063E+02    0.414416E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.377131E+02    0.417584E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.357681E+02    0.440675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.327613E+02    0.424425E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.314371E+02    0.396857E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.318449E+02    0.366741E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.339840E+02    0.340668E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.375287E+02    0.324114E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.412612E+02    0.324160E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.446970E+02    0.338475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133655E+03   -0.463985E+02    0.366177E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133630E+03   -0.458535E+02    0.399193E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.430722E+02    0.428354E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.394684E+02    0.442670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.393677E+02    0.296514E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.373423E+02    0.298432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.388918E+02    0.280430E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.412022E+02    0.284109E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.411141E+02    0.304162E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.387340E+02    0.312747E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.366799E+02    0.325412E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.355435E+02    0.312080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.353819E+02    0.295008E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.362864E+02    0.278183E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.380383E+02    0.265979E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.402236E+02    0.261511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.421935E+02    0.266655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.434908E+02    0.279534E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.436668E+02    0.297104E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.426074E+02    0.314844E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.407997E+02    0.326855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.386025E+02    0.330816E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.365786E+02    0.354807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.337289E+02    0.338889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.322674E+02    0.313204E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.327379E+02    0.282828E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.349560E+02    0.255711E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.386054E+02    0.237558E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.423660E+02    0.236728E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.456119E+02    0.250794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133794E+03   -0.474703E+02    0.276289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133866E+03   -0.468557E+02    0.308947E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.442199E+02    0.337821E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.402891E+02    0.355249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.384307E+02    0.439107E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.364101E+02    0.439804E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.378864E+02    0.422897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.401778E+02    0.428186E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.401544E+02    0.448299E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.377665E+02    0.455296E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.357974E+02    0.466186E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.344989E+02    0.452846E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.344671E+02    0.435154E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.353025E+02    0.418814E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.370680E+02    0.407136E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.391462E+02    0.404293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.412030E+02    0.410358E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.424671E+02    0.424817E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.427161E+02    0.442807E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.417321E+02    0.459668E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.398954E+02    0.470654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.377024E+02    0.473007E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.357373E+02    0.495799E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.327406E+02    0.478187E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.313466E+02    0.451189E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.318643E+02    0.420731E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.341202E+02    0.393965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.374881E+02    0.379234E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.412228E+02    0.380171E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.445351E+02    0.396449E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133208E+03   -0.464509E+02    0.424969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133285E+03   -0.458726E+02    0.458023E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.431762E+02    0.485285E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.394390E+02    0.499032E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.388236E+02    0.342503E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.368026E+02    0.344131E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.382524E+02    0.326856E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.405554E+02    0.330901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.404528E+02    0.351265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.381803E+02    0.358928E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.361242E+02    0.371239E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.350015E+02    0.357672E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.348507E+02    0.340343E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.357631E+02    0.323476E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.375175E+02    0.311462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.395957E+02    0.307997E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.415543E+02    0.313433E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.428383E+02    0.326611E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.431127E+02    0.343914E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.420424E+02    0.361714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.402310E+02    0.373501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.380377E+02    0.377051E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.361034E+02    0.400400E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.330835E+02    0.384808E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.317420E+02    0.358116E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.322243E+02    0.327510E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.345440E+02    0.299939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.379002E+02    0.284408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.417467E+02    0.283251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.449723E+02    0.298024E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.468082E+02    0.324209E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.460514E+02    0.357923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.436332E+02    0.385455E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.398076E+02    0.401631E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.395706E+02    0.235262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.375398E+02    0.237486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.389773E+02    0.220407E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.412930E+02    0.223575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.412212E+02    0.243137E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.388469E+02    0.252075E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.368010E+02    0.265054E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.356510E+02    0.252033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.353806E+02    0.236076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.364643E+02    0.217857E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.382121E+02    0.205799E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.404009E+02    0.201157E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.423760E+02    0.205867E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.436857E+02    0.218009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.437679E+02    0.235771E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.428341E+02    0.252664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.409271E+02    0.265595E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.387317E+02    0.270002E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.365286E+02    0.295474E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.336699E+02    0.280498E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.323720E+02    0.253861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.329059E+02    0.223058E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.351146E+02    0.196402E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.387573E+02    0.178070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.426282E+02    0.176038E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.457806E+02    0.190077E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.475426E+02    0.214695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.469602E+02    0.246437E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.441316E+02    0.276805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.404421E+02    0.293632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690276.846747831     
  ps_ts2 prof sum =   689874.009690454     
  trcom prof sum =    689874.009690454     
  ps_ts2 cur sum  =   10273.6422570475     
  trcom cur sum  =    10273.6422570475     
  
  antenna # iant =            2
  powecha_use(iant) =    664796.922972475     
  ps_ts2 prof sum =   664424.964174154     
  trcom prof sum =    664424.964174154     
  ps_ts2 cur sum  =   12288.0744643268     
  trcom cur sum  =    12288.0744643268     
  
  antenna # iant =            3
  powecha_use(iant) =    533093.926775345     
  ps_ts2 prof sum =   532761.030842118     
  trcom prof sum =    532761.030842118     
  ps_ts2 cur sum  =   6721.11985495848     
  trcom cur sum  =    6721.11985495849     
  
  antenna # iant =            4
  powecha_use(iant) =    568574.510005619     
  ps_ts2 prof sum =   568261.609666272     
  trcom prof sum =    568261.609666271     
  ps_ts2 cur sum  =   9429.68568639415     
  trcom cur sum  =    9429.68568639414     
  
  antenna # iant =            5
  powecha_use(iant) =    554155.672684346     
  ps_ts2 prof sum =   553848.913568247     
  trcom prof sum =    553848.913568247     
  ps_ts2 cur sum  =   11428.7031364279     
  trcom cur sum  =    11428.7031364279     
  
  Total ECH heating:      3009170.52794125     
  Total Current Drive:    50141.2253991548     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3471
 TA= 3.77000E+00 CPU TIME= 1.59235E-01 SECONDS.  DT= 1.64837E-05
  
 TEC1=    3.76999999999994     
 TEC2=    3.77499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.64675138888856     
  %check_save_state: izleft hours =    70.3447222222222     
 --> plasma_hash("gframe"): TA= 3.770000E+00 NSTEP=  3471 Hash code:   45884455
 ->PRGCHK: bdy curvature ratio at t= 3.7750E+00 seconds is:  5.6675E-02
% MHDEQ: TG1=     3.770000 ; TG2=     3.775000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7642E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6675E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.770000 TO TG2=    3.775000 @ NSTEP     3471
   GFRAME TG2 MOMENTS CHECKSUM:  2.4567410499615D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7750E+00  3.7800E+00 total power(Watts):  3.0051E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.77500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.384346E+02    0.382988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.364165E+02    0.384288E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.378780E+02    0.367168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.401702E+02    0.371659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.400547E+02    0.392111E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.377817E+02    0.399548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.358223E+02    0.411265E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.346120E+02    0.397666E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.344718E+02    0.380162E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.351981E+02    0.364566E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.370491E+02    0.352204E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.392261E+02    0.348366E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.411786E+02    0.354199E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.424527E+02    0.367732E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.426026E+02    0.385773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.416344E+02    0.403117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.398180E+02    0.414895E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.377306E+02    0.417613E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.356860E+02    0.441083E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.326842E+02    0.424867E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.313632E+02    0.397420E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.318606E+02    0.366796E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.339992E+02    0.340710E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.375476E+02    0.324156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.412817E+02    0.324229E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.444901E+02    0.339718E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.463023E+02    0.366809E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133586E+03   -0.458740E+02    0.399304E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.430918E+02    0.428384E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.393796E+02    0.443076E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.393884E+02    0.296574E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.373615E+02    0.298497E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.388096E+02    0.281231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.411175E+02    0.284893E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.410278E+02    0.304906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.386543E+02    0.313456E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.366983E+02    0.325455E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.353701E+02    0.313496E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.352093E+02    0.296508E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.363053E+02    0.278236E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.380582E+02    0.266005E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.402448E+02    0.261552E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.422158E+02    0.266713E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.435136E+02    0.279613E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.436889E+02    0.297186E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.426285E+02    0.314913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.408199E+02    0.326912E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.386225E+02    0.330862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.365965E+02    0.354866E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.335594E+02    0.340212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.322893E+02    0.313201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.327553E+02    0.282867E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.349752E+02    0.255706E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.385271E+02    0.238370E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.423892E+02    0.236752E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.456362E+02    0.250828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.473773E+02    0.277076E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.466445E+02    0.310303E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.440145E+02    0.339062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.403086E+02    0.355321E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.384484E+02    0.439129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.364269E+02    0.439828E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.378010E+02    0.423333E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.400887E+02    0.428605E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.400651E+02    0.448689E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.377837E+02    0.455357E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.358133E+02    0.466256E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.346113E+02    0.452533E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.342912E+02    0.435973E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.353191E+02    0.418828E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.369841E+02    0.407661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.391646E+02    0.404357E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.411167E+02    0.410856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.424865E+02    0.424848E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.428475E+02    0.442516E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.417499E+02    0.459755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.399191E+02    0.470722E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.377194E+02    0.473077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.357535E+02    0.495814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.328501E+02    0.477919E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.313612E+02    0.451220E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.317892E+02    0.421186E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.339472E+02    0.395044E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.374042E+02    0.379844E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.412421E+02    0.380267E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134110E+03   -0.446708E+02    0.396092E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133393E+03   -0.463481E+02    0.425403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133242E+03   -0.458926E+02    0.458116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133945E+03   -0.433115E+02    0.485129E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.394567E+02    0.499058E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.388426E+02    0.342556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.368200E+02    0.344187E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.382758E+02    0.326884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.404692E+02    0.331579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.404724E+02    0.351325E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.380960E+02    0.359572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.361414E+02    0.371311E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.348261E+02    0.358916E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.346772E+02    0.341645E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.356843E+02    0.324177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.374370E+02    0.312194E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.396156E+02    0.308063E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.415749E+02    0.313505E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.428594E+02    0.326679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.430212E+02    0.344575E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.420624E+02    0.361802E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.402499E+02    0.373593E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.380558E+02    0.377129E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.360165E+02    0.400961E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.331924E+02    0.384328E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.317571E+02    0.358154E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.322411E+02    0.327532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.343742E+02    0.301421E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.379195E+02    0.284473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.416608E+02    0.284044E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.451086E+02    0.297460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.467135E+02    0.324897E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.461905E+02    0.357493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.434267E+02    0.386531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.397194E+02    0.402172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.394909E+02    0.236077E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.374682E+02    0.238257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.389954E+02    0.220466E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.413160E+02    0.223604E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.411387E+02    0.243936E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.387672E+02    0.252870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.368207E+02    0.265083E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.354816E+02    0.253635E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.354021E+02    0.236072E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.362950E+02    0.219570E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.382333E+02    0.205839E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.404210E+02    0.201217E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.424000E+02    0.205916E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.436017E+02    0.218856E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.437919E+02    0.235800E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.427485E+02    0.253444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.408433E+02    0.266394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.387522E+02    0.270047E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.366451E+02    0.294819E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.336876E+02    0.280538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.323902E+02    0.253844E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.329250E+02    0.223056E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137791E+03   -0.351348E+02    0.196425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.385859E+02    0.179845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.425490E+02    0.176919E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.458066E+02    0.190134E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.473399E+02    0.216316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.468702E+02    0.247216E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.440431E+02    0.277594E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.403619E+02    0.294377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691175.986558190     
  ps_ts2 prof sum =   690764.727414755     
  trcom prof sum =    690764.727414755     
  ps_ts2 cur sum  =   10311.6865813711     
  trcom cur sum  =    10311.6865813711     
  
  antenna # iant =            2
  powecha_use(iant) =    665029.759156144     
  ps_ts2 prof sum =   664627.766528673     
  trcom prof sum =    664627.766528672     
  ps_ts2 cur sum  =   12321.6240898559     
  trcom cur sum  =    12321.6240898559     
  
  antenna # iant =            3
  powecha_use(iant) =    531666.706792340     
  ps_ts2 prof sum =   531363.126131841     
  trcom prof sum =    531363.126131841     
  ps_ts2 cur sum  =   6717.85939174186     
  trcom cur sum  =    6717.85939174187     
  
  antenna # iant =            4
  powecha_use(iant) =    562558.984938415     
  ps_ts2 prof sum =   562238.270345732     
  trcom prof sum =    562238.270345732     
  ps_ts2 cur sum  =   9352.57861412077     
  trcom cur sum  =    9352.57861412076     
  
  antenna # iant =            5
  powecha_use(iant) =    554683.672121610     
  ps_ts2 prof sum =   554350.827660454     
  trcom prof sum =    554350.827660454     
  ps_ts2 cur sum  =   11463.4789840442     
  trcom cur sum  =    11463.4789840442     
  
  Total ECH heating:      3003344.71808145     
  Total Current Drive:    50167.2276611339     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3491
 TA= 3.77500E+00 CPU TIME= 1.59956E-01 SECONDS.  DT= 6.13499E-04
  
 TEC1=    3.77499999999994     
 TEC2=    3.77999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.66312749999952     
  %check_save_state: izleft hours =    70.3283333333333     
 --> plasma_hash("gframe"): TA= 3.775000E+00 NSTEP=  3491 Hash code:   98142815
 ->PRGCHK: bdy curvature ratio at t= 3.7800E+00 seconds is:  5.6752E-02
% MHDEQ: TG1=     3.775000 ; TG2=     3.780000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7651E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6752E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.775000 TO TG2=    3.780000 @ NSTEP     3491
   GFRAME TG2 MOMENTS CHECKSUM:  2.4564853072350D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.81792E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.68191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.52425E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.30242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.61224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.51462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.20908E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.50982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.62424E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.58403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.09173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.31330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.95991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.32970E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.52251E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.46481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.81715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.81715E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7800E+00  3.7850E+00 total power(Watts):  3.0144E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.78000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.383498E+02    0.383552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.363349E+02    0.384846E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.377948E+02    0.367771E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.400831E+02    0.372240E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.400748E+02    0.392157E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.376980E+02    0.400054E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.357415E+02    0.411722E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.344369E+02    0.398684E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.342985E+02    0.381276E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.353125E+02    0.364018E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.370676E+02    0.352218E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.391412E+02    0.348981E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.410906E+02    0.354802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.424734E+02    0.367794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.426234E+02    0.385827E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.416550E+02    0.403150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.398376E+02    0.414897E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.376467E+02    0.418032E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.357036E+02    0.441084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.327009E+02    0.424838E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137987E+03   -0.313769E+02    0.397446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.317872E+02    0.367402E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.341120E+02    0.340068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.374661E+02    0.324821E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.411944E+02    0.324879E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.446265E+02    0.339176E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.463246E+02    0.366879E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.457787E+02    0.399800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.432258E+02    0.427997E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.393987E+02    0.443092E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.393048E+02    0.297302E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.372808E+02    0.299221E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.388300E+02    0.281261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.411382E+02    0.284934E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.410489E+02    0.304931E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.386709E+02    0.313493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.366181E+02    0.326115E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.354841E+02    0.312821E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.353230E+02    0.295802E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.361306E+02    0.279743E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.380786E+02    0.266004E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.401620E+02    0.262292E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.421296E+02    0.267459E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.434250E+02    0.280358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.435996E+02    0.297905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.426502E+02    0.314948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.407335E+02    0.327562E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.385393E+02    0.331504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.365152E+02    0.355480E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.335766E+02    0.340211E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.322166E+02    0.313906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.327731E+02    0.282872E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.350876E+02    0.254853E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.385479E+02    0.238303E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.423051E+02    0.237482E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.455469E+02    0.251546E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.474012E+02    0.277137E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133995E+03   -0.467847E+02    0.309725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.441497E+02    0.338511E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.402217E+02    0.355928E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.383628E+02    0.439510E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.363501E+02    0.440196E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.378197E+02    0.423314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.401084E+02    0.428589E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.400844E+02    0.448722E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.376989E+02    0.455740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.357314E+02    0.466627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.344349E+02    0.453281E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.344045E+02    0.435557E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.351411E+02    0.419696E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.370027E+02    0.407662E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.390786E+02    0.404842E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.411330E+02    0.410878E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.423960E+02    0.425228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.426454E+02    0.443223E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.416589E+02    0.460137E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.398308E+02    0.471082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.376333E+02    0.473446E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.356718E+02    0.496075E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.326798E+02    0.478554E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.313767E+02    0.451248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.318053E+02    0.421156E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.340588E+02    0.394555E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.374229E+02    0.379885E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.411533E+02    0.380831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.444620E+02    0.397059E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.463703E+02    0.425411E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133418E+03   -0.457956E+02    0.458503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.431023E+02    0.485660E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.394756E+02    0.499090E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.387586E+02    0.343180E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.367393E+02    0.344813E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.381941E+02    0.327535E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.404901E+02    0.331590E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.403855E+02    0.351940E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.381152E+02    0.359604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.359624E+02    0.372462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.349398E+02    0.358344E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.347906E+02    0.341015E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.357026E+02    0.324183E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.374558E+02    0.312213E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.395319E+02    0.308757E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.415968E+02    0.313532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.427699E+02    0.327326E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.430425E+02    0.344609E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.419730E+02    0.362402E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.401626E+02    0.374176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.379758E+02    0.377692E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.360390E+02    0.400969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.330235E+02    0.385436E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.316851E+02    0.358772E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.321683E+02    0.328197E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.344858E+02    0.300717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.378392E+02    0.285226E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.416818E+02    0.284087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.449045E+02    0.298822E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.467364E+02    0.324956E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.459783E+02    0.358621E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.434479E+02    0.386583E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.397387E+02    0.402209E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.395127E+02    0.235995E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.374827E+02    0.238224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.389207E+02    0.221182E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.412341E+02    0.224345E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.411607E+02    0.243881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.387879E+02    0.252827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.367430E+02    0.265840E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.355010E+02    0.253578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.353281E+02    0.236821E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.364097E+02    0.218647E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.380592E+02    0.207475E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.403416E+02    0.201994E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.423177E+02    0.206678E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.436251E+02    0.218800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.437060E+02    0.236523E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.427710E+02    0.253415E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.408647E+02    0.266394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.386711E+02    0.270798E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.366644E+02    0.294842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.336159E+02    0.281284E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.324078E+02    0.253784E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.328563E+02    0.223827E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.352455E+02    0.195459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.387039E+02    0.178878E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.425721E+02    0.176839E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.457200E+02    0.190900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.474794E+02    0.215492E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.468945E+02    0.247190E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.440654E+02    0.277633E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.403782E+02    0.294427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    693412.563679059     
  ps_ts2 prof sum =   693020.676839521     
  trcom prof sum =    693020.676839521     
  ps_ts2 cur sum  =   10371.8827755149     
  trcom cur sum  =    10371.8827755149     
  
  antenna # iant =            2
  powecha_use(iant) =    665300.143566186     
  ps_ts2 prof sum =   664932.461852369     
  trcom prof sum =    664932.461852369     
  ps_ts2 cur sum  =   12350.0609268281     
  trcom cur sum  =    12350.0609268281     
  
  antenna # iant =            3
  powecha_use(iant) =    532906.417844902     
  ps_ts2 prof sum =   532566.299863690     
  trcom prof sum =    532566.299863691     
  ps_ts2 cur sum  =   6753.02383449211     
  trcom cur sum  =    6753.02383449212     
  
  antenna # iant =            4
  powecha_use(iant) =    567474.305449088     
  ps_ts2 prof sum =   567140.699313467     
  trcom prof sum =    567140.699313467     
  ps_ts2 cur sum  =   9454.48994412924     
  trcom cur sum  =    9454.48994412923     
  
  antenna # iant =            5
  powecha_use(iant) =    555264.690571123     
  ps_ts2 prof sum =   554961.495063510     
  trcom prof sum =    554961.495063510     
  ps_ts2 cur sum  =   11494.1582017773     
  trcom cur sum  =    11494.1582017773     
  
  Total ECH heating:      3012621.63293256     
  Total Current Drive:    50423.6156827417     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3496
 TA= 3.78000E+00 CPU TIME= 1.59586E-01 SECONDS.  DT= 1.82849E-03
  
 TEC1=    3.77999999999994     
 TEC2=    3.78499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.67654249999941     
  %check_save_state: izleft hours =    70.3150000000000     
 --> plasma_hash("gframe"): TA= 3.780000E+00 NSTEP=  3496 Hash code:    6915871
 ->PRGCHK: bdy curvature ratio at t= 3.7850E+00 seconds is:  5.6830E-02
% MHDEQ: TG1=     3.780000 ; TG2=     3.785000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7660E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6830E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.780000 TO TG2=    3.785000 @ NSTEP     3496
   GFRAME TG2 MOMENTS CHECKSUM:  2.4562295645084D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   5.000001692678779E-006
 EC call, timestep(sec):  3.7850E+00  3.7900E+00 total power(Watts):  3.0149E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.78500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.383684E+02    0.383603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.363528E+02    0.384887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.378138E+02    0.367812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.401027E+02    0.372301E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.399873E+02    0.392686E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.377167E+02    0.400080E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.357591E+02    0.411715E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.345501E+02    0.398203E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.344105E+02    0.380775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.351358E+02    0.365210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.369863E+02    0.352834E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.391602E+02    0.349019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.411106E+02    0.354848E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.423827E+02    0.368385E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.425321E+02    0.386377E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.415648E+02    0.403640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.397502E+02    0.415325E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.376651E+02    0.418018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.356248E+02    0.441468E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.328096E+02    0.424369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138174E+03   -0.313054E+02    0.397958E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.317992E+02    0.367451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.339399E+02    0.341358E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.374846E+02    0.324845E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.412159E+02    0.324914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.444196E+02    0.340383E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133959E+03   -0.462291E+02    0.367469E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.455663E+02    0.400729E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.430203E+02    0.428763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.393113E+02    0.443477E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.393247E+02    0.297364E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.372999E+02    0.299267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.387480E+02    0.282047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.410527E+02    0.285709E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.409625E+02    0.305664E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.385874E+02    0.314201E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.366365E+02    0.326139E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.353099E+02    0.314220E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.353412E+02    0.295841E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.362467E+02    0.279046E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.379983E+02    0.266784E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.401831E+02    0.262317E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.421514E+02    0.267508E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.434469E+02    0.280437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.436210E+02    0.297984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.425622E+02    0.315637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.407548E+02    0.327585E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.385584E+02    0.331531E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.365340E+02    0.355503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.335006E+02    0.340858E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.322333E+02    0.313922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.327038E+02    0.283643E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.349225E+02    0.256418E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.384684E+02    0.239073E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.423278E+02    0.237475E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.455706E+02    0.251571E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.473077E+02    0.277915E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.466905E+02    0.310430E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.439445E+02    0.339727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.402368E+02    0.355982E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.383815E+02    0.439518E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.363624E+02    0.440218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.377352E+02    0.423716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.400202E+02    0.428970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.399959E+02    0.449104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.377169E+02    0.455785E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.357495E+02    0.466677E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.345484E+02    0.452970E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.342294E+02    0.436352E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.352563E+02    0.419233E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.369192E+02    0.408150E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.390974E+02    0.404869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.410435E+02    0.411329E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.424161E+02    0.425221E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.427760E+02    0.442910E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.416792E+02    0.460196E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.397424E+02    0.471437E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.376519E+02    0.473500E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.356891E+02    0.496090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.326958E+02    0.478584E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.313024E+02    0.451643E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.317279E+02    0.421584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.338858E+02    0.395597E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.374382E+02    0.379940E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.411733E+02    0.380891E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.445981E+02    0.396672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133530E+03   -0.462738E+02    0.425786E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133376E+03   -0.458168E+02    0.458585E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134088E+03   -0.432360E+02    0.485486E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.393879E+02    0.499323E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.387780E+02    0.343206E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.367586E+02    0.344828E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.382130E+02    0.327563E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.405097E+02    0.331632E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.404089E+02    0.351963E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.380314E+02    0.360216E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.360788E+02    0.371948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.347647E+02    0.359556E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.346166E+02    0.342291E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.355271E+02    0.325523E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.373747E+02    0.312924E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.395518E+02    0.308808E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.415093E+02    0.314225E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.427910E+02    0.327364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.429518E+02    0.345234E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.419933E+02    0.362452E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.401820E+02    0.374235E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.379904E+02    0.377757E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.359577E+02    0.401474E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.330398E+02    0.385467E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.317012E+02    0.358787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.321848E+02    0.328202E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.343161E+02    0.302184E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.378587E+02    0.285282E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.415954E+02    0.284861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.450406E+02    0.298243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.466422E+02    0.325601E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.461176E+02    0.358160E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.433555E+02    0.387138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.396522E+02    0.402693E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.395339E+02    0.235978E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.374048E+02    0.239017E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.389437E+02    0.221160E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.412558E+02    0.224334E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.410779E+02    0.244656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.388086E+02    0.252826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.367623E+02    0.265858E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137817E+03   -0.354249E+02    0.254356E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.353478E+02    0.236790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.362411E+02    0.220319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.381809E+02    0.206597E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.403642E+02    0.202002E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.423413E+02    0.206692E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.436491E+02    0.218795E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.437302E+02    0.236511E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.426808E+02    0.254211E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.407806E+02    0.267172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.386913E+02    0.270842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.365852E+02    0.295606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.336320E+02    0.281339E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.323394E+02    0.254571E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.328748E+02    0.223791E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.350821E+02    0.197208E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.387261E+02    0.178854E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.424920E+02    0.177698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.457452E+02    0.190923E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.472763E+02    0.217063E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.466891E+02    0.248684E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.439761E+02    0.278416E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.402933E+02    0.295184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690286.772282099     
  ps_ts2 prof sum =   689881.594162270     
  trcom prof sum =    689881.594162270     
  ps_ts2 cur sum  =   10349.8834524184     
  trcom cur sum  =    10349.8834524184     
  
  antenna # iant =            2
  powecha_use(iant) =    667253.377424384     
  ps_ts2 prof sum =   666868.990073540     
  trcom prof sum =    666868.990073540     
  ps_ts2 cur sum  =   12408.7683572994     
  trcom cur sum  =    12408.7683572994     
  
  antenna # iant =            3
  powecha_use(iant) =    532657.149082625     
  ps_ts2 prof sum =   532342.411017766     
  trcom prof sum =    532342.411017767     
  ps_ts2 cur sum  =   6767.51865660589     
  trcom cur sum  =    6767.51865660589     
  
  antenna # iant =            4
  powecha_use(iant) =    569987.668606220     
  ps_ts2 prof sum =   569647.721311049     
  trcom prof sum =    569647.721311048     
  ps_ts2 cur sum  =   9517.24737116420     
  trcom cur sum  =    9517.24737116419     
  
  antenna # iant =            5
  powecha_use(iant) =    554732.567488360     
  ps_ts2 prof sum =   554406.980275589     
  trcom prof sum =    554406.980275590     
  ps_ts2 cur sum  =   11502.5480444675     
  trcom cur sum  =    11502.5480444675     
  
  Total ECH heating:      3013147.69684022     
  Total Current Drive:    50545.9658819553     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3499
 TA= 3.78500E+00 CPU TIME= 1.72157E-01 SECONDS.  DT= 1.10737E-03
  
 TEC1=    3.78499999999994     
 TEC2=    3.78999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.69171055555535     
  %check_save_state: izleft hours =    70.2997222222222     
 --> plasma_hash("gframe"): TA= 3.785000E+00 NSTEP=  3499 Hash code:   31899720
 ->PRGCHK: bdy curvature ratio at t= 3.7900E+00 seconds is:  5.6909E-02
% MHDEQ: TG1=     3.785000 ; TG2=     3.790000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6909E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.785000 TO TG2=    3.790000 @ NSTEP     3499
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559738217819D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.57816E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.46984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.20639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.85924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.32867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.28759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.64140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.47955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.80195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.03629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.82330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -2.47819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.99755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.39431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.68287E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.11672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.78031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.52858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.96371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.96371E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.7900E+00  3.7950E+00 total power(Watts):  3.0014E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.79000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.382832E+02    0.384165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.363704E+02    0.384930E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.377299E+02    0.368413E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.400152E+02    0.372885E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.400060E+02    0.392742E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.376320E+02    0.400593E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.356776E+02    0.412164E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.343697E+02    0.399250E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.342367E+02    0.381891E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.352510E+02    0.364658E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.370045E+02    0.352856E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.390752E+02    0.349630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.410220E+02    0.355453E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.424028E+02    0.368448E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.425517E+02    0.386446E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.415842E+02    0.403676E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.397690E+02    0.415323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.375804E+02    0.418438E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.356387E+02    0.441493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.326403E+02    0.425216E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.313205E+02    0.397978E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.317294E+02    0.368033E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.340557E+02    0.340697E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.374031E+02    0.325505E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.411288E+02    0.325558E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.445553E+02    0.339844E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133917E+03   -0.462506E+02    0.367550E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.457047E+02    0.400354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.431533E+02    0.428381E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.393292E+02    0.443505E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.393447E+02    0.297397E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.372193E+02    0.299997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.387677E+02    0.282075E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.410735E+02    0.285754E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.409816E+02    0.305713E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.386055E+02    0.314229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.364572E+02    0.327451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.354241E+02    0.313546E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.351685E+02    0.297307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.360721E+02    0.280559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.380186E+02    0.266777E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.401001E+02    0.263063E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.420652E+02    0.268250E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.433582E+02    0.281187E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.435315E+02    0.298701E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.425826E+02    0.315679E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.406674E+02    0.328240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.384744E+02    0.332180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.364525E+02    0.356118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.335175E+02    0.340856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.321601E+02    0.314626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.327170E+02    0.283677E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.350313E+02    0.255597E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.384898E+02    0.239017E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.422433E+02    0.238201E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.454810E+02    0.252292E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134051E+03   -0.473312E+02    0.277976E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.467137E+02    0.310482E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.440790E+02    0.339184E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.402609E+02    0.356006E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.382949E+02    0.439906E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.362792E+02    0.440616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.377530E+02    0.423695E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.400390E+02    0.428967E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.400141E+02    0.449147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.376309E+02    0.456178E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.356663E+02    0.467052E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.343716E+02    0.453717E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.343415E+02    0.435946E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.350778E+02    0.420093E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.369373E+02    0.408140E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.390105E+02    0.405352E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.410629E+02    0.411340E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.423239E+02    0.425607E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.425706E+02    0.443632E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.415876E+02    0.460562E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.397600E+02    0.471501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.375662E+02    0.473836E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.356066E+02    0.496325E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.326184E+02    0.478899E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.313173E+02    0.451675E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.317460E+02    0.421546E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.339972E+02    0.395114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.373574E+02    0.380511E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.410836E+02    0.381458E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.443886E+02    0.397623E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.462949E+02    0.425797E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133554E+03   -0.457193E+02    0.458941E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.430281E+02    0.486009E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.394060E+02    0.499338E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.386934E+02    0.343827E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.366760E+02    0.345459E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.381299E+02    0.328216E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.404228E+02    0.332272E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.403176E+02    0.352593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.380498E+02    0.360249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.360968E+02    0.371988E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.348787E+02    0.358987E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.347297E+02    0.341668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.356416E+02    0.324871E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.373935E+02    0.312943E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.394657E+02    0.309521E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.415296E+02    0.314264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.427012E+02    0.328013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.429727E+02    0.345264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.419031E+02    0.363059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.400944E+02    0.374813E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.379059E+02    0.378335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.359749E+02    0.401502E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.329634E+02    0.386033E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.316269E+02    0.359412E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.321109E+02    0.328876E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.344275E+02    0.301487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.378780E+02    0.285314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.416166E+02    0.284911E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.448349E+02    0.299622E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.466644E+02    0.325649E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.459047E+02    0.359296E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.433758E+02    0.387203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.396708E+02    0.402725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.394535E+02    0.236727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.374265E+02    0.238948E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.389631E+02    0.221131E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.411747E+02    0.225093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.410994E+02    0.244610E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.387280E+02    0.253565E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.366837E+02    0.266629E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.354443E+02    0.254318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.352721E+02    0.237541E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.362610E+02    0.220273E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.380047E+02    0.208295E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.402848E+02    0.202852E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.422576E+02    0.207518E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.435642E+02    0.219566E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.437522E+02    0.236476E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.427074E+02    0.254160E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.408072E+02    0.267149E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.386099E+02    0.271603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.366038E+02    0.295635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.337404E+02    0.280589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.323549E+02    0.254512E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.328054E+02    0.224590E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.351029E+02    0.197201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.386504E+02    0.179748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.425154E+02    0.177714E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.456641E+02    0.191752E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.474156E+02    0.216284E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.468280E+02    0.247937E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.439983E+02    0.278464E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.403136E+02    0.295230E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685659.652747971     
  ps_ts2 prof sum =   685264.290161615     
  trcom prof sum =    685264.290161616     
  ps_ts2 cur sum  =   10314.1740989413     
  trcom cur sum  =    10314.1740989412     
  
  antenna # iant =            2
  powecha_use(iant) =    664678.973306854     
  ps_ts2 prof sum =   664290.687987123     
  trcom prof sum =    664290.687987123     
  ps_ts2 cur sum  =   12397.5912859333     
  trcom cur sum  =    12397.5912859333     
  
  antenna # iant =            3
  powecha_use(iant) =    531006.130721916     
  ps_ts2 prof sum =   530660.054801177     
  trcom prof sum =    530660.054801177     
  ps_ts2 cur sum  =   6768.61497269733     
  trcom cur sum  =    6768.61497269733     
  
  antenna # iant =            4
  powecha_use(iant) =    564594.773786923     
  ps_ts2 prof sum =   564272.122521546     
  trcom prof sum =    564272.122489203     
  ps_ts2 cur sum  =   9457.43753941166     
  trcom cur sum  =    9457.43753941165     
  
  antenna # iant =            5
  powecha_use(iant) =    555492.559841006     
  ps_ts2 prof sum =   555188.833423832     
  trcom prof sum =    555188.833423832     
  ps_ts2 cur sum  =   11547.3441586178     
  trcom cur sum  =    11547.3441586178     
  
  Total ECH heating:      2999675.98886295     
  Total Current Drive:    50485.1620556012     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3503
 TA= 3.79000E+00 CPU TIME= 1.59396E-01 SECONDS.  DT= 9.72687E-04
  
 TEC1=    3.78999999999994     
 TEC2=    3.79499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.70860833333290     
  %check_save_state: izleft hours =    70.2830555555555     
 --> plasma_hash("gframe"): TA= 3.790000E+00 NSTEP=  3503 Hash code:  107679662
 ->PRGCHK: bdy curvature ratio at t= 3.7950E+00 seconds is:  5.6990E-02
% MHDEQ: TG1=     3.790000 ; TG2=     3.795000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7679E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6990E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.790000 TO TG2=    3.795000 @ NSTEP     3503
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557180790553D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.7950E+00  3.8000E+00 total power(Watts):  2.9843E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.79500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.383025E+02    0.384227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.362892E+02    0.385502E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.377486E+02    0.368479E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.400353E+02    0.372961E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.399186E+02    0.393289E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.376508E+02    0.400624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.356956E+02    0.412157E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.344885E+02    0.398755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.343496E+02    0.381399E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.350746E+02    0.365856E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.369231E+02    0.353491E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.390959E+02    0.349664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.410430E+02    0.355507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.423130E+02    0.369046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.424614E+02    0.387011E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.414945E+02    0.404167E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.396816E+02    0.415758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.375990E+02    0.418430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.355574E+02    0.441896E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.327498E+02    0.424752E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.313366E+02    0.397996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.317456E+02    0.368076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.338824E+02    0.342008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.374232E+02    0.325541E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.411490E+02    0.325624E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.443493E+02    0.341072E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.461554E+02    0.368161E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.456095E+02    0.400860E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.429472E+02    0.429144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.392422E+02    0.443897E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.392621E+02    0.298154E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.372393E+02    0.300065E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.386867E+02    0.282865E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.409891E+02    0.286537E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.408965E+02    0.306453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.385249E+02    0.314934E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.365761E+02    0.326820E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.352502E+02    0.314958E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.352830E+02    0.296644E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.361880E+02    0.279865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.379393E+02    0.267565E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.401219E+02    0.263081E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.420880E+02    0.268294E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.433810E+02    0.281274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.435540E+02    0.298797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.424945E+02    0.316386E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.406884E+02    0.328295E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.384941E+02    0.332222E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.364712E+02    0.356161E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.334422E+02    0.341517E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.321775E+02    0.314655E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.326454E+02    0.284474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.348645E+02    0.257151E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.384124E+02    0.239755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.422724E+02    0.238121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.456190E+02    0.251548E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.472387E+02    0.278765E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.466204E+02    0.311205E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135219E+03   -0.438747E+02    0.340410E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.401745E+02    0.356629E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.383135E+02    0.439931E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.362967E+02    0.440636E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.376688E+02    0.424106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.399511E+02    0.429360E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.399269E+02    0.449546E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.376489E+02    0.456245E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.356834E+02    0.467113E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.344846E+02    0.453413E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.341664E+02    0.436753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.351931E+02    0.419634E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.369559E+02    0.408149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.390303E+02    0.405374E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.409737E+02    0.411788E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.423446E+02    0.425607E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.427032E+02    0.443334E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.416063E+02    0.460658E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.397796E+02    0.471561E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.375841E+02    0.473889E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.356238E+02    0.496345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.326355E+02    0.478921E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.312429E+02    0.452084E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.316718E+02    0.421967E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.338282E+02    0.396151E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.373762E+02    0.380571E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.411042E+02    0.381533E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.445254E+02    0.397248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133666E+03   -0.461984E+02    0.426188E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133511E+03   -0.457412E+02    0.459037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.431619E+02    0.485827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.393178E+02    0.499586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.387134E+02    0.343862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.366953E+02    0.345484E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.381501E+02    0.328254E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.403370E+02    0.332940E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.403382E+02    0.352637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.379669E+02    0.360872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.360161E+02    0.372596E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.347046E+02    0.360205E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.345571E+02    0.342947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.354672E+02    0.326215E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.373120E+02    0.313674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.394882E+02    0.309569E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.414431E+02    0.314975E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.427233E+02    0.328067E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.428828E+02    0.345899E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.419241E+02    0.363127E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.401145E+02    0.374884E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.379249E+02    0.378400E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.358940E+02    0.402002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.329810E+02    0.386068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.316434E+02    0.359441E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.321287E+02    0.328887E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.342585E+02    0.302953E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.377981E+02    0.286103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.415313E+02    0.285690E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.447446E+02    0.300372E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.465707E+02    0.326328E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.460447E+02    0.358850E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.432842E+02    0.387762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.395843E+02    0.403219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.394763E+02    0.236663E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.373503E+02    0.239685E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.388874E+02    0.221896E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.411986E+02    0.225040E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.410176E+02    0.245339E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.387497E+02    0.253535E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.367042E+02    0.266637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.355592E+02    0.253473E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.352940E+02    0.237464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137835E+03   -0.361852E+02    0.221082E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.381247E+02    0.207425E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.403070E+02    0.202851E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.422832E+02    0.207505E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.434828E+02    0.220315E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.436676E+02    0.237203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.426226E+02    0.254900E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.407183E+02    0.267963E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.386308E+02    0.271651E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.365255E+02    0.296400E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.335758E+02    0.282145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.322869E+02    0.255276E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.328253E+02    0.224522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.350324E+02    0.198077E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.384792E+02    0.181517E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.424363E+02    0.178596E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.456867E+02    0.191813E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.472139E+02    0.217814E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.467385E+02    0.248671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.439098E+02    0.279248E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.402294E+02    0.296003E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673349.246831612     
  ps_ts2 prof sum =   672966.426076925     
  trcom prof sum =    672966.426076925     
  ps_ts2 cur sum  =   10164.2079213563     
  trcom cur sum  =    10164.2079213563     
  
  antenna # iant =            2
  powecha_use(iant) =    663428.592516752     
  ps_ts2 prof sum =   663055.704280406     
  trcom prof sum =    663055.704280405     
  ps_ts2 cur sum  =   12413.7713591613     
  trcom cur sum  =    12413.7713591613     
  
  antenna # iant =            3
  powecha_use(iant) =    529954.106268228     
  ps_ts2 prof sum =   529641.773321398     
  trcom prof sum =    529641.773321398     
  ps_ts2 cur sum  =   6780.03111140171     
  trcom cur sum  =    6780.03111140172     
  
  antenna # iant =            4
  powecha_use(iant) =    562652.090390121     
  ps_ts2 prof sum =   562299.611667662     
  trcom prof sum =    562299.611638586     
  ps_ts2 cur sum  =   9456.37107961025     
  trcom cur sum  =    9456.37107961024     
  
  antenna # iant =            5
  powecha_use(iant) =    554873.056784391     
  ps_ts2 prof sum =   554554.254113721     
  trcom prof sum =    554554.254113721     
  ps_ts2 cur sum  =   11570.1719364905     
  trcom cur sum  =    11570.1719364905     
  
  Total ECH heating:      2982517.76943104     
  Total Current Drive:    50384.5534080201     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3507
 TA= 3.79500E+00 CPU TIME= 1.68171E-01 SECONDS.  DT= 1.61454E-03
  
 TEC1=    3.79499999999994     
 TEC2=    3.79999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.72118388888839     
  %check_save_state: izleft hours =    70.2702777777778     
 --> plasma_hash("gframe"): TA= 3.795000E+00 NSTEP=  3507 Hash code:    6837783
 ->PRGCHK: bdy curvature ratio at t= 3.8000E+00 seconds is:  5.7071E-02
% MHDEQ: TG1=     3.795000 ; TG2=     3.800000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7689E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7071E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.795000 TO TG2=    3.800000 @ NSTEP     3507
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554623363288D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.29794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.22196E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.83490E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.22706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.67549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.43856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -5.00624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.23234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.05596E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  4.74936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.88746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.48900E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34886E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.52784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.18988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.25038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60313E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.51548E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.51548E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8000E+00  3.8050E+00 total power(Watts):  2.9826E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.80000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.382178E+02    0.384796E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.363073E+02    0.385557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.376655E+02    0.369071E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.399480E+02    0.373550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.399376E+02    0.393349E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.375669E+02    0.401123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.356149E+02    0.412601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.343134E+02    0.399768E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.341758E+02    0.382521E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.351895E+02    0.365315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.369420E+02    0.353505E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.390085E+02    0.350280E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.409548E+02    0.356108E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.422223E+02    0.369653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.424824E+02    0.387075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.415148E+02    0.404195E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.397010E+02    0.415747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.375148E+02    0.418844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.355744E+02    0.441924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.325809E+02    0.425605E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.312630E+02    0.398517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138207E+03   -0.317609E+02    0.368109E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.339940E+02    0.341351E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.373421E+02    0.326150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.410625E+02    0.326223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.444857E+02    0.340495E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134050E+03   -0.461777E+02    0.368242E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.456313E+02    0.400915E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.428555E+02    0.429530E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.392610E+02    0.443938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.391777E+02    0.298841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.370535E+02    0.301469E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.387028E+02    0.282878E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.410094E+02    0.286527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.409188E+02    0.306418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.385448E+02    0.314903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.363970E+02    0.328085E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.353634E+02    0.314236E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.351112E+02    0.298032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.360140E+02    0.281320E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.379597E+02    0.267553E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.400398E+02    0.263818E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.420029E+02    0.269030E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.432935E+02    0.281974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.434653E+02    0.299445E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.425126E+02    0.316380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.406018E+02    0.328904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.384112E+02    0.332823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.363901E+02    0.356768E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.334597E+02    0.341485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.321059E+02    0.315298E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.326635E+02    0.284440E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.349777E+02    0.256313E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.384334E+02    0.239714E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.421832E+02    0.238903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.454168E+02    0.253021E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134603E+03   -0.470297E+02    0.280124E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134260E+03   -0.466443E+02    0.311189E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.440105E+02    0.339833E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.401942E+02    0.356664E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.382276E+02    0.440328E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.362140E+02    0.441041E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.376872E+02    0.424090E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.399703E+02    0.429355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.399445E+02    0.449603E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.375627E+02    0.456653E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.356014E+02    0.467479E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.343075E+02    0.454181E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.342789E+02    0.436360E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.350151E+02    0.420490E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.368731E+02    0.408612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.389433E+02    0.405851E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.409937E+02    0.411791E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.422530E+02    0.425998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.424981E+02    0.444079E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.415159E+02    0.461034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.396910E+02    0.471909E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.374992E+02    0.474227E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.356404E+02    0.496361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.327432E+02    0.478652E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.312573E+02    0.452136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.316877E+02    0.421935E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.339371E+02    0.395675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.372930E+02    0.381150E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.410150E+02    0.382106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.443164E+02    0.398205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133626E+03   -0.462206E+02    0.426191E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.456441E+02    0.459433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.429550E+02    0.486341E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.393363E+02    0.499605E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.386294E+02    0.344464E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.366146E+02    0.346087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.380673E+02    0.328871E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.403577E+02    0.332924E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.402510E+02    0.353241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.379803E+02    0.360932E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.360335E+02    0.372649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.348177E+02    0.359637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.346703E+02    0.342296E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.355828E+02    0.325512E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.373327E+02    0.313632E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.394044E+02    0.310207E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.413565E+02    0.315597E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.426345E+02    0.328660E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.429045E+02    0.345915E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.418346E+02    0.363721E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.400270E+02    0.375476E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.378408E+02    0.378987E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.359116E+02    0.402019E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.329046E+02    0.386641E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138475E+03   -0.315703E+02    0.360053E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.320555E+02    0.329518E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.343709E+02    0.302203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.378184E+02    0.286078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.415521E+02    0.285687E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.447678E+02    0.300361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134177E+03   -0.465940E+02    0.326325E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.459498E+02    0.359443E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.434183E+02    0.387353E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.396036E+02    0.403246E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.393963E+02    0.237424E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.373710E+02    0.239646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.388090E+02    0.222678E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.411168E+02    0.225809E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.410399E+02    0.245312E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.386702E+02    0.254284E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.366268E+02    0.267386E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.353897E+02    0.255030E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.352200E+02    0.238238E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.363014E+02    0.220174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.379491E+02    0.209080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.402287E+02    0.203646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.422010E+02    0.208295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.435046E+02    0.220300E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.435820E+02    0.237945E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.426456E+02    0.254889E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.407402E+02    0.267958E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.385504E+02    0.272384E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.365452E+02    0.296363E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.336860E+02    0.281358E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138480E+03   -0.323047E+02    0.255235E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.327559E+02    0.225319E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.351432E+02    0.197143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.385976E+02    0.180586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.424585E+02    0.178553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.456008E+02    0.192609E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.473533E+02    0.217030E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.465337E+02    0.250123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.439333E+02    0.279245E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.402508E+02    0.295978E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666008.567425147     
  ps_ts2 prof sum =   665618.503223107     
  trcom prof sum =    665618.503223107     
  ps_ts2 cur sum  =   10087.9853830145     
  trcom cur sum  =    10087.9853830145     
  
  antenna # iant =            2
  powecha_use(iant) =    665461.429116213     
  ps_ts2 prof sum =   665054.458961941     
  trcom prof sum =    665054.458961940     
  ps_ts2 cur sum  =   12489.3599381353     
  trcom cur sum  =    12489.3599381353     
  
  antenna # iant =            3
  powecha_use(iant) =    530808.031535442     
  ps_ts2 prof sum =   530477.243400380     
  trcom prof sum =    530477.243400380     
  ps_ts2 cur sum  =   6814.17904869454     
  trcom cur sum  =    6814.17904869455     
  
  antenna # iant =            4
  powecha_use(iant) =    566369.854195274     
  ps_ts2 prof sum =   566058.529389957     
  trcom prof sum =    566058.529389956     
  ps_ts2 cur sum  =   9549.37801456769     
  trcom cur sum  =    9549.37801456768     
  
  antenna # iant =            5
  powecha_use(iant) =    553925.950729494     
  ps_ts2 prof sum =   553630.754227012     
  trcom prof sum =    553630.754227012     
  ps_ts2 cur sum  =   11581.1205032920     
  trcom cur sum  =    11581.1205032920     
  
  Total ECH heating:      2980839.48920240     
  Total Current Drive:    50522.0228877040     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3510
 TA= 3.80000E+00 CPU TIME= 1.59751E-01 SECONDS.  DT= 1.70911E-03
  
 TEC1=    3.79999999999994     
 TEC2=    3.80499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.73391805555502     
  %check_save_state: izleft hours =    70.2577777777778     
 --> plasma_hash("gframe"): TA= 3.800000E+00 NSTEP=  3510 Hash code:   99728254
 ->PRGCHK: bdy curvature ratio at t= 3.8050E+00 seconds is:  5.7155E-02
% MHDEQ: TG1=     3.800000 ; TG2=     3.805000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7698E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7155E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.800000 TO TG2=    3.805000 @ NSTEP     3510
   GFRAME TG2 MOMENTS CHECKSUM:  2.4552065936022D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8050E+00  3.8100E+00 total power(Watts):  2.9828E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.80500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.382360E+02    0.384854E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.362255E+02    0.386120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.376833E+02    0.369129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.399669E+02    0.373614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.398515E+02    0.393860E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.375848E+02    0.401143E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.356320E+02    0.412583E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.344259E+02    0.399290E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.342882E+02    0.382028E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.350114E+02    0.366506E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.368594E+02    0.354104E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.390289E+02    0.350282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.409746E+02    0.356140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.422424E+02    0.369716E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.423904E+02    0.387631E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.414241E+02    0.404666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.396129E+02    0.416165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.375327E+02    0.418824E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.353936E+02    0.442705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.325966E+02    0.425574E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.312780E+02    0.398534E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.316873E+02    0.368716E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.338231E+02    0.342583E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.373603E+02    0.326115E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.410829E+02    0.326193E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.442788E+02    0.341645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134224E+03   -0.460814E+02    0.368832E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134211E+03   -0.455322E+02    0.401403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.428755E+02    0.429526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.391728E+02    0.444336E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.392001E+02    0.298769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.371794E+02    0.300670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.386263E+02    0.283550E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.409261E+02    0.287204E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.408329E+02    0.307031E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.384618E+02    0.315507E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.365135E+02    0.327395E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.353843E+02    0.314160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.352253E+02    0.297258E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.361307E+02    0.280567E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.378802E+02    0.268333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.400607E+02    0.263864E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.420252E+02    0.269065E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.433153E+02    0.281977E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.434840E+02    0.299424E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.424277E+02    0.316953E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.406213E+02    0.328862E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.384303E+02    0.332789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.364079E+02    0.356784E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.335696E+02    0.340814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.321228E+02    0.315224E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.325915E+02    0.285159E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.348098E+02    0.257933E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.383543E+02    0.240571E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.422061E+02    0.238972E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.455537E+02    0.252368E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.471705E+02    0.279472E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.465504E+02    0.311785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.438051E+02    0.340990E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.401070E+02    0.357263E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.382455E+02    0.440352E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.362310E+02    0.441066E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.376021E+02    0.424486E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.398815E+02    0.429738E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.398547E+02    0.450012E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.375848E+02    0.456700E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.356177E+02    0.467527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.344204E+02    0.453875E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.342951E+02    0.436365E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.351296E+02    0.420023E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.368908E+02    0.408606E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.389625E+02    0.405856E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.409036E+02    0.412223E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.422694E+02    0.426000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.426297E+02    0.443780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.415347E+02    0.461114E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.397092E+02    0.471970E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.375171E+02    0.474259E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.355579E+02    0.496597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.325730E+02    0.479253E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.311876E+02    0.452524E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.317032E+02    0.421903E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.337635E+02    0.396716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.373111E+02    0.381203E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.410344E+02    0.382175E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.444521E+02    0.397814E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.461232E+02    0.426565E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.456647E+02    0.459516E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.430880E+02    0.486145E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.392477E+02    0.499823E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.386484E+02    0.344451E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.366326E+02    0.346078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.380870E+02    0.328812E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.403724E+02    0.332911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.402710E+02    0.353252E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.379011E+02    0.361514E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.359526E+02    0.373245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137840E+03   -0.346431E+02    0.360829E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.344967E+02    0.343521E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.354072E+02    0.326770E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.372515E+02    0.314237E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.394247E+02    0.310153E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.413774E+02    0.315547E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.426554E+02    0.328636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.428135E+02    0.346493E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.418544E+02    0.363778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.400460E+02    0.375542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.378590E+02    0.379041E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.357308E+02    0.402988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.329205E+02    0.386681E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.315860E+02    0.360065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.320721E+02    0.329449E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.342017E+02    0.303559E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.377339E+02    0.286809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.414678E+02    0.286363E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.446768E+02    0.300984E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.464994E+02    0.326900E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.459712E+02    0.359506E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.432116E+02    0.388396E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.395161E+02    0.403725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.394176E+02    0.237492E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.372935E+02    0.240501E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.388301E+02    0.222731E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.411389E+02    0.225876E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.409567E+02    0.246156E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.386914E+02    0.254325E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.366465E+02    0.267405E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.355039E+02    0.254265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.352392E+02    0.238282E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.361331E+02    0.221890E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.380687E+02    0.208267E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.402508E+02    0.203688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.422238E+02    0.208352E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.434196E+02    0.221169E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.436051E+02    0.238030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.425598E+02    0.255712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.406568E+02    0.268732E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.385711E+02    0.272398E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.364664E+02    0.297021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.335210E+02    0.282844E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138648E+03   -0.322382E+02    0.256041E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138567E+03   -0.327726E+02    0.225347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.349786E+02    0.198921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.384257E+02    0.182344E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.423789E+02    0.179432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.455155E+02    0.193475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.471499E+02    0.218660E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.466728E+02    0.249483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.438444E+02    0.279961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.401656E+02    0.296625E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663174.324292664     
  ps_ts2 prof sum =   662770.876464123     
  trcom prof sum =    662770.876464124     
  ps_ts2 cur sum  =   10076.9185980318     
  trcom cur sum  =    10076.9185980318     
  
  antenna # iant =            2
  powecha_use(iant) =    666807.686428723     
  ps_ts2 prof sum =   666466.947450120     
  trcom prof sum =    666466.947450119     
  ps_ts2 cur sum  =   12550.2849472646     
  trcom cur sum  =    12550.2849472646     
  
  antenna # iant =            3
  powecha_use(iant) =    530375.365471599     
  ps_ts2 prof sum =   530078.152740732     
  trcom prof sum =    530078.152740732     
  ps_ts2 cur sum  =   6830.34346096399     
  trcom cur sum  =    6830.34346096400     
  
  antenna # iant =            4
  powecha_use(iant) =    567872.355910459     
  ps_ts2 prof sum =   567506.168311330     
  trcom prof sum =    567506.168311330     
  ps_ts2 cur sum  =   9604.56255864137     
  trcom cur sum  =    9604.56255864136     
  
  antenna # iant =            5
  powecha_use(iant) =    554552.388905762     
  ps_ts2 prof sum =   554231.763621587     
  trcom prof sum =    554231.763621586     
  ps_ts2 cur sum  =   11623.0191351997     
  trcom cur sum  =    11623.0191351997     
  
  Total ECH heating:      2981053.90858789     
  Total Current Drive:    50685.1287001014     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3513
 TA= 3.80500E+00 CPU TIME= 1.59591E-01 SECONDS.  DT= 1.44312E-03
  
 TEC1=    3.80499999999994     
 TEC2=    3.80999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.74963777777748     
  %check_save_state: izleft hours =    70.2419444444444     
 --> plasma_hash("gframe"): TA= 3.805000E+00 NSTEP=  3513 Hash code:   30391194
 ->PRGCHK: bdy curvature ratio at t= 3.8100E+00 seconds is:  5.7167E-02
% MHDEQ: TG1=     3.805000 ; TG2=     3.810000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7167E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.805000 TO TG2=    3.810000 @ NSTEP     3513
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553104865715D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.20772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.11343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.72958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.73830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.36971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.70991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.38665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -1.55450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.34304E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.21077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  6.12550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.65730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.54765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.74913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.38709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.32465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.66260E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.22996E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.22996E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.8100E+00  3.8150E+00 total power(Watts):  2.9759E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.81000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.382248E+02    0.385077E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.362146E+02    0.386342E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.376725E+02    0.369363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.399552E+02    0.373849E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.398381E+02    0.394098E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.375735E+02    0.401383E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.356205E+02    0.412842E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.344154E+02    0.399522E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.342776E+02    0.382249E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.350017E+02    0.366744E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.368482E+02    0.354379E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.390133E+02    0.350578E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.409626E+02    0.356409E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.422298E+02    0.369965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.423776E+02    0.387865E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.414111E+02    0.404919E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.396003E+02    0.416431E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.375207E+02    0.419092E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.353822E+02    0.442930E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.325860E+02    0.425828E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138262E+03   -0.312691E+02    0.398753E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.316780E+02    0.368948E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.338134E+02    0.342867E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.373503E+02    0.326416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.410708E+02    0.326509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.442659E+02    0.341961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.460679E+02    0.369089E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.455209E+02    0.401650E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.428616E+02    0.429800E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.391598E+02    0.444569E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.391885E+02    0.299101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.371688E+02    0.300999E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.386146E+02    0.283866E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.409136E+02    0.287524E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.408213E+02    0.307366E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.384509E+02    0.315832E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.365039E+02    0.327695E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.351812E+02    0.315842E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.352152E+02    0.297592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.361205E+02    0.280848E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.378704E+02    0.268581E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.400484E+02    0.264103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.420125E+02    0.269332E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.433041E+02    0.282282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.433641E+02    0.300403E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.424164E+02    0.317282E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.406105E+02    0.329178E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.384195E+02    0.333094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.363966E+02    0.357054E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137832E+03   -0.335599E+02    0.341102E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.321109E+02    0.315547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138571E+03   -0.325827E+02    0.285453E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.348010E+02    0.258143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.383451E+02    0.240772E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.421953E+02    0.239175E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.455421E+02    0.252585E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.471576E+02    0.279789E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.465371E+02    0.312130E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.437919E+02    0.341304E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.400954E+02    0.357532E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.382332E+02    0.440590E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.362195E+02    0.441292E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.375900E+02    0.424751E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.398686E+02    0.430005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.398415E+02    0.450231E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.375682E+02    0.456915E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.356060E+02    0.467724E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.344097E+02    0.454068E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.342843E+02    0.436601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.351185E+02    0.420284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.368789E+02    0.408861E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.389463E+02    0.406114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.408907E+02    0.412490E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.422590E+02    0.426266E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.426160E+02    0.444020E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.415212E+02    0.461316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.396961E+02    0.472165E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.375048E+02    0.474457E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.355458E+02    0.496814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.325620E+02    0.479450E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.311722E+02    0.452743E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.316935E+02    0.422152E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.337533E+02    0.396936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.372998E+02    0.381434E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.410221E+02    0.382404E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.444384E+02    0.398060E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.461081E+02    0.426857E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.456490E+02    0.459745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.430734E+02    0.486373E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.392347E+02    0.500033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.386380E+02    0.344744E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.366224E+02    0.346359E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.380753E+02    0.329135E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.402598E+02    0.333816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.402592E+02    0.353540E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.378901E+02    0.361772E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.359419E+02    0.373475E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.346321E+02    0.361093E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.344875E+02    0.343801E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.353972E+02    0.327078E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.372409E+02    0.314561E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.394135E+02    0.310483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.413664E+02    0.315876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.426432E+02    0.328959E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.428007E+02    0.346797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.418422E+02    0.364036E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.400342E+02    0.375777E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.378478E+02    0.379271E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.357198E+02    0.403227E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.329108E+02    0.386897E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.315774E+02    0.360311E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.320628E+02    0.329748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.341916E+02    0.303887E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.377267E+02    0.287085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.414561E+02    0.286682E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.446648E+02    0.301308E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.464860E+02    0.327233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.459576E+02    0.359783E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.431989E+02    0.388620E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.395034E+02    0.403972E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.394080E+02    0.237683E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.372843E+02    0.240697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.388208E+02    0.222936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.411288E+02    0.226078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.409465E+02    0.246356E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.386808E+02    0.254547E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.366369E+02    0.267655E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.354949E+02    0.254476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.352307E+02    0.238477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.361245E+02    0.222097E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.380597E+02    0.208502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.402412E+02    0.203933E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.422135E+02    0.208585E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.434091E+02    0.221378E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.435942E+02    0.238231E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.425493E+02    0.255926E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.406456E+02    0.268984E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.385602E+02    0.272661E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.364548E+02    0.297354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.335120E+02    0.283130E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.322263E+02    0.256272E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.327655E+02    0.225553E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.349728E+02    0.199165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.384147E+02    0.182618E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.423692E+02    0.179711E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.455042E+02    0.193753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.471382E+02    0.218887E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.466609E+02    0.249694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.438325E+02    0.280264E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.401550E+02    0.296951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660726.515553066     
  ps_ts2 prof sum =   660325.514443808     
  trcom prof sum =    660325.514443809     
  ps_ts2 cur sum  =   10021.6657112561     
  trcom cur sum  =    10021.6657112561     
  
  antenna # iant =            2
  powecha_use(iant) =    664412.657731314     
  ps_ts2 prof sum =   664052.045775235     
  trcom prof sum =    664052.045775234     
  ps_ts2 cur sum  =   12486.3092608094     
  trcom cur sum  =    12486.3092608094     
  
  antenna # iant =            3
  powecha_use(iant) =    529110.808028652     
  ps_ts2 prof sum =   528813.744638894     
  trcom prof sum =    528813.744638895     
  ps_ts2 cur sum  =   6802.71560113517     
  trcom cur sum  =    6802.71560113518     
  
  antenna # iant =            4
  powecha_use(iant) =    567410.357640773     
  ps_ts2 prof sum =   567042.066201807     
  trcom prof sum =    567042.066201807     
  ps_ts2 cur sum  =   9579.73221445621     
  trcom cur sum  =    9579.73221445619     
  
  antenna # iant =            5
  powecha_use(iant) =    554271.199750878     
  ps_ts2 prof sum =   553951.859593061     
  trcom prof sum =    553951.859593061     
  ps_ts2 cur sum  =   11604.7475912841     
  trcom cur sum  =    11604.7475912841     
  
  Total ECH heating:      2974185.23065281     
  Total Current Drive:    50495.1703789409     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3516
 TA= 3.81000E+00 CPU TIME= 1.59850E-01 SECONDS.  DT= 2.19123E-03
  
 TEC1=    3.80999999999994     
 TEC2=    3.81499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.76496499999939     
  %check_save_state: izleft hours =    70.2266666666667     
 --> plasma_hash("gframe"): TA= 3.810000E+00 NSTEP=  3516 Hash code:   28470207
 ->PRGCHK: bdy curvature ratio at t= 3.8150E+00 seconds is:  5.7181E-02
% MHDEQ: TG1=     3.810000 ; TG2=     3.815000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7181E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.810000 TO TG2=    3.815000 @ NSTEP     3516
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554143795408D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.8150E+00  3.8200E+00 total power(Watts):  2.9837E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.81500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.382115E+02    0.385282E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.362023E+02    0.386538E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.376598E+02    0.369574E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.399416E+02    0.374059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.398236E+02    0.394316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.375601E+02    0.401601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.356079E+02    0.413083E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.343075E+02    0.400227E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.342660E+02    0.382448E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.351836E+02    0.365816E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.368363E+02    0.354615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.390047E+02    0.350811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.409489E+02    0.356652E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.422157E+02    0.370177E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.423631E+02    0.388069E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.413967E+02    0.405147E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.395863E+02    0.416682E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.375078E+02    0.419340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.355671E+02    0.442390E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.325745E+02    0.426068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138291E+03   -0.312584E+02    0.398960E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.316669E+02    0.369158E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.338023E+02    0.343125E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.373370E+02    0.326708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.410579E+02    0.326797E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.442511E+02    0.342234E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.460523E+02    0.369313E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.455050E+02    0.401882E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.428464E+02    0.430059E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.392518E+02    0.444430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.391764E+02    0.299410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.371569E+02    0.301296E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.386032E+02    0.284138E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.409015E+02    0.287804E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.408077E+02    0.307678E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.384381E+02    0.316136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.364916E+02    0.327983E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.353626E+02    0.314778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.352023E+02    0.297881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.361084E+02    0.281118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.378579E+02    0.268816E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.400375E+02    0.264329E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.420005E+02    0.269560E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.432900E+02    0.282563E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.434610E+02    0.300043E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.424016E+02    0.317594E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.405971E+02    0.329465E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.384068E+02    0.333371E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.363846E+02    0.357285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.335487E+02    0.341357E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.321031E+02    0.315828E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138598E+03   -0.325718E+02    0.285725E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.347899E+02    0.258353E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.383334E+02    0.240973E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.421829E+02    0.239376E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.455278E+02    0.252795E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.471419E+02    0.280081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.465214E+02    0.312450E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.437773E+02    0.341576E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.400819E+02    0.357764E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.382196E+02    0.440814E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.362064E+02    0.441515E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.375768E+02    0.425002E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.398543E+02    0.430259E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.398272E+02    0.450437E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.375557E+02    0.457087E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.355940E+02    0.467895E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.343970E+02    0.454259E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.342724E+02    0.436823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.351061E+02    0.420530E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.368660E+02    0.409095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.389365E+02    0.406340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.408764E+02    0.412735E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.422440E+02    0.426528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.426012E+02    0.444246E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.415065E+02    0.461497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.396819E+02    0.472352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.374913E+02    0.474644E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.355326E+02    0.497014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.325510E+02    0.479629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.312516E+02    0.452551E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.316819E+02    0.422398E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.339281E+02    0.396151E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.372870E+02    0.381630E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.410084E+02    0.382607E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.444230E+02    0.398284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.460915E+02    0.427133E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133700E+03   -0.456335E+02    0.459925E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.430577E+02    0.486572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.392205E+02    0.500233E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.386243E+02    0.345006E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.366094E+02    0.346620E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.380629E+02    0.329410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.403528E+02    0.333472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.402456E+02    0.353784E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.378822E+02    0.361970E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.359299E+02    0.373683E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.348127E+02    0.360139E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.344755E+02    0.344065E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.353848E+02    0.327366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.372295E+02    0.314862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.394006E+02    0.310790E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.413520E+02    0.316184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.426289E+02    0.329251E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.427864E+02    0.347058E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.418281E+02    0.364262E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.400205E+02    0.375984E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.378349E+02    0.379472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.359057E+02    0.402488E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.328995E+02    0.387092E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.315667E+02    0.360531E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.320531E+02    0.330020E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138213E+03   -0.341793E+02    0.304177E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.377158E+02    0.287369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.414430E+02    0.286966E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.446494E+02    0.301632E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.464704E+02    0.327531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.459422E+02    0.360022E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.431841E+02    0.388828E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.395967E+02    0.403737E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.393960E+02    0.237890E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.371757E+02    0.241704E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.388084E+02    0.223160E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.411165E+02    0.226295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.409341E+02    0.246549E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.386693E+02    0.254750E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.366241E+02    0.267889E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.354838E+02    0.254680E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.352202E+02    0.238675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.363026E+02    0.220639E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.380479E+02    0.208744E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.402288E+02    0.204190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.422003E+02    0.208839E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.433926E+02    0.221627E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.435810E+02    0.238424E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.425356E+02    0.256126E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.406313E+02    0.269230E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.385477E+02    0.272912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.364442E+02    0.297645E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.335004E+02    0.283398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138718E+03   -0.322162E+02    0.256475E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138626E+03   -0.327558E+02    0.225767E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.349620E+02    0.199426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.385988E+02    0.181156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.423563E+02    0.180012E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.456007E+02    0.193210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.471237E+02    0.219108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.466459E+02    0.249909E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.438184E+02    0.280532E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.401425E+02    0.297256E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.41 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662896.643480579     
  ps_ts2 prof sum =   662509.884451855     
  trcom prof sum =    662509.884451855     
  ps_ts2 cur sum  =   10032.5616952123     
  trcom cur sum  =    10032.5616952123     
  
  antenna # iant =            2
  powecha_use(iant) =    667532.893209366     
  ps_ts2 prof sum =   667181.326808687     
  trcom prof sum =    667181.326808687     
  ps_ts2 cur sum  =   12518.7821283009     
  trcom cur sum  =    12518.7821283008     
  
  antenna # iant =            3
  powecha_use(iant) =    529419.711190908     
  ps_ts2 prof sum =   529136.172358718     
  trcom prof sum =    529136.172358719     
  ps_ts2 cur sum  =   6792.08814453954     
  trcom cur sum  =    6792.08814453954     
  
  antenna # iant =            4
  powecha_use(iant) =    570622.173743880     
  ps_ts2 prof sum =   570278.731489773     
  trcom prof sum =    570278.731489773     
  ps_ts2 cur sum  =   9612.72818255707     
  trcom cur sum  =    9612.72818255705     
  
  antenna # iant =            5
  powecha_use(iant) =    553181.647296156     
  ps_ts2 prof sum =   552872.305762808     
  trcom prof sum =    552872.305762808     
  ps_ts2 cur sum  =   11558.8019544296     
  trcom cur sum  =    11558.8019544296     
  
  Total ECH heating:      2981978.42087184     
  Total Current Drive:    50514.9621050393     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3519
 TA= 3.81500E+00 CPU TIME= 1.58873E-01 SECONDS.  DT= 8.71577E-05
  
 TEC1=    3.81499999999994     
 TEC2=    3.81999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.78254944444416     
  %check_save_state: izleft hours =    70.2088888888889     
 --> plasma_hash("gframe"): TA= 3.815000E+00 NSTEP=  3519 Hash code:   52869580
 ->PRGCHK: bdy curvature ratio at t= 3.8200E+00 seconds is:  5.7194E-02
% MHDEQ: TG1=     3.815000 ; TG2=     3.820000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2590E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7194E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.815000 TO TG2=    3.820000 @ NSTEP     3519
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555182749110D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.28507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.12599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.85994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.35808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83278E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.74609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.32268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.27500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.33345E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.30195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.28089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.30897E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.57631E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.32167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.41716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.40930E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.43538E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.71101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.92666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.92666E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8200E+00  3.8250E+00 total power(Watts):  2.9818E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.82000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.381994E+02    0.385493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.361904E+02    0.386753E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.376478E+02    0.369801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.399293E+02    0.374282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.398111E+02    0.394530E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.375480E+02    0.401823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.355962E+02    0.413328E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.342967E+02    0.400439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.342550E+02    0.382660E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.351730E+02    0.366041E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.368244E+02    0.354870E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.389928E+02    0.351068E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.409363E+02    0.356901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.422026E+02    0.370406E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.423494E+02    0.388284E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.413831E+02    0.405387E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.395733E+02    0.416937E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.374950E+02    0.419596E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.355553E+02    0.442606E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.325638E+02    0.426311E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.312484E+02    0.399170E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138475E+03   -0.316573E+02    0.369369E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.337874E+02    0.343403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.373261E+02    0.326962E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.410457E+02    0.327054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.442375E+02    0.342508E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.460379E+02    0.369550E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134286E+03   -0.454903E+02    0.402113E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.428370E+02    0.430313E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.392393E+02    0.444643E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.391640E+02    0.299642E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.371450E+02    0.301535E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.385922E+02    0.284364E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.408890E+02    0.288044E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.407957E+02    0.307915E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.384267E+02    0.316385E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.364798E+02    0.328238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.353504E+02    0.315024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.351938E+02    0.298105E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.360998E+02    0.281345E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.378483E+02    0.269065E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.400265E+02    0.264585E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.419887E+02    0.269804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.432775E+02    0.282795E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.434483E+02    0.300288E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.423888E+02    0.317850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.405841E+02    0.329726E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.383948E+02    0.333633E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.363735E+02    0.357528E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.335386E+02    0.341617E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138574E+03   -0.320936E+02    0.316062E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.325641E+02    0.285929E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.347805E+02    0.258632E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.383229E+02    0.241285E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.421702E+02    0.239695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.454022E+02    0.253826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.471289E+02    0.280310E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.465077E+02    0.312702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.437638E+02    0.341852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.400697E+02    0.358010E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.382068E+02    0.441047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.361946E+02    0.441733E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.375644E+02    0.425256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.398412E+02    0.430513E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.398148E+02    0.450626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.375432E+02    0.457271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.355822E+02    0.468068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.343864E+02    0.454432E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.342609E+02    0.437054E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.350945E+02    0.420780E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.368540E+02    0.409334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.389239E+02    0.406573E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.408630E+02    0.412982E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.422292E+02    0.426805E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.425871E+02    0.444469E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.414917E+02    0.461701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.396687E+02    0.472530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.374787E+02    0.474823E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.355205E+02    0.497212E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.325401E+02    0.479810E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.312419E+02    0.452723E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.316715E+02    0.422641E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.337316E+02    0.397345E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.372752E+02    0.381847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.409950E+02    0.382829E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.444083E+02    0.398512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.460764E+02    0.427397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.456183E+02    0.460123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.430432E+02    0.486773E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.392067E+02    0.500449E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.386121E+02    0.345278E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.365981E+02    0.346882E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.380516E+02    0.329671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.403406E+02    0.333735E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.402333E+02    0.354043E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.378658E+02    0.362233E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.359190E+02    0.373898E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.348018E+02    0.360381E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.344647E+02    0.344319E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.353719E+02    0.327631E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.372177E+02    0.315107E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.393888E+02    0.311027E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.413398E+02    0.316434E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.426160E+02    0.329510E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.427732E+02    0.347329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.418151E+02    0.364504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.400083E+02    0.376201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.378230E+02    0.379686E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.358937E+02    0.402712E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.328888E+02    0.387299E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138518E+03   -0.315566E+02    0.360765E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.320438E+02    0.330271E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.341709E+02    0.304402E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.377050E+02    0.287585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.414304E+02    0.287202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.446354E+02    0.301870E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.464561E+02    0.327807E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.459278E+02    0.360280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.431702E+02    0.389047E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.395833E+02    0.403969E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.393851E+02    0.238211E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.371653E+02    0.242016E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.387984E+02    0.223481E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.411053E+02    0.226621E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.410272E+02    0.246094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.386580E+02    0.255042E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.366157E+02    0.268135E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.354741E+02    0.254965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138130E+03   -0.352135E+02    0.238966E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.362938E+02    0.220955E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.380378E+02    0.209048E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.402187E+02    0.204491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.421895E+02    0.209140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.433833E+02    0.221932E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.435691E+02    0.238752E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.425241E+02    0.256420E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.406197E+02    0.269478E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.385382E+02    0.273150E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.364338E+02    0.297872E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.334931E+02    0.283619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.322084E+02    0.256755E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.327474E+02    0.226090E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.349528E+02    0.199713E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.385895E+02    0.181434E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.423452E+02    0.180292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.455865E+02    0.193520E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.471112E+02    0.219432E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.466327E+02    0.250209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.438056E+02    0.280769E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.401297E+02    0.297483E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659572.199919130     
  ps_ts2 prof sum =   659186.803259393     
  trcom prof sum =    659186.803259393     
  ps_ts2 cur sum  =   9961.19969346239     
  trcom cur sum  =    9961.19969346238     
  
  antenna # iant =            2
  powecha_use(iant) =    668181.718724191     
  ps_ts2 prof sum =   667819.794805083     
  trcom prof sum =    667819.794805083     
  ps_ts2 cur sum  =   12509.8571899988     
  trcom cur sum  =    12509.8571899989     
  
  antenna # iant =            3
  powecha_use(iant) =    530258.595045284     
  ps_ts2 prof sum =   529962.153455658     
  trcom prof sum =    529962.153455659     
  ps_ts2 cur sum  =   6789.39473984577     
  trcom cur sum  =    6789.39473984578     
  
  antenna # iant =            4
  powecha_use(iant) =    569836.203875443     
  ps_ts2 prof sum =   569490.776943736     
  trcom prof sum =    569490.776913562     
  ps_ts2 cur sum  =   9580.25555885283     
  trcom cur sum  =    9580.25555885282     
  
  antenna # iant =            5
  powecha_use(iant) =    553976.140043744     
  ps_ts2 prof sum =   553667.163148516     
  trcom prof sum =    553667.163148516     
  ps_ts2 cur sum  =   11560.0832757132     
  trcom cur sum  =    11560.0832757132     
  
  Total ECH heating:      2980126.69158221     
  Total Current Drive:    50400.7904578731     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3532
 TA= 3.82000E+00 CPU TIME= 1.59918E-01 SECONDS.  DT= 3.44233E-04
  
 TEC1=    3.81999999999994     
 TEC2=    3.82499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.79505583333275     
  %check_save_state: izleft hours =    70.1963888888889     
 --> plasma_hash("gframe"): TA= 3.820000E+00 NSTEP=  3532 Hash code:   76119232
 ->PRGCHK: bdy curvature ratio at t= 3.8250E+00 seconds is:  5.7180E-02
% MHDEQ: TG1=     3.820000 ; TG2=     3.825000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7180E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.820000 TO TG2=    3.825000 @ NSTEP     3532
   GFRAME TG2 MOMENTS CHECKSUM:  2.4556221702811D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.8250E+00  3.8300E+00 total power(Watts):  2.9700E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.82500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.381867E+02    0.385718E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.361749E+02    0.386981E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.376363E+02    0.370034E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.399163E+02    0.374515E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.397985E+02    0.394753E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.375356E+02    0.402056E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.355843E+02    0.413585E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.342830E+02    0.400672E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.342446E+02    0.382871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.351622E+02    0.366276E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.368129E+02    0.355126E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.389807E+02    0.351330E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.409234E+02    0.357160E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.421890E+02    0.370648E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.423387E+02    0.388509E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.413693E+02    0.405628E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.395596E+02    0.417209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.374822E+02    0.419869E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.355429E+02    0.442841E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.325527E+02    0.426574E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.312381E+02    0.399386E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.316475E+02    0.369598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.337815E+02    0.343633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.373151E+02    0.327213E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.410327E+02    0.327318E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.442239E+02    0.342779E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134331E+03   -0.460232E+02    0.369797E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.453579E+02    0.402795E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.428172E+02    0.430606E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.392257E+02    0.444885E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.391531E+02    0.299877E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.371345E+02    0.301773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.385802E+02    0.284612E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.408776E+02    0.288290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.407835E+02    0.308165E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.384154E+02    0.316632E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.364700E+02    0.328493E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.353408E+02    0.315272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.351828E+02    0.298348E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.360887E+02    0.281591E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.378360E+02    0.269333E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.400158E+02    0.264862E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.419768E+02    0.270086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.432655E+02    0.283047E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.434356E+02    0.300541E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.423768E+02    0.318095E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.405726E+02    0.329980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.383835E+02    0.333882E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.363619E+02    0.357778E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.335279E+02    0.341863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138601E+03   -0.320830E+02    0.316311E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138667E+03   -0.325497E+02    0.286216E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138251E+03   -0.347703E+02    0.258929E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.383114E+02    0.241614E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.421589E+02    0.240025E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.453892E+02    0.254141E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.471141E+02    0.280579E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.464937E+02    0.312970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.437504E+02    0.342119E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.400569E+02    0.358272E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.381934E+02    0.441296E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.361818E+02    0.441975E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.375533E+02    0.425525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.399347E+02    0.430400E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.398010E+02    0.450848E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.375303E+02    0.457469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.355698E+02    0.468253E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.343731E+02    0.454645E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.342489E+02    0.437304E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.350826E+02    0.421047E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.368416E+02    0.409585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.389108E+02    0.406820E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.409580E+02    0.412822E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.422152E+02    0.427080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.425723E+02    0.444726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.414782E+02    0.461879E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.396543E+02    0.472734E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.374656E+02    0.475011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.355078E+02    0.497420E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.325285E+02    0.480003E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.312304E+02    0.452929E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.316608E+02    0.422901E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.339082E+02    0.396577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.372639E+02    0.382062E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.409821E+02    0.383048E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.443934E+02    0.398754E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133908E+03   -0.460605E+02    0.427700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.456024E+02    0.460341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.430278E+02    0.486984E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.391925E+02    0.500662E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.386004E+02    0.345537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.365872E+02    0.347140E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.380398E+02    0.329933E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.403280E+02    0.334004E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.402207E+02    0.354300E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.378538E+02    0.362476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.359071E+02    0.374124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.347910E+02    0.360624E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.344542E+02    0.344579E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.353636E+02    0.327867E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.372033E+02    0.315376E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.393767E+02    0.311282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.413276E+02    0.316684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.425984E+02    0.329796E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.427600E+02    0.347595E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.418019E+02    0.364750E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.399952E+02    0.376434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.378114E+02    0.379904E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.358821E+02    0.402943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.328784E+02    0.387514E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.315470E+02    0.361001E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.320331E+02    0.330521E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.341603E+02    0.304648E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.376937E+02    0.287837E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.414189E+02    0.287447E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.446234E+02    0.302123E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.464422E+02    0.328075E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.459100E+02    0.360542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.431562E+02    0.389276E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.395700E+02    0.404209E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.393735E+02    0.238539E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.371546E+02    0.242340E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.387882E+02    0.223804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.410931E+02    0.226955E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.410159E+02    0.246408E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.386476E+02    0.255342E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.366049E+02    0.268398E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.354638E+02    0.255270E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.352018E+02    0.239315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.362840E+02    0.221272E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.380286E+02    0.209360E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.402078E+02    0.204800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.421777E+02    0.209459E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.433719E+02    0.222265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.435566E+02    0.239082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.425118E+02    0.256732E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.406107E+02    0.269731E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.385250E+02    0.273412E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.364222E+02    0.298114E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.334826E+02    0.283859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138770E+03   -0.322004E+02    0.257045E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.327385E+02    0.226400E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.349440E+02    0.200002E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.385792E+02    0.181743E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.423347E+02    0.180602E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.455768E+02    0.193816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.470980E+02    0.219777E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.466198E+02    0.250535E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.437935E+02    0.281027E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.401188E+02    0.297735E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655670.443738744     
  ps_ts2 prof sum =   655273.952086679     
  trcom prof sum =    655273.952086679     
  ps_ts2 cur sum  =   9885.79774508897     
  trcom cur sum  =    9885.79774508897     
  
  antenna # iant =            2
  powecha_use(iant) =    664275.130276011     
  ps_ts2 prof sum =   663911.042773711     
  trcom prof sum =    663911.042773711     
  ps_ts2 cur sum  =   12419.9855647282     
  trcom cur sum  =    12419.9855647282     
  
  antenna # iant =            3
  powecha_use(iant) =    528620.464285976     
  ps_ts2 prof sum =   528344.095215069     
  trcom prof sum =    528344.095215070     
  ps_ts2 cur sum  =   6756.25757253875     
  trcom cur sum  =    6756.25757253875     
  
  antenna # iant =            4
  powecha_use(iant) =    566945.226518628     
  ps_ts2 prof sum =   566596.417130798     
  trcom prof sum =    566596.417098092     
  ps_ts2 cur sum  =   9517.70994605528     
  trcom cur sum  =    9517.70994605527     
  
  antenna # iant =            5
  powecha_use(iant) =    554462.290653806     
  ps_ts2 prof sum =   554151.183264535     
  trcom prof sum =    554151.183264535     
  ps_ts2 cur sum  =   11555.5321450578     
  trcom cur sum  =    11555.5321450578     
  
  Total ECH heating:      2968276.69043809     
  Total Current Drive:    50135.2829734690     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3539
 TA= 3.82500E+00 CPU TIME= 1.59549E-01 SECONDS.  DT= 1.40544E-03
  
 TEC1=    3.82499999999994     
 TEC2=    3.82999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.80990027777761     
  %check_save_state: izleft hours =    70.1816666666667     
 --> plasma_hash("gframe"): TA= 3.825000E+00 NSTEP=  3539 Hash code:   88480460
 ->PRGCHK: bdy curvature ratio at t= 3.8300E+00 seconds is:  5.7158E-02
% MHDEQ: TG1=     3.825000 ; TG2=     3.830000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7726E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7158E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.825000 TO TG2=    3.830000 @ NSTEP     3539
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557260656513D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.36681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.13927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.99768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.95632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.78432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.25509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.32144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.32331E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.39829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -1.78150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.47442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.60658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.30133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.06638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.43277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.55239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.76217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.00029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.00029E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.8300E+00  3.8350E+00 total power(Watts):  2.9793E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.83000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.381744E+02    0.385887E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.361668E+02    0.387141E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.376242E+02    0.370215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.399033E+02    0.374697E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.397853E+02    0.394927E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.375232E+02    0.402239E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.355724E+02    0.413795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.342744E+02    0.400837E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.342337E+02    0.383039E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.351503E+02    0.366470E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.368011E+02    0.355334E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.389680E+02    0.351550E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.409106E+02    0.357364E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.421754E+02    0.370836E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.423218E+02    0.388693E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.413557E+02    0.405818E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.395464E+02    0.417425E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.374696E+02    0.420095E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.355312E+02    0.443041E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.325415E+02    0.426796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138378E+03   -0.312278E+02    0.399565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138541E+03   -0.316348E+02    0.369795E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.337706E+02    0.343851E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.373029E+02    0.327431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.410194E+02    0.327539E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.442095E+02    0.343007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.460082E+02    0.369988E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.454598E+02    0.402553E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.428028E+02    0.430845E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.392127E+02    0.445087E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.391376E+02    0.300097E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.371227E+02    0.301973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.385687E+02    0.284808E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.408646E+02    0.288487E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.407707E+02    0.308368E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.384028E+02    0.316846E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.364528E+02    0.328735E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.353297E+02    0.315476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.351723E+02    0.298546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.360769E+02    0.281795E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.378245E+02    0.269558E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.400035E+02    0.265088E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.419636E+02    0.270301E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.432516E+02    0.283254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.434219E+02    0.300741E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.423624E+02    0.318322E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.405594E+02    0.330214E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.383709E+02    0.334112E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.363502E+02    0.357985E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.335172E+02    0.342091E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138630E+03   -0.320733E+02    0.316517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138684E+03   -0.325442E+02    0.286375E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.347596E+02    0.259165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.382995E+02    0.241871E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.421443E+02    0.240294E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.453749E+02    0.254387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.471009E+02    0.280775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.464787E+02    0.313188E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.437362E+02    0.342347E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.400406E+02    0.358489E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.381808E+02    0.441501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.361697E+02    0.442177E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.375385E+02    0.425768E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.398139E+02    0.431025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.397876E+02    0.451043E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.375168E+02    0.457648E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.355577E+02    0.468402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.343619E+02    0.454807E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.342375E+02    0.437514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.350706E+02    0.421271E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.368292E+02    0.409788E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.388978E+02    0.407014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.409444E+02    0.413033E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.422010E+02    0.427319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.425579E+02    0.444934E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.414643E+02    0.462046E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.396408E+02    0.472893E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.374526E+02    0.475179E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.354956E+02    0.497607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.325178E+02    0.480160E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.312192E+02    0.453100E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.316455E+02    0.423144E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.338974E+02    0.396751E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.372480E+02    0.382254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.409688E+02    0.383228E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.443790E+02    0.398934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133935E+03   -0.460449E+02    0.427945E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133784E+03   -0.455870E+02    0.460515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.430138E+02    0.487148E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.391817E+02    0.500855E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.385876E+02    0.345760E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.365752E+02    0.347358E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.380281E+02    0.330139E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.403150E+02    0.334226E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.402125E+02    0.354490E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.378415E+02    0.362678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.358961E+02    0.374300E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.347798E+02    0.360821E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.344443E+02    0.344791E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.353522E+02    0.328081E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.371943E+02    0.315568E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.393648E+02    0.311483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.413139E+02    0.316907E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.425894E+02    0.330000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.427464E+02    0.347818E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.417882E+02    0.364950E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.399821E+02    0.376616E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.377985E+02    0.380086E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.358700E+02    0.403130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138158E+03   -0.328680E+02    0.387681E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138574E+03   -0.315369E+02    0.361199E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.320235E+02    0.330735E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.341499E+02    0.304834E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.376820E+02    0.288029E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.415130E+02    0.286949E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.446095E+02    0.302321E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.464273E+02    0.328297E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.458985E+02    0.360745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.431419E+02    0.389450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.395568E+02    0.404399E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.393611E+02    0.238800E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.371428E+02    0.242601E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.387752E+02    0.224074E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.410804E+02    0.227222E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.410018E+02    0.246673E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.386338E+02    0.255594E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.365944E+02    0.268610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.354517E+02    0.255520E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.351898E+02    0.239578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.362714E+02    0.221536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.380151E+02    0.209615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.401943E+02    0.205053E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.421643E+02    0.209721E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.434661E+02    0.221746E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.435417E+02    0.239354E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.425001E+02    0.256964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.405974E+02    0.269962E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.385142E+02    0.273621E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.364115E+02    0.298308E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.334702E+02    0.284069E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138797E+03   -0.321893E+02    0.257285E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138705E+03   -0.327292E+02    0.226651E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.349332E+02    0.200254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.385672E+02    0.182009E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.423199E+02    0.180873E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.455628E+02    0.194074E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.470821E+02    0.220058E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.466053E+02    0.250782E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.437794E+02    0.281232E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.401056E+02    0.297932E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661619.920912225     
  ps_ts2 prof sum =   661227.984231604     
  trcom prof sum =    661227.984231603     
  ps_ts2 cur sum  =   9958.10880923406     
  trcom cur sum  =    9958.10880923405     
  
  antenna # iant =            2
  powecha_use(iant) =    664787.122339377     
  ps_ts2 prof sum =   664421.829322378     
  trcom prof sum =    664421.829322378     
  ps_ts2 cur sum  =   12409.7415250469     
  trcom cur sum  =    12409.7415250469     
  
  antenna # iant =            3
  powecha_use(iant) =    529702.018002570     
  ps_ts2 prof sum =   529421.578601910     
  trcom prof sum =    529421.578601911     
  ps_ts2 cur sum  =   6757.62976135722     
  trcom cur sum  =    6757.62976135723     
  
  antenna # iant =            4
  powecha_use(iant) =    570328.431379979     
  ps_ts2 prof sum =   569983.572954235     
  trcom prof sum =    569983.572919347     
  ps_ts2 cur sum  =   9558.33478954221     
  trcom cur sum  =    9558.33478954220     
  
  antenna # iant =            5
  powecha_use(iant) =    552869.180091830     
  ps_ts2 prof sum =   552562.052271872     
  trcom prof sum =    552562.052271872     
  ps_ts2 cur sum  =   11505.1581772351     
  trcom cur sum  =    11505.1581772351     
  
  Total ECH heating:      2977617.01734711     
  Total Current Drive:    50188.9730624155     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3542
 TA= 3.83000E+00 CPU TIME= 1.59765E-01 SECONDS.  DT= 2.29720E-03
  
 TEC1=    3.82999999999994     
 TEC2=    3.83499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.82259972222209     
  %check_save_state: izleft hours =    70.1688888888889     
 --> plasma_hash("gframe"): TA= 3.830000E+00 NSTEP=  3542 Hash code:   82976361
 ->PRGCHK: bdy curvature ratio at t= 3.8350E+00 seconds is:  5.7138E-02
% MHDEQ: TG1=     3.830000 ; TG2=     3.835000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7732E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7138E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.830000 TO TG2=    3.835000 @ NSTEP     3542
   GFRAME TG2 MOMENTS CHECKSUM:  2.4558299610214D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  3.8350E+00  3.8400E+00 total power(Watts):  2.9874E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.83500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.381635E+02    0.386120E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.361565E+02    0.387374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.376137E+02    0.370461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.398923E+02    0.374937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.397735E+02    0.395166E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.375106E+02    0.402495E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.355612E+02    0.414064E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.342636E+02    0.401073E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.342237E+02    0.383269E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.351407E+02    0.366719E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.367914E+02    0.355600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.389578E+02    0.351821E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.408991E+02    0.357644E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.421636E+02    0.371090E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.423094E+02    0.388932E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.413384E+02    0.406081E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.395381E+02    0.417701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.374577E+02    0.420374E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.355195E+02    0.443294E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.325312E+02    0.427070E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.312179E+02    0.399793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.316285E+02    0.370017E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.337619E+02    0.344117E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.372930E+02    0.327707E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.410087E+02    0.327813E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.441975E+02    0.343297E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.459951E+02    0.370256E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.454458E+02    0.402821E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.427889E+02    0.431153E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.392001E+02    0.445345E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.391310E+02    0.300345E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.371134E+02    0.302235E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.385598E+02    0.285075E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.408548E+02    0.288745E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.407606E+02    0.308635E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.383934E+02    0.317104E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.364480E+02    0.328982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.353209E+02    0.315734E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.351636E+02    0.298790E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.360688E+02    0.282060E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.378171E+02    0.269825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.399936E+02    0.265390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.419564E+02    0.270568E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.432414E+02    0.283513E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.432999E+02    0.301667E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.423518E+02    0.318592E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.405484E+02    0.330487E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.383607E+02    0.334380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.363407E+02    0.358247E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.335090E+02    0.342352E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138658E+03   -0.320652E+02    0.316769E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138711E+03   -0.325361E+02    0.286636E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.347515E+02    0.259474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.382902E+02    0.242201E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.421355E+02    0.240636E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.454770E+02    0.253991E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.470894E+02    0.281052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.464667E+02    0.313471E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.437243E+02    0.342633E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.400332E+02    0.358744E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.381685E+02    0.441768E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.361574E+02    0.442437E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.375267E+02    0.426052E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.398011E+02    0.431319E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.397748E+02    0.451275E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.375055E+02    0.457851E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.355462E+02    0.468593E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.343520E+02    0.455007E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.342265E+02    0.437780E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.350595E+02    0.421554E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.368179E+02    0.410046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.388860E+02    0.407264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.408225E+02    0.413735E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.421875E+02    0.427622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.425392E+02    0.445208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.414512E+02    0.462254E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.396280E+02    0.473082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.374414E+02    0.475367E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.354836E+02    0.497819E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.325071E+02    0.480350E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.312101E+02    0.453302E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.316401E+02    0.423401E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.336988E+02    0.397971E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.372408E+02    0.382472E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.409569E+02    0.383471E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.443656E+02    0.399195E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.460301E+02    0.428261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133812E+03   -0.455723E+02    0.460742E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.429992E+02    0.487362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.391665E+02    0.501065E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.385772E+02    0.346038E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.365654E+02    0.347632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.380175E+02    0.330416E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.403042E+02    0.334510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.401967E+02    0.354792E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.378316E+02    0.362926E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.358859E+02    0.374539E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.347702E+02    0.361075E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.344338E+02    0.345066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.353429E+02    0.328349E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.371852E+02    0.315829E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.393550E+02    0.311748E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.413036E+02    0.317169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.425782E+02    0.330275E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.427344E+02    0.348108E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.417768E+02    0.365209E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.399711E+02    0.376854E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.377900E+02    0.380310E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.358588E+02    0.403375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.328584E+02    0.387905E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138602E+03   -0.315280E+02    0.361450E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.320145E+02    0.330999E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.341416E+02    0.305095E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.376733E+02    0.288294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.413961E+02    0.287912E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.445982E+02    0.302595E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.464149E+02    0.328589E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.458856E+02    0.361019E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.431332E+02    0.389688E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.395449E+02    0.404653E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.393515E+02    0.239135E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.372327E+02    0.242122E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.387672E+02    0.224400E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.410697E+02    0.227565E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.408887E+02    0.247770E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.386261E+02    0.255905E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.365856E+02    0.268899E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.354436E+02    0.255824E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.351815E+02    0.239903E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.360751E+02    0.223534E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.380078E+02    0.209929E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.401863E+02    0.205365E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.421551E+02    0.210048E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.433476E+02    0.222875E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.435325E+02    0.239692E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.424883E+02    0.257298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.405884E+02    0.270244E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.385059E+02    0.273894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.364023E+02    0.298567E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.334686E+02    0.284287E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138823E+03   -0.321820E+02    0.257602E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138730E+03   -0.327206E+02    0.226968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.349265E+02    0.200551E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.383647E+02    0.184065E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.423123E+02    0.181183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.454424E+02    0.195205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.470722E+02    0.220392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.465945E+02    0.251120E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.437693E+02    0.281505E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.400961E+02    0.298188E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662246.652020577     
  ps_ts2 prof sum =   661862.714571256     
  trcom prof sum =    661862.714571257     
  ps_ts2 cur sum  =   9961.00366006445     
  trcom cur sum  =    9961.00366006445     
  
  antenna # iant =            2
  powecha_use(iant) =    667194.859726821     
  ps_ts2 prof sum =   666846.612443471     
  trcom prof sum =    666846.612443471     
  ps_ts2 cur sum  =   12451.6905915757     
  trcom cur sum  =    12451.6905915757     
  
  antenna # iant =            3
  powecha_use(iant) =    532454.548426418     
  ps_ts2 prof sum =   532155.060543154     
  trcom prof sum =    532155.060543154     
  ps_ts2 cur sum  =   6787.07070025750     
  trcom cur sum  =    6787.07070025750     
  
  antenna # iant =            4
  powecha_use(iant) =    571757.465132331     
  ps_ts2 prof sum =   571418.175392643     
  trcom prof sum =    571418.175392642     
  ps_ts2 cur sum  =   9579.01152836194     
  trcom cur sum  =    9579.01152836193     
  
  antenna # iant =            5
  powecha_use(iant) =    553743.512922359     
  ps_ts2 prof sum =   553424.957516277     
  trcom prof sum =    553424.957516277     
  ps_ts2 cur sum  =   11520.7646934018     
  trcom cur sum  =    11520.7646934018     
  
  Total ECH heating:      2985707.52046680     
  Total Current Drive:    50299.5411736614     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3544
 TA= 3.83500E+00 CPU TIME= 1.46503E-01 SECONDS.  DT= 3.37850E-03
  
 TEC1=    3.83499999999994     
 TEC2=    3.83999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.83778138888851     
  %check_save_state: izleft hours =    70.1538888888889     
 --> plasma_hash("gframe"): TA= 3.835000E+00 NSTEP=  3544 Hash code:   18233984
 ->PRGCHK: bdy curvature ratio at t= 3.8400E+00 seconds is:  5.7117E-02
% MHDEQ: TG1=     3.835000 ; TG2=     3.840000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7117E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.835000 TO TG2=    3.840000 @ NSTEP     3544
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559338563916D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.43346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.15009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.10999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.62873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.81549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.65357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.31504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.47684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -5.09396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.72827E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.63127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.28474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.78035E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.45191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.64780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.80388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.98114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.98114E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8400E+00  3.8450E+00 total power(Watts):  2.9816E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.84000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.381506E+02    0.386234E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.361442E+02    0.387486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.376006E+02    0.370600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.398787E+02    0.375069E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.397599E+02    0.395278E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.374987E+02    0.402608E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.355490E+02    0.414208E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.342522E+02    0.401189E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.342115E+02    0.383396E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.349356E+02    0.367994E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.367785E+02    0.355772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.389440E+02    0.352005E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.408871E+02    0.357808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.421492E+02    0.371228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.422950E+02    0.389042E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.413288E+02    0.406197E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.395205E+02    0.417866E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.374449E+02    0.420538E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.355076E+02    0.443449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.325201E+02    0.427248E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.312080E+02    0.399905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138592E+03   -0.316181E+02    0.370157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.337503E+02    0.344301E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.372831E+02    0.327882E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.409946E+02    0.328004E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.441820E+02    0.343491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.459831E+02    0.370385E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.454306E+02    0.402931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.427746E+02    0.431325E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.390808E+02    0.445849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.391176E+02    0.300534E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.371009E+02    0.302412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.385459E+02    0.285271E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.408461E+02    0.288915E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.407465E+02    0.308828E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.383808E+02    0.317296E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.364354E+02    0.329168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.351165E+02    0.317280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.351518E+02    0.298987E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.360567E+02    0.282261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.378039E+02    0.270052E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.399808E+02    0.265618E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.419396E+02    0.270809E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.432267E+02    0.283723E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.432852E+02    0.301859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.423376E+02    0.318774E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.404279E+02    0.331290E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.383476E+02    0.334575E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.363279E+02    0.358411E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.334973E+02    0.342540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138687E+03   -0.320542E+02    0.316958E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138741E+03   -0.325255E+02    0.286816E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.347397E+02    0.259715E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.382772E+02    0.242473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.421211E+02    0.240903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.452357E+02    0.255702E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.470736E+02    0.281259E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.464509E+02    0.313661E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.437091E+02    0.342826E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.400192E+02    0.358919E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.381557E+02    0.441929E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.361460E+02    0.442593E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.375140E+02    0.426227E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.397876E+02    0.431494E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.397617E+02    0.451417E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.374930E+02    0.457974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.355345E+02    0.468697E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.343452E+02    0.455128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.342149E+02    0.437951E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.350475E+02    0.421722E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.368051E+02    0.410177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.388726E+02    0.407391E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.408037E+02    0.413887E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.421731E+02    0.427795E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.425300E+02    0.445356E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.414372E+02    0.462377E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.396151E+02    0.473186E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.374279E+02    0.475477E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.354719E+02    0.497971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.324957E+02    0.480477E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.311999E+02    0.453425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.316289E+02    0.423567E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.336874E+02    0.398085E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.372282E+02    0.382589E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.409430E+02    0.383587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134708E+03   -0.443505E+02    0.399305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.460146E+02    0.428434E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.455573E+02    0.460868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.429847E+02    0.487501E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.391537E+02    0.501215E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.385640E+02    0.346222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.365529E+02    0.347821E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.380044E+02    0.330609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.401839E+02    0.335308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.401827E+02    0.354968E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.378183E+02    0.363093E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.358734E+02    0.374679E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.345671E+02    0.362397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.344224E+02    0.345247E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.353308E+02    0.328539E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.371723E+02    0.316022E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.393410E+02    0.311945E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.412890E+02    0.317372E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.425634E+02    0.330467E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.427195E+02    0.348298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.417625E+02    0.365357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.399575E+02    0.376981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.377753E+02    0.380438E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.358456E+02    0.403504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.328472E+02    0.388020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138632E+03   -0.315178E+02    0.361607E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.320033E+02    0.331187E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.341295E+02    0.305279E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.376597E+02    0.288486E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.413819E+02    0.288106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.445833E+02    0.302783E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.463987E+02    0.328792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.458699E+02    0.361179E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.431145E+02    0.389809E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.395314E+02    0.404769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.392372E+02    0.240199E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.372182E+02    0.242400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.387506E+02    0.224695E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.410565E+02    0.227842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.408746E+02    0.248037E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.385127E+02    0.256918E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.365721E+02    0.269130E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.352439E+02    0.257649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.351696E+02    0.240176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.360628E+02    0.223809E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.379950E+02    0.210208E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.401728E+02    0.205645E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.421391E+02    0.210336E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.433329E+02    0.223155E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.435177E+02    0.239974E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.424734E+02    0.257550E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.405743E+02    0.270464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.384925E+02    0.274107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.363899E+02    0.298755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.334530E+02    0.284516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138850E+03   -0.321714E+02    0.257844E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138757E+03   -0.327098E+02    0.227250E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.349152E+02    0.200834E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.383525E+02    0.184361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.422982E+02    0.181490E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.454266E+02    0.195498E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.471701E+02    0.219916E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.465784E+02    0.251389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.437543E+02    0.281699E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.400855E+02    0.298364E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659674.735173519     
  ps_ts2 prof sum =   659276.756690902     
  trcom prof sum =    659276.756690902     
  ps_ts2 cur sum  =   9911.64940504346     
  trcom cur sum  =    9911.64940504345     
  
  antenna # iant =            2
  powecha_use(iant) =    667382.574012776     
  ps_ts2 prof sum =   667009.608873074     
  trcom prof sum =    667009.608873074     
  ps_ts2 cur sum  =   12443.2341571649     
  trcom cur sum  =    12443.2341571649     
  
  antenna # iant =            3
  powecha_use(iant) =    530444.880171123     
  ps_ts2 prof sum =   530150.992126886     
  trcom prof sum =    530150.992126886     
  ps_ts2 cur sum  =   6753.15291505929     
  trcom cur sum  =    6753.15291505929     
  
  antenna # iant =            4
  powecha_use(iant) =    569958.603107728     
  ps_ts2 prof sum =   569607.991441584     
  trcom prof sum =    569607.991441583     
  ps_ts2 cur sum  =   9538.08325467992     
  trcom cur sum  =    9538.08325467991     
  
  antenna # iant =            5
  powecha_use(iant) =    554090.471464149     
  ps_ts2 prof sum =   553769.972191189     
  trcom prof sum =    553769.972191189     
  ps_ts2 cur sum  =   11526.1577346414     
  trcom cur sum  =    11526.1577346414     
  
  Total ECH heating:      2979815.32132363     
  Total Current Drive:    50172.2774665889     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3546
 TA= 3.84000E+00 CPU TIME= 1.58860E-01 SECONDS.  DT= 2.02687E-03
  
 TEC1=    3.83999999999994     
 TEC2=    3.84499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.85217499999953     
  %check_save_state: izleft hours =    70.1394444444445     
 --> plasma_hash("gframe"): TA= 3.840000E+00 NSTEP=  3546 Hash code:  116992719
 ->PRGCHK: bdy curvature ratio at t= 3.8450E+00 seconds is:  5.7097E-02
% MHDEQ: TG1=     3.840000 ; TG2=     3.845000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7743E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7097E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.840000 TO TG2=    3.845000 @ NSTEP     3546
   GFRAME TG2 MOMENTS CHECKSUM:  2.4560377517617D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8450E+00  3.8500E+00 total power(Watts):  2.9736E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.84500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.381348E+02    0.386336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.361314E+02    0.387581E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.375874E+02    0.370707E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.398647E+02    0.375165E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.397459E+02    0.395375E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.374862E+02    0.402698E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.355367E+02    0.414339E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.342405E+02    0.401287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.341999E+02    0.383484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.349233E+02    0.368098E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.367653E+02    0.355892E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.389301E+02    0.352123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.408704E+02    0.357929E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.421344E+02    0.371327E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.422805E+02    0.389121E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.413146E+02    0.406298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.395069E+02    0.418007E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.374320E+02    0.420695E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.352988E+02    0.444350E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.325061E+02    0.427424E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.311971E+02    0.400015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.316069E+02    0.370261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.337380E+02    0.344426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.372671E+02    0.328014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.409797E+02    0.328119E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.441662E+02    0.343606E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.459633E+02    0.370491E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.454145E+02    0.403030E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.427600E+02    0.431493E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.390678E+02    0.445994E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.391029E+02    0.300654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.370872E+02    0.302539E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.385319E+02    0.285409E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.408255E+02    0.289079E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.407318E+02    0.308933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.383663E+02    0.317417E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.364226E+02    0.329288E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.351035E+02    0.317405E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.351384E+02    0.299112E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.360427E+02    0.282407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.377901E+02    0.270221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.399649E+02    0.265798E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.419232E+02    0.270971E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.431000E+02    0.284539E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.432694E+02    0.301971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.423218E+02    0.318893E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.404132E+02    0.331408E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.383335E+02    0.334698E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.363150E+02    0.358525E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.334852E+02    0.342666E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138717E+03   -0.320426E+02    0.317083E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138769E+03   -0.325131E+02    0.286972E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.347258E+02    0.259910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.382617E+02    0.242684E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.421047E+02    0.241118E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.452179E+02    0.255898E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.470560E+02    0.281390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.464337E+02    0.313768E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.436934E+02    0.342958E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.400051E+02    0.359028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.381428E+02    0.442087E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.361338E+02    0.442750E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.375011E+02    0.426390E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.397739E+02    0.431664E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.397484E+02    0.451556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.374807E+02    0.458086E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.355232E+02    0.468787E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.343291E+02    0.455257E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.342033E+02    0.438107E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.350354E+02    0.421874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.367931E+02    0.410290E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.388594E+02    0.407494E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.407946E+02    0.414000E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.421587E+02    0.427960E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.422916E+02    0.446184E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.414231E+02    0.462489E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.396022E+02    0.473278E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.374157E+02    0.475579E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.354601E+02    0.498118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.324852E+02    0.480582E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.311897E+02    0.453554E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.316184E+02    0.423726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.336758E+02    0.398179E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.372149E+02    0.382686E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.409289E+02    0.383671E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.443352E+02    0.399390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.459989E+02    0.428597E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.455423E+02    0.460977E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.429729E+02    0.487611E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.391410E+02    0.501368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.385502E+02    0.346342E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.365397E+02    0.347938E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.379908E+02    0.330734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.401693E+02    0.335425E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.401684E+02    0.355082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.378050E+02    0.363199E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.358609E+02    0.374772E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.345548E+02    0.362509E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.344098E+02    0.345373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.353184E+02    0.328658E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.371586E+02    0.316142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.393288E+02    0.312052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.412745E+02    0.317475E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.425478E+02    0.330589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.427043E+02    0.348414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.417477E+02    0.365467E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.399433E+02    0.377077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.377618E+02    0.380535E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.358344E+02    0.403602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.328353E+02    0.388118E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138663E+03   -0.315067E+02    0.361721E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138655E+03   -0.319917E+02    0.331310E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.341168E+02    0.305399E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.376454E+02    0.288625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.413661E+02    0.288230E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.445667E+02    0.302899E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.463819E+02    0.328898E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.458538E+02    0.361290E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.430999E+02    0.389887E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.395179E+02    0.404868E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.392215E+02    0.240407E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.372035E+02    0.242609E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.387361E+02    0.224888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.410400E+02    0.228051E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.408587E+02    0.248246E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.384976E+02    0.257118E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.365584E+02    0.269307E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.352301E+02    0.257845E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.351542E+02    0.240388E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.360482E+02    0.224013E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.379793E+02    0.210415E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.401602E+02    0.205821E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.421231E+02    0.210526E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.433158E+02    0.223364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.435003E+02    0.240180E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.424571E+02    0.257734E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.405583E+02    0.270638E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.383768E+02    0.275007E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.363763E+02    0.298881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.334403E+02    0.284663E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138878E+03   -0.321572E+02    0.258039E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.326965E+02    0.227462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138419E+03   -0.348998E+02    0.201046E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.383366E+02    0.184592E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.422807E+02    0.181725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.454082E+02    0.195712E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.471511E+02    0.220111E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.465600E+02    0.251591E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.437376E+02    0.281837E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.400673E+02    0.298504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.73 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651903.244597733     
  ps_ts2 prof sum =   651497.552000025     
  trcom prof sum =    651497.552000025     
  ps_ts2 cur sum  =   9780.71181211598     
  trcom cur sum  =    9780.71181211597     
  
  antenna # iant =            2
  powecha_use(iant) =    665085.643559043     
  ps_ts2 prof sum =   664713.144324581     
  trcom prof sum =    664713.144324580     
  ps_ts2 cur sum  =   12381.6799823068     
  trcom cur sum  =    12381.6799823068     
  
  antenna # iant =            3
  powecha_use(iant) =    532163.779289738     
  ps_ts2 prof sum =   531862.795061543     
  trcom prof sum =    531862.795061544     
  ps_ts2 cur sum  =   6766.11593403745     
  trcom cur sum  =    6766.11593403746     
  
  antenna # iant =            4
  powecha_use(iant) =    571292.900078709     
  ps_ts2 prof sum =   570945.863963719     
  trcom prof sum =    570945.863963718     
  ps_ts2 cur sum  =   9546.13637409920     
  trcom cur sum  =    9546.13637409919     
  
  antenna # iant =            5
  powecha_use(iant) =    553177.554297501     
  ps_ts2 prof sum =   552861.281443334     
  trcom prof sum =    552861.281443334     
  ps_ts2 cur sum  =   11489.4620288842     
  trcom cur sum  =    11489.4620288842     
  
  Total ECH heating:      2971880.63679320     
  Total Current Drive:    49964.1061314436     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3549
 TA= 3.84500E+00 CPU TIME= 1.59925E-01 SECONDS.  DT= 5.49418E-04
  
 TEC1=    3.84499999999994     
 TEC2=    3.84999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.86661666666646     
  %check_save_state: izleft hours =    70.1250000000000     
 --> plasma_hash("gframe"): TA= 3.845000E+00 NSTEP=  3549 Hash code:   94962962
 ->PRGCHK: bdy curvature ratio at t= 3.8500E+00 seconds is:  5.7078E-02
% MHDEQ: TG1=     3.845000 ; TG2=     3.850000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7749E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7078E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.845000 TO TG2=    3.850000 @ NSTEP     3549
   GFRAME TG2 MOMENTS CHECKSUM:  2.4561416471319D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.52201E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.16447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.25920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.19354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.97469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.38364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.85690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.40692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.30406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.58120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.73624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.40856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.66406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.26270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.40038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.47733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.77455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.85929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.01843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.01843E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.8500E+00  3.8550E+00 total power(Watts):  2.9791E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.85000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.381244E+02    0.386422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.361193E+02    0.387677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.375747E+02    0.370818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.398523E+02    0.375265E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.397330E+02    0.395459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.374737E+02    0.402802E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.355248E+02    0.414471E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.343245E+02    0.400908E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.341885E+02    0.383583E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.349114E+02    0.368217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.367527E+02    0.356028E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.389168E+02    0.352257E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.408565E+02    0.358058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.421201E+02    0.371435E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.422665E+02    0.389215E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.413011E+02    0.406400E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.394937E+02    0.418147E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.374194E+02    0.420847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.352871E+02    0.444512E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.324981E+02    0.427587E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138499E+03   -0.311865E+02    0.400121E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.315963E+02    0.370377E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138325E+03   -0.337247E+02    0.344581E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.372541E+02    0.328158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.409654E+02    0.328260E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.441510E+02    0.343743E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.459480E+02    0.370590E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.453996E+02    0.403124E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.427458E+02    0.431672E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.390550E+02    0.446158E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.390892E+02    0.300801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.370738E+02    0.302696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.385176E+02    0.285564E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.408106E+02    0.289225E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.407174E+02    0.309074E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.383530E+02    0.317555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.364099E+02    0.329433E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.350920E+02    0.317538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.351253E+02    0.299265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.360301E+02    0.282569E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.377763E+02    0.270421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.398461E+02    0.266751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.419083E+02    0.271153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.430845E+02    0.284708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.432541E+02    0.302115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.423070E+02    0.319034E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.403990E+02    0.331557E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.383201E+02    0.334839E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.363025E+02    0.358657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.334724E+02    0.342821E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138740E+03   -0.320316E+02    0.317220E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138799E+03   -0.325014E+02    0.287136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.347132E+02    0.260138E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.382482E+02    0.242910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.420887E+02    0.241345E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.452013E+02    0.256114E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.470392E+02    0.281551E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.464189E+02    0.313907E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.436784E+02    0.343082E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.399915E+02    0.359156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.381301E+02    0.442259E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.361218E+02    0.442911E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.374885E+02    0.426557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.397607E+02    0.431842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.397355E+02    0.451703E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.374685E+02    0.458215E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.355117E+02    0.468898E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.343176E+02    0.455393E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.341918E+02    0.438277E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.350237E+02    0.422040E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.367804E+02    0.410413E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.388462E+02    0.407610E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.407810E+02    0.414124E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.421447E+02    0.428134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.422777E+02    0.446358E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.414098E+02    0.462608E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.395894E+02    0.473384E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.374033E+02    0.475688E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.354486E+02    0.498277E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.324744E+02    0.480705E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.311793E+02    0.453687E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138283E+03   -0.316076E+02    0.423887E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.336644E+02    0.398292E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.372027E+02    0.382782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.409149E+02    0.383770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.443209E+02    0.399485E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.459879E+02    0.428776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.455276E+02    0.461108E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.429573E+02    0.487730E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.391284E+02    0.501531E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.385369E+02    0.346483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.365274E+02    0.348078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.379795E+02    0.330862E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.401554E+02    0.335570E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.401548E+02    0.355216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.377922E+02    0.363323E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.358489E+02    0.374878E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.345415E+02    0.362642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.343970E+02    0.345519E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.353061E+02    0.328802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.371462E+02    0.316281E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.393131E+02    0.312197E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.412600E+02    0.317616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.425330E+02    0.330730E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.426897E+02    0.348547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.417337E+02    0.365581E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.399301E+02    0.377176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.377494E+02    0.380633E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.358227E+02    0.403700E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138279E+03   -0.328247E+02    0.388214E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138692E+03   -0.314960E+02    0.361850E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138684E+03   -0.319806E+02    0.331460E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.341046E+02    0.305556E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.376323E+02    0.288782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.413512E+02    0.288391E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.445508E+02    0.303039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.463658E+02    0.329038E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.458383E+02    0.361405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.430856E+02    0.389979E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.393983E+02    0.405433E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.392071E+02    0.240643E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.371897E+02    0.242836E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.387221E+02    0.225110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.409207E+02    0.229074E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.408427E+02    0.248465E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.384829E+02    0.257345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.365456E+02    0.269501E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.352172E+02    0.258076E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138078E+03   -0.352349E+02    0.239796E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.360324E+02    0.224242E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.379656E+02    0.210628E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.400402E+02    0.206909E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.421080E+02    0.210755E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.432996E+02    0.223588E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.434835E+02    0.240413E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.424414E+02    0.257955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.405439E+02    0.270817E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.383611E+02    0.275190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.363636E+02    0.299029E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.334283E+02    0.284830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138904E+03   -0.321449E+02    0.258266E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138811E+03   -0.326845E+02    0.227685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.348865E+02    0.201274E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.384187E+02    0.183972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.422648E+02    0.181982E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.453912E+02    0.195946E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.471345E+02    0.220341E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.463138E+02    0.253256E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.437218E+02    0.282011E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.400532E+02    0.298650E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650142.469345307     
  ps_ts2 prof sum =   649756.793049921     
  trcom prof sum =    649756.793049922     
  ps_ts2 cur sum  =   9742.38784480537     
  trcom cur sum  =    9742.38784480536     
  
  antenna # iant =            2
  powecha_use(iant) =    666053.044394232     
  ps_ts2 prof sum =   665687.987839202     
  trcom prof sum =    665687.987839202     
  ps_ts2 cur sum  =   12384.8922413649     
  trcom cur sum  =    12384.8922413649     
  
  antenna # iant =            3
  powecha_use(iant) =    533611.851915252     
  ps_ts2 prof sum =   533314.794553021     
  trcom prof sum =    533314.794553021     
  ps_ts2 cur sum  =   6776.71575526082     
  trcom cur sum  =    6776.71575526083     
  
  antenna # iant =            4
  powecha_use(iant) =    573156.508844855     
  ps_ts2 prof sum =   572812.332522811     
  trcom prof sum =    572812.332522811     
  ps_ts2 cur sum  =   9565.36227053543     
  trcom cur sum  =    9565.36227053542     
  
  antenna # iant =            5
  powecha_use(iant) =    556111.673814199     
  ps_ts2 prof sum =   555806.907562610     
  trcom prof sum =    555806.907562610     
  ps_ts2 cur sum  =   11537.8481401652     
  trcom cur sum  =    11537.8481401652     
  
  Total ECH heating:      2977378.81552757     
  Total Current Drive:    50007.2062521317     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3555
 TA= 3.85000E+00 CPU TIME= 1.61280E-01 SECONDS.  DT= 6.13638E-04
  
 TEC1=    3.84999999999994     
 TEC2=    3.85499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.88341722222185     
  %check_save_state: izleft hours =    70.1080555555556     
 --> plasma_hash("gframe"): TA= 3.850000E+00 NSTEP=  3555 Hash code:   14747718
 ->PRGCHK: bdy curvature ratio at t= 3.8550E+00 seconds is:  5.7059E-02
% MHDEQ: TG1=     3.850000 ; TG2=     3.855000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7755E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7059E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.850000 TO TG2=    3.855000 @ NSTEP     3555
   GFRAME TG2 MOMENTS CHECKSUM:  2.4562455425020D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8550E+00  3.8600E+00 total power(Watts):  2.9708E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.85500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.381115E+02    0.386521E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.361072E+02    0.387773E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.375619E+02    0.370941E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.398381E+02    0.375372E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.397196E+02    0.395552E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.374611E+02    0.402897E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.355076E+02    0.414601E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.343129E+02    0.401009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.341770E+02    0.383687E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.348993E+02    0.368350E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.367399E+02    0.356180E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.389032E+02    0.352418E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.408423E+02    0.358209E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.421057E+02    0.371556E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.422522E+02    0.389311E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.412865E+02    0.406503E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.394805E+02    0.418269E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.374068E+02    0.420987E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.352754E+02    0.444659E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.324870E+02    0.427747E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.311761E+02    0.400222E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138682E+03   -0.315852E+02    0.370504E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.337147E+02    0.344743E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.372407E+02    0.328333E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.409508E+02    0.328442E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.441356E+02    0.343909E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.459325E+02    0.370702E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.453851E+02    0.403198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.427315E+02    0.431831E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.390421E+02    0.446311E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.390753E+02    0.300976E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.370610E+02    0.302857E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.385040E+02    0.285748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.407963E+02    0.289404E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.407017E+02    0.309256E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.383394E+02    0.317726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.363968E+02    0.329609E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.350794E+02    0.317716E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138328E+03   -0.349233E+02    0.300850E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.360152E+02    0.282764E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.377616E+02    0.270627E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.398317E+02    0.266959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.418928E+02    0.271365E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.430690E+02    0.284889E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.432386E+02    0.302283E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.422918E+02    0.319209E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.403847E+02    0.331729E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.383019E+02    0.335044E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.362898E+02    0.358809E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.332762E+02    0.344244E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138775E+03   -0.320194E+02    0.317409E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138827E+03   -0.324899E+02    0.287313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138413E+03   -0.347008E+02    0.260355E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.382342E+02    0.243143E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.419668E+02    0.242348E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.451827E+02    0.256356E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.467890E+02    0.283072E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.464011E+02    0.314081E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.436630E+02    0.343257E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.399776E+02    0.359302E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.381155E+02    0.442413E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.361100E+02    0.443064E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.374758E+02    0.426709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.397421E+02    0.432008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.397225E+02    0.451841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.374565E+02    0.458332E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.354999E+02    0.469002E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.343068E+02    0.455511E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.339892E+02    0.439224E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.350118E+02    0.422181E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.367678E+02    0.410523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.388335E+02    0.407709E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.407667E+02    0.414234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.421306E+02    0.428282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.422638E+02    0.446509E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.412872E+02    0.463017E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.394723E+02    0.473758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.373914E+02    0.475783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.354360E+02    0.498413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.324639E+02    0.480816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.310798E+02    0.454177E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.315970E+02    0.424044E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.336527E+02    0.398390E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.371904E+02    0.382877E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.409013E+02    0.383861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.443061E+02    0.399573E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134075E+03   -0.459684E+02    0.428927E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133928E+03   -0.455130E+02    0.461225E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.429437E+02    0.487842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.391161E+02    0.501680E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.385238E+02    0.346649E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.365192E+02    0.348219E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.378623E+02    0.331680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.401412E+02    0.335743E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.401408E+02    0.355371E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.377790E+02    0.363463E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.358366E+02    0.374993E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.345308E+02    0.362778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.343862E+02    0.345686E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.352936E+02    0.328976E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.371330E+02    0.316453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.392993E+02    0.312370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.412451E+02    0.317792E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.425180E+02    0.330904E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.426748E+02    0.348714E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.417191E+02    0.365715E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.398156E+02    0.377781E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.377368E+02    0.380730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.356133E+02    0.404748E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138309E+03   -0.328136E+02    0.388315E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.314851E+02    0.362000E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.319693E+02    0.331632E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.340927E+02    0.305717E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.376189E+02    0.288946E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.413364E+02    0.288569E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.445350E+02    0.303205E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.463496E+02    0.329210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.458224E+02    0.361545E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.430708E+02    0.390076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.393850E+02    0.405531E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.391925E+02    0.240867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.371769E+02    0.243065E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.387087E+02    0.225332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.409058E+02    0.229292E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.408280E+02    0.248699E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.384693E+02    0.257561E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.363388E+02    0.271220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.352048E+02    0.258294E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.352217E+02    0.240022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138232E+03   -0.360198E+02    0.224452E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.379510E+02    0.210842E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.400250E+02    0.207133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.419871E+02    0.211775E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.432839E+02    0.223802E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.433591E+02    0.241401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.424259E+02    0.258176E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.405288E+02    0.271033E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.383480E+02    0.275397E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.363502E+02    0.299205E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138618E+03   -0.334155E+02    0.285013E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138932E+03   -0.321357E+02    0.258489E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138839E+03   -0.326728E+02    0.227897E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138473E+03   -0.348741E+02    0.201511E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.384050E+02    0.184240E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.422479E+02    0.182259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.453745E+02    0.196190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.471162E+02    0.220564E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.462969E+02    0.253477E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.437061E+02    0.282196E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.400390E+02    0.298820E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647090.030171578     
  ps_ts2 prof sum =   646714.797399715     
  trcom prof sum =    646714.797399716     
  ps_ts2 cur sum  =   9680.57684991075     
  trcom cur sum  =    9680.57684991074     
  
  antenna # iant =            2
  powecha_use(iant) =    665992.541849707     
  ps_ts2 prof sum =   665583.252316334     
  trcom prof sum =    665583.252316333     
  ps_ts2 cur sum  =   12369.1451009667     
  trcom cur sum  =    12369.1451009667     
  
  antenna # iant =            3
  powecha_use(iant) =    532736.231166704     
  ps_ts2 prof sum =   532413.882774035     
  trcom prof sum =    532413.882774035     
  ps_ts2 cur sum  =   6756.75673683669     
  trcom cur sum  =    6756.75673683669     
  
  antenna # iant =            4
  powecha_use(iant) =    569904.035006823     
  ps_ts2 prof sum =   569548.068586406     
  trcom prof sum =    569548.068586405     
  ps_ts2 cur sum  =   9496.36918709764     
  trcom cur sum  =    9496.36918709764     
  
  antenna # iant =            5
  powecha_use(iant) =    555051.546168163     
  ps_ts2 prof sum =   554732.446543651     
  trcom prof sum =    554732.446543651     
  ps_ts2 cur sum  =   11509.9876001948     
  trcom cur sum  =    11509.9876001948     
  
  Total ECH heating:      2968992.44762014     
  Total Current Drive:    49812.8354750066     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3560
 TA= 3.85500E+00 CPU TIME= 1.54787E-01 SECONDS.  DT= 1.82749E-03
  
 TEC1=    3.85499999999994     
 TEC2=    3.85999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.89788777777767     
  %check_save_state: izleft hours =    70.0936111111111     
 --> plasma_hash("gframe"): TA= 3.855000E+00 NSTEP=  3560 Hash code:  102637005
 ->PRGCHK: bdy curvature ratio at t= 3.8600E+00 seconds is:  5.7018E-02
% MHDEQ: TG1=     3.855000 ; TG2=     3.860000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.3910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7742E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7018E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.855000 TO TG2=    3.860000 @ NSTEP     3560
   GFRAME TG2 MOMENTS CHECKSUM:  2.4560838673563D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.50854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.21474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.24854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.94926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.98311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.38915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.84021E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.51662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.27709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.61225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.90014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.92575E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.66871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.28584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.37360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.55308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.84027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.94244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.92461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.92461E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8600E+00  3.8650E+00 total power(Watts):  2.9737E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.86000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.381031E+02    0.386229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.360989E+02    0.387500E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.375533E+02    0.370665E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.398288E+02    0.375095E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.398174E+02    0.394777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.374523E+02    0.402610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.355020E+02    0.414309E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.342095E+02    0.401227E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.340740E+02    0.383957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.350842E+02    0.366953E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.368312E+02    0.355328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.388944E+02    0.352144E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.408331E+02    0.357922E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.420964E+02    0.371262E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.423540E+02    0.388535E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.413872E+02    0.405749E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.395782E+02    0.417540E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.373985E+02    0.420685E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.354643E+02    0.443620E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.324795E+02    0.427470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138539E+03   -0.311684E+02    0.399957E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138691E+03   -0.315776E+02    0.370259E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.338934E+02    0.343245E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.372322E+02    0.328085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.409415E+02    0.328177E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.441260E+02    0.343617E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.459226E+02    0.370387E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.454922E+02    0.402439E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.427224E+02    0.431502E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.391394E+02    0.445646E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.390661E+02    0.300736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.370521E+02    0.302626E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.384947E+02    0.285517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.407869E+02    0.289167E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.406935E+02    0.309002E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.384327E+02    0.316825E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.363882E+02    0.329365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.352628E+02    0.316130E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.351045E+02    0.299206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.360073E+02    0.282537E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137426E+03   -0.377527E+02    0.270403E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.399260E+02    0.265990E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.418834E+02    0.271122E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.431695E+02    0.283952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.433399E+02    0.301371E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.422822E+02    0.318950E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.404822E+02    0.330849E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.382943E+02    0.334777E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.362813E+02    0.358544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.333609E+02    0.343371E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138783E+03   -0.320117E+02    0.317183E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138834E+03   -0.324820E+02    0.287099E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138418E+03   -0.346923E+02    0.260149E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.382250E+02    0.242937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.420647E+02    0.241354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.453985E+02    0.254661E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.470116E+02    0.281472E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134709E+03   -0.463910E+02    0.313806E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.436534E+02    0.342970E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.399686E+02    0.359023E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.381099E+02    0.442099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.361019E+02    0.442765E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.375700E+02    0.426001E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.398433E+02    0.431301E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.398215E+02    0.451179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.374487E+02    0.458018E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.354917E+02    0.468718E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.342027E+02    0.455578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.341727E+02    0.438151E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.349065E+02    0.422329E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.367595E+02    0.410236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.388246E+02    0.407410E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.408668E+02    0.413495E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.421216E+02    0.427956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.423670E+02    0.445829E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.413918E+02    0.462387E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.395743E+02    0.473155E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.373830E+02    0.475484E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.354305E+02    0.498132E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.324565E+02    0.480540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.311619E+02    0.453541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.315897E+02    0.423774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.338337E+02    0.397122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.371815E+02    0.382608E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.408922E+02    0.383568E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.442966E+02    0.399250E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.459587E+02    0.428576E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133938E+03   -0.455033E+02    0.460878E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.428210E+02    0.487740E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.391072E+02    0.501383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.385145E+02    0.346383E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.365058E+02    0.347980E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.379553E+02    0.330796E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.402384E+02    0.334869E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.401317E+02    0.355091E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.378725E+02    0.362626E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.357300E+02    0.375273E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.347141E+02    0.361356E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.345680E+02    0.344194E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.354782E+02    0.327434E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.371243E+02    0.316210E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.392902E+02    0.312121E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.412356E+02    0.317538E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.425085E+02    0.330634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.426654E+02    0.348426E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.417102E+02    0.365418E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.399075E+02    0.377001E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.377279E+02    0.380458E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.358023E+02    0.403515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.328058E+02    0.388056E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138731E+03   -0.314771E+02    0.361751E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138721E+03   -0.319613E+02    0.331403E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.342708E+02    0.304090E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.376097E+02    0.288726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.414340E+02    0.287631E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.445251E+02    0.302951E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.463395E+02    0.328922E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.458126E+02    0.361236E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.430617E+02    0.389767E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.394823E+02    0.404780E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.392846E+02    0.239871E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.370708E+02    0.243667E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.386994E+02    0.225143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.410005E+02    0.228303E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.408200E+02    0.248471E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.385606E+02    0.256579E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.365237E+02    0.269488E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.353844E+02    0.256515E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138327E+03   -0.351200E+02    0.240647E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137805E+03   -0.362000E+02    0.222601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.379411E+02    0.210675E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.401170E+02    0.206119E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.420830E+02    0.210779E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.432738E+02    0.223597E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.434581E+02    0.240431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.424163E+02    0.257954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.405199E+02    0.270798E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.384406E+02    0.274417E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.362438E+02    0.299680E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.334080E+02    0.284796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138938E+03   -0.321272E+02    0.258291E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138843E+03   -0.326623E+02    0.227723E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.348656E+02    0.201337E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.382993E+02    0.184920E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.422387E+02    0.182057E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.453645E+02    0.195995E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.469922E+02    0.221115E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.465158E+02    0.251803E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.436961E+02    0.281952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.400297E+02    0.298583E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650738.899206880     
  ps_ts2 prof sum =   650358.328336261     
  trcom prof sum =    650358.328336261     
  ps_ts2 cur sum  =   9760.81030301868     
  trcom cur sum  =    9760.81030301868     
  
  antenna # iant =            2
  powecha_use(iant) =    665890.251946228     
  ps_ts2 prof sum =   665517.687576013     
  trcom prof sum =    665517.687576012     
  ps_ts2 cur sum  =   12386.9818383511     
  trcom cur sum  =    12386.9818383511     
  
  antenna # iant =            3
  powecha_use(iant) =    534169.420256178     
  ps_ts2 prof sum =   533839.455319025     
  trcom prof sum =    533839.455319026     
  ps_ts2 cur sum  =   6794.17760902918     
  trcom cur sum  =    6794.17760902918     
  
  antenna # iant =            4
  powecha_use(iant) =    568429.113775246     
  ps_ts2 prof sum =   568103.503566948     
  trcom prof sum =    568103.503566947     
  ps_ts2 cur sum  =   9492.01368154699     
  trcom cur sum  =    9492.01368154698     
  
  antenna # iant =            5
  powecha_use(iant) =    554452.862515012     
  ps_ts2 prof sum =   554115.733561042     
  trcom prof sum =    554115.733561042     
  ps_ts2 cur sum  =   11506.0030324782     
  trcom cur sum  =    11506.0030324782     
  
  Total ECH heating:      2971934.70835929     
  Total Current Drive:    49939.9864644241     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3563
 TA= 3.86000E+00 CPU TIME= 1.59187E-01 SECONDS.  DT= 1.11017E-03
  
 TEC1=    3.85999999999994     
 TEC2=    3.86499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.91630611111100     
  %check_save_state: izleft hours =    70.0752777777778     
 --> plasma_hash("gframe"): TA= 3.860000E+00 NSTEP=  3563 Hash code:    3242033
 ->PRGCHK: bdy curvature ratio at t= 3.8650E+00 seconds is:  5.6976E-02
% MHDEQ: TG1=     3.860000 ; TG2=     3.865000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7730E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6976E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.860000 TO TG2=    3.865000 @ NSTEP     3563
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559221922105D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8650E+00  3.8700E+00 total power(Watts):  2.9902E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.86500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.381966E+02    0.385399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.361888E+02    0.386670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.376451E+02    0.369807E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.398185E+02    0.374770E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.398075E+02    0.394450E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.375450E+02    0.401827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.355937E+02    0.413532E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137486E+03   -0.343915E+02    0.399935E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.342547E+02    0.382590E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.349780E+02    0.367222E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.368212E+02    0.355028E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.388838E+02    0.351831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.409304E+02    0.357040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.421965E+02    0.370389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.423437E+02    0.388187E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.413768E+02    0.405413E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.395686E+02    0.417197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.373893E+02    0.420355E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.354557E+02    0.443288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.324714E+02    0.427165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.311601E+02    0.399677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138474E+03   -0.316581E+02    0.369398E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.337902E+02    0.343593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.372216E+02    0.327803E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.410378E+02    0.327252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.443358E+02    0.342173E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.460284E+02    0.369524E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.454814E+02    0.402069E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.429376E+02    0.430386E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.391302E+02    0.445296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.391579E+02    0.299766E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.371407E+02    0.301650E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.385854E+02    0.284526E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.408817E+02    0.288173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.407890E+02    0.308052E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.384217E+02    0.316539E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.364766E+02    0.328439E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.351564E+02    0.316538E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.349988E+02    0.299656E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.359019E+02    0.283010E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.378405E+02    0.269396E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.399140E+02    0.265718E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.418714E+02    0.270856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.431579E+02    0.283655E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.433280E+02    0.301072E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.423805E+02    0.318010E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.404711E+02    0.330548E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.383874E+02    0.333857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.363705E+02    0.357662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.333514E+02    0.343093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.320912E+02    0.316228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138620E+03   -0.325607E+02    0.286103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.347745E+02    0.259123E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.383126E+02    0.241907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.420505E+02    0.241112E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.452731E+02    0.255106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.468823E+02    0.281832E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134504E+03   -0.464954E+02    0.312851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.438678E+02    0.341487E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.400644E+02    0.358142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.382075E+02    0.441379E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.361930E+02    0.442063E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.375608E+02    0.425669E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.398365E+02    0.430949E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.398118E+02    0.450833E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.375420E+02    0.457354E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.355819E+02    0.468076E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.343867E+02    0.454554E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.340687E+02    0.438229E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.350925E+02    0.421143E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.367501E+02    0.409914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.389191E+02    0.406633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.408565E+02    0.413161E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.423346E+02    0.426823E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.423568E+02    0.445478E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.413779E+02    0.462030E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.395587E+02    0.472818E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.374777E+02    0.474854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.355242E+02    0.497590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.325406E+02    0.479950E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.311545E+02    0.453226E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.315816E+02    0.423475E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.337307E+02    0.397313E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.371720E+02    0.382285E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.409905E+02    0.382731E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.441710E+02    0.399334E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.460661E+02    0.427823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133948E+03   -0.454932E+02    0.460480E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.428114E+02    0.487372E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.392045E+02    0.500839E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.385040E+02    0.346078E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.364958E+02    0.347683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.379445E+02    0.330507E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.402274E+02    0.334567E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.401212E+02    0.354772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.378624E+02    0.362317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.359171E+02    0.373874E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.346088E+02    0.361646E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.344634E+02    0.344527E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.354680E+02    0.327159E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.372134E+02    0.315263E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.392788E+02    0.311841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.413319E+02    0.316598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.426077E+02    0.329708E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.427652E+02    0.347529E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.418048E+02    0.364568E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.398974E+02    0.376663E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.378205E+02    0.379617E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.357930E+02    0.403205E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.329816E+02    0.386700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138514E+03   -0.315573E+02    0.360874E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.320415E+02    0.330474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.341639E+02    0.304562E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.376987E+02    0.287731E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.414227E+02    0.287336E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.446260E+02    0.301993E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.464442E+02    0.328005E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.456843E+02    0.361399E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.431638E+02    0.388942E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.394719E+02    0.404446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.392726E+02    0.239633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.372537E+02    0.241831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137079E+03   -0.387866E+02    0.224092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.409879E+02    0.228058E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.409122E+02    0.247449E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.385487E+02    0.256326E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.364138E+02    0.269996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.352789E+02    0.257060E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.352951E+02    0.238786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.360946E+02    0.223215E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.378334E+02    0.211291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.401042E+02    0.205885E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.420699E+02    0.210528E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.433681E+02    0.222576E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.434450E+02    0.240162E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.425118E+02    0.256936E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.406125E+02    0.269787E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.384291E+02    0.274151E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.364292E+02    0.297993E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.334889E+02    0.283792E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138724E+03   -0.322040E+02    0.257251E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138630E+03   -0.327390E+02    0.226659E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138264E+03   -0.349431E+02    0.200246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.384804E+02    0.182952E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.423291E+02    0.180971E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.454605E+02    0.194935E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.472049E+02    0.219325E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.463881E+02    0.252238E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.437958E+02    0.280955E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.401231E+02    0.297611E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662217.730770608     
  ps_ts2 prof sum =   661847.673584299     
  trcom prof sum =    661847.673584299     
  ps_ts2 cur sum  =   9947.37520450165     
  trcom cur sum  =    9947.37520450165     
  
  antenna # iant =            2
  powecha_use(iant) =    667901.040893083     
  ps_ts2 prof sum =   667497.813027921     
  trcom prof sum =    667497.813027921     
  ps_ts2 cur sum  =   12430.5334691714     
  trcom cur sum  =    12430.5334691714     
  
  antenna # iant =            3
  powecha_use(iant) =    533707.832406436     
  ps_ts2 prof sum =   533382.187286149     
  trcom prof sum =    533382.187286150     
  ps_ts2 cur sum  =   6802.05357316099     
  trcom cur sum  =    6802.05357316100     
  
  antenna # iant =            4
  powecha_use(iant) =    572164.127496125     
  ps_ts2 prof sum =   571829.737983024     
  trcom prof sum =    571829.737983023     
  ps_ts2 cur sum  =   9565.42814391712     
  trcom cur sum  =    9565.42814391711     
  
  antenna # iant =            5
  powecha_use(iant) =    554242.616912369     
  ps_ts2 prof sum =   553929.300048565     
  trcom prof sum =    553929.300048565     
  ps_ts2 cur sum  =   11497.4888899779     
  trcom cur sum  =    11497.4888899779     
  
  Total ECH heating:      2988486.71192996     
  Total Current Drive:    50242.8792807291     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3567
 TA= 3.86500E+00 CPU TIME= 1.59280E-01 SECONDS.  DT= 9.59337E-04
  
 TEC1=    3.86499999999994     
 TEC2=    3.86999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.93113499999936     
  %check_save_state: izleft hours =    70.0605555555556     
 --> plasma_hash("gframe"): TA= 3.865000E+00 NSTEP=  3567 Hash code:  114257400
 ->PRGCHK: bdy curvature ratio at t= 3.8700E+00 seconds is:  5.6934E-02
% MHDEQ: TG1=     3.865000 ; TG2=     3.870000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7717E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6934E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.865000 TO TG2=    3.870000 @ NSTEP     3567
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557605165583D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.35722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.32908E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.02542E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.87089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.93612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39863E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.74191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.21316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.82298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.22000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.55813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.28295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.91927E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.63819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.37591E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.79904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.72046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.84875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.09023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.13600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.13600E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999997716164216E-006
 EC call, timestep(sec):  3.8700E+00  3.8750E+00 total power(Watts):  2.9810E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.87000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.381874E+02    0.385101E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.361800E+02    0.386373E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.376359E+02    0.369525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.399155E+02    0.373937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.397982E+02    0.394138E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.375363E+02    0.401515E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.355875E+02    0.413222E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.342877E+02    0.400143E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.342462E+02    0.382311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.351626E+02    0.365815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.368120E+02    0.354763E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.389782E+02    0.350983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.409206E+02    0.356756E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.421866E+02    0.370085E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.425566E+02    0.386896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.413677E+02    0.405072E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.395596E+02    0.416870E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.374828E+02    0.419610E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.355460E+02    0.442602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.325557E+02    0.426443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.312413E+02    0.398880E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.316498E+02    0.369144E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.337814E+02    0.343355E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.373119E+02    0.326925E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.410278E+02    0.327008E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.442130E+02    0.342462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.460178E+02    0.369200E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.453545E+02    0.402151E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.428155E+02    0.430412E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.392273E+02    0.444613E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.391485E+02    0.299538E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.371313E+02    0.301431E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.385757E+02    0.284300E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.408716E+02    0.287945E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.407795E+02    0.307810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.384118E+02    0.316309E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.364673E+02    0.328207E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.353388E+02    0.314959E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.351801E+02    0.298017E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.360847E+02    0.281317E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.378308E+02    0.269182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.400073E+02    0.264767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.419686E+02    0.269902E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.432517E+02    0.282752E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.434284E+02    0.300166E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.423701E+02    0.317764E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.405677E+02    0.329680E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.383788E+02    0.333605E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.363614E+02    0.357396E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.335279E+02    0.341591E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.320834E+02    0.316010E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.325502E+02    0.285905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.347653E+02    0.258931E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.383027E+02    0.241720E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.421470E+02    0.240143E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.454880E+02    0.253427E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134430E+03   -0.471040E+02    0.280237E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.464840E+02    0.312603E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.437443E+02    0.341787E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.400549E+02    0.357857E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.381954E+02    0.441067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.361847E+02    0.441739E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.376546E+02    0.424936E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.398302E+02    0.430613E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.398027E+02    0.450507E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.375334E+02    0.457030E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.355738E+02    0.467762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.343789E+02    0.454244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.342520E+02    0.437132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.350842E+02    0.420838E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.368422E+02    0.409149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.389102E+02    0.406313E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.409572E+02    0.412386E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.422138E+02    0.426865E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.425715E+02    0.444432E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.414792E+02    0.461385E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.396571E+02    0.472207E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.374690E+02    0.474541E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.355118E+02    0.497291E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.325332E+02    0.479656E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.312365E+02    0.452568E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.316639E+02    0.422746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.339112E+02    0.396025E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.372642E+02    0.381471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.409809E+02    0.382423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.443862E+02    0.398106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.460561E+02    0.427452E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.456006E+02    0.459819E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.429149E+02    0.486809E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.391956E+02    0.500520E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.385982E+02    0.345212E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.365856E+02    0.346826E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.380367E+02    0.329636E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.403236E+02    0.333704E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.402179E+02    0.353922E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.378531E+02    0.362042E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.359082E+02    0.373596E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.347914E+02    0.360215E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.344543E+02    0.344292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.353623E+02    0.327587E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.372037E+02    0.315039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.393728E+02    0.310942E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.413217E+02    0.316353E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.425972E+02    0.329457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.427549E+02    0.347252E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.417967E+02    0.364261E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.399944E+02    0.375841E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.378114E+02    0.379318E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.358832E+02    0.402424E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138111E+03   -0.328810E+02    0.386958E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.315487E+02    0.360630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.320329E+02    0.330256E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.341556E+02    0.304341E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.376893E+02    0.287513E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.414125E+02    0.287107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.446152E+02    0.301749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.464332E+02    0.327734E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.459072E+02    0.360035E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.431540E+02    0.388614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.395689E+02    0.403669E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.393641E+02    0.238651E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.372441E+02    0.241650E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.387770E+02    0.223928E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.410811E+02    0.227093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.409004E+02    0.247273E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.386393E+02    0.255358E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.365992E+02    0.268262E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.354577E+02    0.255300E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.351931E+02    0.239438E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.360846E+02    0.223057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.380174E+02    0.209448E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.401957E+02    0.204883E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.421640E+02    0.209551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.433576E+02    0.222391E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.435435E+02    0.239211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.425013E+02    0.256726E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.406029E+02    0.269575E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.385200E+02    0.273207E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.364199E+02    0.297778E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138417E+03   -0.334800E+02    0.283588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.321950E+02    0.257075E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138633E+03   -0.327304E+02    0.226502E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.349335E+02    0.200093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.383718E+02    0.183680E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.423183E+02    0.180817E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.454496E+02    0.194758E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134913E+03   -0.470803E+02    0.219913E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.466058E+02    0.250569E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.437852E+02    0.280718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.401136E+02    0.297378E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653790.043061054     
  ps_ts2 prof sum =   653401.230666894     
  trcom prof sum =    653401.230628516     
  ps_ts2 cur sum  =   9841.52630502986     
  trcom cur sum  =    9841.52630502986     
  
  antenna # iant =            2
  powecha_use(iant) =    665628.534755856     
  ps_ts2 prof sum =   665276.839670459     
  trcom prof sum =    665276.839670459     
  ps_ts2 cur sum  =   12399.7167452635     
  trcom cur sum  =    12399.7167452635     
  
  antenna # iant =            3
  powecha_use(iant) =    533923.984996615     
  ps_ts2 prof sum =   533633.346344725     
  trcom prof sum =    533633.346344726     
  ps_ts2 cur sum  =   6822.76496331270     
  trcom cur sum  =    6822.76496331271     
  
  antenna # iant =            4
  powecha_use(iant) =    571848.416485459     
  ps_ts2 prof sum =   571494.893607048     
  trcom prof sum =    571494.893607047     
  ps_ts2 cur sum  =   9574.77266596090     
  trcom cur sum  =    9574.77266596089     
  
  antenna # iant =            5
  powecha_use(iant) =    555805.740121371     
  ps_ts2 prof sum =   555484.814265720     
  trcom prof sum =    555484.814265720     
  ps_ts2 cur sum  =   11535.3300833722     
  trcom cur sum  =    11535.3300833722     
  
  Total ECH heating:      2979291.12451647     
  Total Current Drive:    50174.1107629391     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3571
 TA= 3.87000E+00 CPU TIME= 1.59566E-01 SECONDS.  DT= 1.67816E-03
  
 TEC1=    3.86999999999994     
 TEC2=    3.87499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.94469750000007     
  %check_save_state: izleft hours =    70.0469444444444     
 --> plasma_hash("gframe"): TA= 3.870000E+00 NSTEP=  3571 Hash code:   38984631
 ->PRGCHK: bdy curvature ratio at t= 3.8750E+00 seconds is:  5.6893E-02
% MHDEQ: TG1=     3.870000 ; TG2=     3.875000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7705E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6893E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.870000 TO TG2=    3.875000 @ NSTEP     3571
   GFRAME TG2 MOMENTS CHECKSUM:  2.4555988409060D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8750E+00  3.8800E+00 total power(Watts):  2.9660E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.87500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.381800E+02    0.384828E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.362723E+02    0.385586E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.376286E+02    0.369251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.399082E+02    0.373656E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.398976E+02    0.393365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.375295E+02    0.401234E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.355829E+02    0.412943E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.342813E+02    0.399874E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.341447E+02    0.382587E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.351559E+02    0.365558E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.369050E+02    0.353914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.389710E+02    0.350715E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.409134E+02    0.356471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.421790E+02    0.369802E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.424378E+02    0.387080E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.414703E+02    0.404322E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.396589E+02    0.416148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.374759E+02    0.419326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.355396E+02    0.442309E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.325496E+02    0.426173E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.312351E+02    0.398630E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138492E+03   -0.316437E+02    0.368898E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.339616E+02    0.341859E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.373047E+02    0.326692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.410203E+02    0.326760E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.444340E+02    0.341029E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134107E+03   -0.461269E+02    0.368389E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.455802E+02    0.400967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.428081E+02    0.430092E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.392205E+02    0.444299E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.391410E+02    0.299323E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.371240E+02    0.301224E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.386697E+02    0.283377E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.408638E+02    0.287735E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.407727E+02    0.307583E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.385065E+02    0.315426E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.364597E+02    0.327977E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.353317E+02    0.314744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.351733E+02    0.297817E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.360781E+02    0.281118E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.378235E+02    0.268996E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.399998E+02    0.264576E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.419608E+02    0.269703E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.432447E+02    0.282529E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.434201E+02    0.299939E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.423623E+02    0.317523E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.405601E+02    0.329435E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.383729E+02    0.333356E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.363545E+02    0.357135E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.334285E+02    0.341994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.320767E+02    0.315806E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.326327E+02    0.284963E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.347583E+02    0.258759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.383945E+02    0.240762E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.421393E+02    0.239973E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.453675E+02    0.253964E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.470955E+02    0.280010E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.463593E+02    0.312964E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.437365E+02    0.341516E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.400476E+02    0.357578E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.381886E+02    0.440761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.361783E+02    0.441450E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.376479E+02    0.424644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.399329E+02    0.429914E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.399030E+02    0.449841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.375268E+02    0.456732E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.355675E+02    0.467465E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.342766E+02    0.454308E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.342457E+02    0.436850E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.349805E+02    0.420997E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.368358E+02    0.408865E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.389031E+02    0.406024E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.409498E+02    0.412086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.422065E+02    0.426547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.424519E+02    0.444454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.414720E+02    0.461059E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.396503E+02    0.471881E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.374619E+02    0.474238E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.355054E+02    0.497007E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.325273E+02    0.479377E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.312307E+02    0.452292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.316579E+02    0.422479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.339046E+02    0.395759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.372571E+02    0.381206E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.409733E+02    0.382138E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.442661E+02    0.398242E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133678E+03   -0.461662E+02    0.426749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.455929E+02    0.459465E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134690E+03   -0.429076E+02    0.486471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.392947E+02    0.500009E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.385905E+02    0.344963E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.365790E+02    0.346567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.380295E+02    0.329399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.403161E+02    0.333452E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.402105E+02    0.353651E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.379483E+02    0.361208E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.360003E+02    0.372775E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.347848E+02    0.359961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137588E+03   -0.346373E+02    0.342804E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.355483E+02    0.326053E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.372961E+02    0.314146E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.393652E+02    0.310718E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.413141E+02    0.316117E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.425895E+02    0.329206E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.427476E+02    0.346971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.417909E+02    0.363978E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.399871E+02    0.375560E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.378043E+02    0.379053E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.358767E+02    0.402152E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138121E+03   -0.328746E+02    0.386702E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.315423E+02    0.360387E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138520E+03   -0.320264E+02    0.330042E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.343359E+02    0.302712E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.376820E+02    0.287311E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.415117E+02    0.286196E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.448336E+02    0.300209E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.463081E+02    0.328059E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.458992E+02    0.359733E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.433719E+02    0.387349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.395619E+02    0.403377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.393569E+02    0.238487E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.373342E+02    0.240683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.387701E+02    0.223768E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.410737E+02    0.226923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.409973E+02    0.246325E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.386323E+02    0.255178E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.365919E+02    0.268086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.354504E+02    0.255123E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.351865E+02    0.239278E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.362664E+02    0.221226E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.380112E+02    0.209281E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.401885E+02    0.204720E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.421570E+02    0.209388E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.434575E+02    0.221428E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.435357E+02    0.239036E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.424934E+02    0.256543E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.407000E+02    0.268645E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.385126E+02    0.273014E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.365098E+02    0.296871E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.334737E+02    0.283395E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138733E+03   -0.321873E+02    0.256909E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138637E+03   -0.327238E+02    0.226352E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.349269E+02    0.199939E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.385598E+02    0.181760E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.423113E+02    0.180653E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.455517E+02    0.193776E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.470722E+02    0.219737E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.464831E+02    0.251102E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.438882E+02    0.279807E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.402108E+02    0.296472E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.77 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    646559.822413063     
  ps_ts2 prof sum =   646178.884651251     
  trcom prof sum =    646178.884651251     
  ps_ts2 cur sum  =   9758.00065351457     
  trcom cur sum  =    9758.00065351457     
  
  antenna # iant =            2
  powecha_use(iant) =    666157.632681463     
  ps_ts2 prof sum =   665755.467074588     
  trcom prof sum =    665755.467074588     
  ps_ts2 cur sum  =   12430.7890970355     
  trcom cur sum  =    12430.7890970355     
  
  antenna # iant =            3
  powecha_use(iant) =    532443.378643196     
  ps_ts2 prof sum =   532102.202962865     
  trcom prof sum =    532102.202962866     
  ps_ts2 cur sum  =   6824.44245046643     
  trcom cur sum  =    6824.44245046643     
  
  antenna # iant =            4
  powecha_use(iant) =    565813.866154374     
  ps_ts2 prof sum =   565499.034637749     
  trcom prof sum =    565499.034637748     
  ps_ts2 cur sum  =   9494.55005555732     
  trcom cur sum  =    9494.55005555731     
  
  antenna # iant =            5
  powecha_use(iant) =    555046.752160496     
  ps_ts2 prof sum =   554743.498562383     
  trcom prof sum =    554743.498562382     
  ps_ts2 cur sum  =   11531.0460263757     
  trcom cur sum  =    11531.0460263757     
  
  Total ECH heating:      2964279.08788884     
  Total Current Drive:    50038.8282829495     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3574
 TA= 3.87500E+00 CPU TIME= 1.61737E-01 SECONDS.  DT= 1.53018E-03
  
 TEC1=    3.87499999999994     
 TEC2=    3.87999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.95935861111093     
  %check_save_state: izleft hours =    70.0322222222222     
 --> plasma_hash("gframe"): TA= 3.875000E+00 NSTEP=  3574 Hash code:   45592593
 ->PRGCHK: bdy curvature ratio at t= 3.8800E+00 seconds is:  5.6851E-02
% MHDEQ: TG1=     3.875000 ; TG2=     3.880000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7692E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6851E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.875000 TO TG2=    3.880000 @ NSTEP     3574
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554371652537D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.21824E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.43410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.82049E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.79892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.89296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40734E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.65163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.29485E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.18592E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.35674E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.50843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -3.91597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.02265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.61016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.45864E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.18977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.87418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.85653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.22597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.33818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.33818E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.8800E+00  3.8850E+00 total power(Watts):  2.9779E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.88000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.382745E+02    0.383986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.362636E+02    0.385271E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.377214E+02    0.368393E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.398990E+02    0.373333E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.398887E+02    0.393019E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.376180E+02    0.400433E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.356684E+02    0.412171E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.344645E+02    0.398564E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.343262E+02    0.381206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.350507E+02    0.365838E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.368960E+02    0.353617E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.389617E+02    0.350414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.410115E+02    0.355595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.422800E+02    0.368941E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.424285E+02    0.386726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.414609E+02    0.403977E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.396504E+02    0.415793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.374678E+02    0.418983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.355320E+02    0.441975E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.325422E+02    0.425855E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.312274E+02    0.398333E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138276E+03   -0.317248E+02    0.368031E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.338596E+02    0.342221E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.372952E+02    0.326430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.411178E+02    0.325859E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.443115E+02    0.341284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.461168E+02    0.368028E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.455708E+02    0.400572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.429120E+02    0.429331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.392124E+02    0.443949E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.392340E+02    0.298378E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.372135E+02    0.300281E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.386597E+02    0.283134E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.409596E+02    0.286788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.408704E+02    0.306643E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.384966E+02    0.315162E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137116E+03   -0.365489E+02    0.327068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.352266E+02    0.315175E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.350694E+02    0.298280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.359727E+02    0.281622E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.379129E+02    0.268012E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.399894E+02    0.264348E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.420573E+02    0.268732E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.432346E+02    0.282266E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.434094E+02    0.299669E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.424616E+02    0.316612E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.405503E+02    0.329158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.384669E+02    0.332450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.364446E+02    0.356252E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.334199E+02    0.341726E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.321569E+02    0.314876E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138416E+03   -0.326237E+02    0.284740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138002E+03   -0.348418E+02    0.257764E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.383845E+02    0.240562E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.421283E+02    0.239759E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.453563E+02    0.253727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.472004E+02    0.279061E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.465812E+02    0.311430E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.438390E+02    0.340626E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.401440E+02    0.356707E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.382846E+02    0.440039E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.362703E+02    0.440734E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.376399E+02    0.424301E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.399193E+02    0.429560E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.398946E+02    0.449492E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.376216E+02    0.456057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.356588E+02    0.466826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.344615E+02    0.453272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.341426E+02    0.436928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.351671E+02    0.419792E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.368277E+02    0.408530E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.389995E+02    0.405221E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.409411E+02    0.411724E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.423092E+02    0.425782E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.424435E+02    0.444082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.414637E+02    0.460696E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.396423E+02    0.471534E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.375567E+02    0.473619E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.355970E+02    0.496459E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.326129E+02    0.478779E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.312242E+02    0.451987E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.316507E+02    0.422170E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.338023E+02    0.395955E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.372484E+02    0.380878E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.410731E+02    0.381284E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.444885E+02    0.396958E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133688E+03   -0.461569E+02    0.426347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133540E+03   -0.457014E+02    0.458778E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134256E+03   -0.431251E+02    0.485649E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.392867E+02    0.499682E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.385811E+02    0.344672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.365698E+02    0.346286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.380200E+02    0.329129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.403064E+02    0.333171E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.403074E+02    0.352767E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.379389E+02    0.360900E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.359909E+02    0.372475E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.346805E+02    0.360257E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.345337E+02    0.343157E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.355386E+02    0.325798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.372864E+02    0.313894E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.393552E+02    0.310461E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.414115E+02    0.315200E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.426897E+02    0.328309E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.428484E+02    0.346085E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.418927E+02    0.363093E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.399779E+02    0.375233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.378978E+02    0.378195E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.358685E+02    0.401829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.330511E+02    0.385332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.316232E+02    0.359508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.321073E+02    0.329129E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.342339E+02    0.303184E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.377719E+02    0.286348E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.415013E+02    0.285948E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.447094E+02    0.300587E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.465306E+02    0.326573E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.460056E+02    0.358855E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.432498E+02    0.387471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.395530E+02    0.403034E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.393465E+02    0.238291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.373241E+02    0.240488E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.388583E+02    0.222766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.410631E+02    0.226728E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.409863E+02    0.246114E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.386216E+02    0.254963E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.364852E+02    0.268624E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.353467E+02    0.255712E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.353630E+02    0.237454E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.361623E+02    0.221894E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.379033E+02    0.209957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.401780E+02    0.204534E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.421459E+02    0.209208E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.434463E+02    0.221238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.436333E+02    0.238061E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.425895E+02    0.255573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.406893E+02    0.268405E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.385025E+02    0.272778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.365007E+02    0.296623E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.335541E+02    0.282429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.322656E+02    0.255905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138422E+03   -0.328019E+02    0.225330E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.350095E+02    0.198893E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.385482E+02    0.181603E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.424038E+02    0.179635E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.455402E+02    0.193590E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.472878E+02    0.218003E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.464714E+02    0.250868E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.438772E+02    0.279550E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.402006E+02    0.296221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.59 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655199.591743726     
  ps_ts2 prof sum =   654811.393418535     
  trcom prof sum =    654811.393418535     
  ps_ts2 cur sum  =   9909.92512327950     
  trcom cur sum  =    9909.92512327949     
  
  antenna # iant =            2
  powecha_use(iant) =    666397.734427052     
  ps_ts2 prof sum =   665994.604865911     
  trcom prof sum =    665994.604865910     
  ps_ts2 cur sum  =   12446.9978953995     
  trcom cur sum  =    12446.9978953995     
  
  antenna # iant =            3
  powecha_use(iant) =    533296.852330600     
  ps_ts2 prof sum =   532981.536866614     
  trcom prof sum =    532981.536866615     
  ps_ts2 cur sum  =   6853.84296645894     
  trcom cur sum  =    6853.84296645894     
  
  antenna # iant =            4
  powecha_use(iant) =    567168.067367996     
  ps_ts2 prof sum =   566842.657254024     
  trcom prof sum =    566842.657254023     
  ps_ts2 cur sum  =   9532.11044991836     
  trcom cur sum  =    9532.11044991835     
  
  antenna # iant =            5
  powecha_use(iant) =    555863.151252594     
  ps_ts2 prof sum =   555544.505977794     
  trcom prof sum =    555544.505977794     
  ps_ts2 cur sum  =   11555.5642298136     
  trcom cur sum  =    11555.5642298136     
  
  Total ECH heating:      2976174.69838288     
  Total Current Drive:    50298.4406648699     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3577
 TA= 3.88000E+00 CPU TIME= 1.60083E-01 SECONDS.  DT= 1.94637E-03
  
 TEC1=    3.87999999999994     
 TEC2=    3.88499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.97251027777770     
  %check_save_state: izleft hours =    70.0191666666667     
 --> plasma_hash("gframe"): TA= 3.880000E+00 NSTEP=  3577 Hash code:   51833234
 ->PRGCHK: bdy curvature ratio at t= 3.8850E+00 seconds is:  5.6810E-02
% MHDEQ: TG1=     3.880000 ; TG2=     3.885000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7680E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6810E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.880000 TO TG2=    3.885000 @ NSTEP     3577
   GFRAME TG2 MOMENTS CHECKSUM:  2.4552754896014D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.8850E+00  3.8900E+00 total power(Watts):  2.9740E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.88500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.382664E+02    0.383670E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.362556E+02    0.384964E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.377134E+02    0.368078E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.399968E+02    0.372476E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.398805E+02    0.392692E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.376122E+02    0.400113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.356609E+02    0.411859E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.343617E+02    0.398758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.343188E+02    0.380904E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.352362E+02    0.364381E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.368879E+02    0.353310E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.390575E+02    0.349504E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.410026E+02    0.355269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.422712E+02    0.368606E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.426427E+02    0.385395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.414528E+02    0.403633E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.396424E+02    0.415459E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.375624E+02    0.418226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.356232E+02    0.441276E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.326272E+02    0.425122E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.313093E+02    0.397532E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.317175E+02    0.367748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.338515E+02    0.341941E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.373869E+02    0.325496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.411084E+02    0.325556E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.443039E+02    0.340934E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.461075E+02    0.367664E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.456787E+02    0.399766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.429037E+02    0.428976E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.393104E+02    0.443249E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.392245E+02    0.298099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.372033E+02    0.300012E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.386505E+02    0.282863E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.409498E+02    0.286506E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.408618E+02    0.306345E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.384877E+02    0.314881E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.365406E+02    0.326784E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.354094E+02    0.313543E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.352501E+02    0.296589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.361571E+02    0.279877E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.379034E+02    0.267756E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.400829E+02    0.263340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.420465E+02    0.268461E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.433350E+02    0.281275E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.435104E+02    0.298705E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.424521E+02    0.316307E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.406479E+02    0.328231E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.384584E+02    0.332154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.364366E+02    0.355945E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.335972E+02    0.340173E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.321474E+02    0.314624E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138424E+03   -0.326158E+02    0.284493E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.348326E+02    0.257533E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.383745E+02    0.240338E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.422235E+02    0.238754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.455707E+02    0.252000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.471896E+02    0.278749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.465711E+02    0.311106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.438299E+02    0.340287E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.401355E+02    0.356383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.382770E+02    0.439706E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.362631E+02    0.440411E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.376323E+02    0.423974E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.400185E+02    0.428826E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.398869E+02    0.449150E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.376139E+02    0.455727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.356517E+02    0.466507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.344547E+02    0.452958E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.343271E+02    0.435805E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.351598E+02    0.419479E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.369210E+02    0.407749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.389913E+02    0.404900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.410420E+02    0.410947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.423008E+02    0.425436E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134662E+03   -0.426591E+02    0.443036E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.415660E+02    0.460035E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.397416E+02    0.470907E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.375493E+02    0.473289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.355899E+02    0.496159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.326062E+02    0.478487E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.312177E+02    0.451692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.317340E+02    0.421422E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.339835E+02    0.394641E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.373415E+02    0.380042E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.410644E+02    0.380957E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.444819E+02    0.396594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133698E+03   -0.461482E+02    0.425970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133550E+03   -0.456929E+02    0.458402E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.430039E+02    0.485528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.392790E+02    0.499360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.386757E+02    0.343756E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.366603E+02    0.345383E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.381129E+02    0.328200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.404036E+02    0.332250E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.402992E+02    0.352439E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.379313E+02    0.360582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.359832E+02    0.372165E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.348642E+02    0.358778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.345256E+02    0.342872E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.354339E+02    0.326181E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.372775E+02    0.313616E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.394497E+02    0.309507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.414023E+02    0.314903E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.426802E+02    0.327995E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.428391E+02    0.345755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.418855E+02    0.362757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.400759E+02    0.374383E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.378897E+02    0.377883E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.359596E+02    0.401035E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.329514E+02    0.385575E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.316161E+02    0.359221E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.320991E+02    0.328864E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.342264E+02    0.302921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.377629E+02    0.286085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.414915E+02    0.285666E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.446993E+02    0.300278E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.465211E+02    0.326231E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.459962E+02    0.358497E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.432411E+02    0.387118E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.396511E+02    0.402241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.393363E+02    0.238067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.373142E+02    0.240267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.388481E+02    0.222556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.411563E+02    0.225717E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.409763E+02    0.245867E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.386109E+02    0.254725E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.366687E+02    0.266849E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.353376E+02    0.255472E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.352599E+02    0.238061E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.361522E+02    0.221690E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.380869E+02    0.208064E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.402679E+02    0.203507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.422397E+02    0.208178E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.434354E+02    0.221016E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.436223E+02    0.237812E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.425791E+02    0.255315E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.406795E+02    0.268143E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.385941E+02    0.271765E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.364900E+02    0.296363E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.335457E+02    0.282171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.322563E+02    0.255688E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138426E+03   -0.327926E+02    0.225136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.349993E+02    0.198703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.384415E+02    0.182280E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.423938E+02    0.179416E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.455288E+02    0.193375E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.471622E+02    0.218538E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.466885E+02    0.249141E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.438670E+02    0.279253E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.401909E+02    0.295934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652701.597041539     
  ps_ts2 prof sum =   652327.905323207     
  trcom prof sum =    652327.905323207     
  ps_ts2 cur sum  =   9897.68622771979     
  trcom cur sum  =    9897.68622771978     
  
  antenna # iant =            2
  powecha_use(iant) =    666223.132605591     
  ps_ts2 prof sum =   665875.538488004     
  trcom prof sum =    665875.538488004     
  ps_ts2 cur sum  =   12461.7938113557     
  trcom cur sum  =    12461.7938113557     
  
  antenna # iant =            3
  powecha_use(iant) =    533097.053041178     
  ps_ts2 prof sum =   532801.178455523     
  trcom prof sum =    532801.178455523     
  ps_ts2 cur sum  =   6870.38576392479     
  trcom cur sum  =    6870.38576392480     
  
  antenna # iant =            4
  powecha_use(iant) =    567590.284193371     
  ps_ts2 prof sum =   567243.611833153     
  trcom prof sum =    567243.611833152     
  ps_ts2 cur sum  =   9559.20722132060     
  trcom cur sum  =    9559.20722132059     
  
  antenna # iant =            5
  powecha_use(iant) =    554435.105861366     
  ps_ts2 prof sum =   554100.505671187     
  trcom prof sum =    554100.505671187     
  ps_ts2 cur sum  =   11532.1717862486     
  trcom cur sum  =    11532.1717862486     
  
  Total ECH heating:      2972348.73977107     
  Total Current Drive:    50321.2448105695     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3580
 TA= 3.88500E+00 CPU TIME= 1.59683E-01 SECONDS.  DT= 7.75839E-04
  
 TEC1=    3.88499999999994     
 TEC2=    3.88999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    9.98756999999978     
  %check_save_state: izleft hours =    70.0038888888889     
 --> plasma_hash("gframe"): TA= 3.885000E+00 NSTEP=  3580 Hash code:   42249674
 ->PRGCHK: bdy curvature ratio at t= 3.8900E+00 seconds is:  5.6769E-02
% MHDEQ: TG1=     3.885000 ; TG2=     3.890000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4560E-03 SECONDS
   DATA R*BT AT EDGE:  2.7667E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6769E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.885000 TO TG2=    3.890000 @ NSTEP     3580
   GFRAME TG2 MOMENTS CHECKSUM:  2.4551138139491D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.08658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.53358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.62636E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.73074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.85208E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.56611E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.37224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  3.38872E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.00123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.46135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  5.10829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.06790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.58360E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.53700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.55993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.01980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.86390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.35456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.07189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.07189E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.8900E+00  3.8950E+00 total power(Watts):  2.9678E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.89000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.383580E+02    0.382672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.363436E+02    0.383976E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.377011E+02    0.367607E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.399843E+02    0.371989E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.399755E+02    0.391716E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.376032E+02    0.399637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.356507E+02    0.411407E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.345425E+02    0.397314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.342127E+02    0.381001E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.352192E+02    0.363966E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.369749E+02    0.352260E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.390440E+02    0.349041E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.409891E+02    0.354780E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.423689E+02    0.367564E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.425191E+02    0.385372E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.415512E+02    0.402673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.397385E+02    0.414532E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.375524E+02    0.417752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.356144E+02    0.440819E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.326183E+02    0.424691E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.312997E+02    0.397112E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.317959E+02    0.366743E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.340256E+02    0.340250E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.373729E+02    0.325067E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.410932E+02    0.325107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.445172E+02    0.339270E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.462109E+02    0.366604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.456666E+02    0.399217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.431184E+02    0.427688E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.393010E+02    0.442765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.393107E+02    0.297009E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.371878E+02    0.299621E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.387349E+02    0.281755E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.410376E+02    0.285409E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.409532E+02    0.305244E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.385744E+02    0.313796E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.364281E+02    0.327022E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.353942E+02    0.313150E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.351397E+02    0.296938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.360453E+02    0.280252E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.379851E+02    0.266652E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.400652E+02    0.262992E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.420289E+02    0.268087E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.433171E+02    0.280876E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.434936E+02    0.298275E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.425459E+02    0.315213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.406330E+02    0.327778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.384461E+02    0.331702E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.365229E+02    0.354902E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.334921E+02    0.340399E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138383E+03   -0.321344E+02    0.314257E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.326914E+02    0.283379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.350021E+02    0.255642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.384559E+02    0.239252E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.422046E+02    0.238445E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.454386E+02    0.252362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.470544E+02    0.278992E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.466703E+02    0.309999E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.440407E+02    0.338616E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.402286E+02    0.355329E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.382677E+02    0.439231E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.362541E+02    0.439951E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.377249E+02    0.423083E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.400083E+02    0.428337E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.399848E+02    0.448322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.376052E+02    0.455271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.356435E+02    0.466078E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.343505E+02    0.452883E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.343183E+02    0.435359E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.352431E+02    0.418590E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.369107E+02    0.407283E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.390855E+02    0.403955E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.410311E+02    0.410445E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.422903E+02    0.424925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.425372E+02    0.442873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.415568E+02    0.459546E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.397330E+02    0.470446E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.375411E+02    0.472853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.355822E+02    0.495770E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.327799E+02    0.477494E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.312991E+02    0.450903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.317247E+02    0.421000E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.339734E+02    0.394196E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.373299E+02    0.379569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.411608E+02    0.379945E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.443574E+02    0.396501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.462551E+02    0.425042E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133561E+03   -0.456831E+02    0.457869E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.429949E+02    0.485064E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.393770E+02    0.498732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.386613E+02    0.343302E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.366473E+02    0.344936E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.380986E+02    0.327765E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.403890E+02    0.331792E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.402856E+02    0.351957E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.380206E+02    0.359540E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.360698E+02    0.371155E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.348520E+02    0.358342E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.347016E+02    0.341188E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.356127E+02    0.324446E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.373618E+02    0.312533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.394339E+02    0.309088E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.414942E+02    0.313811E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.426647E+02    0.327527E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.429361E+02    0.344675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.418733E+02    0.362252E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.400636E+02    0.373891E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.378779E+02    0.377409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.359491E+02    0.400578E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.329409E+02    0.385143E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138335E+03   -0.316048E+02    0.358805E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.320855E+02    0.328471E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.343990E+02    0.301114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.378460E+02    0.284974E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.415801E+02    0.284567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.447954E+02    0.299170E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.466216E+02    0.325129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.458654E+02    0.358486E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.433415E+02    0.386116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.396409E+02    0.401749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.394187E+02    0.236983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.373936E+02    0.239181E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.388288E+02    0.222289E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.411372E+02    0.225434E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.410622E+02    0.244782E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.386941E+02    0.253625E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.366527E+02    0.266506E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.354150E+02    0.254378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.352421E+02    0.237787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.363226E+02    0.219766E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.380688E+02    0.207821E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.402486E+02    0.203250E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.422193E+02    0.207915E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.435232E+02    0.219937E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.436017E+02    0.237515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.426685E+02    0.254216E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.407663E+02    0.267045E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.385783E+02    0.271396E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.365722E+02    0.295261E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.337131E+02    0.280313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.323293E+02    0.254592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138430E+03   -0.327769E+02    0.224891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.349822E+02    0.198471E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.386169E+02    0.180290E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.424827E+02    0.178286E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.456169E+02    0.192297E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.473674E+02    0.216710E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.465542E+02    0.249518E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.439596E+02    0.278150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.402785E+02    0.294843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    649000.234999226     
  ps_ts2 prof sum =   648647.914407736     
  trcom prof sum =    648647.914407736     
  ps_ts2 cur sum  =   9849.19763126223     
  trcom cur sum  =    9849.19763126223     
  
  antenna # iant =            2
  powecha_use(iant) =    665095.103830303     
  ps_ts2 prof sum =   664701.225094459     
  trcom prof sum =    664701.225094459     
  ps_ts2 cur sum  =   12436.3482649812     
  trcom cur sum  =    12436.3482649812     
  
  antenna # iant =            3
  powecha_use(iant) =    532042.708457685     
  ps_ts2 prof sum =   531725.367678263     
  trcom prof sum =    531725.367678263     
  ps_ts2 cur sum  =   6866.86639240000     
  trcom cur sum  =    6866.86639240001     
  
  antenna # iant =            4
  powecha_use(iant) =    566448.736471659     
  ps_ts2 prof sum =   566119.502657273     
  trcom prof sum =    566119.502657272     
  ps_ts2 cur sum  =   9541.79772344620     
  trcom cur sum  =    9541.79772344619     
  
  antenna # iant =            5
  powecha_use(iant) =    555214.707117532     
  ps_ts2 prof sum =   554920.050271917     
  trcom prof sum =    554920.050271918     
  ps_ts2 cur sum  =   11536.2458298632     
  trcom cur sum  =    11536.2458298632     
  
  Total ECH heating:      2966114.06010965     
  Total Current Drive:    50230.4558419528     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3585
 TA= 3.89000E+00 CPU TIME= 1.59801E-01 SECONDS.  DT= 6.58506E-04
  
 TEC1=    3.88999999999994     
 TEC2=    3.89499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0008036111110     
  %check_save_state: izleft hours =    69.9908333333333     
 --> plasma_hash("gframe"): TA= 3.890000E+00 NSTEP=  3585 Hash code:  108859184
 ->PRGCHK: bdy curvature ratio at t= 3.8950E+00 seconds is:  5.6728E-02
% MHDEQ: TG1=     3.890000 ; TG2=     3.895000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7655E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6728E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.890000 TO TG2=    3.895000 @ NSTEP     3585
   GFRAME TG2 MOMENTS CHECKSUM:  2.4549521382968D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.8950E+00  3.9000E+00 total power(Watts):  2.9769E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.89500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.383445E+02    0.382213E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.363307E+02    0.383530E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.377890E+02    0.366599E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.400764E+02    0.370979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.399622E+02    0.391232E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.376944E+02    0.398689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.357375E+02    0.410487E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.345304E+02    0.396879E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.343902E+02    0.379484E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.353031E+02    0.362944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.369604E+02    0.351823E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.391327E+02    0.347996E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.410816E+02    0.353739E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.423536E+02    0.367077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.426160E+02    0.384379E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.415377E+02    0.402183E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.397257E+02    0.414052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.376425E+02    0.416846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.356037E+02    0.440379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.327919E+02    0.423374E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.313771E+02    0.396184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.317830E+02    0.366334E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.339178E+02    0.340489E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.374567E+02    0.324014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.411839E+02    0.324038E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.443877E+02    0.339361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.460777E+02    0.366593E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133700E+03   -0.457690E+02    0.398241E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.429930E+02    0.427567E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.392903E+02    0.442278E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.392936E+02    0.296624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.372703E+02    0.298536E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.387171E+02    0.281397E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.410192E+02    0.285023E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.409300E+02    0.304869E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.385579E+02    0.313392E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.366090E+02    0.325317E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.354744E+02    0.312081E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.353136E+02    0.295139E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.362208E+02    0.278410E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.379675E+02    0.266316E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.401494E+02    0.261894E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.421162E+02    0.266999E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.434082E+02    0.279781E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.435857E+02    0.297179E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.425285E+02    0.314778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.407230E+02    0.326712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.385337E+02    0.330643E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.365088E+02    0.354464E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.336633E+02    0.338717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.322087E+02    0.313181E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.326755E+02    0.283056E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.348917E+02    0.256144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.384367E+02    0.238978E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.422902E+02    0.237381E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.455292E+02    0.251294E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.472664E+02    0.277217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.465347E+02    0.310168E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.439110E+02    0.338726E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.402135E+02    0.354861E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.383602E+02    0.438387E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.363430E+02    0.439111E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.377136E+02    0.422604E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.399963E+02    0.427848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.399732E+02    0.447841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.376971E+02    0.454470E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.357321E+02    0.465318E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.345324E+02    0.451727E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.342121E+02    0.435327E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.352336E+02    0.418136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.369993E+02    0.406353E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.390728E+02    0.403480E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.411269E+02    0.409511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.423892E+02    0.424014E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.427491E+02    0.441657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.416558E+02    0.458739E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.398291E+02    0.469686E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.376334E+02    0.472118E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.356718E+02    0.495120E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.326799E+02    0.477398E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.312897E+02    0.450493E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.317149E+02    0.420574E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.338670E+02    0.394283E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.374178E+02    0.378582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.411465E+02    0.379461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.445737E+02    0.395075E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.462418E+02    0.424485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133352E+03   -0.457882E+02    0.457033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134064E+03   -0.432099E+02    0.484099E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.393668E+02    0.498300E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.387493E+02    0.342254E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.367313E+02    0.343895E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.381843E+02    0.326709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.404788E+02    0.330731E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.403769E+02    0.350913E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.380058E+02    0.359096E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.360566E+02    0.370716E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.349339E+02    0.357315E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.345930E+02    0.341411E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.355009E+02    0.324718E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.373456E+02    0.312138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.395206E+02    0.308012E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.414768E+02    0.313390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.427583E+02    0.326458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.429191E+02    0.344206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.419695E+02    0.361213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.401559E+02    0.372881E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.379665E+02    0.376416E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.360355E+02    0.399643E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.330212E+02    0.384182E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.316809E+02    0.357794E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.321604E+02    0.327431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.342897E+02    0.301469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.378285E+02    0.284609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.416684E+02    0.283475E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.450027E+02    0.297426E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.466035E+02    0.324638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133968E+03   -0.460823E+02    0.356896E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.433269E+02    0.385614E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.397339E+02    0.400801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.394999E+02    0.235914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.373748E+02    0.238910E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.389081E+02    0.221229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.412204E+02    0.224373E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.410430E+02    0.244487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.387765E+02    0.252545E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.367316E+02    0.265419E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.355853E+02    0.252498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.353169E+02    0.236713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.362103E+02    0.220370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.381462E+02    0.206751E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.403298E+02    0.202182E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.423033E+02    0.206851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.435017E+02    0.219678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.436900E+02    0.236438E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.426483E+02    0.253888E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.407471E+02    0.266699E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.386602E+02    0.270313E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.365564E+02    0.294901E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.336058E+02    0.280748E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138314E+03   -0.323122E+02    0.254308E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.328475E+02    0.223809E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.350557E+02    0.197384E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.385016E+02    0.180959E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.424606E+02    0.178075E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.457036E+02    0.191245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.472311E+02    0.217192E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134327E+03   -0.467607E+02    0.247709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.439399E+02    0.277764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.402611E+02    0.294453E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.36 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655528.594157605     
  ps_ts2 prof sum =   655153.077385632     
  trcom prof sum =    655153.077385632     
  ps_ts2 cur sum  =   9951.68667097389     
  trcom cur sum  =    9951.68667097388     
  
  antenna # iant =            2
  powecha_use(iant) =    665931.402621435     
  ps_ts2 prof sum =   665555.012288483     
  trcom prof sum =    665555.012288483     
  ps_ts2 cur sum  =   12447.7131633871     
  trcom cur sum  =    12447.7131633871     
  
  antenna # iant =            3
  powecha_use(iant) =    531628.728768291     
  ps_ts2 prof sum =   531311.565691088     
  trcom prof sum =    531311.565691088     
  ps_ts2 cur sum  =   6867.60158673117     
  trcom cur sum  =    6867.60158673117     
  
  antenna # iant =            4
  powecha_use(iant) =    568321.018429427     
  ps_ts2 prof sum =   567984.646777521     
  trcom prof sum =    567984.646777520     
  ps_ts2 cur sum  =   9574.58784606435     
  trcom cur sum  =    9574.58784606435     
  
  antenna # iant =            5
  powecha_use(iant) =    555481.142420947     
  ps_ts2 prof sum =   555157.890157583     
  trcom prof sum =    555157.890157583     
  ps_ts2 cur sum  =   11531.2228485448     
  trcom cur sum  =    11531.2228485447     
  
  Total ECH heating:      2975162.19230031     
  Total Current Drive:    50372.8121157013     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3590
 TA= 3.89500E+00 CPU TIME= 1.58795E-01 SECONDS.  DT= 1.50413E-03
  
 TEC1=    3.89499999999994     
 TEC2=    3.89999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0164597222217     
  %check_save_state: izleft hours =    69.9750000000000     
 --> plasma_hash("gframe"): TA= 3.895000E+00 NSTEP=  3590 Hash code:  121932163
 ->PRGCHK: bdy curvature ratio at t= 3.9000E+00 seconds is:  5.6687E-02
% MHDEQ: TG1=     3.895000 ; TG2=     3.900000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7643E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6687E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.895000 TO TG2=    3.900000 @ NSTEP     3590
   GFRAME TG2 MOMENTS CHECKSUM:  2.4547904631890D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.94028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.64413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.41064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.65497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.80665E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.47107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.45823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  2.80582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.60618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.40903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.28351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.22940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.55409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.62409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.97125E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.18161E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.87209E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.49745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.10881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.10881E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   7.999999070307240E-006
 EC call, timestep(sec):  3.9000E+00  3.9050E+00 total power(Watts):  2.9824E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.90000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.383365E+02    0.381789E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.363229E+02    0.383120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.377804E+02    0.366174E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.400679E+02    0.370540E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.400608E+02    0.390305E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.376889E+02    0.398258E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.357306E+02    0.410090E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.344277E+02    0.396991E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.343826E+02    0.379082E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.352970E+02    0.362530E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.370516E+02    0.350803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.391239E+02    0.347565E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.410725E+02    0.353285E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.423447E+02    0.366618E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.426076E+02    0.383925E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.416405E+02    0.401269E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.398252E+02    0.413177E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.376357E+02    0.416429E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.356960E+02    0.439581E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.326936E+02    0.423435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.313704E+02    0.395807E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.317758E+02    0.365950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137765E+03   -0.339088E+02    0.340104E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.374466E+02    0.323616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.411734E+02    0.323620E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.446061E+02    0.337716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.463027E+02    0.365061E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133712E+03   -0.457608E+02    0.397755E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134759E+03   -0.429862E+02    0.427101E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.393896E+02    0.441485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.392820E+02    0.296233E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.372597E+02    0.298156E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.388063E+02    0.280297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.410073E+02    0.284640E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.409183E+02    0.304468E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.386493E+02    0.312331E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.365994E+02    0.324918E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.354642E+02    0.311702E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.353025E+02    0.294775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.362097E+02    0.278061E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.379558E+02    0.265983E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.401372E+02    0.261564E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.421035E+02    0.266648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.433959E+02    0.279388E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.435736E+02    0.296767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.425172E+02    0.314361E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.407126E+02    0.326292E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.385247E+02    0.330230E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.365000E+02    0.354046E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.335619E+02    0.338977E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.321991E+02    0.312826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.326647E+02    0.282724E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.348792E+02    0.255840E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.385221E+02    0.237892E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.422766E+02    0.237084E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.455151E+02    0.250948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.471367E+02    0.277481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133919E+03   -0.467562E+02    0.308453E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.441264E+02    0.337090E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.402044E+02    0.354417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.383535E+02    0.437964E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.363368E+02    0.438704E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.378091E+02    0.421766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.400964E+02    0.427018E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.399669E+02    0.447413E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.376906E+02    0.454074E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.357262E+02    0.464948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.344305E+02    0.451713E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.343972E+02    0.434114E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.352288E+02    0.417732E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.369868E+02    0.405956E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.390654E+02    0.403057E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.411195E+02    0.409067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.423819E+02    0.423569E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.426305E+02    0.441554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.416494E+02    0.458311E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.398220E+02    0.469304E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.376274E+02    0.471735E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.356662E+02    0.494779E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.326773E+02    0.477046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.313735E+02    0.449746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.317983E+02    0.419739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.340486E+02    0.392857E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.374098E+02    0.378160E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.411382E+02    0.379010E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.444450E+02    0.395078E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133297E+03   -0.463523E+02    0.423613E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133363E+03   -0.457814E+02    0.456565E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.430903E+02    0.483937E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.393605E+02    0.497946E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.387400E+02    0.341836E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.367219E+02    0.343482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.381738E+02    0.326311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.404692E+02    0.330306E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.403673E+02    0.350476E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.380993E+02    0.358093E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.360485E+02    0.370305E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.349262E+02    0.356905E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.347735E+02    0.339753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.356838E+02    0.323001E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.374349E+02    0.311069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.395096E+02    0.307617E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.414652E+02    0.312984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.427476E+02    0.326026E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.429093E+02    0.343751E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.419548E+02    0.360783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.401474E+02    0.372443E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.379585E+02    0.375992E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.360282E+02    0.399236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.330138E+02    0.383795E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.316729E+02    0.357407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138117E+03   -0.321513E+02    0.327067E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.344660E+02    0.299672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.378163E+02    0.284254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.416564E+02    0.283087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.448773E+02    0.297656E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.467088E+02    0.323583E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.460727E+02    0.356403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.435439E+02    0.384164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.397264E+02    0.400369E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.394863E+02    0.235629E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.372644E+02    0.239427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.388950E+02    0.220963E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.412055E+02    0.224108E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.411336E+02    0.243406E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.387634E+02    0.252236E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.367206E+02    0.265091E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.355736E+02    0.252205E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.353050E+02    0.236445E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.363856E+02    0.218442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.381324E+02    0.206510E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.403154E+02    0.201938E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.422885E+02    0.206595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.435943E+02    0.218619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.436761E+02    0.236135E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.426348E+02    0.253559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.408388E+02    0.265602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.386480E+02    0.269971E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.364476E+02    0.295244E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.335961E+02    0.280401E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.323010E+02    0.254032E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.328359E+02    0.223578E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.350421E+02    0.197164E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.386803E+02    0.178983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.424444E+02    0.177850E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.456871E+02    0.190996E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.474430E+02    0.215366E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.466320E+02    0.248105E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135186E+03   -0.440382E+02    0.276675E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.403541E+02    0.293366E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660897.424562138     
  ps_ts2 prof sum =   660511.435166700     
  trcom prof sum =    660511.435166700     
  ps_ts2 cur sum  =   10058.7330800588     
  trcom cur sum  =    10058.7330800588     
  
  antenna # iant =            2
  powecha_use(iant) =    665701.643576161     
  ps_ts2 prof sum =   665307.124961602     
  trcom prof sum =    665307.124961602     
  ps_ts2 cur sum  =   12459.6372790348     
  trcom cur sum  =    12459.6372790348     
  
  antenna # iant =            3
  powecha_use(iant) =    531388.991037101     
  ps_ts2 prof sum =   531066.816451926     
  trcom prof sum =    531066.816451926     
  ps_ts2 cur sum  =   6884.61844599836     
  trcom cur sum  =    6884.61844599837     
  
  antenna # iant =            4
  powecha_use(iant) =    569204.508540389     
  ps_ts2 prof sum =   568893.429220563     
  trcom prof sum =    568893.429220563     
  ps_ts2 cur sum  =   9608.79132212245     
  trcom cur sum  =    9608.79132212244     
  
  antenna # iant =            5
  powecha_use(iant) =    555160.242113899     
  ps_ts2 prof sum =   554843.282950138     
  trcom prof sum =    554843.282950138     
  ps_ts2 cur sum  =   11528.5647725522     
  trcom cur sum  =    11528.5647725522     
  
  Total ECH heating:      2980622.08875093     
  Total Current Drive:    50540.3448997667     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3593
 TA= 3.90000E+00 CPU TIME= 1.59557E-01 SECONDS.  DT= 2.01965E-03
  
 TEC1=    3.89999999999994     
 TEC2=    3.90499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0330286111111     
  %check_save_state: izleft hours =    69.9586111111111     
 --> plasma_hash("gframe"): TA= 3.900000E+00 NSTEP=  3593 Hash code:   18513569
 ->PRGCHK: bdy curvature ratio at t= 3.9050E+00 seconds is:  5.6646E-02
% MHDEQ: TG1=     3.900000 ; TG2=     3.905000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7630E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6646E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.900000 TO TG2=    3.905000 @ NSTEP     3593
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546287880813D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9050E+00  3.9100E+00 total power(Watts):  2.9777E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.90500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.384281E+02    0.380835E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.364111E+02    0.382173E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.378700E+02    0.365200E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.401616E+02    0.369566E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.400488E+02    0.389864E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.377816E+02    0.397334E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.356230E+02    0.410134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.346082E+02    0.395567E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.342766E+02    0.379234E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.351893E+02    0.362720E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.370389E+02    0.350416E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.391103E+02    0.347167E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.411672E+02    0.352288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.424420E+02    0.365635E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.425949E+02    0.383470E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.416288E+02    0.400808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.398140E+02    0.412720E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.376251E+02    0.415986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.356862E+02    0.439152E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.326842E+02    0.423027E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.313606E+02    0.395430E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.318543E+02    0.364984E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.339900E+02    0.339110E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.374330E+02    0.323265E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.412663E+02    0.322610E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.444786E+02    0.337888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.462887E+02    0.364580E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133721E+03   -0.457482E+02    0.397260E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.430876E+02    0.426215E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.393793E+02    0.441024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.393703E+02    0.295202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.373446E+02    0.297134E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.387916E+02    0.279996E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.410979E+02    0.283610E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.410097E+02    0.303447E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.386350E+02    0.311988E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.366845E+02    0.323908E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.353553E+02    0.312063E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.351941E+02    0.295197E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.362919E+02    0.277029E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.380400E+02    0.264955E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.401209E+02    0.261294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.421944E+02    0.265613E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.434899E+02    0.278360E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.435577E+02    0.296418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.426112E+02    0.313349E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.406983E+02    0.325919E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.386080E+02    0.329255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.365867E+02    0.353060E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.335497E+02    0.338628E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.322750E+02    0.311813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.327397E+02    0.281685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.349569E+02    0.254818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.385062E+02    0.237665E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.423658E+02    0.236085E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.457224E+02    0.249215E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133837E+03   -0.473518E+02    0.275774E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133924E+03   -0.467397E+02    0.308063E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.439990E+02    0.337265E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.402977E+02    0.353425E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.384477E+02    0.437117E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.364268E+02    0.437874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.377987E+02    0.421320E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.400858E+02    0.426551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.400637E+02    0.446597E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.377837E+02    0.453284E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.358159E+02    0.464205E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.346137E+02    0.450557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.343874E+02    0.433695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.353173E+02    0.416855E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.369775E+02    0.405528E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.391591E+02    0.402146E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.411080E+02    0.408605E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.424821E+02    0.422679E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.426194E+02    0.441074E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.416392E+02    0.457840E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.398125E+02    0.468858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.377207E+02    0.471011E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.357565E+02    0.494154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.328569E+02    0.476049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.313651E+02    0.449348E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.317889E+02    0.419343E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.339438E+02    0.392981E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.373981E+02    0.377749E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.412342E+02    0.378048E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134028E+03   -0.446621E+02    0.393655E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133307E+03   -0.463405E+02    0.423091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133155E+03   -0.458878E+02    0.455749E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133863E+03   -0.433067E+02    0.482988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.394575E+02    0.497325E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.387267E+02    0.341444E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.367092E+02    0.343105E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.381604E+02    0.325946E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.404549E+02    0.329930E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.404605E+02    0.349473E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.380867E+02    0.357683E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.361348E+02    0.369336E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137326E+03   -0.348181E+02    0.357128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.346659E+02    0.340033E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.356705E+02    0.322659E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.374206E+02    0.310739E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.395987E+02    0.306597E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.415583E+02    0.311961E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.428430E+02    0.325020E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.430062E+02    0.342748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.420515E+02    0.359788E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.401348E+02    0.372020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.380489E+02    0.375037E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.360176E+02    0.398815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.331879E+02    0.382305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.317497E+02    0.356431E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.322285E+02    0.326061E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.343602E+02    0.300086E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.379023E+02    0.283221E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.416407E+02    0.282765E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.448609E+02    0.297299E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133844E+03   -0.466931E+02    0.323169E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133774E+03   -0.461750E+02    0.355402E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.434183E+02    0.384193E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.397150E+02    0.399927E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.394699E+02    0.235415E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.374429E+02    0.237600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.389780E+02    0.219954E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.411886E+02    0.223897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.411170E+02    0.243172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.387475E+02    0.251984E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.366089E+02    0.265599E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.354646E+02    0.252769E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.354762E+02    0.234590E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.362764E+02    0.219100E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.380196E+02    0.207180E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.402986E+02    0.201761E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.422717E+02    0.206415E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.435763E+02    0.218418E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.437672E+02    0.235140E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.427261E+02    0.252546E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.408229E+02    0.265311E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.386326E+02    0.269689E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.366285E+02    0.293495E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.336732E+02    0.279365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.323743E+02    0.252985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138001E+03   -0.329092E+02    0.222538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.351178E+02    0.196123E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.386637E+02    0.178834E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.425297E+02    0.176843E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.456689E+02    0.190804E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.474243E+02    0.215151E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.468423E+02    0.246364E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.440216E+02    0.276349E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.403389E+02    0.293038E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657347.022589233     
  ps_ts2 prof sum =   656924.707075595     
  trcom prof sum =    656924.707075595     
  ps_ts2 cur sum  =   10016.2366318702     
  trcom cur sum  =    10016.2366318702     
  
  antenna # iant =            2
  powecha_use(iant) =    666896.672698640     
  ps_ts2 prof sum =   666516.260272707     
  trcom prof sum =    666516.260272706     
  ps_ts2 cur sum  =   12487.1869191496     
  trcom cur sum  =    12487.1869191496     
  
  antenna # iant =            3
  powecha_use(iant) =    531371.679951661     
  ps_ts2 prof sum =   531077.168369598     
  trcom prof sum =    531077.168337706     
  ps_ts2 cur sum  =   6895.33574114316     
  trcom cur sum  =    6895.33574114317     
  
  antenna # iant =            4
  powecha_use(iant) =    567136.139247995     
  ps_ts2 prof sum =   566802.733096073     
  trcom prof sum =    566802.733096072     
  ps_ts2 cur sum  =   9581.14465673115     
  trcom cur sum  =    9581.14465673114     
  
  antenna # iant =            5
  powecha_use(iant) =    554987.204701273     
  ps_ts2 prof sum =   554668.703342742     
  trcom prof sum =    554668.703342742     
  ps_ts2 cur sum  =   11528.2123051086     
  trcom cur sum  =    11528.2123051086     
  
  Total ECH heating:      2975989.57212482     
  Total Current Drive:    50508.1162540027     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3596
 TA= 3.90500E+00 CPU TIME= 1.60251E-01 SECONDS.  DT= 5.69739E-04
  
 TEC1=    3.90499999999994     
 TEC2=    3.90999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0475597222216     
  %check_save_state: izleft hours =    69.9438888888889     
 --> plasma_hash("gframe"): TA= 3.905000E+00 NSTEP=  3596 Hash code:   31339240
 ->PRGCHK: bdy curvature ratio at t= 3.9100E+00 seconds is:  5.6756E-02
% MHDEQ: TG1=     3.905000 ; TG2=     3.910000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7628E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6756E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.905000 TO TG2=    3.910000 @ NSTEP     3596
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546574270201D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.88508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.67603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.40321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.65142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.44286E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  6.35550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.52070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.39432E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.74534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.12914E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.53925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.65359E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.18357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.17094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.80862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.45959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.19390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.19390E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.9100E+00  3.9150E+00 total power(Watts):  2.9773E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.91000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.384298E+02    0.380715E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.364131E+02    0.382054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.377696E+02    0.365629E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.400569E+02    0.369984E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.400513E+02    0.389744E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.376738E+02    0.397746E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.357231E+02    0.409553E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.346103E+02    0.395464E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.342782E+02    0.379118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.352878E+02    0.361990E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.370396E+02    0.350266E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.391116E+02    0.347008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.411682E+02    0.352135E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.424438E+02    0.365496E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.425973E+02    0.383343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.416312E+02    0.400697E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.398175E+02    0.412596E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.376286E+02    0.415859E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.356900E+02    0.439032E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.326871E+02    0.422901E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.313626E+02    0.395325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.318554E+02    0.364857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.340837E+02    0.338322E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.374329E+02    0.323123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.412663E+02    0.322460E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.444707E+02    0.337758E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.462907E+02    0.364426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133702E+03   -0.457515E+02    0.397127E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.432047E+02    0.425674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.393829E+02    0.440914E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.393691E+02    0.295070E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.373433E+02    0.297000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.387897E+02    0.279874E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.410960E+02    0.283477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.410089E+02    0.303301E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.386342E+02    0.311850E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.366841E+02    0.323765E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.354505E+02    0.311239E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.351927E+02    0.295087E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.360913E+02    0.278453E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.380378E+02    0.264835E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.401186E+02    0.261172E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.420843E+02    0.266234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.433795E+02    0.278923E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.435564E+02    0.296279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.426108E+02    0.313199E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.406983E+02    0.325768E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.385051E+02    0.329746E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.365874E+02    0.352911E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.335487E+02    0.338493E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.321858E+02    0.312395E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.327390E+02    0.281573E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.350478E+02    0.253904E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.385030E+02    0.237568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.422560E+02    0.236764E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.454947E+02    0.250555E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.473497E+02    0.275645E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.467391E+02    0.307905E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.439994E+02    0.337104E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.402987E+02    0.353275E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.383478E+02    0.437385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.363307E+02    0.438149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.378023E+02    0.421180E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.400898E+02    0.426411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.400679E+02    0.446496E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.376854E+02    0.453542E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.357215E+02    0.464473E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.344253E+02    0.451208E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.343911E+02    0.433569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.353199E+02    0.416729E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.369826E+02    0.405417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.391621E+02    0.402024E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.411115E+02    0.408479E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.423748E+02    0.422939E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.426240E+02    0.440944E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.416439E+02    0.457768E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.398178E+02    0.468793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.376230E+02    0.471261E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.356623E+02    0.494347E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.328538E+02    0.476015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.313684E+02    0.449258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.317915E+02    0.419220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.340403E+02    0.392347E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.373999E+02    0.377625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.412363E+02    0.377920E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.446660E+02    0.393534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133287E+03   -0.463450E+02    0.422941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133134E+03   -0.458932E+02    0.455651E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.430861E+02    0.483434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.394630E+02    0.497270E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.387270E+02    0.341294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.367103E+02    0.342953E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.381604E+02    0.325801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.404549E+02    0.329783E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.403549E+02    0.349913E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.380879E+02    0.357543E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.361364E+02    0.369206E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.349149E+02    0.356382E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.347615E+02    0.339248E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.356700E+02    0.322521E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.374201E+02    0.310601E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.394939E+02    0.307139E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.415578E+02    0.311818E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.428435E+02    0.324859E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.430076E+02    0.342574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.419428E+02    0.360201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.401365E+02    0.371887E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.380507E+02    0.374909E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.360196E+02    0.398706E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.330049E+02    0.383289E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.316617E+02    0.356917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.321390E+02    0.326608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.344514E+02    0.299234E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.379007E+02    0.283097E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.416392E+02    0.282640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.448598E+02    0.297155E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.466934E+02    0.322997E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.461767E+02    0.355237E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.434208E+02    0.384065E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.397171E+02    0.399815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.394663E+02    0.235319E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.374397E+02    0.237505E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.388752E+02    0.220702E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.411846E+02    0.223821E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.411138E+02    0.243065E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.387450E+02    0.251878E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.367034E+02    0.264711E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.354611E+02    0.252658E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137691E+03   -0.352869E+02    0.236165E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.363664E+02    0.218200E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.381122E+02    0.206294E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.402930E+02    0.201722E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.422668E+02    0.206374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.435720E+02    0.218349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.436549E+02    0.235808E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.427231E+02    0.252425E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.408208E+02    0.265198E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.386302E+02    0.269565E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.366272E+02    0.293371E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.337620E+02    0.278484E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.323718E+02    0.252876E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.328186E+02    0.223329E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.350229E+02    0.196984E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.386593E+02    0.178832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.424137E+02    0.177756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.456632E+02    0.190797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.474196E+02    0.215082E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.466104E+02    0.247718E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.440194E+02    0.276210E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.403378E+02    0.292901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657142.931107752     
  ps_ts2 prof sum =   656778.076835410     
  trcom prof sum =    656778.076835410     
  ps_ts2 cur sum  =   10012.7656968709     
  trcom cur sum  =    10012.7656968709     
  
  antenna # iant =            2
  powecha_use(iant) =    667663.288644218     
  ps_ts2 prof sum =   667280.858582148     
  trcom prof sum =    667280.858582147     
  ps_ts2 cur sum  =   12514.8116211292     
  trcom cur sum  =    12514.8116211292     
  
  antenna # iant =            3
  powecha_use(iant) =    530824.905628807     
  ps_ts2 prof sum =   530511.361041160     
  trcom prof sum =    530511.361009873     
  ps_ts2 cur sum  =   6883.93383308169     
  trcom cur sum  =    6883.93383308169     
  
  antenna # iant =            4
  powecha_use(iant) =    566788.843747691     
  ps_ts2 prof sum =   566466.061628881     
  trcom prof sum =    566466.061628880     
  ps_ts2 cur sum  =   9580.08662030279     
  trcom cur sum  =    9580.08662030278     
  
  antenna # iant =            5
  powecha_use(iant) =    554847.435020218     
  ps_ts2 prof sum =   554549.757332536     
  trcom prof sum =    554549.757332535     
  ps_ts2 cur sum  =   11542.9088440692     
  trcom cur sum  =    11542.9088440692     
  
  Total ECH heating:      2975586.11538885     
  Total Current Drive:    50534.5066154537     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3602
 TA= 3.91000E+00 CPU TIME= 1.59704E-01 SECONDS.  DT= 4.05169E-04
  
 TEC1=    3.90999999999994     
 TEC2=    3.91499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0617011111106     
  %check_save_state: izleft hours =    69.9300000000000     
 --> plasma_hash("gframe"): TA= 3.910000E+00 NSTEP=  3602 Hash code:   35912996
 ->PRGCHK: bdy curvature ratio at t= 3.9150E+00 seconds is:  5.6851E-02
% MHDEQ: TG1=     3.910000 ; TG2=     3.915000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7626E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6851E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.910000 TO TG2=    3.915000 @ NSTEP     3602
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546860659590D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.9150E+00  3.9200E+00 total power(Watts):  2.9846E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.91500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.384291E+02    0.380537E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.364122E+02    0.381885E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.377682E+02    0.365430E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.400554E+02    0.369782E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.400508E+02    0.389575E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.376780E+02    0.397567E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.357244E+02    0.409381E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.344190E+02    0.396333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.342774E+02    0.378954E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.352861E+02    0.361797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.370375E+02    0.350050E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.391087E+02    0.346791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.411661E+02    0.351913E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.424421E+02    0.365273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.425965E+02    0.383161E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.416318E+02    0.400517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.398184E+02    0.412415E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.376293E+02    0.415688E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.356916E+02    0.438881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.326879E+02    0.422740E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.313621E+02    0.395175E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.317643E+02    0.365277E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.340809E+02    0.338118E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.374293E+02    0.322922E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.412625E+02    0.322243E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.445858E+02    0.336894E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133700E+03   -0.462893E+02    0.364197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133682E+03   -0.457519E+02    0.396938E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.432063E+02    0.425480E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.393847E+02    0.440762E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.393638E+02    0.294901E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.372392E+02    0.297545E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.387837E+02    0.279727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.410900E+02    0.283327E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.410044E+02    0.303117E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.386305E+02    0.311652E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.366808E+02    0.323563E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.354462E+02    0.311065E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.351881E+02    0.294923E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.360881E+02    0.278297E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.380310E+02    0.264703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.401115E+02    0.261041E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.420772E+02    0.266095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.433728E+02    0.278769E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.435507E+02    0.296096E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.426067E+02    0.312991E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.406950E+02    0.325550E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.385028E+02    0.329531E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.365856E+02    0.352707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.335464E+02    0.338290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.321818E+02    0.312228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.327336E+02    0.281441E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.350410E+02    0.253785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.384954E+02    0.237479E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.422475E+02    0.236656E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.454861E+02    0.250424E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.473425E+02    0.275457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133889E+03   -0.467341E+02    0.307689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.441143E+02    0.336246E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.402967E+02    0.353054E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.383495E+02    0.437223E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.363324E+02    0.437994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.378033E+02    0.421006E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.400927E+02    0.426229E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.400701E+02    0.446343E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.376872E+02    0.453433E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.357235E+02    0.464387E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.344270E+02    0.451094E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.343924E+02    0.433409E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.351261E+02    0.417471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.369844E+02    0.405240E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.391625E+02    0.401860E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.411115E+02    0.408317E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.423768E+02    0.422744E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.426262E+02    0.440775E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.416463E+02    0.457652E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.398206E+02    0.468712E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.376255E+02    0.471181E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.356654E+02    0.494268E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.326752E+02    0.476555E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.313699E+02    0.449147E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.317921E+02    0.419065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.340401E+02    0.392187E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.373989E+02    0.377450E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.412354E+02    0.377731E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134423E+03   -0.444358E+02    0.394279E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133267E+03   -0.463465E+02    0.422745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133330E+03   -0.457787E+02    0.455825E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.430896E+02    0.483356E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.394671E+02    0.497176E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.387241E+02    0.341073E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.367107E+02    0.342726E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.381567E+02    0.325597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.404515E+02    0.329562E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.403526E+02    0.349689E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.380860E+02    0.357334E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.361351E+02    0.369019E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.349126E+02    0.356190E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.347598E+02    0.339035E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.356672E+02    0.322324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.374159E+02    0.310417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.394899E+02    0.306948E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.415530E+02    0.311619E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.428391E+02    0.324639E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.430051E+02    0.342341E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.419411E+02    0.359977E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.401354E+02    0.371692E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.380493E+02    0.374729E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.360190E+02    0.398555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.330042E+02    0.383131E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.316606E+02    0.356727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.321362E+02    0.326422E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.344472E+02    0.299078E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.378946E+02    0.282943E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.416329E+02    0.282484E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.448541E+02    0.296966E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133810E+03   -0.466894E+02    0.322754E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.461749E+02    0.354986E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.434203E+02    0.383875E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.397176E+02    0.399640E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.394583E+02    0.235222E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.374321E+02    0.237408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.388667E+02    0.220637E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.411760E+02    0.223752E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.411058E+02    0.242953E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.387375E+02    0.251762E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.367002E+02    0.264554E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.355483E+02    0.251752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.352795E+02    0.236075E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.363582E+02    0.218145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.381035E+02    0.206258E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.402834E+02    0.201702E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.422566E+02    0.206342E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.435626E+02    0.218285E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.436461E+02    0.235710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.427152E+02    0.252296E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.408137E+02    0.265050E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.386228E+02    0.269436E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.366228E+02    0.293216E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.335739E+02    0.279883E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.323657E+02    0.252779E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.328113E+02    0.223268E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.350144E+02    0.196970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.386494E+02    0.178858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.424065E+02    0.177744E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.456524E+02    0.190794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.474099E+02    0.215008E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.466019E+02    0.247588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.440126E+02    0.276058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.403321E+02    0.292747E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659543.023635063     
  ps_ts2 prof sum =   659164.708571439     
  trcom prof sum =    659164.708571438     
  ps_ts2 cur sum  =   10038.6064649213     
  trcom cur sum  =    10038.6064649213     
  
  antenna # iant =            2
  powecha_use(iant) =    669727.068127354     
  ps_ts2 prof sum =   669354.685051588     
  trcom prof sum =    669354.685051588     
  ps_ts2 cur sum  =   12544.9945360233     
  trcom cur sum  =    12544.9945360233     
  
  antenna # iant =            3
  powecha_use(iant) =    531201.765758018     
  ps_ts2 prof sum =   530857.099361559     
  trcom prof sum =    530857.099330594     
  ps_ts2 cur sum  =   6878.16215922290     
  trcom cur sum  =    6878.16215922291     
  
  antenna # iant =            4
  powecha_use(iant) =    570275.290357857     
  ps_ts2 prof sum =   569957.055090695     
  trcom prof sum =    569957.055090694     
  ps_ts2 cur sum  =   9631.28337166009     
  trcom cur sum  =    9631.28337166008     
  
  antenna # iant =            5
  powecha_use(iant) =    553874.972939349     
  ps_ts2 prof sum =   553579.095118862     
  trcom prof sum =    553579.095118862     
  ps_ts2 cur sum  =   11515.6662102986     
  trcom cur sum  =    11515.6662102986     
  
  Total ECH heating:      2982912.64316318     
  Total Current Drive:    50608.7127421262     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3609
 TA= 3.91500E+00 CPU TIME= 1.59670E-01 SECONDS.  DT= 5.47865E-04
  
 TEC1=    3.91499999999994     
 TEC2=    3.91999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0759572222221     
  %check_save_state: izleft hours =    69.9155555555556     
 --> plasma_hash("gframe"): TA= 3.915000E+00 NSTEP=  3609 Hash code:   10508679
 ->PRGCHK: bdy curvature ratio at t= 3.9200E+00 seconds is:  5.6903E-02
% MHDEQ: TG1=     3.915000 ; TG2=     3.920000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7624E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6903E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.915000 TO TG2=    3.920000 @ NSTEP     3609
   GFRAME TG2 MOMENTS CHECKSUM:  2.4547147048979D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.91510E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.63277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.60281E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.71953E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.47840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50222E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.36679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.73527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.41563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -2.40008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.75988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.53752E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.62869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.21917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.98709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.66715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.23755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.95556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.95556E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9200E+00  3.9250E+00 total power(Watts):  2.9745E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.92000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.384289E+02    0.380370E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.364117E+02    0.381729E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.377668E+02    0.365245E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.400543E+02    0.369599E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.400508E+02    0.389416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.376774E+02    0.397421E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.357252E+02    0.409234E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.344191E+02    0.396185E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.342760E+02    0.378806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.352850E+02    0.361615E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.370358E+02    0.349852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.391067E+02    0.346583E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.410561E+02    0.352281E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.424410E+02    0.365074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.425962E+02    0.382985E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.416323E+02    0.400356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.398194E+02    0.412258E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.376303E+02    0.415531E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.356931E+02    0.438741E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.326889E+02    0.422587E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.313617E+02    0.395042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.317624E+02    0.365110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.340793E+02    0.337919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.374259E+02    0.322719E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.411518E+02    0.322676E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.445830E+02    0.336667E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133682E+03   -0.462882E+02    0.363977E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133662E+03   -0.457525E+02    0.396756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134269E+03   -0.432073E+02    0.425313E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.393867E+02    0.440612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.392562E+02    0.295429E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.372346E+02    0.297368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.387786E+02    0.279560E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.410849E+02    0.283143E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.409997E+02    0.302924E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.386267E+02    0.311459E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.364808E+02    0.324701E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.354429E+02    0.310880E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.351834E+02    0.294751E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.360828E+02    0.278145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.379253E+02    0.265311E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.401044E+02    0.260880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.420711E+02    0.265919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.433671E+02    0.278589E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.435455E+02    0.295910E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.426028E+02    0.312783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.406915E+02    0.325339E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.385004E+02    0.329312E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.364846E+02    0.353115E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.335439E+02    0.338104E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.321814E+02    0.312034E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.327287E+02    0.281287E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137756E+03   -0.348492E+02    0.255253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.384890E+02    0.237337E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.422395E+02    0.236512E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.454786E+02    0.250256E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.471030E+02    0.276653E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133866E+03   -0.467315E+02    0.307456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.441033E+02    0.336046E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.402949E+02    0.352846E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.383496E+02    0.437075E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.363342E+02    0.437847E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.378046E+02    0.420838E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.400930E+02    0.426052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.400722E+02    0.446216E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.376894E+02    0.453327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.357255E+02    0.464316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.344283E+02    0.450993E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.343939E+02    0.433262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.351273E+02    0.417313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.369845E+02    0.405094E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.391640E+02    0.401688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.411121E+02    0.408156E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.423783E+02    0.422569E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.426281E+02    0.440627E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.416532E+02    0.457526E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.398226E+02    0.468644E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.376284E+02    0.471114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.356724E+02    0.494208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.326771E+02    0.476502E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.313714E+02    0.449046E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.317929E+02    0.418910E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.340399E+02    0.392042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.373981E+02    0.377287E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.412348E+02    0.377557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.444360E+02    0.394110E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133247E+03   -0.463483E+02    0.422553E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.457814E+02    0.455709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.430929E+02    0.483289E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.393643E+02    0.497332E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.387226E+02    0.340862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.367018E+02    0.342557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.381581E+02    0.325364E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.404481E+02    0.329347E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.403507E+02    0.349478E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.380845E+02    0.357136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.361341E+02    0.368844E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.349144E+02    0.355978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.347566E+02    0.338845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.356641E+02    0.322138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.374127E+02    0.310221E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.394857E+02    0.306757E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.415491E+02    0.311412E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.427253E+02    0.325046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.430030E+02    0.342118E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.419396E+02    0.359770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.401330E+02    0.371515E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.379463E+02    0.375100E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.360191E+02    0.398411E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.330032E+02    0.382996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.316591E+02    0.356548E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.321331E+02    0.326239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.344430E+02    0.298910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.377899E+02    0.283514E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.416275E+02    0.282298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.448490E+02    0.296763E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.466861E+02    0.322516E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133721E+03   -0.461733E+02    0.354756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.434201E+02    0.383702E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.397180E+02    0.399489E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.394508E+02    0.235090E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.374250E+02    0.237283E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.388584E+02    0.220531E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.411675E+02    0.223631E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.410983E+02    0.242804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.387305E+02    0.251603E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.366879E+02    0.264442E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.355419E+02    0.251609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.352723E+02    0.235956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.363506E+02    0.218043E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.380943E+02    0.206190E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.402744E+02    0.201636E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.422467E+02    0.206261E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.435538E+02    0.218169E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.436379E+02    0.235564E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.425998E+02    0.252884E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.408070E+02    0.264886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.386169E+02    0.269264E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.366182E+02    0.293037E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.335691E+02    0.279735E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.322723E+02    0.253457E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.328042E+02    0.223172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.350068E+02    0.196919E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.386397E+02    0.178838E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.423959E+02    0.177723E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.456421E+02    0.190733E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.471722E+02    0.216441E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134483E+03   -0.465935E+02    0.247420E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.440058E+02    0.275879E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.403275E+02    0.292552E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650194.262616335     
  ps_ts2 prof sum =   649816.760131384     
  trcom prof sum =    649816.760131384     
  ps_ts2 cur sum  =   9888.36709414409     
  trcom cur sum  =    9888.36709414409     
  
  antenna # iant =            2
  powecha_use(iant) =    666694.408050954     
  ps_ts2 prof sum =   666275.040322895     
  trcom prof sum =    666275.040322894     
  ps_ts2 cur sum  =   12484.0673733725     
  trcom cur sum  =    12484.0673733725     
  
  antenna # iant =            3
  powecha_use(iant) =    532039.967038916     
  ps_ts2 prof sum =   531696.015018250     
  trcom prof sum =    531696.014987645     
  ps_ts2 cur sum  =   6880.54248641665     
  trcom cur sum  =    6880.54248641666     
  
  antenna # iant =            4
  powecha_use(iant) =    570097.932483474     
  ps_ts2 prof sum =   569773.367137084     
  trcom prof sum =    569773.367137083     
  ps_ts2 cur sum  =   9623.48704446128     
  trcom cur sum  =    9623.48704446127     
  
  antenna # iant =            5
  powecha_use(iant) =    555434.990461160     
  ps_ts2 prof sum =   555125.866187105     
  trcom prof sum =    555125.866187105     
  ps_ts2 cur sum  =   11545.7003208315     
  trcom cur sum  =    11545.7003208315     
  
  Total ECH heating:      2972687.04876611     
  Total Current Drive:    50422.1643192261     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3615
 TA= 3.92000E+00 CPU TIME= 1.59525E-01 SECONDS.  DT= 6.29570E-04
  
 TEC1=    3.91999999999994     
 TEC2=    3.92499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.0926783333332     
  %check_save_state: izleft hours =    69.8988888888889     
 --> plasma_hash("gframe"): TA= 3.920000E+00 NSTEP=  3615 Hash code:   80664817
 ->PRGCHK: bdy curvature ratio at t= 3.9250E+00 seconds is:  5.6956E-02
% MHDEQ: TG1=     3.920000 ; TG2=     3.925000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7622E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6956E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.920000 TO TG2=    3.925000 @ NSTEP     3615
   GFRAME TG2 MOMENTS CHECKSUM:  2.4547433438368D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9250E+00  3.9300E+00 total power(Watts):  2.9675E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.92500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.384268E+02    0.380206E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.364097E+02    0.381575E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.377640E+02    0.365070E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.400516E+02    0.369419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.400491E+02    0.389251E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.376752E+02    0.397277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.357242E+02    0.409074E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.344175E+02    0.396043E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.342743E+02    0.378650E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.352821E+02    0.361442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.370324E+02    0.349668E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.391030E+02    0.346402E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.411605E+02    0.351507E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.424382E+02    0.364890E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.425942E+02    0.382810E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.416316E+02    0.400182E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.398188E+02    0.412079E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.376302E+02    0.415344E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.356937E+02    0.438582E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.326891E+02    0.422413E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.313608E+02    0.394899E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.317600E+02    0.364954E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.340755E+02    0.337745E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.374213E+02    0.322557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.412536E+02    0.321855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.445783E+02    0.336467E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133663E+03   -0.462852E+02    0.363772E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133642E+03   -0.457513E+02    0.396572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134249E+03   -0.432076E+02    0.425108E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.393865E+02    0.440462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.393533E+02    0.294591E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.372294E+02    0.297237E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.387713E+02    0.279439E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.410775E+02    0.283017E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.409939E+02    0.302776E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.386210E+02    0.311312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.366737E+02    0.323201E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.354379E+02    0.310733E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.351773E+02    0.294632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.360760E+02    0.278042E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.379191E+02    0.265196E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.400967E+02    0.260768E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.420628E+02    0.265805E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.433596E+02    0.278468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.435388E+02    0.295764E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.425973E+02    0.312616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.406862E+02    0.325162E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.384956E+02    0.329143E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.365805E+02    0.352329E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.335405E+02    0.337926E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.321714E+02    0.311939E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.327226E+02    0.281183E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.350280E+02    0.253554E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.384802E+02    0.237261E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.422304E+02    0.236429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.454693E+02    0.250156E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.473280E+02    0.275140E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133864E+03   -0.467174E+02    0.307308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.441020E+02    0.335832E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.402914E+02    0.352653E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.383519E+02    0.436901E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.363345E+02    0.437688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.378044E+02    0.420659E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.400931E+02    0.425864E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.400730E+02    0.446067E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.376903E+02    0.453195E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.357272E+02    0.464214E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.344290E+02    0.450870E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.343939E+02    0.433099E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.351266E+02    0.417147E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.369822E+02    0.404945E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.391621E+02    0.401537E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.411121E+02    0.407976E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.423782E+02    0.422375E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.426288E+02    0.440456E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.416452E+02    0.457428E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.398220E+02    0.468558E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.376292E+02    0.471028E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.356668E+02    0.494111E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.326782E+02    0.476422E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.313717E+02    0.448928E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.317925E+02    0.418747E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.340383E+02    0.391897E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.373961E+02    0.377123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.412325E+02    0.377376E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.444347E+02    0.393926E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133226E+03   -0.463485E+02    0.422338E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.457826E+02    0.455572E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134214E+03   -0.430950E+02    0.483198E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.394728E+02    0.497012E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.387190E+02    0.340672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.367023E+02    0.342352E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.381464E+02    0.325237E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.404436E+02    0.329166E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.403468E+02    0.349287E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.380813E+02    0.356951E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.361314E+02    0.368685E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.349037E+02    0.355855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.347536E+02    0.338669E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.356596E+02    0.321975E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.374071E+02    0.310077E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.394798E+02    0.306611E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.415439E+02    0.311244E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.428309E+02    0.324228E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.430012E+02    0.341902E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.419366E+02    0.359579E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.401319E+02    0.371335E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.379441E+02    0.374940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.360178E+02    0.398257E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.330013E+02    0.382847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.316556E+02    0.356389E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.321295E+02    0.326082E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.344372E+02    0.298778E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.378822E+02    0.282658E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.416201E+02    0.282175E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.448423E+02    0.296615E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.466806E+02    0.322316E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.461698E+02    0.354545E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.434184E+02    0.383515E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.397158E+02    0.399335E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.394426E+02    0.234999E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.374173E+02    0.237193E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.388498E+02    0.220472E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.411591E+02    0.223557E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.410894E+02    0.242706E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.387230E+02    0.251510E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.366836E+02    0.264325E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.355348E+02    0.251513E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.352652E+02    0.235873E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.363426E+02    0.217981E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.380851E+02    0.206149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.402674E+02    0.201586E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.422369E+02    0.206218E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.435443E+02    0.218105E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.436283E+02    0.235475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.425913E+02    0.252778E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.407999E+02    0.264772E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.386094E+02    0.269157E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.366125E+02    0.292904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.335630E+02    0.279630E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.322658E+02    0.253370E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.327955E+02    0.223115E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.349979E+02    0.196901E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.386303E+02    0.178847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.423849E+02    0.177738E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134836E+03   -0.456313E+02    0.190717E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.473886E+02    0.214836E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.465842E+02    0.247312E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.439981E+02    0.275760E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.403211E+02    0.292418E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    644512.346713589     
  ps_ts2 prof sum =   644143.304685159     
  trcom prof sum =    644143.304685159     
  ps_ts2 cur sum  =   9785.92239308758     
  trcom cur sum  =    9785.92239308758     
  
  antenna # iant =            2
  powecha_use(iant) =    665705.031097343     
  ps_ts2 prof sum =   665332.046457254     
  trcom prof sum =    665332.046457253     
  ps_ts2 cur sum  =   12456.5238201854     
  trcom cur sum  =    12456.5238201854     
  
  antenna # iant =            3
  powecha_use(iant) =    533319.516619669     
  ps_ts2 prof sum =   532973.965228011     
  trcom prof sum =    532973.965197795     
  ps_ts2 cur sum  =   6884.17971677054     
  trcom cur sum  =    6884.17971677054     
  
  antenna # iant =            4
  powecha_use(iant) =    569304.153691204     
  ps_ts2 prof sum =   568982.570631970     
  trcom prof sum =    568982.570631969     
  ps_ts2 cur sum  =   9597.86399066497     
  trcom cur sum  =    9597.86399066496     
  
  antenna # iant =            5
  powecha_use(iant) =    554609.082910930     
  ps_ts2 prof sum =   554304.988983276     
  trcom prof sum =    554304.988983276     
  ps_ts2 cur sum  =   11528.1902636431     
  trcom cur sum  =    11528.1902636431     
  
  Total ECH heating:      2965736.87595545     
  Total Current Drive:    50252.6801843516     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3620
 TA= 3.92500E+00 CPU TIME= 1.60084E-01 SECONDS.  DT= 1.71267E-03
  
 TEC1=    3.92499999999994     
 TEC2=    3.92999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1103158333328     
  %check_save_state: izleft hours =    69.8811111111111     
 --> plasma_hash("gframe"): TA= 3.925000E+00 NSTEP=  3620 Hash code:   70302006
 ->PRGCHK: bdy curvature ratio at t= 3.9300E+00 seconds is:  5.7011E-02
% MHDEQ: TG1=     3.925000 ; TG2=     3.930000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7620E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7011E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.925000 TO TG2=    3.930000 @ NSTEP     3620
   GFRAME TG2 MOMENTS CHECKSUM:  2.4547719827756D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.94722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.58650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  6.81629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.79238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78186E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.38894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.51642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.07173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.96476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.43842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -1.98388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.29537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.53567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.60206E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.25724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.79045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.51584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.00005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.54216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.54216E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9300E+00  3.9350E+00 total power(Watts):  2.9851E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.93000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.383265E+02    0.380561E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.364099E+02    0.381408E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.377636E+02    0.364884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.400517E+02    0.369233E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.400498E+02    0.389084E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.376762E+02    0.397119E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.357256E+02    0.408918E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.344179E+02    0.395896E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.342741E+02    0.378494E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.352816E+02    0.361255E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.370312E+02    0.349469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.391014E+02    0.346185E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.410513E+02    0.351876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.424378E+02    0.364683E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.425949E+02    0.382625E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.416332E+02    0.400005E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.398206E+02    0.411907E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.376318E+02    0.415189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.356961E+02    0.438442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.326936E+02    0.422251E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.313610E+02    0.394757E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.317593E+02    0.364784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.340741E+02    0.337550E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.374191E+02    0.322357E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.411434E+02    0.322289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.445765E+02    0.336228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.462849E+02    0.363549E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.457528E+02    0.396390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.432102E+02    0.424923E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.393892E+02    0.440316E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.45 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.392457E+02    0.295127E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.372254E+02    0.297078E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.387662E+02    0.279299E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.409665E+02    0.283578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.409900E+02    0.302593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.386181E+02    0.311117E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.365725E+02    0.323670E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.354345E+02    0.310561E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.352683E+02    0.293744E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.361672E+02    0.277146E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.379125E+02    0.265072E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.400905E+02    0.260643E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.420570E+02    0.265674E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.433540E+02    0.278311E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.435343E+02    0.295581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.424842E+02    0.313070E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.406838E+02    0.324957E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.384927E+02    0.328942E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.364804E+02    0.352738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.335382E+02    0.337733E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.321707E+02    0.311753E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.327182E+02    0.281050E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.348368E+02    0.255042E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.384734E+02    0.237163E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.422229E+02    0.236329E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.454620E+02    0.250022E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.470891E+02    0.276361E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133834E+03   -0.467196E+02    0.307071E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.441002E+02    0.335595E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.402902E+02    0.352441E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.383536E+02    0.436759E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.363369E+02    0.437543E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.378063E+02    0.420488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.400955E+02    0.425688E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.400758E+02    0.445938E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.376932E+02    0.453097E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.357296E+02    0.464144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.344315E+02    0.450764E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.343961E+02    0.432948E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.351285E+02    0.416982E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.369836E+02    0.404789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.390583E+02    0.401857E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.411138E+02    0.407807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.423806E+02    0.422192E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.426319E+02    0.440301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.416535E+02    0.457321E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.398281E+02    0.468468E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.376325E+02    0.470958E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.356739E+02    0.494042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.326812E+02    0.476355E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.313739E+02    0.448824E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.317939E+02    0.418585E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.340388E+02    0.391750E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.373961E+02    0.376953E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.411239E+02    0.377725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.444358E+02    0.393748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133209E+03   -0.463504E+02    0.422144E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133265E+03   -0.457866E+02    0.455449E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.430997E+02    0.483116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.393711E+02    0.497156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.387171E+02    0.340458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.367006E+02    0.342149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.381473E+02    0.325015E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.404416E+02    0.328953E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.403456E+02    0.349072E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.380805E+02    0.356752E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.361311E+02    0.368505E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.349071E+02    0.355637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.347519E+02    0.338466E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.356571E+02    0.321778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.374039E+02    0.309893E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.394789E+02    0.306408E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.414329E+02    0.311717E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.427178E+02    0.324648E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.429915E+02    0.341710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.419359E+02    0.359368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.401316E+02    0.371147E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.379441E+02    0.374766E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.360197E+02    0.398096E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.330014E+02    0.382695E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.316554E+02    0.356206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.321269E+02    0.325900E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.344336E+02    0.298619E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.377780E+02    0.283243E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.416185E+02    0.282000E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.448378E+02    0.296426E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133756E+03   -0.466780E+02    0.322082E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133684E+03   -0.461691E+02    0.354308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.434188E+02    0.383336E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.397184E+02    0.399157E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.394357E+02    0.234904E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.372167E+02    0.238721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.388470E+02    0.220372E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.411514E+02    0.223482E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.410825E+02    0.242601E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.387164E+02    0.251393E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.366791E+02    0.264193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.355290E+02    0.251401E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.352588E+02    0.235786E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.363355E+02    0.217929E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.380770E+02    0.206117E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.402532E+02    0.201609E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.422285E+02    0.206191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.435360E+02    0.218034E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.436209E+02    0.235373E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.425845E+02    0.252653E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.407935E+02    0.264648E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.386050E+02    0.269022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.366083E+02    0.292746E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.335584E+02    0.279499E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138236E+03   -0.322605E+02    0.253268E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.327888E+02    0.223053E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.349904E+02    0.196896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.384289E+02    0.180625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.423755E+02    0.177769E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.456215E+02    0.190718E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.471524E+02    0.216317E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.465767E+02    0.247179E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.439923E+02    0.275606E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.403165E+02    0.292253E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654943.274625699     
  ps_ts2 prof sum =   654565.557196212     
  trcom prof sum =    654565.557196212     
  ps_ts2 cur sum  =   9934.87673776901     
  trcom cur sum  =    9934.87673776901     
  
  antenna # iant =            2
  powecha_use(iant) =    668557.999083771     
  ps_ts2 prof sum =   668166.726484947     
  trcom prof sum =    668166.726484946     
  ps_ts2 cur sum  =   12505.3859695520     
  trcom cur sum  =    12505.3859695520     
  
  antenna # iant =            3
  powecha_use(iant) =    533722.889737652     
  ps_ts2 prof sum =   533375.187075364     
  trcom prof sum =    533375.187045327     
  ps_ts2 cur sum  =   6880.79619254778     
  trcom cur sum  =    6880.79619254779     
  
  antenna # iant =            4
  powecha_use(iant) =    572354.924675433     
  ps_ts2 prof sum =   572028.973855359     
  trcom prof sum =    572028.973855359     
  ps_ts2 cur sum  =   9643.55298228890     
  trcom cur sum  =    9643.55298228889     
  
  antenna # iant =            5
  powecha_use(iant) =    555475.846268643     
  ps_ts2 prof sum =   555148.700708838     
  trcom prof sum =    555148.700708838     
  ps_ts2 cur sum  =   11543.8287885947     
  trcom cur sum  =    11543.8287885947     
  
  Total ECH heating:      2983285.14529068     
  Total Current Drive:    50508.4406707524     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3623
 TA= 3.93000E+00 CPU TIME= 1.66723E-01 SECONDS.  DT= 1.43312E-03
  
 TEC1=    3.92999999999994     
 TEC2=    3.93499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1258874999996     
  %check_save_state: izleft hours =    69.8650000000000     
 --> plasma_hash("gframe"): TA= 3.930000E+00 NSTEP=  3623 Hash code:   33053542
 ->PRGCHK: bdy curvature ratio at t= 3.9350E+00 seconds is:  5.7065E-02
% MHDEQ: TG1=     3.930000 ; TG2=     3.935000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2410E-03 SECONDS
   DATA R*BT AT EDGE:  2.7618E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7065E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.930000 TO TG2=    3.935000 @ NSTEP     3623
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548006217145D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9350E+00  3.9400E+00 total power(Watts):  2.9872E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.93500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.383186E+02    0.380440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.363104E+02    0.381808E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.377628E+02    0.364723E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.400509E+02    0.369059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.400502E+02    0.388933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.376783E+02    0.396960E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.357268E+02    0.408766E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.344177E+02    0.395763E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.342739E+02    0.378346E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.352806E+02    0.361090E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.370297E+02    0.349292E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.390999E+02    0.346002E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.410499E+02    0.351687E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.423262E+02    0.365054E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.425948E+02    0.382469E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.416338E+02    0.399858E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.398218E+02    0.411755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.376331E+02    0.415027E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.356978E+02    0.438323E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.326892E+02    0.422117E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.313612E+02    0.394626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.317585E+02    0.364630E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.340721E+02    0.337376E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.374165E+02    0.322187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.411407E+02    0.322113E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.445745E+02    0.336023E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133626E+03   -0.462843E+02    0.363355E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133602E+03   -0.457532E+02    0.396233E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134209E+03   -0.432116E+02    0.424763E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.393913E+02    0.440185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.392416E+02    0.294973E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.372214E+02    0.296919E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.387620E+02    0.279147E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.409616E+02    0.283427E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.408797E+02    0.303115E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.386148E+02    0.310957E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.365700E+02    0.323503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.354321E+02    0.310396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.352649E+02    0.293595E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.361629E+02    0.277000E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.379073E+02    0.264944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.400849E+02    0.260511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.420508E+02    0.265525E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.433486E+02    0.278154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.435303E+02    0.295402E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.424803E+02    0.312890E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.406813E+02    0.324773E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.384907E+02    0.328763E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.364790E+02    0.352561E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.335370E+02    0.337559E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.321685E+02    0.311601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.326250E+02    0.281690E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.348315E+02    0.254928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.383681E+02    0.237860E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.422160E+02    0.236223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.454555E+02    0.249893E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.472000E+02    0.275506E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133816E+03   -0.467160E+02    0.306874E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.440982E+02    0.335393E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.401824E+02    0.352845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.383556E+02    0.436618E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.363386E+02    0.437412E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.378078E+02    0.420331E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.400973E+02    0.425523E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.400780E+02    0.445818E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.376953E+02    0.453005E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.357319E+02    0.464080E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.344329E+02    0.450675E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.343978E+02    0.432804E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.351297E+02    0.416831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.369862E+02    0.404621E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.390600E+02    0.401693E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.411149E+02    0.407650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.423818E+02    0.422033E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.426342E+02    0.440159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.416560E+02    0.457230E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.398307E+02    0.468409E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.376356E+02    0.470894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.356771E+02    0.493976E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.326847E+02    0.476285E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.313756E+02    0.448733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.317953E+02    0.418437E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.340390E+02    0.391613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.373955E+02    0.376798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.411236E+02    0.377566E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.444363E+02    0.393596E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133187E+03   -0.463534E+02    0.421957E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133242E+03   -0.457895E+02    0.455343E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.431033E+02    0.483052E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.393747E+02    0.497090E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.387153E+02    0.340274E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.366988E+02    0.341976E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.381446E+02    0.324844E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.404391E+02    0.328768E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.403441E+02    0.348884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.380793E+02    0.356575E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.361305E+02    0.368345E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.349059E+02    0.355468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.347501E+02    0.338292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.356546E+02    0.321610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.374010E+02    0.309722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.394680E+02    0.306293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.414295E+02    0.311545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.427150E+02    0.324460E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.429951E+02    0.341490E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.419350E+02    0.359182E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.401311E+02    0.370973E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.379434E+02    0.374605E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.360196E+02    0.397952E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.330012E+02    0.382558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.316533E+02    0.356049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.321244E+02    0.325740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.344305E+02    0.298474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.377736E+02    0.283100E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.416067E+02    0.281889E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.448337E+02    0.296252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.466752E+02    0.321872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.459342E+02    0.355211E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.434189E+02    0.383176E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.397196E+02    0.399000E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.394292E+02    0.234804E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.372105E+02    0.238624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.388344E+02    0.220347E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.411441E+02    0.223406E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.410759E+02    0.242490E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.387105E+02    0.251265E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.366731E+02    0.264066E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.355239E+02    0.251292E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.352527E+02    0.235693E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.361409E+02    0.219554E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.380698E+02    0.206085E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.402499E+02    0.201558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.422204E+02    0.206150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.434206E+02    0.218764E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.436137E+02    0.235265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.425786E+02    0.252520E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.407881E+02    0.264511E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.385999E+02    0.268884E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.364091E+02    0.294061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.335540E+02    0.279373E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.322554E+02    0.253154E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.327832E+02    0.222987E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.349828E+02    0.196890E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.384197E+02    0.180649E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.423664E+02    0.177816E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.455029E+02    0.191539E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.471439E+02    0.216248E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.465699E+02    0.247053E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.439869E+02    0.275454E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.403123E+02    0.292098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.56 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654018.899621268     
  ps_ts2 prof sum =   653635.256745950     
  trcom prof sum =    653635.256745950     
  ps_ts2 cur sum  =   9913.81907370374     
  trcom cur sum  =    9913.81907370374     
  
  antenna # iant =            2
  powecha_use(iant) =    668290.698568455     
  ps_ts2 prof sum =   667892.638154847     
  trcom prof sum =    667892.638154847     
  ps_ts2 cur sum  =   12500.2455953890     
  trcom cur sum  =    12500.2455953890     
  
  antenna # iant =            3
  powecha_use(iant) =    536493.614989000     
  ps_ts2 prof sum =   536147.632598296     
  trcom prof sum =    536147.632568363     
  ps_ts2 cur sum  =   6908.44309270903     
  trcom cur sum  =    6908.44309270904     
  
  antenna # iant =            4
  powecha_use(iant) =    573560.702072579     
  ps_ts2 prof sum =   573230.594303226     
  trcom prof sum =    573230.594303225     
  ps_ts2 cur sum  =   9660.24153142134     
  trcom cur sum  =    9660.24153142134     
  
  antenna # iant =            5
  powecha_use(iant) =    554872.995989024     
  ps_ts2 prof sum =   554522.245535311     
  trcom prof sum =    554522.245535311     
  ps_ts2 cur sum  =   11536.1300833616     
  trcom cur sum  =    11536.1300833616     
  
  Total ECH heating:      2985428.36730770     
  Total Current Drive:    50518.8793765847     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3626
 TA= 3.93500E+00 CPU TIME= 1.60958E-01 SECONDS.  DT= 2.21936E-03
  
 TEC1=    3.93499999999994     
 TEC2=    3.93999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1394836111108     
  %check_save_state: izleft hours =    69.8522222222222     
 --> plasma_hash("gframe"): TA= 3.935000E+00 NSTEP=  3626 Hash code:    8822270
 ->PRGCHK: bdy curvature ratio at t= 3.9400E+00 seconds is:  5.7121E-02
% MHDEQ: TG1=     3.935000 ; TG2=     3.940000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.0888E-02 SECONDS
   DATA R*BT AT EDGE:  2.7616E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7121E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.935000 TO TG2=    3.940000 @ NSTEP     3626
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548292606534D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.97777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.54247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.01940E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.86170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.78057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37288E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.55259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  6.64531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.18310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.46011E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -4.30928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.93242E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.53391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.57673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.29347E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.60337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.37188E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.77409E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.07435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.07435E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9400E+00  3.9450E+00 total power(Watts):  2.9788E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.94000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.383234E+02    0.380238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.363105E+02    0.381629E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.377621E+02    0.364522E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.400503E+02    0.368859E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.400506E+02    0.388748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.376796E+02    0.396778E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.357283E+02    0.408582E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.344182E+02    0.395597E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.342736E+02    0.378176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.352794E+02    0.360901E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.370280E+02    0.349086E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.390980E+02    0.345794E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.410522E+02    0.351451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.423255E+02    0.364842E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.425951E+02    0.382272E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.416350E+02    0.399666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135470E+03   -0.398235E+02    0.411556E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.376348E+02    0.414833E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.357003E+02    0.438158E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.326933E+02    0.421927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.313617E+02    0.394464E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.317574E+02    0.364450E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.340697E+02    0.337189E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.374148E+02    0.322001E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.411373E+02    0.321923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.445724E+02    0.335794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.462890E+02    0.363109E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.457549E+02    0.396015E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.429887E+02    0.425360E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.393943E+02    0.440011E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.392372E+02    0.294839E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.372171E+02    0.296787E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.386550E+02    0.279778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.409591E+02    0.283292E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.408754E+02    0.302951E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.386113E+02    0.310788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.365670E+02    0.323324E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.354282E+02    0.310249E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.352607E+02    0.293476E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.361578E+02    0.276916E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.379008E+02    0.264857E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.400796E+02    0.260420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.420439E+02    0.265439E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.433427E+02    0.278039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.435252E+02    0.295256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.424764E+02    0.312716E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.406781E+02    0.324580E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.384877E+02    0.328574E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.364775E+02    0.352359E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.335347E+02    0.337378E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.321651E+02    0.311457E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.326198E+02    0.281591E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.348255E+02    0.254859E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.383611E+02    0.237820E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.422086E+02    0.236181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.454480E+02    0.249819E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.471935E+02    0.275388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133797E+03   -0.467117E+02    0.306691E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.440960E+02    0.335168E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.401809E+02    0.352632E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.383575E+02    0.436454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.363411E+02    0.437252E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.378097E+02    0.420137E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.400999E+02    0.425323E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.400811E+02    0.445668E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.376985E+02    0.452873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.357351E+02    0.463979E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.344353E+02    0.450548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.344000E+02    0.432632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.352286E+02    0.416187E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.369870E+02    0.404447E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.390609E+02    0.401513E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.411161E+02    0.407454E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.423842E+02    0.421820E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.426373E+02    0.439975E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.416597E+02    0.457104E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.398345E+02    0.468306E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.376392E+02    0.470799E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.356822E+02    0.493867E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.326868E+02    0.476212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.313780E+02    0.448601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.317969E+02    0.418261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.340389E+02    0.391445E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.373952E+02    0.376615E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.411234E+02    0.377375E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.444373E+02    0.393393E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133168E+03   -0.463564E+02    0.421726E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133221E+03   -0.457936E+02    0.455198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134150E+03   -0.431063E+02    0.482953E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.393796E+02    0.496992E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.387130E+02    0.340077E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.366966E+02    0.341780E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.381411E+02    0.324663E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.404361E+02    0.328573E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.403423E+02    0.348673E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.380780E+02    0.356370E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.359330E+02    0.369308E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.349045E+02    0.355272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.347478E+02    0.338103E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.356514E+02    0.321440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.373972E+02    0.309573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.394687E+02    0.306107E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.414251E+02    0.311378E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.427115E+02    0.324263E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.429930E+02    0.341271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.419337E+02    0.358971E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.401305E+02    0.370776E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.379430E+02    0.374420E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.360204E+02    0.397781E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.330011E+02    0.382393E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.316520E+02    0.355867E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.321217E+02    0.325574E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.344264E+02    0.298342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.377689E+02    0.282987E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.416045E+02    0.281742E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.449419E+02    0.295428E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133720E+03   -0.466718E+02    0.321665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.459330E+02    0.354969E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.435323E+02    0.382468E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.397205E+02    0.398817E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.394219E+02    0.234769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.372043E+02    0.238572E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.388281E+02    0.220330E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.411361E+02    0.223387E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.410688E+02    0.242422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.387042E+02    0.251197E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.366671E+02    0.263993E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.355180E+02    0.251227E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.352462E+02    0.235657E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.361341E+02    0.219548E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.380626E+02    0.206115E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.402402E+02    0.201606E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.422128E+02    0.206179E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.434120E+02    0.218762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.436059E+02    0.235225E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.425718E+02    0.252449E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.407813E+02    0.264420E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.385939E+02    0.268792E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.364045E+02    0.293936E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.335486E+02    0.279276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.322499E+02    0.253090E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.327770E+02    0.222973E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.349757E+02    0.196946E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.385080E+02    0.179881E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.423576E+02    0.177918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.454937E+02    0.191619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.471349E+02    0.216251E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.466764E+02    0.246245E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.439808E+02    0.275342E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.403084E+02    0.291963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652324.967629886     
  ps_ts2 prof sum =   651935.881131529     
  trcom prof sum =    651935.881131530     
  ps_ts2 cur sum  =   9874.81443288350     
  trcom cur sum  =    9874.81443288349     
  
  antenna # iant =            2
  powecha_use(iant) =    667543.990552326     
  ps_ts2 prof sum =   667146.955971987     
  trcom prof sum =    667146.955971987     
  ps_ts2 cur sum  =   12479.3423341670     
  trcom cur sum  =    12479.3423341670     
  
  antenna # iant =            3
  powecha_use(iant) =    536134.405290973     
  ps_ts2 prof sum =   535802.595838125     
  trcom prof sum =    535802.595807826     
  ps_ts2 cur sum  =   6893.28896868941     
  trcom cur sum  =    6893.28896868941     
  
  antenna # iant =            4
  powecha_use(iant) =    568739.051512609     
  ps_ts2 prof sum =   568412.947328012     
  trcom prof sum =    568412.947328012     
  ps_ts2 cur sum  =   9569.37231730252     
  trcom cur sum  =    9569.37231730251     
  
  antenna # iant =            5
  powecha_use(iant) =    554063.920716929     
  ps_ts2 prof sum =   553737.369496135     
  trcom prof sum =    553737.369496134     
  ps_ts2 cur sum  =   11518.5589392290     
  trcom cur sum  =    11518.5589392290     
  
  Total ECH heating:      2977035.74973549     
  Total Current Drive:    50335.3769922714     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3629
 TA= 3.94000E+00 CPU TIME= 1.61201E-01 SECONDS.  DT= 8.04174E-06
  
 TEC1=    3.93999999999994     
 TEC2=    3.94499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1527658333334     
  %check_save_state: izleft hours =    69.8388888888889     
 --> plasma_hash("gframe"): TA= 3.940000E+00 NSTEP=  3629 Hash code:   47562593
 ->PRGCHK: bdy curvature ratio at t= 3.9450E+00 seconds is:  5.7178E-02
% MHDEQ: TG1=     3.940000 ; TG2=     3.945000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7614E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7178E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.940000 TO TG2=    3.945000 @ NSTEP     3629
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548578995922D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9450E+00  3.9500E+00 total power(Watts):  2.9890E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.94500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.383237E+02    0.380069E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.363110E+02    0.381459E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.377620E+02    0.364322E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.400506E+02    0.368665E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.400519E+02    0.388568E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.376809E+02    0.396612E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.357300E+02    0.408416E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.344201E+02    0.395435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.343690E+02    0.377447E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.352790E+02    0.360707E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.370271E+02    0.348874E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.390969E+02    0.345575E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.410433E+02    0.351264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.423254E+02    0.364631E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.425961E+02    0.382082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.416421E+02    0.399475E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.398257E+02    0.411379E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.376370E+02    0.414657E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.357025E+02    0.438021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.326953E+02    0.421762E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.313622E+02    0.394315E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.317571E+02    0.364273E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.340687E+02    0.336985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.374063E+02    0.321837E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.411350E+02    0.321709E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.445710E+02    0.335545E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133597E+03   -0.462809E+02    0.362901E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133564E+03   -0.457568E+02    0.395823E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.429919E+02    0.425167E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.393974E+02    0.439869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.392331E+02    0.294670E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.372136E+02    0.296622E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.386499E+02    0.279644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.409470E+02    0.283183E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.408718E+02    0.302762E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.386083E+02    0.310593E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.365648E+02    0.323124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.354259E+02    0.310058E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.352569E+02    0.293317E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.361524E+02    0.276778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.378949E+02    0.264730E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.400737E+02    0.260294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.420391E+02    0.265299E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.433377E+02    0.277885E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.435212E+02    0.295075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.424734E+02    0.312505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.406760E+02    0.324361E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.384861E+02    0.328351E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.364768E+02    0.352154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.335344E+02    0.337176E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.321624E+02    0.311286E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.326163E+02    0.281459E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.348207E+02    0.254745E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.383544E+02    0.237719E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.422014E+02    0.236083E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.455535E+02    0.248953E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133892E+03   -0.471881E+02    0.275215E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133779E+03   -0.467080E+02    0.306474E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.440937E+02    0.334934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.401804E+02    0.352411E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.383605E+02    0.436304E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.363434E+02    0.437111E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.378123E+02    0.419957E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.401020E+02    0.425151E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.400845E+02    0.445535E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.377019E+02    0.452767E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.357394E+02    0.463888E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.345385E+02    0.450053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.344028E+02    0.432489E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.352305E+02    0.416014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.369889E+02    0.404277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.390609E+02    0.401359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135180E+03   -0.411187E+02    0.407273E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.423866E+02    0.421638E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.426408E+02    0.439824E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.416636E+02    0.457001E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.398385E+02    0.468226E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.376431E+02    0.470721E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.356869E+02    0.493785E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.326903E+02    0.476139E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.313800E+02    0.448497E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.317986E+02    0.418098E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.340389E+02    0.391300E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.373958E+02    0.376435E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.411242E+02    0.377184E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.444389E+02    0.393206E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133148E+03   -0.463594E+02    0.421531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133200E+03   -0.457983E+02    0.455067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.431133E+02    0.482868E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.393847E+02    0.496905E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.387117E+02    0.339858E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.366953E+02    0.341567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.381392E+02    0.324454E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.404341E+02    0.328350E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.403414E+02    0.348451E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.380775E+02    0.356163E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.359329E+02    0.369122E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.349039E+02    0.355072E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.347462E+02    0.337900E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.356495E+02    0.321243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.373941E+02    0.309390E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.394654E+02    0.305912E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.414222E+02    0.311173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.427091E+02    0.324039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134779E+03   -0.431033E+02    0.340444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.419333E+02    0.358750E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.401307E+02    0.370581E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.379435E+02    0.374236E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.360220E+02    0.397616E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.330016E+02    0.382233E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.316517E+02    0.355676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.321202E+02    0.325391E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.344229E+02    0.298170E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.377643E+02    0.282838E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.415999E+02    0.281590E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134485E+03   -0.449375E+02    0.295233E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.466694E+02    0.321424E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133846E+03   -0.460495E+02    0.354172E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.435334E+02    0.382273E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.397221E+02    0.398645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.393141E+02    0.235476E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.372943E+02    0.237671E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.388216E+02    0.220264E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.411292E+02    0.223314E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.409579E+02    0.243105E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.386984E+02    0.251088E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.366613E+02    0.263862E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.355125E+02    0.251108E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.352406E+02    0.235567E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.361268E+02    0.219498E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.380552E+02    0.206088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.402326E+02    0.201580E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.422044E+02    0.206145E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.434045E+02    0.218698E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.435983E+02    0.235126E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.425649E+02    0.252331E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.406701E+02    0.265040E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.385885E+02    0.268658E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.364003E+02    0.293770E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.335447E+02    0.279136E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.322452E+02    0.252985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.327698E+02    0.222918E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.349688E+02    0.196941E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.384987E+02    0.179921E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.423486E+02    0.177966E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.454842E+02    0.191625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.471261E+02    0.216182E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.466693E+02    0.246118E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.440868E+02    0.274473E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.403033E+02    0.291796E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656069.326775154     
  ps_ts2 prof sum =   655694.889853813     
  trcom prof sum =    655694.889853813     
  ps_ts2 cur sum  =   9923.02289118065     
  trcom cur sum  =    9923.02289118065     
  
  antenna # iant =            2
  powecha_use(iant) =    668012.503335624     
  ps_ts2 prof sum =   667633.514773156     
  trcom prof sum =    667633.514773155     
  ps_ts2 cur sum  =   12485.4965328438     
  trcom cur sum  =    12485.4965328438     
  
  antenna # iant =            3
  powecha_use(iant) =    538369.160654623     
  ps_ts2 prof sum =   538051.016398947     
  trcom prof sum =    538051.016368146     
  ps_ts2 cur sum  =   6913.32931221599     
  trcom cur sum  =    6913.32931221600     
  
  antenna # iant =            4
  powecha_use(iant) =    570026.966460520     
  ps_ts2 prof sum =   569718.788909985     
  trcom prof sum =    569718.788909985     
  ps_ts2 cur sum  =   9586.21837010474     
  trcom cur sum  =    9586.21837010473     
  
  antenna # iant =            5
  powecha_use(iant) =    556515.247671861     
  ps_ts2 prof sum =   556204.126542900     
  trcom prof sum =    556204.126542900     
  ps_ts2 cur sum  =   11568.0050679438     
  trcom cur sum  =    11568.0050679438     
  
  Total ECH heating:      2987302.33644800     
  Total Current Drive:    50476.0721742890     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3652
 TA= 3.94500E+00 CPU TIME= 1.59408E-01 SECONDS.  DT= 8.40914E-04
  
 TEC1=    3.94499999999994     
 TEC2=    3.94999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1679105555550     
  %check_save_state: izleft hours =    69.8236111111111     
 --> plasma_hash("gframe"): TA= 3.945000E+00 NSTEP=  3652 Hash code:   36376543
 ->PRGCHK: bdy curvature ratio at t= 3.9500E+00 seconds is:  5.7235E-02
% MHDEQ: TG1=     3.945000 ; TG2=     3.950000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7612E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7235E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.945000 TO TG2=    3.950000 @ NSTEP     3652
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548865409675D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.00790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.49906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.21970E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.93005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.77931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.58826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.50883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.57833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  8.39841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.48149E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.20737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -2.58136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.53217E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.55174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.32919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.41888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.22992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.55126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.68001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.68001E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.9500E+00  3.9550E+00 total power(Watts):  2.9975E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.95000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.383243E+02    0.379879E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.363114E+02    0.381288E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.377616E+02    0.364127E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.400504E+02    0.368466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.400530E+02    0.388382E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.376823E+02    0.396430E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.357320E+02    0.408231E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.344205E+02    0.395276E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.343688E+02    0.377278E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.352784E+02    0.360519E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.370258E+02    0.348674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.390955E+02    0.345370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.410467E+02    0.351035E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.423251E+02    0.364419E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.425969E+02    0.381882E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.416352E+02    0.399302E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.397273E+02    0.411620E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.376392E+02    0.414466E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.357055E+02    0.437861E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.326975E+02    0.421584E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.313630E+02    0.394153E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.317566E+02    0.364095E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.338793E+02    0.338112E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.374082E+02    0.321625E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.411316E+02    0.321521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.445688E+02    0.335328E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133574E+03   -0.462836E+02    0.362661E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133546E+03   -0.457587E+02    0.395611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.429953E+02    0.424957E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.394007E+02    0.439709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.392285E+02    0.294517E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.372094E+02    0.296471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.386450E+02    0.279519E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.409468E+02    0.283025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.408678E+02    0.302601E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.386050E+02    0.310424E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.365619E+02    0.322944E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.354226E+02    0.309901E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.352526E+02    0.293178E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.361479E+02    0.276669E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.378911E+02    0.264635E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.400678E+02    0.260202E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.420307E+02    0.265211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.433322E+02    0.277762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.435164E+02    0.294914E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.424700E+02    0.312323E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.406734E+02    0.324167E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.384834E+02    0.328169E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.364756E+02    0.351956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.335319E+02    0.336994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.321594E+02    0.311136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.326115E+02    0.281354E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.348152E+02    0.254673E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.383483E+02    0.237662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.421942E+02    0.236023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.455467E+02    0.248864E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.471821E+02    0.275079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.467040E+02    0.306284E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.440927E+02    0.334700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.401793E+02    0.352204E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.383637E+02    0.436133E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.363484E+02    0.436939E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.378149E+02    0.419759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.401049E+02    0.424953E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.399809E+02    0.445755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.377055E+02    0.452648E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.357424E+02    0.463808E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.345334E+02    0.449965E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.344050E+02    0.432315E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.352326E+02    0.415826E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.369907E+02    0.404093E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.390625E+02    0.401175E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.411208E+02    0.407074E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.423893E+02    0.421435E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.426427E+02    0.439658E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.416682E+02    0.456877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.398434E+02    0.468126E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.376532E+02    0.470620E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.356917E+02    0.493687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.326949E+02    0.476046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.312933E+02    0.448777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.318006E+02    0.417917E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.340398E+02    0.391129E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.373961E+02    0.376252E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.411244E+02    0.376991E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.444406E+02    0.392998E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133130E+03   -0.463628E+02    0.421304E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133180E+03   -0.458029E+02    0.454937E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.431188E+02    0.482774E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.393900E+02    0.496814E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.387100E+02    0.339654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.366935E+02    0.341367E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.381365E+02    0.324266E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.404318E+02    0.328150E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.403403E+02    0.348238E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.380769E+02    0.355957E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.360313E+02    0.368360E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.349030E+02    0.354879E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.347446E+02    0.337705E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.356469E+02    0.321068E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.372908E+02    0.309913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.394621E+02    0.305758E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.414186E+02    0.310991E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.427063E+02    0.323841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.428788E+02    0.341418E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.419327E+02    0.358536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.401308E+02    0.370388E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379459E+02    0.374040E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.360241E+02    0.397431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.330016E+02    0.382066E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.316506E+02    0.355496E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.321174E+02    0.325221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.342324E+02    0.299494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.377596E+02    0.282721E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.415948E+02    0.281463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.449331E+02    0.295064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133686E+03   -0.466666E+02    0.321205E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.460488E+02    0.353940E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.435389E+02    0.382056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.397233E+02    0.398462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.393080E+02    0.235425E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.372884E+02    0.237626E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.388148E+02    0.220248E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.411214E+02    0.223290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.409511E+02    0.243036E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.386921E+02    0.251002E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.366561E+02    0.263774E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.355072E+02    0.251039E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.352347E+02    0.235524E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.361203E+02    0.219486E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.380479E+02    0.206106E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.401241E+02    0.202456E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.421966E+02    0.206172E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.433962E+02    0.218687E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.435910E+02    0.235073E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.425583E+02    0.252247E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.406656E+02    0.264939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.385834E+02    0.268555E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.363962E+02    0.293635E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.335407E+02    0.279024E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.322401E+02    0.252907E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.327651E+02    0.222902E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.349632E+02    0.196990E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.384910E+02    0.180022E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.423403E+02    0.178075E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.454748E+02    0.191700E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.472310E+02    0.215404E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.466619E+02    0.246037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.438589E+02    0.275782E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.401942E+02    0.292360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658268.313121806     
  ps_ts2 prof sum =   657879.300841179     
  trcom prof sum =    657879.300841179     
  ps_ts2 cur sum  =   9943.82085631189     
  trcom cur sum  =    9943.82085631188     
  
  antenna # iant =            2
  powecha_use(iant) =    670258.231475810     
  ps_ts2 prof sum =   669888.246879795     
  trcom prof sum =    669888.246879795     
  ps_ts2 cur sum  =   12519.8799535413     
  trcom cur sum  =    12519.8799535413     
  
  antenna # iant =            3
  powecha_use(iant) =    539201.156813507     
  ps_ts2 prof sum =   538878.056170433     
  trcom prof sum =    538878.056139155     
  ps_ts2 cur sum  =   6914.30839339151     
  trcom cur sum  =    6914.30839339152     
  
  antenna # iant =            4
  powecha_use(iant) =    574180.487969727     
  ps_ts2 prof sum =   573857.812687223     
  trcom prof sum =    573857.812687223     
  ps_ts2 cur sum  =   9646.35203016391     
  trcom cur sum  =    9646.35203016391     
  
  antenna # iant =            5
  powecha_use(iant) =    555631.774525207     
  ps_ts2 prof sum =   555318.630327136     
  trcom prof sum =    555318.630327136     
  ps_ts2 cur sum  =   11549.3862835609     
  trcom cur sum  =    11549.3862835609     
  
  Total ECH heating:      2995822.04687449     
  Total Current Drive:    50573.7475169695     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3657
 TA= 3.95000E+00 CPU TIME= 1.68344E-01 SECONDS.  DT= 1.89504E-04
  
 TEC1=    3.94999999999994     
 TEC2=    3.95499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1830730555550     
  %check_save_state: izleft hours =    69.8086111111111     
 --> plasma_hash("gframe"): TA= 3.950000E+00 NSTEP=  3657 Hash code:  107711407
 ->PRGCHK: bdy curvature ratio at t= 3.9550E+00 seconds is:  5.7294E-02
% MHDEQ: TG1=     3.950000 ; TG2=     3.955000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7610E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7294E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.950000 TO TG2=    3.955000 @ NSTEP     3657
   GFRAME TG2 MOMENTS CHECKSUM:  2.4549151823427D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9550E+00  3.9600E+00 total power(Watts):  2.9927E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.95500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.383269E+02    0.379717E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.363140E+02    0.381125E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.377633E+02    0.363946E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.400526E+02    0.368284E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.399494E+02    0.388733E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.376856E+02    0.396277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.357354E+02    0.408071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.345198E+02    0.394595E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.343710E+02    0.377116E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.352801E+02    0.360338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136622E+03   -0.369269E+02    0.349099E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.390966E+02    0.345170E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.410481E+02    0.350828E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.423278E+02    0.364222E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.426000E+02    0.381710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.416419E+02    0.399134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.397231E+02    0.411483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.376433E+02    0.414304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.357094E+02    0.437760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.327011E+02    0.421438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.313651E+02    0.394016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.317597E+02    0.363918E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.338796E+02    0.337928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.374081E+02    0.321442E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.411316E+02    0.321323E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.443418E+02    0.336322E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133557E+03   -0.462864E+02    0.362444E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.457630E+02    0.395434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.430002E+02    0.424793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.394057E+02    0.439590E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.392282E+02    0.294355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.372083E+02    0.296318E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.386426E+02    0.279384E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.409445E+02    0.282879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.408664E+02    0.302433E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.385019E+02    0.310935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.365614E+02    0.322768E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.354218E+02    0.309732E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.352511E+02    0.293032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.361458E+02    0.276529E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.378859E+02    0.264518E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.400637E+02    0.260091E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.420296E+02    0.265074E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.433291E+02    0.277613E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.436260E+02    0.294054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.424689E+02    0.312137E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.406734E+02    0.323969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.384838E+02    0.327970E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.364768E+02    0.351766E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.336249E+02    0.336146E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.321583E+02    0.310977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.326096E+02    0.281220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.348119E+02    0.254569E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.383442E+02    0.237578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.420835E+02    0.236722E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.453172E+02    0.250236E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133853E+03   -0.471790E+02    0.274930E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.465864E+02    0.306732E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.438669E+02    0.335709E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.401830E+02    0.351991E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.383687E+02    0.435996E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.363503E+02    0.436842E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.377163E+02    0.420053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.401089E+02    0.424804E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.399861E+02    0.445653E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.377105E+02    0.452567E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.357474E+02    0.463754E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.345422E+02    0.449868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.344093E+02    0.432184E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.352364E+02    0.415674E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.369941E+02    0.403939E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.390678E+02    0.401001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.411251E+02    0.406901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.423944E+02    0.421268E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.426500E+02    0.439520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.416741E+02    0.456803E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.398488E+02    0.468076E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.376509E+02    0.470578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.356975E+02    0.493634E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.326996E+02    0.476000E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.312973E+02    0.448694E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.317148E+02    0.418246E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.338526E+02    0.392057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.374019E+02    0.376070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.411272E+02    0.376819E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.445595E+02    0.392347E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133328E+03   -0.462501E+02    0.421526E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133159E+03   -0.458092E+02    0.454851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.431255E+02    0.482717E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.393966E+02    0.496758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.387107E+02    0.339454E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.366943E+02    0.341174E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.381366E+02    0.324074E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.404320E+02    0.327947E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.403417E+02    0.348035E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.379761E+02    0.356368E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.360332E+02    0.368189E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.349043E+02    0.354695E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.345547E+02    0.338824E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.354530E+02    0.322254E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.372900E+02    0.309741E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.394609E+02    0.305577E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.414178E+02    0.310807E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.427066E+02    0.323632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.428798E+02    0.341206E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.419347E+02    0.358331E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.401332E+02    0.370209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379401E+02    0.373912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.360252E+02    0.397302E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.330038E+02    0.381918E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.316514E+02    0.355319E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.321172E+02    0.325047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.342311E+02    0.299348E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.377575E+02    0.282582E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.414853E+02    0.282038E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.447049E+02    0.296240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.465497E+02    0.321604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133813E+03   -0.460512E+02    0.353711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134379E+03   -0.435336E+02    0.381912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.397256E+02    0.398317E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.393037E+02    0.235343E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.372845E+02    0.237543E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.388099E+02    0.220195E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.410132E+02    0.224037E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.409470E+02    0.242941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.385878E+02    0.251688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.366540E+02    0.263652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.353174E+02    0.252523E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.353239E+02    0.234599E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.361158E+02    0.219436E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.378492E+02    0.207782E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.401190E+02    0.202445E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.420865E+02    0.206971E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.433909E+02    0.218632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.435863E+02    0.234987E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.425593E+02    0.252107E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.406608E+02    0.264820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.384794E+02    0.269202E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.364924E+02    0.292755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.335376E+02    0.278916E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.322372E+02    0.252810E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.327607E+02    0.222841E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.350488E+02    0.196121E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.384853E+02    0.180073E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.422309E+02    0.178980E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.454676E+02    0.191721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.472253E+02    0.215356E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.466576E+02    0.245924E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.438555E+02    0.275639E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.401924E+02    0.292199E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654587.251624884     
  ps_ts2 prof sum =   654216.115682738     
  trcom prof sum =    654216.115682738     
  ps_ts2 cur sum  =   9887.47448517869     
  trcom cur sum  =    9887.47448517869     
  
  antenna # iant =            2
  powecha_use(iant) =    668543.194681004     
  ps_ts2 prof sum =   668185.808874607     
  trcom prof sum =    668185.808874607     
  ps_ts2 cur sum  =   12490.7020122765     
  trcom cur sum  =    12490.7020122765     
  
  antenna # iant =            3
  powecha_use(iant) =    541047.973169492     
  ps_ts2 prof sum =   540717.251648856     
  trcom prof sum =    540717.251617095     
  ps_ts2 cur sum  =   6934.80803103196     
  trcom cur sum  =    6934.80803103197     
  
  antenna # iant =            4
  powecha_use(iant) =    572779.258709490     
  ps_ts2 prof sum =   572430.926187177     
  trcom prof sum =    572430.926187176     
  ps_ts2 cur sum  =   9623.44390800624     
  trcom cur sum  =    9623.44390800622     
  
  antenna # iant =            5
  powecha_use(iant) =    555731.418080329     
  ps_ts2 prof sum =   555430.972411338     
  trcom prof sum =    555430.972411338     
  ps_ts2 cur sum  =   11556.6437884556     
  trcom cur sum  =    11556.6437884556     
  
  Total ECH heating:      2990981.07477295     
  Total Current Drive:    50493.0722249490     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3667
 TA= 3.95500E+00 CPU TIME= 1.59265E-01 SECONDS.  DT= 1.37944E-04
  
 TEC1=    3.95499999999994     
 TEC2=    3.95999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.1963119444440     
  %check_save_state: izleft hours =    69.7952777777778     
 --> plasma_hash("gframe"): TA= 3.955000E+00 NSTEP=  3667 Hash code:   21251354
 ->PRGCHK: bdy curvature ratio at t= 3.9600E+00 seconds is:  5.7176E-02
% MHDEQ: TG1=     3.955000 ; TG2=     3.960000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7622E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7176E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.955000 TO TG2=    3.960000 @ NSTEP     3667
   GFRAME TG2 MOMENTS CHECKSUM:  2.4552631584489D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.04431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.46312E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.32335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.74931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.81747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.36580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.67142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.47967E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.83612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.24904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.56170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.47173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -5.79488E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.59402E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.53465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.25563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.30856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.22171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.40580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.70132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.70132E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.9600E+00  3.9650E+00 total power(Watts):  2.9830E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.96000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.383128E+02    0.379612E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.363000E+02    0.381038E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.377480E+02    0.363861E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.400367E+02    0.368183E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.399341E+02    0.388642E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.376714E+02    0.396209E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.357224E+02    0.408053E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.345067E+02    0.394535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.343578E+02    0.377030E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.350724E+02    0.361466E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.369114E+02    0.349037E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.390803E+02    0.345099E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.410277E+02    0.350751E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.423110E+02    0.364109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.426955E+02    0.381070E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.415223E+02    0.399520E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.397111E+02    0.411452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.376297E+02    0.414296E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.355985E+02    0.438159E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.327816E+02    0.420991E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.313536E+02    0.393963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.317450E+02    0.363867E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.338648E+02    0.337895E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.373872E+02    0.321425E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.411132E+02    0.321267E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.443228E+02    0.336243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.461486E+02    0.362852E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133570E+03   -0.457463E+02    0.395325E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.429849E+02    0.424791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.392862E+02    0.439963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.392084E+02    0.294339E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.371898E+02    0.296298E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.386240E+02    0.279391E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.409217E+02    0.282880E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.408473E+02    0.302392E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.384837E+02    0.310905E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.365451E+02    0.322728E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.352129E+02    0.311127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.352346E+02    0.293026E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.361279E+02    0.276557E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.378677E+02    0.264580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.399400E+02    0.260923E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.420072E+02    0.265123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.431978E+02    0.278322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.433829E+02    0.295391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.424495E+02    0.312081E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.406549E+02    0.323917E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.384668E+02    0.327922E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.364617E+02    0.351707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.336102E+02    0.336109E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.321436E+02    0.310958E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.325927E+02    0.281241E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.347934E+02    0.254671E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.383238E+02    0.237724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.420612E+02    0.236857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.452937E+02    0.250328E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133891E+03   -0.471560E+02    0.274907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.465653E+02    0.306660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.438482E+02    0.335635E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.401642E+02    0.351921E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.383554E+02    0.435995E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.363378E+02    0.436835E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.377029E+02    0.420052E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.399877E+02    0.425230E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.399725E+02    0.445633E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.376980E+02    0.452544E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.357363E+02    0.463732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.345346E+02    0.449835E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.342058E+02    0.433051E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.352236E+02    0.415678E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.369805E+02    0.403892E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.390527E+02    0.400947E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.410009E+02    0.407327E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.423794E+02    0.421255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.427478E+02    0.439129E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.416600E+02    0.456767E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.398357E+02    0.468059E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.376405E+02    0.470577E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.356858E+02    0.493707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.326887E+02    0.476029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.312867E+02    0.448690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.317020E+02    0.418266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.338417E+02    0.391978E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.373838E+02    0.375994E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.411119E+02    0.376699E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134095E+03   -0.445431E+02    0.392240E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133368E+03   -0.462339E+02    0.421504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133200E+03   -0.457944E+02    0.454799E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.432246E+02    0.482484E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.393835E+02    0.496829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.386942E+02    0.339396E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.366789E+02    0.341117E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.381201E+02    0.324026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.403080E+02    0.328536E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.403249E+02    0.347960E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.379606E+02    0.356286E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.360184E+02    0.368105E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.346981E+02    0.355867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.345397E+02    0.338791E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.354368E+02    0.322228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.372727E+02    0.309709E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.394423E+02    0.305543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.413993E+02    0.310754E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.426878E+02    0.323572E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.428617E+02    0.341129E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.419178E+02    0.358228E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.401180E+02    0.370098E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.379308E+02    0.373789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.360141E+02    0.397224E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.329911E+02    0.381843E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.316381E+02    0.355267E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.321028E+02    0.325030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.342152E+02    0.299336E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.377392E+02    0.282585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.414646E+02    0.282024E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.446835E+02    0.296192E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.465292E+02    0.321520E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.460328E+02    0.353587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.432950E+02    0.382797E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.397122E+02    0.398228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.392824E+02    0.235494E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.372624E+02    0.237697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.386895E+02    0.221187E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.409904E+02    0.224194E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.409252E+02    0.243068E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.385680E+02    0.251788E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.364411E+02    0.265284E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.352962E+02    0.252663E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.353047E+02    0.234762E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.361907E+02    0.218761E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.379253E+02    0.207110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.400965E+02    0.202627E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.420629E+02    0.207146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.433671E+02    0.218797E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.434542E+02    0.235905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.425325E+02    0.252223E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.406412E+02    0.264873E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.384600E+02    0.269235E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.364751E+02    0.292750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.335207E+02    0.278943E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.322201E+02    0.252939E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.326554E+02    0.223877E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.348468E+02    0.198073E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.384644E+02    0.180288E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.422075E+02    0.179201E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.454434E+02    0.191907E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.469726E+02    0.217057E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.464047E+02    0.247499E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.438340E+02    0.275638E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.401681E+02    0.292199E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654458.357286715     
  ps_ts2 prof sum =   654081.397825283     
  trcom prof sum =    654081.397825283     
  ps_ts2 cur sum  =   9873.92981698381     
  trcom cur sum  =    9873.92981698381     
  
  antenna # iant =            2
  powecha_use(iant) =    664399.647410292     
  ps_ts2 prof sum =   664022.225671780     
  trcom prof sum =    664022.225671779     
  ps_ts2 cur sum  =   12405.7125262487     
  trcom cur sum  =    12405.7125262487     
  
  antenna # iant =            3
  powecha_use(iant) =    536815.158837883     
  ps_ts2 prof sum =   536486.906528299     
  trcom prof sum =    536486.906498890     
  ps_ts2 cur sum  =   6866.84423972315     
  trcom cur sum  =    6866.84423972316     
  
  antenna # iant =            4
  powecha_use(iant) =    570930.208722472     
  ps_ts2 prof sum =   570568.733175811     
  trcom prof sum =    570568.733175811     
  ps_ts2 cur sum  =   9584.27769251454     
  trcom cur sum  =    9584.27769251453     
  
  antenna # iant =            5
  powecha_use(iant) =    556433.486151933     
  ps_ts2 prof sum =   556104.513533613     
  trcom prof sum =    556104.513533613     
  ps_ts2 cur sum  =   11566.3058819766     
  trcom cur sum  =    11566.3058819766     
  
  Total ECH heating:      2981263.77670538     
  Total Current Drive:    50297.0701574468     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3678
 TA= 3.96000E+00 CPU TIME= 1.60033E-01 SECONDS.  DT= 5.16209E-04
  
 TEC1=    3.95999999999994     
 TEC2=    3.96499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2167883333329     
  %check_save_state: izleft hours =    69.7747222222222     
 --> plasma_hash("gframe"): TA= 3.960000E+00 NSTEP=  3678 Hash code:   80115246
 ->PRGCHK: bdy curvature ratio at t= 3.9650E+00 seconds is:  5.7058E-02
% MHDEQ: TG1=     3.960000 ; TG2=     3.965000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7634E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7058E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.960000 TO TG2=    3.965000 @ NSTEP     3678
   GFRAME TG2 MOMENTS CHECKSUM:  2.4556111345552D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9650E+00  3.9700E+00 total power(Watts):  2.9827E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.96500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.382937E+02    0.379512E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.362859E+02    0.380928E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.377330E+02    0.363748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.400210E+02    0.368056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.399189E+02    0.388523E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.376570E+02    0.396113E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.357093E+02    0.408000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.344921E+02    0.394463E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.343444E+02    0.376932E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.350578E+02    0.361376E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.368957E+02    0.348962E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.390635E+02    0.345015E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.410137E+02    0.350650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.422939E+02    0.363975E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135197E+03   -0.424559E+02    0.381970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.415015E+02    0.399432E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.396967E+02    0.411400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.376162E+02    0.414267E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.355864E+02    0.438146E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.327668E+02    0.421006E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.312517E+02    0.394439E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.317318E+02    0.363789E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.338495E+02    0.337847E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.373737E+02    0.321340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.410943E+02    0.321191E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.443034E+02    0.336138E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.461326E+02    0.362690E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.456126E+02    0.395658E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.429699E+02    0.424762E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.392729E+02    0.439943E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.391890E+02    0.294288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.371717E+02    0.296270E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.386038E+02    0.279382E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.409036E+02    0.282829E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.408275E+02    0.302332E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.384655E+02    0.310843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.365284E+02    0.322667E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.351960E+02    0.311087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.350260E+02    0.294479E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.361089E+02    0.276558E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.378478E+02    0.264612E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.399183E+02    0.260975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.419869E+02    0.265138E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.431758E+02    0.278303E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.433616E+02    0.295330E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.424296E+02    0.312007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.405294E+02    0.324499E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.384489E+02    0.327859E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.364462E+02    0.351620E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.334093E+02    0.337394E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.321273E+02    0.310942E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138135E+03   -0.325762E+02    0.281262E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.348672E+02    0.253957E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.383016E+02    0.237847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.420373E+02    0.236979E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.452690E+02    0.250399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.471323E+02    0.274864E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134037E+03   -0.465436E+02    0.306565E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.438289E+02    0.335538E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.401471E+02    0.351824E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.383421E+02    0.435983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.363254E+02    0.436823E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.376894E+02    0.420037E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.399737E+02    0.425213E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.399594E+02    0.445601E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.376856E+02    0.452511E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.357242E+02    0.463706E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.345189E+02    0.449831E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.341939E+02    0.433051E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.352111E+02    0.415655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.368661E+02    0.404322E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.390387E+02    0.400852E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.409860E+02    0.407248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.423644E+02    0.421223E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.427336E+02    0.439095E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.415362E+02    0.457052E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.397165E+02    0.468325E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.376285E+02    0.470547E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.356745E+02    0.493760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.327707E+02    0.475723E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.312762E+02    0.448676E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.316907E+02    0.418261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.338290E+02    0.391891E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.372677E+02    0.376436E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.410958E+02    0.376567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134138E+03   -0.445269E+02    0.392092E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133409E+03   -0.462179E+02    0.421454E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133241E+03   -0.457798E+02    0.454733E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133929E+03   -0.432158E+02    0.482470E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.393711E+02    0.496879E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.386776E+02    0.339314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.366630E+02    0.341049E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.381025E+02    0.323965E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.402895E+02    0.328466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.403078E+02    0.347856E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.379448E+02    0.356186E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.360042E+02    0.367996E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.346833E+02    0.355790E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.345243E+02    0.338731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.355169E+02    0.321492E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.372548E+02    0.309660E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.394218E+02    0.305493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.413793E+02    0.310691E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.426683E+02    0.323486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.428432E+02    0.341031E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.419006E+02    0.358106E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.401021E+02    0.369972E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.379161E+02    0.373666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.359008E+02    0.397656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137632E+03   -0.329782E+02    0.381750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.316248E+02    0.355206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.320877E+02    0.324992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.341973E+02    0.299315E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.377195E+02    0.282570E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.414440E+02    0.281992E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.446618E+02    0.296123E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.465084E+02    0.321413E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.460141E+02    0.353445E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.432786E+02    0.382649E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.395910E+02    0.398629E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.392597E+02    0.235611E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.372430E+02    0.237808E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.386697E+02    0.221302E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.409668E+02    0.224337E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.409025E+02    0.243173E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.385468E+02    0.251875E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.364219E+02    0.265322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.352769E+02    0.252753E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.350988E+02    0.236559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.361693E+02    0.218918E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.379028E+02    0.207271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.400696E+02    0.202813E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.420387E+02    0.207296E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.433421E+02    0.218934E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.434301E+02    0.236009E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.425092E+02    0.252298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.406198E+02    0.264897E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.384383E+02    0.269267E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.364561E+02    0.292714E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.335035E+02    0.278955E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.322021E+02    0.253036E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.326369E+02    0.224026E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.348250E+02    0.198246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.384411E+02    0.180488E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.421823E+02    0.179393E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.453070E+02    0.192888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.469458E+02    0.217187E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.463792E+02    0.247574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.438117E+02    0.275613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.401527E+02    0.292129E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655557.398846786     
  ps_ts2 prof sum =   655172.901444274     
  trcom prof sum =    655172.901444273     
  ps_ts2 cur sum  =   9873.80218825356     
  trcom cur sum  =    9873.80218825356     
  
  antenna # iant =            2
  powecha_use(iant) =    668292.790422309     
  ps_ts2 prof sum =   667898.971567049     
  trcom prof sum =    667898.971567049     
  ps_ts2 cur sum  =   12464.3398199877     
  trcom cur sum  =    12464.3398199877     
  
  antenna # iant =            3
  powecha_use(iant) =    532869.767782625     
  ps_ts2 prof sum =   532552.630262145     
  trcom prof sum =    532552.630262145     
  ps_ts2 cur sum  =   6801.11928895091     
  trcom cur sum  =    6801.11928895092     
  
  antenna # iant =            4
  powecha_use(iant) =    571594.652903561     
  ps_ts2 prof sum =   571250.663840788     
  trcom prof sum =    571250.663840787     
  ps_ts2 cur sum  =   9582.11762990523     
  trcom cur sum  =    9582.11762990523     
  
  antenna # iant =            5
  powecha_use(iant) =    554364.714530308     
  ps_ts2 prof sum =   554032.889355918     
  trcom prof sum =    554032.889355918     
  ps_ts2 cur sum  =   11513.1201224058     
  trcom cur sum  =    11513.1201224058     
  
  Total ECH heating:      2980908.05647017     
  Total Current Drive:    50234.4990495032     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3684
 TA= 3.96500E+00 CPU TIME= 1.60567E-01 SECONDS.  DT= 9.54324E-04
  
 TEC1=    3.96499999999994     
 TEC2=    3.96999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2375877777774     
  %check_save_state: izleft hours =    69.7538888888889     
 --> plasma_hash("gframe"): TA= 3.965000E+00 NSTEP=  3684 Hash code:   62264309
 ->PRGCHK: bdy curvature ratio at t= 3.9700E+00 seconds is:  5.6941E-02
% MHDEQ: TG1=     3.965000 ; TG2=     3.970000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6941E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.965000 TO TG2=    3.970000 @ NSTEP     3684
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559591106614D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.09121E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.43307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.32097E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.25790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.90560E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.78419E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.81787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.41093E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.90370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.38508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.71840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.57423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -4.17339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.73648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.52549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.04623E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.27705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.37154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.34001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.27877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.27877E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9700E+00  3.9750E+00 total power(Watts):  2.9686E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.97000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.382843E+02    0.379399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.362736E+02    0.380837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.377189E+02    0.363653E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.399010E+02    0.368510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.399051E+02    0.388423E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.376442E+02    0.396044E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.356973E+02    0.407975E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.344818E+02    0.394388E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.343320E+02    0.376854E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.350446E+02    0.361304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.368813E+02    0.348888E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.389439E+02    0.345570E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.409980E+02    0.350561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.422784E+02    0.363866E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.424410E+02    0.381856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.414876E+02    0.399346E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.396836E+02    0.411367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.375014E+02    0.414716E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.355751E+02    0.438161E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.325747E+02    0.421951E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.312421E+02    0.394381E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.317196E+02    0.363728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.338355E+02    0.337804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.372574E+02    0.321972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.410773E+02    0.321128E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.442858E+02    0.336048E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.461161E+02    0.362552E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133872E+03   -0.455974E+02    0.395547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.430690E+02    0.424346E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.392606E+02    0.439945E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.391714E+02    0.294259E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.371547E+02    0.296235E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.385856E+02    0.279389E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.408846E+02    0.282811E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.408094E+02    0.302281E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.384489E+02    0.310797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.365129E+02    0.322625E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.351805E+02    0.311057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.350099E+02    0.294464E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.358990E+02    0.278109E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.378294E+02    0.264665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.398987E+02    0.261039E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.418587E+02    0.265927E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.431555E+02    0.278288E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.433420E+02    0.295282E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.424117E+02    0.311941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.405128E+02    0.324436E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.384333E+02    0.327804E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.364322E+02    0.351555E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.333954E+02    0.337356E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138139E+03   -0.321144E+02    0.310905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.325609E+02    0.281282E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.348496E+02    0.254060E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.382844E+02    0.237962E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.420155E+02    0.237107E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134984E+03   -0.452464E+02    0.250484E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.469939E+02    0.275537E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.465233E+02    0.306483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.438114E+02    0.335446E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.401317E+02    0.351741E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.382259E+02    0.436397E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.363138E+02    0.436830E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.376770E+02    0.420042E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.399604E+02    0.425229E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.399470E+02    0.445594E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.375713E+02    0.452862E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.357143E+02    0.463686E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.345083E+02    0.449825E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.341827E+02    0.433079E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.351994E+02    0.415655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.368536E+02    0.404273E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.390255E+02    0.400786E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.409721E+02    0.407196E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.424623E+02    0.420796E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.424957E+02    0.439845E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.415237E+02    0.457026E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.396987E+02    0.468326E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.376182E+02    0.470536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.356640E+02    0.493829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.327610E+02    0.475743E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.312656E+02    0.448687E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.316801E+02    0.418284E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.338167E+02    0.391830E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.372545E+02    0.376344E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.410807E+02    0.376461E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.445119E+02    0.391979E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133451E+03   -0.462031E+02    0.421432E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133283E+03   -0.457661E+02    0.454697E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133981E+03   -0.431983E+02    0.482486E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.393593E+02    0.496952E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.385588E+02    0.339891E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.365491E+02    0.341628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.379856E+02    0.324578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.402728E+02    0.328401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.402921E+02    0.347782E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.379304E+02    0.356105E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.359909E+02    0.367909E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.346683E+02    0.355738E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.345097E+02    0.338694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.355020E+02    0.321449E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.372387E+02    0.309614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.393021E+02    0.306134E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.413614E+02    0.310635E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.426505E+02    0.323413E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.428319E+02    0.340919E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.418848E+02    0.358009E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.399807E+02    0.370432E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.379026E+02    0.373567E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.358872E+02    0.397607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.330590E+02    0.381105E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.316125E+02    0.355152E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.320742E+02    0.324963E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.341818E+02    0.299302E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.377020E+02    0.282559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.414245E+02    0.281985E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.446419E+02    0.296064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.464896E+02    0.321314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.459970E+02    0.353324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.432635E+02    0.382531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.395778E+02    0.398551E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.392396E+02    0.235751E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.372239E+02    0.237944E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.386463E+02    0.221493E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.409456E+02    0.224477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.408815E+02    0.243290E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.385273E+02    0.251977E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.364986E+02    0.264628E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.353533E+02    0.252053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.350797E+02    0.236705E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.361503E+02    0.219077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.378816E+02    0.207449E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.400497E+02    0.202969E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.420159E+02    0.207461E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.432119E+02    0.219880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.434074E+02    0.236146E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.423802E+02    0.253140E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.405999E+02    0.264952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.384214E+02    0.269295E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.364395E+02    0.292694E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.334873E+02    0.278970E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.321851E+02    0.253150E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.326194E+02    0.224196E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.348065E+02    0.198445E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.382284E+02    0.182453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.421591E+02    0.179614E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.452826E+02    0.193082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.469180E+02    0.217366E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.464705E+02    0.246919E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.437909E+02    0.275612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.401345E+02    0.292101E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.94 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    643456.058229973     
  ps_ts2 prof sum =   643077.983621024     
  trcom prof sum =    643077.983621024     
  ps_ts2 cur sum  =   9680.22910639476     
  trcom cur sum  =    9680.22910639476     
  
  antenna # iant =            2
  powecha_use(iant) =    667683.922065883     
  ps_ts2 prof sum =   667296.421814369     
  trcom prof sum =    667296.421814368     
  ps_ts2 cur sum  =   12448.7565378889     
  trcom cur sum  =    12448.7565378889     
  
  antenna # iant =            3
  powecha_use(iant) =    534833.890927992     
  ps_ts2 prof sum =   534526.558501779     
  trcom prof sum =    534526.558501780     
  ps_ts2 cur sum  =   6812.83804924945     
  trcom cur sum  =    6812.83804924946     
  
  antenna # iant =            4
  powecha_use(iant) =    567695.689358527     
  ps_ts2 prof sum =   567367.523960815     
  trcom prof sum =    567367.523960814     
  ps_ts2 cur sum  =   9509.97137031474     
  trcom cur sum  =    9509.97137031473     
  
  antenna # iant =            5
  powecha_use(iant) =    554893.736988668     
  ps_ts2 prof sum =   554594.383068233     
  trcom prof sum =    554594.383068233     
  ps_ts2 cur sum  =   11520.2386199490     
  trcom cur sum  =    11520.2386199490     
  
  Total ECH heating:      2966862.87096622     
  Total Current Drive:    49972.0336837969     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3688
 TA= 3.97000E+00 CPU TIME= 1.59418E-01 SECONDS.  DT= 1.70205E-03
  
 TEC1=    3.96999999999994     
 TEC2=    3.97499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2509169444443     
  %check_save_state: izleft hours =    69.7405555555556     
 --> plasma_hash("gframe"): TA= 3.970000E+00 NSTEP=  3688 Hash code:  112161395
 ->PRGCHK: bdy curvature ratio at t= 3.9750E+00 seconds is:  5.6824E-02
% MHDEQ: TG1=     3.970000 ; TG2=     3.975000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6824E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.970000 TO TG2=    3.975000 @ NSTEP     3688
   GFRAME TG2 MOMENTS CHECKSUM:  2.4563070867677D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  3.9750E+00  3.9800E+00 total power(Watts):  2.3248E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.97500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.382705E+02    0.379287E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.362605E+02    0.380734E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.376027E+02    0.364149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.398855E+02    0.368401E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.398914E+02    0.388307E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.375290E+02    0.396466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.355850E+02    0.408435E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.344699E+02    0.394309E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.341290E+02    0.377906E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.351281E+02    0.360610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.368669E+02    0.348812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.389285E+02    0.345490E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.409822E+02    0.350462E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.422627E+02    0.363738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.424262E+02    0.381724E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.414739E+02    0.399246E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.396704E+02    0.411319E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.374889E+02    0.414693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.355638E+02    0.438174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.325639E+02    0.421969E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.312311E+02    0.394317E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.317079E+02    0.363654E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.339165E+02    0.337085E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.372423E+02    0.321912E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.409518E+02    0.321716E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.443821E+02    0.335334E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.460995E+02    0.362410E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133915E+03   -0.455819E+02    0.395423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.430552E+02    0.424335E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.392483E+02    0.439955E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.390502E+02    0.294938E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.370385E+02    0.296924E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.385660E+02    0.279384E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.407592E+02    0.283519E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.407902E+02    0.302226E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.384320E+02    0.310740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.364972E+02    0.322570E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.352606E+02    0.310304E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.349925E+02    0.294447E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.358802E+02    0.278130E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.377113E+02    0.265490E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.398788E+02    0.261090E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.418380E+02    0.265952E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.431351E+02    0.278264E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.433230E+02    0.295217E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.422833E+02    0.312538E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.404955E+02    0.324362E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.383106E+02    0.328418E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.364180E+02    0.351475E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.333815E+02    0.337313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138404E+03   -0.320110E+02    0.311607E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.325448E+02    0.281292E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.346453E+02    0.255763E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.381627E+02    0.238901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.419940E+02    0.237207E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.453318E+02    0.249828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.469719E+02    0.275498E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.465039E+02    0.306383E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.439071E+02    0.334730E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.401164E+02    0.351640E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.382186E+02    0.436393E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.362027E+02    0.437259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.376646E+02    0.420040E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.399479E+02    0.425226E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.399345E+02    0.445599E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.375598E+02    0.452865E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.356046E+02    0.464028E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.344976E+02    0.449838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.342677E+02    0.432666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.351878E+02    0.415642E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.368408E+02    0.404215E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.390124E+02    0.400706E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.409586E+02    0.407123E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.422252E+02    0.421629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.424823E+02    0.439849E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.415111E+02    0.457017E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.396926E+02    0.468305E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.375039E+02    0.470857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.355544E+02    0.494167E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.327511E+02    0.475778E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.312560E+02    0.448704E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.316697E+02    0.418294E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.338054E+02    0.391743E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.372414E+02    0.376236E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.410661E+02    0.376338E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.442665E+02    0.392830E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.461884E+02    0.421404E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133541E+03   -0.456348E+02    0.455006E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.429589E+02    0.483033E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.393474E+02    0.497040E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.385426E+02    0.339822E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.365340E+02    0.341571E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.379681E+02    0.324524E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.402560E+02    0.328326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.401695E+02    0.348308E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.379158E+02    0.356016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.359777E+02    0.367816E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.347525E+02    0.355031E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.345912E+02    0.337979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.354867E+02    0.321395E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.372222E+02    0.309564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.392845E+02    0.306080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.412353E+02    0.311246E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.425219E+02    0.323978E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.428091E+02    0.340850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.417540E+02    0.358495E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.399661E+02    0.370313E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.378893E+02    0.373459E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.358766E+02    0.397521E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.330472E+02    0.381020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.316002E+02    0.355092E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.319708E+02    0.325628E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.342584E+02    0.298537E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.375829E+02    0.283299E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.414050E+02    0.281951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.447355E+02    0.295309E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.464704E+02    0.321210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.459797E+02    0.353197E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.432485E+02    0.382397E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.395644E+02    0.398456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.392169E+02    0.235885E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.370100E+02    0.239690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.386254E+02    0.221620E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.409236E+02    0.224604E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.407561E+02    0.244172E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.385076E+02    0.252059E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.364823E+02    0.264659E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.353347E+02    0.252144E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.350610E+02    0.236833E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.359424E+02    0.220914E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.378617E+02    0.207600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.399279E+02    0.203961E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.419927E+02    0.207609E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.431886E+02    0.220009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.433850E+02    0.236244E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.423584E+02    0.253220E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.405803E+02    0.264976E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.384024E+02    0.269330E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.364239E+02    0.292664E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.333806E+02    0.279764E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.320810E+02    0.254080E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.326015E+02    0.224339E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.347869E+02    0.198622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.383026E+02    0.181791E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.421393E+02    0.179796E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.452572E+02    0.193261E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.470094E+02    0.216685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.464467E+02    0.246989E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.437706E+02    0.275586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.401162E+02    0.292055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    558.116764789303     
  ps_ts2 prof sum =   557.803828478146     
  trcom prof sum =    557.803828478146     
  ps_ts2 cur sum  =   8.38851929030663     
  trcom cur sum  =    8.38851929030663     
  
  antenna # iant =            2
  powecha_use(iant) =    665266.266006937     
  ps_ts2 prof sum =   664872.523116420     
  trcom prof sum =    664872.523116420     
  ps_ts2 cur sum  =   12393.4245658009     
  trcom cur sum  =    12393.4245658009     
  
  antenna # iant =            3
  powecha_use(iant) =    535071.737980926     
  ps_ts2 prof sum =   534747.719323224     
  trcom prof sum =    534747.719323224     
  ps_ts2 cur sum  =   6803.64803275311     
  trcom cur sum  =    6803.64803275311     
  
  antenna # iant =            4
  powecha_use(iant) =    567827.213054790     
  ps_ts2 prof sum =   567521.713554041     
  trcom prof sum =    567521.713554040     
  ps_ts2 cur sum  =   9504.47048082265     
  trcom cur sum  =    9504.47048082264     
  
  antenna # iant =            5
  powecha_use(iant) =    556112.377735122     
  ps_ts2 prof sum =   555803.274471935     
  trcom prof sum =    555803.274471935     
  ps_ts2 cur sum  =   11536.9207154114     
  trcom cur sum  =    11536.9207154114     
  
  Total ECH heating:      2323503.03429410     
  Total Current Drive:    40246.8523140784     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3691
 TA= 3.97500E+00 CPU TIME= 1.60176E-01 SECONDS.  DT= 1.46298E-03
  
 TEC1=    3.97499999999994     
 TEC2=    3.97999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2659591666666     
  %check_save_state: izleft hours =    69.7255555555556     
 --> plasma_hash("gframe"): TA= 3.975000E+00 NSTEP=  3691 Hash code:  118932221
 ->PRGCHK: bdy curvature ratio at t= 3.9800E+00 seconds is:  5.6707E-02
% MHDEQ: TG1=     3.975000 ; TG2=     3.980000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7672E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6707E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.975000 TO TG2=    3.980000 @ NSTEP     3691
   GFRAME TG2 MOMENTS CHECKSUM:  2.4566550628739D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.13625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.40420E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.31868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.78597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.99023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.44166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.20847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.95852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.34492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.96860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.51572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.86889E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.67267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8= -2.61621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.87329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.51669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.84513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.24679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.51543E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.27683E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.07684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.07684E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.9800E+00  3.9850E+00 total power(Watts):  2.4810E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.98000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.381531E+02    0.379743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.362478E+02    0.380642E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.375889E+02    0.364055E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.398705E+02    0.368308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.398777E+02    0.388202E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.375203E+02    0.396373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.355752E+02    0.408375E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.342663E+02    0.395305E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.341168E+02    0.377823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.351170E+02    0.360527E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.368523E+02    0.348758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.389133E+02    0.345430E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.408581E+02    0.350987E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.421358E+02    0.364210E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.424113E+02    0.381607E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.414599E+02    0.399152E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.396572E+02    0.411272E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.374765E+02    0.414669E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.355531E+02    0.438192E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.325533E+02    0.421988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.312201E+02    0.394257E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.316958E+02    0.363596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.339018E+02    0.337055E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.372265E+02    0.321880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.409345E+02    0.321669E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.443645E+02    0.335254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133987E+03   -0.460829E+02    0.362277E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133959E+03   -0.455668E+02    0.395297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.428156E+02    0.425158E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.392362E+02    0.439964E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.390324E+02    0.294912E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.370217E+02    0.296901E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.384481E+02    0.280104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.407403E+02    0.283493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.406661E+02    0.302888E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.384152E+02    0.310707E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.363828E+02    0.323228E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.352453E+02    0.310277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.350713E+02    0.293696E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.359620E+02    0.277352E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.376863E+02    0.265551E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.398578E+02    0.261124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.418183E+02    0.265961E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.431150E+02    0.278241E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.433036E+02    0.295170E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.422648E+02    0.312489E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.404785E+02    0.324312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.382984E+02    0.328355E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.364009E+02    0.351429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.333692E+02    0.337279E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138444E+03   -0.319955E+02    0.311605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.325302E+02    0.281292E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.346280E+02    0.255833E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.381434E+02    0.239017E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.419727E+02    0.237321E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.450886E+02    0.251350E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.469504E+02    0.275457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.462503E+02    0.307628E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.438895E+02    0.334658E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.399941E+02    0.352174E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.382017E+02    0.436427E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.361914E+02    0.437275E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.376525E+02    0.420036E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.399347E+02    0.425226E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.399224E+02    0.445597E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.375486E+02    0.452855E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.355938E+02    0.464022E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.342947E+02    0.450609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.342562E+02    0.432699E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.349808E+02    0.416588E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.368246E+02    0.404162E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.388940E+02    0.401124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.409450E+02    0.407052E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.422116E+02    0.421610E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.424693E+02    0.439843E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.414989E+02    0.456998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.396810E+02    0.468289E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.374925E+02    0.470853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.355441E+02    0.494231E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.325541E+02    0.476421E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.312466E+02    0.448720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.316593E+02    0.418302E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.338884E+02    0.391126E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.372281E+02    0.376139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.409426E+02    0.376771E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.442516E+02    0.392708E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133533E+03   -0.461739E+02    0.421365E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.456216E+02    0.454972E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.429466E+02    0.483032E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.392295E+02    0.497343E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.385272E+02    0.339770E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.365193E+02    0.341523E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.379517E+02    0.324488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.402393E+02    0.328276E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.401538E+02    0.348234E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.379015E+02    0.355940E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.359646E+02    0.367725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.347391E+02    0.354967E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.345766E+02    0.337947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.354714E+02    0.321372E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.372059E+02    0.309536E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.392671E+02    0.306046E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.412173E+02    0.311204E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.425041E+02    0.323922E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.429039E+02    0.340159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.417434E+02    0.358379E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.399512E+02    0.370214E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.377729E+02    0.373930E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.358644E+02    0.397442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.328503E+02    0.382085E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138404E+03   -0.314987E+02    0.355689E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.319540E+02    0.325637E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.342428E+02    0.298523E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.375653E+02    0.283284E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.413858E+02    0.281923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.447154E+02    0.295255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.462167E+02    0.322398E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.458454E+02    0.353651E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.433468E+02    0.381748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.395509E+02    0.398373E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.390977E+02    0.236799E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.370882E+02    0.238992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.386053E+02    0.221797E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.407993E+02    0.225579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.407356E+02    0.244266E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.384903E+02    0.252108E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.364646E+02    0.264688E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.353172E+02    0.252218E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.350429E+02    0.236968E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.359238E+02    0.221096E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.378394E+02    0.207827E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.399074E+02    0.204200E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.418662E+02    0.208655E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.431659E+02    0.220193E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.433631E+02    0.236359E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.423366E+02    0.253279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.404541E+02    0.265755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.383838E+02    0.269338E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.362105E+02    0.294127E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.333641E+02    0.279774E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.320650E+02    0.254148E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138405E+03   -0.325838E+02    0.224506E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.347683E+02    0.198881E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.382819E+02    0.182076E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.421125E+02    0.180117E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.452328E+02    0.193529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.469851E+02    0.216863E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.464240E+02    0.247045E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.436352E+02    0.276308E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.400979E+02    0.292024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    153617.795964129     
  ps_ts2 prof sum =   153526.988165937     
  trcom prof sum =    153526.988165937     
  ps_ts2 cur sum  =   2305.57447815145     
  trcom cur sum  =    2305.57447815145     
  
  antenna # iant =            2
  powecha_use(iant) =    666802.304760326     
  ps_ts2 prof sum =   666410.782667974     
  trcom prof sum =    666410.782667973     
  ps_ts2 cur sum  =   12410.0650608568     
  trcom cur sum  =    12410.0650608567     
  
  antenna # iant =            3
  powecha_use(iant) =    533541.476149575     
  ps_ts2 prof sum =   533195.041317131     
  trcom prof sum =    533195.041317131     
  ps_ts2 cur sum  =   6771.16030282818     
  trcom cur sum  =    6771.16030282819     
  
  antenna # iant =            4
  powecha_use(iant) =    570873.181974852     
  ps_ts2 prof sum =   570556.954157001     
  trcom prof sum =    570556.954157000     
  ps_ts2 cur sum  =   9544.45873145816     
  trcom cur sum  =    9544.45873145814     
  
  antenna # iant =            5
  powecha_use(iant) =    556128.572408444     
  ps_ts2 prof sum =   555814.674460145     
  trcom prof sum =    555814.674460145     
  ps_ts2 cur sum  =   11528.0418595367     
  trcom cur sum  =    11528.0418595367     
  
  Total ECH heating:      2479504.44076819     
  Total Current Drive:    42559.3004328312     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3694
 TA= 3.98000E+00 CPU TIME= 1.59339E-01 SECONDS.  DT= 2.13536E-03
  
 TEC1=    3.97999999999994     
 TEC2=    3.98499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2799005555553     
  %check_save_state: izleft hours =    69.7116666666667     
 --> plasma_hash("gframe"): TA= 3.980000E+00 NSTEP=  3694 Hash code:  105500902
 ->PRGCHK: bdy curvature ratio at t= 3.9850E+00 seconds is:  5.6591E-02
% MHDEQ: TG1=     3.980000 ; TG2=     3.985000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7684E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6591E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.980000 TO TG2=    3.985000 @ NSTEP     3694
   GFRAME TG2 MOMENTS CHECKSUM:  2.4570030389801D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  3.9850E+00  3.9900E+00 total power(Watts):  2.9741E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.98500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.381376E+02    0.379647E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.362327E+02    0.380557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.375728E+02    0.363986E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.398539E+02    0.368214E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.398618E+02    0.388110E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.375015E+02    0.396311E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.355609E+02    0.408347E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.342526E+02    0.395244E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.341027E+02    0.377754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.351001E+02    0.360479E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.368358E+02    0.348721E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.388960E+02    0.345390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.408405E+02    0.350924E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.421140E+02    0.364134E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.423944E+02    0.381491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.414437E+02    0.399072E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.396422E+02    0.411226E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.374623E+02    0.414650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.355399E+02    0.438228E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.325409E+02    0.422012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.312078E+02    0.394200E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.316823E+02    0.363547E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.338857E+02    0.337055E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.372090E+02    0.321867E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.409155E+02    0.321642E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.443448E+02    0.335206E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.460640E+02    0.362165E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.455493E+02    0.395188E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.427996E+02    0.425162E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.392218E+02    0.439992E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.390132E+02    0.294900E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.370035E+02    0.296891E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.384283E+02    0.280118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.407199E+02    0.283496E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.406466E+02    0.302863E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.383968E+02    0.310693E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.363661E+02    0.323213E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.352283E+02    0.310271E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.350542E+02    0.293689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.359435E+02    0.277370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.376745E+02    0.265562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.398373E+02    0.261179E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.417964E+02    0.266002E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.430935E+02    0.278233E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.432824E+02    0.295134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.422448E+02    0.312457E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.404598E+02    0.324287E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.382806E+02    0.328340E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.362893E+02    0.351991E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.333538E+02    0.337280E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138484E+03   -0.319801E+02    0.311610E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.325131E+02    0.281325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.346097E+02    0.255922E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.381230E+02    0.239135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.419500E+02    0.237435E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.450653E+02    0.251417E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134295E+03   -0.469268E+02    0.275444E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.462286E+02    0.307580E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.438699E+02    0.334609E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.399768E+02    0.352116E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.381876E+02    0.436461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.361779E+02    0.437312E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.376378E+02    0.420046E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.399197E+02    0.425239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.399080E+02    0.445618E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.375352E+02    0.452867E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.355819E+02    0.464015E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.342825E+02    0.450630E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.342434E+02    0.432738E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.349677E+02    0.416579E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.368134E+02    0.404107E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.388788E+02    0.401052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.409291E+02    0.406998E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.421956E+02    0.421602E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.424544E+02    0.439860E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.414844E+02    0.456996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.396673E+02    0.468278E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.374799E+02    0.470844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.355319E+02    0.494290E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.325462E+02    0.476426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.312350E+02    0.448756E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.316472E+02    0.418316E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.338746E+02    0.391061E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.372124E+02    0.376056E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.409260E+02    0.376664E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.442344E+02    0.392597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.461568E+02    0.421342E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.456057E+02    0.454965E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.429321E+02    0.483030E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.392162E+02    0.497398E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.385100E+02    0.339743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.365030E+02    0.341505E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.379342E+02    0.324471E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.402207E+02    0.328254E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.401363E+02    0.348184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.378850E+02    0.355881E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.359496E+02    0.367654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.347240E+02    0.354925E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.345610E+02    0.337938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.354546E+02    0.321365E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.371882E+02    0.309523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.392482E+02    0.306027E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.411978E+02    0.311173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.424845E+02    0.323892E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.426617E+02    0.341347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.417256E+02    0.358301E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.399347E+02    0.370119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.377569E+02    0.373844E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.358503E+02    0.397380E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.328367E+02    0.382019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.314847E+02    0.355661E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.319422E+02    0.325620E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.342259E+02    0.298519E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.375464E+02    0.283291E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.413652E+02    0.281919E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.446939E+02    0.295218E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.461955E+02    0.322351E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.458261E+02    0.353551E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.433295E+02    0.381629E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.395355E+02    0.398294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.390771E+02    0.236918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.370683E+02    0.239113E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.385841E+02    0.221965E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.407811E+02    0.225695E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.407140E+02    0.244363E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.384684E+02    0.252214E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.364456E+02    0.264743E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.352985E+02    0.252310E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.350242E+02    0.237097E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.359034E+02    0.221274E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.378211E+02    0.208024E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.398856E+02    0.204412E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.418461E+02    0.208827E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.431425E+02    0.220352E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.433399E+02    0.236475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.423147E+02    0.253345E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.404337E+02    0.265804E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.383642E+02    0.269367E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.363883E+02    0.292641E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.333479E+02    0.279796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138582E+03   -0.320480E+02    0.254247E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.325672E+02    0.224679E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.347480E+02    0.199108E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.382604E+02    0.182360E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.419856E+02    0.181250E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.452076E+02    0.193777E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.469602E+02    0.217022E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.464034E+02    0.247102E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.436165E+02    0.276291E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.400782E+02    0.292010E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.81 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    642951.807533658     
  ps_ts2 prof sum =   642573.757505682     
  trcom prof sum =    642573.757505681     
  ps_ts2 cur sum  =   9633.68370171122     
  trcom cur sum  =    9633.68370171122     
  
  antenna # iant =            2
  powecha_use(iant) =    670457.474142270     
  ps_ts2 prof sum =   670060.917727812     
  trcom prof sum =    670060.917727812     
  ps_ts2 cur sum  =   12467.4803614299     
  trcom cur sum  =    12467.4803614299     
  
  antenna # iant =            3
  powecha_use(iant) =    533556.989415922     
  ps_ts2 prof sum =   533217.242904060     
  trcom prof sum =    533217.242904060     
  ps_ts2 cur sum  =   6753.73731668751     
  trcom cur sum  =    6753.73731668751     
  
  antenna # iant =            4
  powecha_use(iant) =    571877.946734005     
  ps_ts2 prof sum =   571551.224669622     
  trcom prof sum =    571551.224669621     
  ps_ts2 cur sum  =   9549.59266427029     
  trcom cur sum  =    9549.59266427028     
  
  antenna # iant =            5
  powecha_use(iant) =    555288.917506924     
  ps_ts2 prof sum =   554989.678201027     
  trcom prof sum =    554989.678201027     
  ps_ts2 cur sum  =   11505.3518327146     
  trcom cur sum  =    11505.3518327146     
  
  Total ECH heating:      2972392.82100820     
  Total Current Drive:    49909.8458768135     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3697
 TA= 3.98500E+00 CPU TIME= 1.59915E-01 SECONDS.  DT= 2.44294E-04
  
 TEC1=    3.98499999999994     
 TEC2=    3.98999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.2949216666666     
  %check_save_state: izleft hours =    69.6966666666667     
 --> plasma_hash("gframe"): TA= 3.985000E+00 NSTEP=  3697 Hash code:  123008526
 ->PRGCHK: bdy curvature ratio at t= 3.9900E+00 seconds is:  5.6475E-02
% MHDEQ: TG1=     3.985000 ; TG2=     3.990000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7696E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6475E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.985000 TO TG2=    3.990000 @ NSTEP     3697
   GFRAME TG2 MOMENTS CHECKSUM:  2.4573510150864D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.18060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.37578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.31643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.32126E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.07357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.64154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.09702E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.27992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.03252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.64437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.01708E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.76960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  5.64697E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.00801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.50803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.64711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.21700E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.65713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.21461E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.75620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.75620E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.9900E+00  3.9950E+00 total power(Watts):  2.9914E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.99000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.381268E+02    0.379608E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.361230E+02    0.381087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.375619E+02    0.363960E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.398425E+02    0.368172E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.397413E+02    0.388601E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.374912E+02    0.396291E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.355517E+02    0.408362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.342435E+02    0.395224E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.341909E+02    0.377127E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.350896E+02    0.360471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.367252E+02    0.349350E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.388836E+02    0.345390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.408281E+02    0.350912E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.421059E+02    0.364070E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.423826E+02    0.381437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.414325E+02    0.399042E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.395246E+02    0.411711E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.374521E+02    0.414684E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.355310E+02    0.438305E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.325321E+02    0.422080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.311993E+02    0.394190E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.315833E+02    0.364172E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.336882E+02    0.338416E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.371970E+02    0.321887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.409018E+02    0.321653E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.441025E+02    0.336439E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.459331E+02    0.362658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134052E+03   -0.455332E+02    0.395140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.427884E+02    0.425221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.392120E+02    0.440064E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.389991E+02    0.294930E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.369903E+02    0.296936E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.384147E+02    0.280173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.407050E+02    0.283537E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.406324E+02    0.302884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.382810E+02    0.311416E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.363539E+02    0.323238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.352162E+02    0.310307E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.350415E+02    0.293736E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.359304E+02    0.277450E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.376603E+02    0.265672E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.398243E+02    0.261301E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.417810E+02    0.266103E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.430775E+02    0.278290E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.431551E+02    0.295868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.422304E+02    0.312469E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.404464E+02    0.324300E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.382679E+02    0.328358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.362776E+02    0.351988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.333430E+02    0.337307E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.319694E+02    0.311648E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138552E+03   -0.324130E+02    0.282182E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.345962E+02    0.256073E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.381079E+02    0.239325E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.418272E+02    0.238419E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.450477E+02    0.251566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.469099E+02    0.275485E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.463296E+02    0.306917E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.436293E+02    0.335855E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.399646E+02    0.352104E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.381780E+02    0.436538E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.361688E+02    0.437390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.376280E+02    0.420092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.399094E+02    0.425304E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.397906E+02    0.446055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.375261E+02    0.452916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.355766E+02    0.464038E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.343704E+02    0.450301E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.342347E+02    0.432822E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.350557E+02    0.416149E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.368046E+02    0.404091E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.388684E+02    0.401031E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.409175E+02    0.406999E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.421797E+02    0.421653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.425563E+02    0.439544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.414745E+02    0.457031E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.396580E+02    0.468293E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.374712E+02    0.470864E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.355237E+02    0.494378E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.325384E+02    0.476464E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.312268E+02    0.448815E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.316387E+02    0.418375E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.338654E+02    0.391039E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.372019E+02    0.376016E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.409193E+02    0.376595E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.443377E+02    0.392041E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133830E+03   -0.460265E+02    0.421794E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133663E+03   -0.455949E+02    0.454999E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.430355E+02    0.482797E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.392072E+02    0.497488E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.385019E+02    0.339726E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.364915E+02    0.341518E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.379215E+02    0.324490E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.402076E+02    0.328266E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.401237E+02    0.348176E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.377714E+02    0.356478E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.358404E+02    0.368220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.347135E+02    0.354923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.345502E+02    0.337961E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.354427E+02    0.321393E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.370753E+02    0.310259E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.392345E+02    0.306051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.411833E+02    0.311190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.424704E+02    0.323899E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.426483E+02    0.341341E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.417132E+02    0.358269E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.399232E+02    0.370079E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.377461E+02    0.373806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.358407E+02    0.397361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.328276E+02    0.381992E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138486E+03   -0.314751E+02    0.355668E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138467E+03   -0.319315E+02    0.325658E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.340271E+02    0.300057E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.375341E+02    0.283337E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.412427E+02    0.282698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.444507E+02    0.296620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.462977E+02    0.321702E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.458125E+02    0.353513E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.430911E+02    0.382622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.395248E+02    0.398269E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.390615E+02    0.237112E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.370537E+02    0.239307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.384696E+02    0.223024E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.407602E+02    0.225955E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.406980E+02    0.244538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.383531E+02    0.253157E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.364317E+02    0.264859E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.350967E+02    0.254087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.351032E+02    0.236461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.358898E+02    0.221506E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.377090E+02    0.209143E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.398694E+02    0.204700E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.418258E+02    0.209128E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.431251E+02    0.220585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.432146E+02    0.237445E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.422980E+02    0.253496E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.404180E+02    0.265904E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.382501E+02    0.270228E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.362775E+02    0.293429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.333355E+02    0.279874E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138625E+03   -0.320334E+02    0.254438E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.325542E+02    0.224907E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.348251E+02    0.198545E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.382444E+02    0.182699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.419683E+02    0.181598E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.450797E+02    0.194912E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.467144E+02    0.218816E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.461533E+02    0.248766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.436002E+02    0.276357E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.399585E+02    0.292765E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665620.665909348     
  ps_ts2 prof sum =   665214.971748175     
  trcom prof sum =    665214.971748174     
  ps_ts2 cur sum  =   9968.54195405498     
  trcom cur sum  =    9968.54195405497     
  
  antenna # iant =            2
  powecha_use(iant) =    665699.292587492     
  ps_ts2 prof sum =   665314.877569572     
  trcom prof sum =    665314.877569571     
  ps_ts2 cur sum  =   12373.5447742895     
  trcom cur sum  =    12373.5447742895     
  
  antenna # iant =            3
  powecha_use(iant) =    536395.342404101     
  ps_ts2 prof sum =   536109.382085117     
  trcom prof sum =    536109.382085117     
  ps_ts2 cur sum  =   6782.77516222949     
  trcom cur sum  =    6782.77516222950     
  
  antenna # iant =            4
  powecha_use(iant) =    569173.808812855     
  ps_ts2 prof sum =   568834.705804535     
  trcom prof sum =    568834.705804534     
  ps_ts2 cur sum  =   9500.97971555570     
  trcom cur sum  =    9500.97971555569     
  
  antenna # iant =            5
  powecha_use(iant) =    554507.433512866     
  ps_ts2 prof sum =   554192.280890155     
  trcom prof sum =    554192.280890155     
  ps_ts2 cur sum  =   11482.1940851147     
  trcom cur sum  =    11482.1940851147     
  
  Total ECH heating:      2989666.21809755     
  Total Current Drive:    50108.0356912444     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3706
 TA= 3.99000E+00 CPU TIME= 1.68216E-01 SECONDS.  DT= 1.90931E-04
  
 TEC1=    3.98999999999994     
 TEC2=    3.99499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.3083827777778     
  %check_save_state: izleft hours =    69.6830555555556     
 --> plasma_hash("gframe"): TA= 3.990000E+00 NSTEP=  3706 Hash code:   97319841
 ->PRGCHK: bdy curvature ratio at t= 3.9950E+00 seconds is:  5.6360E-02
% MHDEQ: TG1=     3.990000 ; TG2=     3.995000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6360E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.990000 TO TG2=    3.995000 @ NSTEP     3706
   GFRAME TG2 MOMENTS CHECKSUM:  2.4576989911926D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  3.9950E+00  4.0000E+00 total power(Watts):  3.0107E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         3.99500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.381145E+02    0.379601E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.361114E+02    0.381082E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.375494E+02    0.363965E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.398292E+02    0.368173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.397312E+02    0.388576E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.374795E+02    0.396276E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.355398E+02    0.408376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.342326E+02    0.395222E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.341774E+02    0.377145E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.350775E+02    0.360491E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.367121E+02    0.349385E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.388699E+02    0.345428E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.408137E+02    0.350930E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.420918E+02    0.364069E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.424809E+02    0.380876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.413091E+02    0.399518E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.395125E+02    0.411716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.374409E+02    0.414693E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.353233E+02    0.439185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.325223E+02    0.422136E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.311895E+02    0.394194E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138485E+03   -0.315725E+02    0.364194E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.336765E+02    0.338477E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.371821E+02    0.321948E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.408911E+02    0.321680E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.440868E+02    0.336475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.459180E+02    0.362635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.454059E+02    0.395578E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.427755E+02    0.425258E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.390945E+02    0.440502E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.389841E+02    0.294999E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.369762E+02    0.296999E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.383981E+02    0.280277E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.406891E+02    0.283622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.406168E+02    0.302948E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.382666E+02    0.311478E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.363404E+02    0.323299E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137543E+03   -0.352040E+02    0.310365E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.350286E+02    0.293807E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.359152E+02    0.277553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.376443E+02    0.265812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.397050E+02    0.262223E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.417632E+02    0.266238E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.429505E+02    0.279105E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.431387E+02    0.295929E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.422146E+02    0.312521E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.404316E+02    0.324350E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.382540E+02    0.328411E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.362663E+02    0.352014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.334225E+02    0.336693E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138561E+03   -0.319558E+02    0.311727E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138589E+03   -0.323994E+02    0.282280E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.345821E+02    0.256253E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.380924E+02    0.239548E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.418102E+02    0.238637E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.450296E+02    0.251750E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.468916E+02    0.275573E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.463123E+02    0.306960E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.436138E+02    0.335891E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.399509E+02    0.352124E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.381668E+02    0.436583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.361581E+02    0.437440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.375133E+02    0.420588E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.397897E+02    0.425784E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.397793E+02    0.446085E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.375156E+02    0.452936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.355633E+02    0.464050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.343608E+02    0.450327E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.340370E+02    0.433731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.350436E+02    0.416188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.367932E+02    0.404086E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.388513E+02    0.401041E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.407964E+02    0.407454E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.421714E+02    0.421684E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134824E+03   -0.425434E+02    0.439591E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.414631E+02    0.457031E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.396474E+02    0.468285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.374610E+02    0.470862E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.355142E+02    0.494491E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.325298E+02    0.476483E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.311294E+02    0.449249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.316291E+02    0.418417E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.338546E+02    0.391036E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.371899E+02    0.376006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.409011E+02    0.376602E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.443238E+02    0.392011E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.460128E+02    0.421806E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133703E+03   -0.455824E+02    0.454996E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.430242E+02    0.482803E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.391969E+02    0.497603E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.384839E+02    0.339797E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.364784E+02    0.341565E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.379076E+02    0.324546E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.400921E+02    0.328943E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.401096E+02    0.348208E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.377581E+02    0.356501E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.358317E+02    0.368212E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.347015E+02    0.354953E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.345380E+02    0.338013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137852E+03   -0.352361E+02    0.322848E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.370614E+02    0.310321E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.392197E+02    0.306114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.411678E+02    0.311247E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.424546E+02    0.323945E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.426332E+02    0.341373E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.416991E+02    0.358274E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.399101E+02    0.370069E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.377339E+02    0.373803E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.358295E+02    0.397354E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138108E+03   -0.328170E+02    0.381994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138525E+03   -0.314641E+02    0.355707E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.319197E+02    0.325725E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.340139E+02    0.300122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.375184E+02    0.283434E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.412266E+02    0.282786E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.444337E+02    0.296675E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.462809E+02    0.321739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134362E+03   -0.457972E+02    0.353504E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.430773E+02    0.382594E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.395125E+02    0.398255E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.390455E+02    0.237337E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.370386E+02    0.239526E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.384540E+02    0.223276E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.407436E+02    0.226202E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.406848E+02    0.244714E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.383376E+02    0.253339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.364171E+02    0.265002E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.350824E+02    0.254272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.350892E+02    0.236684E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.359691E+02    0.220919E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.376936E+02    0.209437E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.398532E+02    0.205011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.418086E+02    0.209427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.430001E+02    0.221647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.431963E+02    0.237671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.422822E+02    0.253668E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.404027E+02    0.266046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.382345E+02    0.270353E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.362633E+02    0.293501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.333212E+02    0.279987E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.320227E+02    0.254600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138508E+03   -0.325410E+02    0.225157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.346291E+02    0.200631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.380364E+02    0.184812E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.419511E+02    0.181979E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.450618E+02    0.195255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.466947E+02    0.219088E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.461347E+02    0.248958E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.435833E+02    0.276448E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.399431E+02    0.292833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    687388.449079390     
  ps_ts2 prof sum =   686964.390681250     
  trcom prof sum =    686964.390681250     
  ps_ts2 cur sum  =   10283.3526303330     
  trcom cur sum  =    10283.3526303330     
  
  antenna # iant =            2
  powecha_use(iant) =    665244.522324079     
  ps_ts2 prof sum =   664879.745364777     
  trcom prof sum =    664879.745364777     
  ps_ts2 cur sum  =   12364.5852621819     
  trcom cur sum  =    12364.5852621819     
  
  antenna # iant =            3
  powecha_use(iant) =    534111.790059937     
  ps_ts2 prof sum =   533806.687349011     
  trcom prof sum =    533806.687349012     
  ps_ts2 cur sum  =   6742.15686558120     
  trcom cur sum  =    6742.15686558120     
  
  antenna # iant =            4
  powecha_use(iant) =    568551.882756495     
  ps_ts2 prof sum =   568211.219795114     
  trcom prof sum =    568211.219795113     
  ps_ts2 cur sum  =   9485.51056281589     
  trcom cur sum  =    9485.51056281588     
  
  antenna # iant =            5
  powecha_use(iant) =    555363.916423595     
  ps_ts2 prof sum =   555046.101447131     
  trcom prof sum =    555046.101447131     
  ps_ts2 cur sum  =   11501.7455504994     
  trcom cur sum  =    11501.7455504994     
  
  Total ECH heating:      3008908.14463728     
  Total Current Drive:    50377.3508714114     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3716
 TA= 3.99500E+00 CPU TIME= 1.60276E-01 SECONDS.  DT= 9.19159E-05
  
 TEC1=    3.99499999999994     
 TEC2=    3.99999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.3202999999994     
  %check_save_state: izleft hours =    69.6711111111111     
 --> plasma_hash("gframe"): TA= 3.995000E+00 NSTEP=  3716 Hash code:   32769556
 ->PRGCHK: bdy curvature ratio at t= 4.0000E+00 seconds is:  5.6244E-02
% MHDEQ: TG1=     3.995000 ; TG2=     4.000000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6244E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    3.995000 TO TG2=    4.000000 @ NSTEP     3716
   GFRAME TG2 MOMENTS CHECKSUM:  2.4580469672989D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.22625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.34653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.31411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.84295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.15935E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.51591E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.05803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.23957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.21302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.09830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.77678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.16960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.86936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -2.58375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.14667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.49912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.44330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.18633E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.80296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.15057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.59088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.59088E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0000E+00  4.0050E+00 total power(Watts):  3.0293E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.00000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.381033E+02    0.379594E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.361007E+02    0.381079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.375378E+02    0.363983E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.398172E+02    0.368175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.397195E+02    0.388560E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.374686E+02    0.396273E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.355307E+02    0.408387E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.343186E+02    0.394683E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.341671E+02    0.377152E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.348726E+02    0.361754E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.367003E+02    0.349426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.388575E+02    0.345468E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.408007E+02    0.350957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.420790E+02    0.364072E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.422448E+02    0.381923E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.412973E+02    0.399506E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.394999E+02    0.411749E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.374323E+02    0.414720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.354123E+02    0.438845E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.326056E+02    0.421721E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.311804E+02    0.394202E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138525E+03   -0.315631E+02    0.364220E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.336652E+02    0.338541E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.371695E+02    0.322005E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.408729E+02    0.321750E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.440725E+02    0.336513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.459041E+02    0.362627E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.453931E+02    0.395547E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.427591E+02    0.425299E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.390837E+02    0.440576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.389703E+02    0.295050E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.369661E+02    0.297035E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.383908E+02    0.280312E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.406746E+02    0.283677E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.406026E+02    0.302995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.382534E+02    0.311530E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.363281E+02    0.323351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.349991E+02    0.311869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.350163E+02    0.293871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.359023E+02    0.277637E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.376304E+02    0.265928E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.396894E+02    0.262349E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.416408E+02    0.267104E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.429351E+02    0.279175E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.431236E+02    0.295970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.422001E+02    0.312564E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.403110E+02    0.325063E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.382413E+02    0.328464E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.362534E+02    0.352064E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.334115E+02    0.336755E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138599E+03   -0.319444E+02    0.311800E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.323870E+02    0.282362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.346626E+02    0.255594E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.380779E+02    0.239735E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.417943E+02    0.238828E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.451248E+02    0.251153E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.467583E+02    0.276344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.462967E+02    0.306991E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.435997E+02    0.335930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.399382E+02    0.352147E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.381564E+02    0.436659E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.361483E+02    0.437516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.375018E+02    0.420644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.397787E+02    0.425840E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.397647E+02    0.446149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.375058E+02    0.452975E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.355542E+02    0.464068E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.343518E+02    0.450376E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.340237E+02    0.433831E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.350352E+02    0.416214E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.367827E+02    0.404097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.388451E+02    0.401021E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.407848E+02    0.407460E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.421598E+02    0.421719E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.423072E+02    0.440421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.413416E+02    0.457402E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.395300E+02    0.468612E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.374517E+02    0.470873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.355052E+02    0.494612E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.325216E+02    0.476508E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.311221E+02    0.449300E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.315285E+02    0.418967E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.336511E+02    0.392156E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.371788E+02    0.376012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.408888E+02    0.376588E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.443112E+02    0.391978E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.460003E+02    0.421835E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133744E+03   -0.455707E+02    0.455024E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.430130E+02    0.482830E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.391871E+02    0.497730E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.384716E+02    0.339844E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.364665E+02    0.341616E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.378949E+02    0.324599E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.400729E+02    0.329029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.400969E+02    0.348235E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.377495E+02    0.356509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.358176E+02    0.368245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.344990E+02    0.356251E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.343359E+02    0.339411E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.352241E+02    0.322907E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.370482E+02    0.310384E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.392058E+02    0.306163E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.411538E+02    0.311287E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.424406E+02    0.323990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.426193E+02    0.341411E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.416861E+02    0.358285E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.398980E+02    0.370073E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.377224E+02    0.373807E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.356210E+02    0.398406E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.328071E+02    0.382003E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138564E+03   -0.314548E+02    0.355747E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.319093E+02    0.325787E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138259E+03   -0.340021E+02    0.300183E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.375050E+02    0.283501E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.412119E+02    0.282843E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.444182E+02    0.296716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.462656E+02    0.321771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.457832E+02    0.353506E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.430646E+02    0.382569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.393969E+02    0.398746E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.390307E+02    0.237533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.370245E+02    0.239713E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.384391E+02    0.223509E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.407283E+02    0.226426E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.406662E+02    0.244921E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.383231E+02    0.253492E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.362100E+02    0.266694E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.350697E+02    0.254434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.348905E+02    0.238546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.359552E+02    0.221160E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.376789E+02    0.209722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.398376E+02    0.205310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.417922E+02    0.209711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.429820E+02    0.221898E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.431799E+02    0.237864E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.421595E+02    0.254574E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.403883E+02    0.266148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.382196E+02    0.270460E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.362505E+02    0.293560E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.333091E+02    0.280074E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138685E+03   -0.320107E+02    0.254758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138758E+03   -0.324411E+02    0.226248E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.346155E+02    0.200949E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.381174E+02    0.184294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.419341E+02    0.182337E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.450440E+02    0.195594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.467901E+02    0.218560E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.462317E+02    0.248374E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.435675E+02    0.276519E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.399290E+02    0.292885E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    702937.109060188     
  ps_ts2 prof sum =   702534.907177570     
  trcom prof sum =    702534.907177570     
  ps_ts2 cur sum  =   10510.6608553913     
  trcom cur sum  =    10510.6608553913     
  
  antenna # iant =            2
  powecha_use(iant) =    668792.397102877     
  ps_ts2 prof sum =   668442.776201066     
  trcom prof sum =    668442.776201066     
  ps_ts2 cur sum  =   12433.3990121860     
  trcom cur sum  =    12433.3990121860     
  
  antenna # iant =            3
  powecha_use(iant) =    533865.791744368     
  ps_ts2 prof sum =   533538.840668206     
  trcom prof sum =    533538.840668207     
  ps_ts2 cur sum  =   6730.08026329486     
  trcom cur sum  =    6730.08026329486     
  
  antenna # iant =            4
  powecha_use(iant) =    569236.501916266     
  ps_ts2 prof sum =   568874.002147776     
  trcom prof sum =    568874.002147775     
  ps_ts2 cur sum  =   9496.57366025972     
  trcom cur sum  =    9496.57366025972     
  
  antenna # iant =            5
  powecha_use(iant) =    554424.765410872     
  ps_ts2 prof sum =   554122.889672703     
  trcom prof sum =    554122.889672703     
  ps_ts2 cur sum  =   11486.2931590836     
  trcom cur sum  =    11486.2931590836     
  
  Total ECH heating:      3027513.41586732     
  Total Current Drive:    50657.0069502155     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3729
 TA= 4.00000E+00 CPU TIME= 1.59512E-01 SECONDS.  DT= 2.18153E-05
  
 TEC1=    3.99999999999994     
 TEC2=    4.00499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    10.3367905555556     
  %check_save_state: izleft hours =    69.6547222222222     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  4.0000000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.597E+03 MB.

 --> plasma_hash("gframe"): TA= 4.000000E+00 NSTEP=  3729 Hash code:  121047902
 ->PRGCHK: bdy curvature ratio at t= 4.0050E+00 seconds is:  5.6129E-02
% MHDEQ: TG1=     4.000000 ; TG2=     4.005000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7733E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6129E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.000000 TO TG2=    4.005000 @ NSTEP     3729
   GFRAME TG2 MOMENTS CHECKSUM:  2.4583949434051D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.0050E+00  4.0100E+00 total power(Watts):  3.0289E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.00500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.380917E+02    0.379545E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.360901E+02    0.381035E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.375273E+02    0.363947E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.396980E+02    0.368711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.397081E+02    0.388504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.374580E+02    0.396227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.355209E+02    0.408373E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.343090E+02    0.394646E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.341570E+02    0.377116E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.348615E+02    0.361736E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.366881E+02    0.349416E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.387401E+02    0.346083E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.407875E+02    0.350928E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.420659E+02    0.364022E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.422324E+02    0.381859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.412857E+02    0.399452E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.394904E+02    0.411716E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.373174E+02    0.415197E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.354034E+02    0.438909E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.324122E+02    0.422704E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.310823E+02    0.394734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.315530E+02    0.364213E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.336528E+02    0.338555E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.370556E+02    0.322692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.408583E+02    0.321735E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.441719E+02    0.335857E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.458901E+02    0.362556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.453805E+02    0.395471E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.428653E+02    0.424897E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.390736E+02    0.440628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.389553E+02    0.295055E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.369488E+02    0.297067E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.383698E+02    0.280390E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.406586E+02    0.283702E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.405874E+02    0.302980E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.382393E+02    0.311524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.363152E+02    0.323353E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.349860E+02    0.311878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.348126E+02    0.295384E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.356947E+02    0.279241E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.375156E+02    0.266803E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.396729E+02    0.262455E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.416236E+02    0.267186E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.429179E+02    0.279207E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.431071E+02    0.295961E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.421847E+02    0.312545E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.402969E+02    0.325054E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.382276E+02    0.328462E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.362418E+02    0.352039E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.332144E+02    0.338120E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138640E+03   -0.319324E+02    0.311817E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138665E+03   -0.323743E+02    0.282416E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.346479E+02    0.255729E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.379624E+02    0.240716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.417763E+02    0.239001E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.451059E+02    0.251283E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.467398E+02    0.276369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.462798E+02    0.306956E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.436984E+02    0.335275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.399252E+02    0.352120E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.380422E+02    0.437124E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.361392E+02    0.437578E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.374923E+02    0.420650E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.397680E+02    0.425863E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.397585E+02    0.446197E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.373934E+02    0.453391E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.355454E+02    0.464107E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.343433E+02    0.450431E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.340147E+02    0.433891E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.350262E+02    0.416220E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.366713E+02    0.404575E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.388342E+02    0.400982E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.407733E+02    0.407427E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.420364E+02    0.422160E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.422963E+02    0.440470E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.413313E+02    0.457438E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.395205E+02    0.468641E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.374428E+02    0.470905E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.354970E+02    0.494755E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.326064E+02    0.476245E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138307E+03   -0.311144E+02    0.449359E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.315212E+02    0.418978E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.336454E+02    0.392109E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.370660E+02    0.376542E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.408766E+02    0.376533E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.440679E+02    0.392907E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.459881E+02    0.421827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.454353E+02    0.455405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.427766E+02    0.483396E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.391778E+02    0.497883E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.383551E+02    0.340481E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.363548E+02    0.342266E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.377803E+02    0.325272E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.400588E+02    0.329019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.400839E+02    0.348212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.377349E+02    0.356493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.358070E+02    0.368211E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.344877E+02    0.356236E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.343241E+02    0.339422E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.353053E+02    0.322231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.370350E+02    0.310372E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.390873E+02    0.306863E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.411393E+02    0.311269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.423149E+02    0.324622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.426051E+02    0.341386E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.416730E+02    0.358244E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.397788E+02    0.370602E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.377111E+02    0.373759E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.357100E+02    0.397845E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.327974E+02    0.381971E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.314427E+02    0.355759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.318979E+02    0.325806E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.339889E+02    0.300199E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.374911E+02    0.283526E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.411955E+02    0.282876E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.445169E+02    0.295996E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.462496E+02    0.321733E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.455341E+02    0.354612E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.430521E+02    0.382500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.393834E+02    0.398706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.390139E+02    0.237710E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.368145E+02    0.241520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.384223E+02    0.223724E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.407105E+02    0.226630E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.405445E+02    0.245865E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.383073E+02    0.253623E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.362920E+02    0.266010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.351488E+02    0.253768E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138281E+03   -0.348756E+02    0.238720E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.357512E+02    0.223075E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.376614E+02    0.209989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.397193E+02    0.206424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.416700E+02    0.210780E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.429650E+02    0.222107E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.431612E+02    0.238038E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.421412E+02    0.254710E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.403709E+02    0.266256E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.382040E+02    0.270538E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.362362E+02    0.293576E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138452E+03   -0.332961E+02    0.280131E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138720E+03   -0.319971E+02    0.254903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138789E+03   -0.324259E+02    0.226462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138361E+03   -0.345999E+02    0.201240E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.381047E+02    0.184596E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.418120E+02    0.183517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.450252E+02    0.195888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.467701E+02    0.218778E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.462122E+02    0.248514E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.435501E+02    0.276559E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.399134E+02    0.292889E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698292.688121810     
  ps_ts2 prof sum =   697890.358872197     
  trcom prof sum =    697890.358872198     
  ps_ts2 cur sum  =   10432.0627735441     
  trcom cur sum  =    10432.0627735441     
  
  antenna # iant =            2
  powecha_use(iant) =    671094.454061310     
  ps_ts2 prof sum =   670720.466891830     
  trcom prof sum =    670720.466891830     
  ps_ts2 cur sum  =   12465.9936969594     
  trcom cur sum  =    12465.9936969594     
  
  antenna # iant =            3
  powecha_use(iant) =    534624.484133147     
  ps_ts2 prof sum =   534289.904072828     
  trcom prof sum =    534289.904072828     
  ps_ts2 cur sum  =   6729.78519457264     
  trcom cur sum  =    6729.78519457265     
  
  antenna # iant =            4
  powecha_use(iant) =    569191.438015727     
  ps_ts2 prof sum =   568847.070317541     
  trcom prof sum =    568847.070317541     
  ps_ts2 cur sum  =   9489.18946039315     
  trcom cur sum  =    9489.18946039315     
  
  antenna # iant =            5
  powecha_use(iant) =    555723.472248158     
  ps_ts2 prof sum =   555421.160212124     
  trcom prof sum =    555421.160212124     
  ps_ts2 cur sum  =   11499.8546827914     
  trcom cur sum  =    11499.8546827914     
  
  Total ECH heating:      3027168.96036652     
  Total Current Drive:    50616.8858082607     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3748
 TA= 4.00500E+00 CPU TIME= 1.60136E-01 SECONDS.  DT= 3.04124E-04
  
 TEC1=    4.00499999999994     
 TEC2=    4.00999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.3557063888888     
  %check_save_state: izleft hours =    69.6358333333333     
 --> plasma_hash("gframe"): TA= 4.005000E+00 NSTEP=  3748 Hash code:   20594239
 ->PRGCHK: bdy curvature ratio at t= 4.0100E+00 seconds is:  5.6230E-02
% MHDEQ: TG1=     4.005000 ; TG2=     4.010000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6230E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.005000 TO TG2=    4.010000 @ NSTEP     3748
   GFRAME TG2 MOMENTS CHECKSUM:  2.4579061739115D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.16115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.25986E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.35308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.51846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18083E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.52437E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.05812E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30809E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.16898E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.08023E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.93606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.23868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.23388E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.27891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.22732E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.44756E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.44349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -6.04065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.89452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.11515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.34704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.34704E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0100E+00  4.0150E+00 total power(Watts):  3.0258E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.01000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.381013E+02    0.379235E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.360991E+02    0.380730E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.375348E+02    0.363623E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.398144E+02    0.367800E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.397185E+02    0.388190E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.374683E+02    0.395914E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.355311E+02    0.408042E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.343178E+02    0.394349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.341653E+02    0.376816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.348693E+02    0.361418E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.366960E+02    0.349073E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.388547E+02    0.345096E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.407965E+02    0.350578E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.420757E+02    0.363685E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.422431E+02    0.381541E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.412971E+02    0.399127E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.395024E+02    0.411362E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.374272E+02    0.414378E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.354148E+02    0.438517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.326067E+02    0.421393E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138354E+03   -0.311797E+02    0.393890E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138516E+03   -0.315600E+02    0.363905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.336595E+02    0.338220E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.371632E+02    0.321690E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.408660E+02    0.321420E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.440666E+02    0.336122E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.459009E+02    0.362205E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.453929E+02    0.395132E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.427657E+02    0.424917E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.390867E+02    0.440225E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.389619E+02    0.294823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.369535E+02    0.296843E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.383752E+02    0.280185E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.406648E+02    0.283501E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.405943E+02    0.302727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.382460E+02    0.311249E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.363219E+02    0.323039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.349921E+02    0.311607E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.350084E+02    0.293663E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.358929E+02    0.277496E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.376201E+02    0.265829E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.396815E+02    0.262236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.416298E+02    0.266995E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.429241E+02    0.279015E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.431141E+02    0.295729E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.421942E+02    0.312244E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.403046E+02    0.324727E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.382351E+02    0.328130E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.362494E+02    0.351714E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.334070E+02    0.336426E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138591E+03   -0.319398E+02    0.311537E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138613E+03   -0.323788E+02    0.282222E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.346530E+02    0.255543E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.380669E+02    0.239743E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.417763E+02    0.238887E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.451122E+02    0.251109E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.467465E+02    0.276168E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.462878E+02    0.306671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.435940E+02    0.335544E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.399339E+02    0.351779E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.381590E+02    0.436313E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.361510E+02    0.437183E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.375041E+02    0.420281E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.397805E+02    0.425472E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.397720E+02    0.445804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.375094E+02    0.452666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.355582E+02    0.463795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.343548E+02    0.450079E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.340258E+02    0.433504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.350362E+02    0.415873E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.367827E+02    0.403749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.388498E+02    0.400648E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.407854E+02    0.407083E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.421615E+02    0.421330E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.423112E+02    0.440032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.413459E+02    0.457076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.395348E+02    0.468324E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.374563E+02    0.470599E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.355113E+02    0.494338E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.325250E+02    0.476275E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.311245E+02    0.449024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.315309E+02    0.418640E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.336542E+02    0.391814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.371765E+02    0.375661E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.408867E+02    0.376215E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.443105E+02    0.391581E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.460024E+02    0.421416E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.455755E+02    0.454659E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.430194E+02    0.482537E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.391939E+02    0.497440E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.384667E+02    0.339483E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.364623E+02    0.341262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.378894E+02    0.324267E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.400668E+02    0.328681E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.400921E+02    0.347870E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.377402E+02    0.356176E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.358150E+02    0.367895E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.344950E+02    0.355914E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.343319E+02    0.339079E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.352182E+02    0.322604E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.370415E+02    0.310108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.391984E+02    0.305892E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.411466E+02    0.310989E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.424340E+02    0.323632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.426141E+02    0.341025E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.416824E+02    0.357900E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.398954E+02    0.369699E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.377202E+02    0.373451E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.356206E+02    0.398067E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.328055E+02    0.381678E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.314513E+02    0.355427E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138536E+03   -0.319036E+02    0.325494E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.339947E+02    0.299965E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.374961E+02    0.283324E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.412018E+02    0.282668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.444092E+02    0.296458E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.462582E+02    0.321394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.457789E+02    0.353085E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.430630E+02    0.382178E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.393905E+02    0.398400E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.390193E+02    0.237552E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.370139E+02    0.239722E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.384274E+02    0.223587E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.407160E+02    0.226494E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.406540E+02    0.244914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.383124E+02    0.253443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.362001E+02    0.266603E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.350599E+02    0.254388E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138234E+03   -0.348793E+02    0.238569E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.359427E+02    0.221243E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.376661E+02    0.209840E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.398243E+02    0.205448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.417793E+02    0.209829E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.429707E+02    0.221974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.431665E+02    0.237890E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.421470E+02    0.254530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.403783E+02    0.266037E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.382098E+02    0.270342E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.362425E+02    0.293352E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.333007E+02    0.279937E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138668E+03   -0.320021E+02    0.254708E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138736E+03   -0.324301E+02    0.226314E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.346048E+02    0.201072E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.381050E+02    0.184473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.419212E+02    0.182532E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.450292E+02    0.195773E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.467752E+02    0.218668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.462182E+02    0.248345E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.435564E+02    0.276362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.399198E+02    0.292668E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696238.795762479     
  ps_ts2 prof sum =   695841.029249364     
  trcom prof sum =    695841.029249364     
  ps_ts2 cur sum  =   10406.1270114540     
  trcom cur sum  =    10406.1270114540     
  
  antenna # iant =            2
  powecha_use(iant) =    669679.154549708     
  ps_ts2 prof sum =   669328.743327180     
  trcom prof sum =    669328.743327180     
  ps_ts2 cur sum  =   12433.2959641346     
  trcom cur sum  =    12433.2959641346     
  
  antenna # iant =            3
  powecha_use(iant) =    535058.154412547     
  ps_ts2 prof sum =   534732.804072381     
  trcom prof sum =    534732.804072381     
  ps_ts2 cur sum  =   6747.27378590110     
  trcom cur sum  =    6747.27378590111     
  
  antenna # iant =            4
  powecha_use(iant) =    568904.732147864     
  ps_ts2 prof sum =   568541.531384645     
  trcom prof sum =    568541.531384644     
  ps_ts2 cur sum  =   9482.68991357454     
  trcom cur sum  =    9482.68991357453     
  
  antenna # iant =            5
  powecha_use(iant) =    555878.794119996     
  ps_ts2 prof sum =   555578.700332517     
  trcom prof sum =    555578.700332516     
  ps_ts2 cur sum  =   11497.1492676015     
  trcom cur sum  =    11497.1492676015     
  
  Total ECH heating:      3024022.80836609     
  Total Current Drive:    50566.5359426658     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3756
 TA= 4.01000E+00 CPU TIME= 1.60271E-01 SECONDS.  DT= 5.19741E-04
  
 TEC1=    4.00999999999994     
 TEC2=    4.01499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.3729747222217     
  %check_save_state: izleft hours =    69.6186111111111     
 --> plasma_hash("gframe"): TA= 4.010000E+00 NSTEP=  3756 Hash code:   54156667
 ->PRGCHK: bdy curvature ratio at t= 4.0150E+00 seconds is:  5.6331E-02
% MHDEQ: TG1=     4.010000 ; TG2=     4.015000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7702E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6331E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.010000 TO TG2=    4.015000 @ NSTEP     3756
   GFRAME TG2 MOMENTS CHECKSUM:  2.4574174044178D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.0150E+00  4.0200E+00 total power(Watts):  3.0321E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.01500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.381105E+02    0.378930E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.361077E+02    0.380435E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.375435E+02    0.363294E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.398237E+02    0.367467E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.397304E+02    0.387878E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.374781E+02    0.395612E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.355412E+02    0.407720E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.342306E+02    0.394600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.341735E+02    0.376514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.350711E+02    0.359843E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.367035E+02    0.348722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.388609E+02    0.344740E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.408055E+02    0.350218E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.420854E+02    0.363339E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.424774E+02    0.380142E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.413082E+02    0.398808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.395133E+02    0.411032E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.374406E+02    0.414046E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.355248E+02    0.437731E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.325239E+02    0.421525E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.311875E+02    0.393601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138468E+03   -0.315669E+02    0.363590E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.336662E+02    0.337869E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.371700E+02    0.321347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.408737E+02    0.321070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.440756E+02    0.335737E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.459113E+02    0.361842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.452885E+02    0.395285E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.427789E+02    0.424521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.390993E+02    0.439849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.389680E+02    0.294556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.369610E+02    0.296566E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.383811E+02    0.279948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.406706E+02    0.283242E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.406008E+02    0.302438E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.382526E+02    0.310936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.363287E+02    0.322698E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.351903E+02    0.309858E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.350148E+02    0.293399E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.358976E+02    0.277270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137122E+03   -0.376251E+02    0.265604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.396829E+02    0.262047E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.416357E+02    0.266767E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.429301E+02    0.278769E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.431191E+02    0.295454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.421997E+02    0.311927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.404184E+02    0.323713E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.382428E+02    0.327767E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.362575E+02    0.351365E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137870E+03   -0.334135E+02    0.336080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138542E+03   -0.319452E+02    0.311239E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138563E+03   -0.323835E+02    0.281984E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.345642E+02    0.256139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.380707E+02    0.239548E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.417858E+02    0.238660E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.450053E+02    0.251636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.466363E+02    0.276637E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.462957E+02    0.306341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.436029E+02    0.335161E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.399426E+02    0.351422E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.381713E+02    0.435933E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.361622E+02    0.436811E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.375157E+02    0.419924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.397927E+02    0.425091E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.397851E+02    0.445440E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.375251E+02    0.452329E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.355704E+02    0.463515E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.343659E+02    0.449761E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.342284E+02    0.432254E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.350464E+02    0.415536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.367930E+02    0.403432E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.388555E+02    0.400345E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.409064E+02    0.406269E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.421734E+02    0.420962E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.425491E+02    0.438876E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.414705E+02    0.456406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.396559E+02    0.467719E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.374694E+02    0.470325E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.355250E+02    0.493946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.325372E+02    0.476002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.311359E+02    0.448703E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.316299E+02    0.417820E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.338525E+02    0.390410E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.371857E+02    0.375342E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.408966E+02    0.375892E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.443221E+02    0.391249E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133852E+03   -0.460163E+02    0.421022E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.455908E+02    0.454299E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.430357E+02    0.482209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.392092E+02    0.497022E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.384744E+02    0.339116E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.364695E+02    0.340908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.378963E+02    0.323920E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.401755E+02    0.327685E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.401008E+02    0.347505E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.377508E+02    0.355823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.358233E+02    0.367576E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.346947E+02    0.354303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.345295E+02    0.337379E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.352247E+02    0.322277E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.370479E+02    0.309800E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.392046E+02    0.305590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.411538E+02    0.310663E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.424420E+02    0.323272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.426230E+02    0.340645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.416918E+02    0.357545E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.399047E+02    0.369368E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.377288E+02    0.373139E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.358284E+02    0.396705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.328135E+02    0.381385E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138508E+03   -0.314575E+02    0.355100E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138488E+03   -0.319095E+02    0.325163E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.340007E+02    0.299693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.374976E+02    0.283113E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.412078E+02    0.282426E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.444162E+02    0.296171E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.462671E+02    0.321019E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.457890E+02    0.352707E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.430737E+02    0.381860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.395115E+02    0.397560E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.390236E+02    0.237360E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.370176E+02    0.239528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.384314E+02    0.223408E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.407198E+02    0.226315E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.406585E+02    0.244712E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.383173E+02    0.253228E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.363988E+02    0.264801E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.350641E+02    0.254174E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.350688E+02    0.236712E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.359471E+02    0.221064E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.376704E+02    0.209649E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.398284E+02    0.205255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.417836E+02    0.209648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.429748E+02    0.221801E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.431711E+02    0.237701E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.421520E+02    0.254309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.403833E+02    0.265824E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.382195E+02    0.270080E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.362515E+02    0.293068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138350E+03   -0.333057E+02    0.279703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138612E+03   -0.320056E+02    0.254485E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138684E+03   -0.324335E+02    0.226128E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.346088E+02    0.200864E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.380137E+02    0.185137E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.419258E+02    0.182339E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.450340E+02    0.195579E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.467797E+02    0.218502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.462236E+02    0.248128E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.435624E+02    0.276121E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.399264E+02    0.292407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    696373.397446527     
  ps_ts2 prof sum =   695942.359349056     
  trcom prof sum =    695942.359349056     
  ps_ts2 cur sum  =   10418.6677400994     
  trcom cur sum  =    10418.6677400994     
  
  antenna # iant =            2
  powecha_use(iant) =    673788.764486428     
  ps_ts2 prof sum =   673403.982590688     
  trcom prof sum =    673403.982590688     
  ps_ts2 cur sum  =   12505.1541027317     
  trcom cur sum  =    12505.1541027317     
  
  antenna # iant =            3
  powecha_use(iant) =    532596.894438020     
  ps_ts2 prof sum =   532303.507550148     
  trcom prof sum =    532303.507550149     
  ps_ts2 cur sum  =   6729.46315351696     
  trcom cur sum  =    6729.46315351696     
  
  antenna # iant =            4
  powecha_use(iant) =    572569.226079182     
  ps_ts2 prof sum =   572225.238003667     
  trcom prof sum =    572225.238003666     
  ps_ts2 cur sum  =   9546.59650635137     
  trcom cur sum  =    9546.59650635136     
  
  antenna # iant =            5
  powecha_use(iant) =    556813.847767561     
  ps_ts2 prof sum =   556508.108058818     
  trcom prof sum =    556508.108058818     
  ps_ts2 cur sum  =   11505.0738343710     
  trcom cur sum  =    11505.0738343710     
  
  Total ECH heating:      3030383.19555238     
  Total Current Drive:    50704.9553370704     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3762
 TA= 4.01500E+00 CPU TIME= 1.96838E-01 SECONDS.  DT= 9.18082E-04
  
 TEC1=    4.01499999999994     
 TEC2=    4.01999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.3877819444442     
  %check_save_state: izleft hours =    69.6038888888889     
 --> plasma_hash("gframe"): TA= 4.015000E+00 NSTEP=  3762 Hash code:   41588307
 ->PRGCHK: bdy curvature ratio at t= 4.0200E+00 seconds is:  5.6432E-02
% MHDEQ: TG1=     4.015000 ; TG2=     4.020000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7686E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6432E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.015000 TO TG2=    4.020000 @ NSTEP     3762
   GFRAME TG2 MOMENTS CHECKSUM:  2.4569286253483D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.96191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.09584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.44422E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.31916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.13316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.50124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.44255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.14418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.96519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.14903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.22407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.94988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.28382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.25459E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.34044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.67320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.88841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.93850E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.10672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.62269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.62269E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0200E+00  4.0250E+00 total power(Watts):  3.0259E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.02000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.381189E+02    0.378614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.362154E+02    0.379553E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.375507E+02    0.362965E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.398320E+02    0.367133E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.398450E+02    0.387031E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.374872E+02    0.395294E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.355504E+02    0.407383E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.342389E+02    0.394296E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.340846E+02    0.376808E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.350779E+02    0.359513E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.368108E+02    0.347735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.388680E+02    0.344381E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.408131E+02    0.349860E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.420890E+02    0.363013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.423750E+02    0.380355E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.414290E+02    0.397965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.396304E+02    0.410200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.374521E+02    0.413670E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.355355E+02    0.437347E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.325329E+02    0.421152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.311996E+02    0.393282E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138420E+03   -0.315731E+02    0.363274E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.338598E+02    0.336165E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.371760E+02    0.321013E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.408804E+02    0.320734E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.443120E+02    0.334100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.460386E+02    0.360913E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134017E+03   -0.455339E+02    0.393954E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.427913E+02    0.424097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.392176E+02    0.439042E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.389729E+02    0.294299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.369660E+02    0.296304E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.383852E+02    0.279732E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.406755E+02    0.283028E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.406064E+02    0.302149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.383610E+02    0.309924E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.363345E+02    0.322365E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.351952E+02    0.309554E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.350193E+02    0.293153E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.359020E+02    0.277054E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.376290E+02    0.265398E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.397909E+02    0.261072E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.417474E+02    0.265806E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.430452E+02    0.277816E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.432376E+02    0.294478E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.422061E+02    0.311611E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.404262E+02    0.323355E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.382491E+02    0.327419E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.362643E+02    0.351020E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.333262E+02    0.336420E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.319498E+02    0.310951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138512E+03   -0.323873E+02    0.281765E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.345669E+02    0.255950E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.380741E+02    0.239387E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.417900E+02    0.238499E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.450094E+02    0.251456E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.468745E+02    0.275003E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.463024E+02    0.306023E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.436103E+02    0.334793E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.399503E+02    0.351066E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.381828E+02    0.435528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.361731E+02    0.436422E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.376295E+02    0.419071E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.399119E+02    0.424239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.397975E+02    0.445051E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.375337E+02    0.451994E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.355825E+02    0.463214E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.342801E+02    0.449814E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.342386E+02    0.431860E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.349581E+02    0.415666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.368010E+02    0.403114E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.388652E+02    0.400019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.409167E+02    0.405923E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.421863E+02    0.420548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.424494E+02    0.438853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.414839E+02    0.456055E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.396693E+02    0.467411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.374822E+02    0.470029E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.355384E+02    0.493595E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.325485E+02    0.475723E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.312340E+02    0.447967E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.316386E+02    0.417464E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.338604E+02    0.390107E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.371937E+02    0.375026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.409057E+02    0.375562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134758E+03   -0.442174E+02    0.391415E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133587E+03   -0.461482E+02    0.420167E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133633E+03   -0.456055E+02    0.453912E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.429378E+02    0.482151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.392243E+02    0.496653E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.384812E+02    0.338762E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.364761E+02    0.340552E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.379027E+02    0.323579E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.401880E+02    0.327300E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.401085E+02    0.347139E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.378608E+02    0.354857E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.359292E+02    0.366656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.347013E+02    0.353966E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.345349E+02    0.337034E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.354239E+02    0.320546E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.371530E+02    0.308784E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.392105E+02    0.305296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.411600E+02    0.310351E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.424489E+02    0.322924E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.426307E+02    0.340274E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.417001E+02    0.357188E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.399132E+02    0.369037E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.377372E+02    0.372810E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.358371E+02    0.396389E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.328255E+02    0.381063E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138460E+03   -0.314634E+02    0.354773E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138441E+03   -0.319144E+02    0.324842E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.341928E+02    0.297935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.375065E+02    0.282859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.412125E+02    0.282199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.446493E+02    0.294507E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134351E+03   -0.462745E+02    0.320656E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.457980E+02    0.352330E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.433103E+02    0.380457E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.395212E+02    0.397236E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.390267E+02    0.237203E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.370208E+02    0.239365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.384346E+02    0.223278E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.407276E+02    0.226157E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.406627E+02    0.244536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.383209E+02    0.253039E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.364025E+02    0.264597E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.350668E+02    0.253989E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.350717E+02    0.236553E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.358562E+02    0.221776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.376736E+02    0.209524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.398321E+02    0.205129E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.417915E+02    0.209500E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.430854E+02    0.220889E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.431748E+02    0.237549E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.422637E+02    0.253356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.403874E+02    0.265622E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.383192E+02    0.269138E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.361549E+02    0.293594E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.333091E+02    0.279489E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.320083E+02    0.254315E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.325230E+02    0.225132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.346148E+02    0.200705E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.382095E+02    0.183279E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.419301E+02    0.182226E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.450379E+02    0.195468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.466701E+02    0.219165E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.461165E+02    0.248686E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.435671E+02    0.275909E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.399309E+02    0.292152E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.75 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    692682.405198913     
  ps_ts2 prof sum =   692271.886574418     
  trcom prof sum =    692271.886574418     
  ps_ts2 cur sum  =   10366.7795141823     
  trcom cur sum  =    10366.7795141822     
  
  antenna # iant =            2
  powecha_use(iant) =    671227.472742782     
  ps_ts2 prof sum =   670831.534507538     
  trcom prof sum =    670831.534507537     
  ps_ts2 cur sum  =   12448.8759606806     
  trcom cur sum  =    12448.8759606806     
  
  antenna # iant =            3
  powecha_use(iant) =    532104.425767596     
  ps_ts2 prof sum =   531766.694538266     
  trcom prof sum =    531766.694508600     
  ps_ts2 cur sum  =   6733.61353891803     
  trcom cur sum  =    6733.61353891803     
  
  antenna # iant =            4
  powecha_use(iant) =    573995.446794953     
  ps_ts2 prof sum =   573677.289291164     
  trcom prof sum =    573677.289291163     
  ps_ts2 cur sum  =   9568.06820486015     
  trcom cur sum  =    9568.06820486014     
  
  antenna # iant =            5
  powecha_use(iant) =    555936.576690432     
  ps_ts2 prof sum =   555601.403641511     
  trcom prof sum =    555601.403641510     
  ps_ts2 cur sum  =   11475.2394098724     
  trcom cur sum  =    11475.2394098724     
  
  Total ECH heating:      3024148.80852323     
  Total Current Drive:    50592.5766285134     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3766
 TA= 4.02000E+00 CPU TIME= 1.59279E-01 SECONDS.  DT= 1.87477E-03
  
 TEC1=    4.01999999999994     
 TEC2=    4.02499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4047330555554     
  %check_save_state: izleft hours =    69.5869444444444     
 --> plasma_hash("gframe"): TA= 4.020000E+00 NSTEP=  3766 Hash code:  107306584
 ->PRGCHK: bdy curvature ratio at t= 4.0250E+00 seconds is:  5.6534E-02
% MHDEQ: TG1=     4.020000 ; TG2=     4.025000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6534E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.020000 TO TG2=    4.025000 @ NSTEP     3766
   GFRAME TG2 MOMENTS CHECKSUM:  2.4564398462787D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.0250E+00  4.0300E+00 total power(Watts):  3.0192E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.02500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.382327E+02    0.377743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.362249E+02    0.379254E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.375600E+02    0.362640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.398419E+02    0.366818E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.398558E+02    0.386724E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.374954E+02    0.394994E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.355595E+02    0.407072E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.344406E+02    0.392904E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.340933E+02    0.376514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.350826E+02    0.359214E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.368192E+02    0.347392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.388772E+02    0.344026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.408225E+02    0.349509E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.422157E+02    0.362068E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.423862E+02    0.380036E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.414409E+02    0.397648E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.396433E+02    0.409842E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.374636E+02    0.413318E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.355474E+02    0.436980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.325431E+02    0.420791E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.312032E+02    0.393022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.316707E+02    0.362325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.338671E+02    0.335823E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.371835E+02    0.320682E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.408890E+02    0.320386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134741E+03   -0.443260E+02    0.333704E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.460500E+02    0.360558E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133967E+03   -0.455468E+02    0.393617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.430315E+02    0.422831E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.392308E+02    0.438665E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.389791E+02    0.294041E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.369724E+02    0.296041E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.383912E+02    0.279502E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.406816E+02    0.282788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.406140E+02    0.301864E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.383680E+02    0.309623E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.364408E+02    0.321337E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.352016E+02    0.309260E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137771E+03   -0.349250E+02    0.293687E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.359075E+02    0.276822E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.376343E+02    0.265183E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.397966E+02    0.260853E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.417535E+02    0.265589E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.430556E+02    0.277560E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.432451E+02    0.294203E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.422143E+02    0.311290E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.404346E+02    0.323010E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.382571E+02    0.327074E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.363721E+02    0.350044E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.333335E+02    0.336080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.319556E+02    0.310659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138241E+03   -0.324814E+02    0.280759E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.345719E+02    0.255741E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.380791E+02    0.239200E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.417954E+02    0.238314E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.450154E+02    0.251255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.468819E+02    0.274761E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.461941E+02    0.306373E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134893E+03   -0.438467E+02    0.333153E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.400668E+02    0.350088E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.381956E+02    0.435140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.361852E+02    0.436051E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.376414E+02    0.418695E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.399248E+02    0.423838E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.399188E+02    0.444306E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.375469E+02    0.451676E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.355953E+02    0.462940E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.342919E+02    0.449502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.342497E+02    0.431489E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.351644E+02    0.414335E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.368132E+02    0.402781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.389820E+02    0.399187E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.409287E+02    0.405585E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.421996E+02    0.420154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.424647E+02    0.438439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.414986E+02    0.455735E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.396835E+02    0.467138E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.374950E+02    0.469778E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.355529E+02    0.493276E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.325613E+02    0.475455E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.312439E+02    0.447659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.316483E+02    0.417111E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.338696E+02    0.389814E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.372032E+02    0.374724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.410254E+02    0.374688E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134700E+03   -0.442332E+02    0.391081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133538E+03   -0.461629E+02    0.419744E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133582E+03   -0.456215E+02    0.453560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.429542E+02    0.481856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.392403E+02    0.496318E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.384894E+02    0.338410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.364842E+02    0.340205E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.379105E+02    0.323241E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.401966E+02    0.326950E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.401176E+02    0.346791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.378697E+02    0.354520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.359381E+02    0.366344E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.347093E+02    0.353636E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.345430E+02    0.336685E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.354310E+02    0.320221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.371600E+02    0.308477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.392174E+02    0.305003E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.411678E+02    0.310041E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.424575E+02    0.322575E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.427520E+02    0.339282E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.417155E+02    0.356819E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.399232E+02    0.368718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.378497E+02    0.371918E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.358473E+02    0.396083E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.330143E+02    0.379634E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.315605E+02    0.353797E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.319207E+02    0.324520E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.342014E+02    0.297642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.375124E+02    0.282623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.413260E+02    0.281226E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.446571E+02    0.294224E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.464015E+02    0.319656E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.456914E+02    0.352553E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.432083E+02    0.380672E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.395325E+02    0.396917E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.390318E+02    0.237021E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.370256E+02    0.239176E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.385383E+02    0.222297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.407282E+02    0.226027E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.406678E+02    0.244341E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136959E+03   -0.383234E+02    0.252848E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.364074E+02    0.264384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.352596E+02    0.252158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.350763E+02    0.236370E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.358606E+02    0.221616E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.375822E+02    0.210220E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.398369E+02    0.204987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.417922E+02    0.209394E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.430908E+02    0.220740E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.431808E+02    0.237363E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.422698E+02    0.253146E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.403929E+02    0.265394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.383255E+02    0.268916E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.363568E+02    0.291843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.333142E+02    0.279262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138515E+03   -0.320126E+02    0.254098E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.325260E+02    0.224977E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.347967E+02    0.198824E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.382145E+02    0.183129E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.419355E+02    0.182086E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.450435E+02    0.195333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.466759E+02    0.219027E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.461196E+02    0.248502E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.435740E+02    0.275677E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.400434E+02    0.291166E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.36 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690255.641356382     
  ps_ts2 prof sum =   689869.853177777     
  trcom prof sum =    689869.853177777     
  ps_ts2 cur sum  =   10340.3180554793     
  trcom cur sum  =    10340.3180554793     
  
  antenna # iant =            2
  powecha_use(iant) =    669517.943368022     
  ps_ts2 prof sum =   669114.609365224     
  trcom prof sum =    669114.609365223     
  ps_ts2 cur sum  =   12415.1765279627     
  trcom cur sum  =    12415.1765279627     
  
  antenna # iant =            3
  powecha_use(iant) =    533435.149587192     
  ps_ts2 prof sum =   533099.773141815     
  trcom prof sum =    533099.773141816     
  ps_ts2 cur sum  =   6762.79513919697     
  trcom cur sum  =    6762.79513919698     
  
  antenna # iant =            4
  powecha_use(iant) =    570173.020898594     
  ps_ts2 prof sum =   569864.402286490     
  trcom prof sum =    569864.402286489     
  ps_ts2 cur sum  =   9507.93532144191     
  trcom cur sum  =    9507.93532144191     
  
  antenna # iant =            5
  powecha_use(iant) =    555784.932481724     
  ps_ts2 prof sum =   555471.559773652     
  trcom prof sum =    555471.559773652     
  ps_ts2 cur sum  =   11464.9339995205     
  trcom cur sum  =    11464.9339995205     
  
  Total ECH heating:      3017420.19774496     
  Total Current Drive:    50491.1590436014     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3769
 TA= 4.02500E+00 CPU TIME= 1.59452E-01 SECONDS.  DT= 9.77219E-04
  
 TEC1=    4.02499999999994     
 TEC2=    4.02999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4227691666663     
  %check_save_state: izleft hours =    69.5688888888889     
 --> plasma_hash("gframe"): TA= 4.025000E+00 NSTEP=  3769 Hash code:   65834420
 ->PRGCHK: bdy curvature ratio at t= 4.0300E+00 seconds is:  5.6635E-02
% MHDEQ: TG1=     4.025000 ; TG2=     4.030000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0730E-03 SECONDS
   DATA R*BT AT EDGE:  2.7654E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6635E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.025000 TO TG2=    4.030000 @ NSTEP     3769
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559510672092D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.77063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.93837E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.53172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.12783E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.08738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.89146E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12036E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.85474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.35350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.21004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  3.63731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.28852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.28077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.89374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.74224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.98073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.09862E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.67791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.67791E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0300E+00  4.0350E+00 total power(Watts):  3.0166E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.03000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.382446E+02    0.377473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.362361E+02    0.378987E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.375710E+02    0.362358E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.398597E+02    0.366502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.398684E+02    0.386455E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.375099E+02    0.394716E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.355727E+02    0.406770E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.344516E+02    0.392641E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.341042E+02    0.376250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.350963E+02    0.358906E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.368295E+02    0.347083E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.388877E+02    0.343713E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.409427E+02    0.348574E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.422282E+02    0.361776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.423993E+02    0.379768E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.414546E+02    0.397359E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.396569E+02    0.409526E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.374765E+02    0.412994E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.355603E+02    0.436660E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.325544E+02    0.420455E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.312131E+02    0.392767E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.316799E+02    0.362053E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.338763E+02    0.335512E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.371932E+02    0.320376E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.408995E+02    0.320077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.443338E+02    0.333396E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.460633E+02    0.360255E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.455616E+02    0.393327E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.430470E+02    0.422454E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.392453E+02    0.438331E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.389883E+02    0.293787E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.369806E+02    0.295779E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.384001E+02    0.279275E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.406909E+02    0.282554E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.406239E+02    0.301589E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.383777E+02    0.309325E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.364503E+02    0.321031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.352104E+02    0.308973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.349379E+02    0.293406E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.359154E+02    0.276603E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.376424E+02    0.264960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.398049E+02    0.260632E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.417620E+02    0.265358E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.430616E+02    0.277358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.432552E+02    0.293941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.422249E+02    0.310991E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.404449E+02    0.322695E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.382674E+02    0.326763E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.363824E+02    0.349739E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.333424E+02    0.335771E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138396E+03   -0.319637E+02    0.310383E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.324887E+02    0.280530E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.345793E+02    0.255516E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.380870E+02    0.238982E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.418040E+02    0.238105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.450249E+02    0.251032E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.468918E+02    0.274534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.462110E+02    0.306055E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.438569E+02    0.332824E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.400780E+02    0.349784E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.382094E+02    0.434804E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.361984E+02    0.435723E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.376546E+02    0.418348E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.399391E+02    0.423478E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.399337E+02    0.443993E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.375610E+02    0.451401E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.356090E+02    0.462703E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.344978E+02    0.448434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.342615E+02    0.431161E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.351765E+02    0.414011E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.368252E+02    0.402498E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.389951E+02    0.398900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.409426E+02    0.405283E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.422150E+02    0.419783E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.424794E+02    0.438116E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.415088E+02    0.455478E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.396956E+02    0.466910E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.375105E+02    0.469530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.355680E+02    0.492980E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.327598E+02    0.474563E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.312555E+02    0.447390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.316592E+02    0.416788E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.337855E+02    0.390114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.372146E+02    0.374460E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.410379E+02    0.374414E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.442439E+02    0.390812E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.461793E+02    0.419362E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133532E+03   -0.456390E+02    0.453252E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.429719E+02    0.481583E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.393634E+02    0.495775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.385001E+02    0.338090E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.364903E+02    0.339913E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.379205E+02    0.322931E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.402074E+02    0.326631E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.401289E+02    0.346474E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.378805E+02    0.354222E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.359487E+02    0.366070E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.347224E+02    0.353318E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.345524E+02    0.336373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.354399E+02    0.319919E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.371693E+02    0.308194E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.392272E+02    0.304723E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.411782E+02    0.309743E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.424686E+02    0.322257E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.427641E+02    0.338947E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.417219E+02    0.356546E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.399322E+02    0.368454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.378611E+02    0.371650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.358590E+02    0.395813E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.330248E+02    0.379372E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.315692E+02    0.353508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138345E+03   -0.319291E+02    0.324221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.342072E+02    0.297411E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.375210E+02    0.282394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.413354E+02    0.280992E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.446677E+02    0.293957E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.464134E+02    0.319328E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133987E+03   -0.459394E+02    0.351052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.432217E+02    0.380401E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.395454E+02    0.396640E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.390399E+02    0.236806E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.370334E+02    0.238961E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.385460E+02    0.222094E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.407365E+02    0.225824E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.406762E+02    0.244119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.383340E+02    0.252610E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.364173E+02    0.264138E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.352671E+02    0.251932E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.349906E+02    0.236987E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.358680E+02    0.221413E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.375893E+02    0.210028E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.398445E+02    0.204801E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.418002E+02    0.209209E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.430994E+02    0.220544E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.431897E+02    0.237149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.422788E+02    0.252927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.404016E+02    0.265175E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.383337E+02    0.268690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.363647E+02    0.291593E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.333216E+02    0.279038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138465E+03   -0.320193E+02    0.253872E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138309E+03   -0.325338E+02    0.224756E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.348038E+02    0.198633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.382224E+02    0.182958E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.419402E+02    0.181953E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.450525E+02    0.195158E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.466893E+02    0.218809E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.461292E+02    0.248274E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.435836E+02    0.275450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.400521E+02    0.290915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690034.595617867     
  ps_ts2 prof sum =   689643.412870480     
  trcom prof sum =    689643.412870480     
  ps_ts2 cur sum  =   10348.6543878724     
  trcom cur sum  =    10348.6543878723     
  
  antenna # iant =            2
  powecha_use(iant) =    668395.447227667     
  ps_ts2 prof sum =   667986.216498234     
  trcom prof sum =    667986.216498234     
  ps_ts2 cur sum  =   12396.2047455634     
  trcom cur sum  =    12396.2047455634     
  
  antenna # iant =            3
  powecha_use(iant) =    532469.790852746     
  ps_ts2 prof sum =   532144.972132638     
  trcom prof sum =    532144.972132638     
  ps_ts2 cur sum  =   6764.81287755850     
  trcom cur sum  =    6764.81287755851     
  
  antenna # iant =            4
  powecha_use(iant) =    570330.312864256     
  ps_ts2 prof sum =   570022.465694970     
  trcom prof sum =    570022.465694970     
  ps_ts2 cur sum  =   9516.46829826489     
  trcom cur sum  =    9516.46829826488     
  
  antenna # iant =            5
  powecha_use(iant) =    555410.468892577     
  ps_ts2 prof sum =   555086.941136542     
  trcom prof sum =    555086.941136542     
  ps_ts2 cur sum  =   11453.5246770239     
  trcom cur sum  =    11453.5246770239     
  
  Total ECH heating:      3014884.00833286     
  Total Current Drive:    50479.6649862830     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3773
 TA= 4.03000E+00 CPU TIME= 1.61506E-01 SECONDS.  DT= 1.59294E-03
  
 TEC1=    4.02999999999994     
 TEC2=    4.03499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4441930555554     
  %check_save_state: izleft hours =    69.5472222222222     
 --> plasma_hash("gframe"): TA= 4.030000E+00 NSTEP=  3773 Hash code:   89117555
 ->PRGCHK: bdy curvature ratio at t= 4.0350E+00 seconds is:  5.6737E-02
% MHDEQ: TG1=     4.030000 ; TG2=     4.035000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7639E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6737E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.030000 TO TG2=    4.035000 @ NSTEP     3773
   GFRAME TG2 MOMENTS CHECKSUM:  2.4554622881396D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0350E+00  4.0400E+00 total power(Watts):  3.0166E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.03500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.382490E+02    0.377227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.362452E+02    0.378731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.376827E+02    0.361467E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.399706E+02    0.365664E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.398790E+02    0.386183E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.376228E+02    0.393903E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.356816E+02    0.405947E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.344609E+02    0.392369E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.343036E+02    0.374801E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.350080E+02    0.359245E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.368385E+02    0.346777E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.388965E+02    0.343404E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.409526E+02    0.348260E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.422384E+02    0.361485E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.424103E+02    0.379492E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.414660E+02    0.397068E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.396681E+02    0.409200E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.374875E+02    0.412655E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.355713E+02    0.436340E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.327444E+02    0.419165E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.312205E+02    0.392508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.316875E+02    0.361784E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.337897E+02    0.335895E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.372011E+02    0.320080E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.410159E+02    0.319098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.442293E+02    0.333703E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.460745E+02    0.359950E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133865E+03   -0.455742E+02    0.393022E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.429468E+02    0.422507E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.392575E+02    0.438008E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.390991E+02    0.292802E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.370871E+02    0.294785E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.385087E+02    0.278279E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.406988E+02    0.282316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.407384E+02    0.300607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.383853E+02    0.309052E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.364580E+02    0.320734E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.351209E+02    0.309433E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.349446E+02    0.293160E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.358255E+02    0.277136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.376490E+02    0.264717E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.398118E+02    0.260386E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.417700E+02    0.265118E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.430691E+02    0.277124E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.432635E+02    0.293681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.423439E+02    0.310013E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.404536E+02    0.322391E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.383786E+02    0.325783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.363912E+02    0.349435E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.333498E+02    0.335470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.320593E+02    0.309372E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.324944E+02    0.280293E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.345853E+02    0.255264E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.380935E+02    0.238753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.419172E+02    0.237093E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.452575E+02    0.249290E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.469002E+02    0.274295E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134056E+03   -0.464490E+02    0.304447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.437548E+02    0.333132E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.400876E+02    0.349469E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.383254E+02    0.434047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.363099E+02    0.434968E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.376660E+02    0.417993E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.399513E+02    0.423113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.399462E+02    0.443687E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.376759E+02    0.450759E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.357191E+02    0.462125E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.345088E+02    0.448165E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.341765E+02    0.431270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.351868E+02    0.413672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.368355E+02    0.402203E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.390058E+02    0.398608E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.409608E+02    0.404947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.423399E+02    0.418965E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.424928E+02    0.437772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.415279E+02    0.455190E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.397125E+02    0.466647E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.376265E+02    0.468955E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.356803E+02    0.492408E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.327712E+02    0.474311E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.312647E+02    0.447134E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.316684E+02    0.416455E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.337943E+02    0.389856E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.372238E+02    0.374200E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.410483E+02    0.374139E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.444869E+02    0.389502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133439E+03   -0.461932E+02    0.418979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133262E+03   -0.457720E+02    0.452612E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.432152E+02    0.480747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.393786E+02    0.495444E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.385093E+02    0.337774E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.365026E+02    0.339580E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.379285E+02    0.322631E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.402162E+02    0.326320E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.402453E+02    0.345533E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.378894E+02    0.353927E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.359578E+02    0.365796E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.346314E+02    0.353693E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.344642E+02    0.336750E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.354474E+02    0.319625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.371768E+02    0.307919E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.392337E+02    0.304457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.412947E+02    0.308766E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.425889E+02    0.321281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.427735E+02    0.338630E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.418425E+02    0.355643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.399450E+02    0.368162E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.378705E+02    0.371384E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.358662E+02    0.395545E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.330330E+02    0.379118E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.315766E+02    0.353218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.320253E+02    0.323217E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.341194E+02    0.297908E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.375280E+02    0.282155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.413446E+02    0.280748E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.445627E+02    0.294391E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.464232E+02    0.319006E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.459502E+02    0.350735E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.432330E+02    0.380122E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.395566E+02    0.396349E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.390465E+02    0.236583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.370397E+02    0.238732E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.385524E+02    0.221909E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.407433E+02    0.225632E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.406832E+02    0.243881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.384408E+02    0.251571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.364217E+02    0.263916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.352731E+02    0.251686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137758E+03   -0.349966E+02    0.236762E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.358741E+02    0.221232E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.375950E+02    0.209884E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.398500E+02    0.204677E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.418074E+02    0.209066E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.431064E+02    0.220365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.433054E+02    0.236159E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.422857E+02    0.252678E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.405135E+02    0.264169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.383405E+02    0.268450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.363721E+02    0.291344E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.335101E+02    0.277233E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138415E+03   -0.320248E+02    0.253626E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138257E+03   -0.325393E+02    0.224562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.347191E+02    0.199377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.382282E+02    0.182847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.419505E+02    0.181821E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.450598E+02    0.195050E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.466924E+02    0.218666E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134354E+03   -0.463654E+02    0.246541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.438136E+02    0.273757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.400597E+02    0.290663E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684570.240242469     
  ps_ts2 prof sum =   684170.799399501     
  trcom prof sum =    684170.799399501     
  ps_ts2 cur sum  =   10275.8469712399     
  trcom cur sum  =    10275.8469712399     
  
  antenna # iant =            2
  powecha_use(iant) =    670182.589123230     
  ps_ts2 prof sum =   669783.909299080     
  trcom prof sum =    669783.909299080     
  ps_ts2 cur sum  =   12428.8813801808     
  trcom cur sum  =    12428.8813801808     
  
  antenna # iant =            3
  powecha_use(iant) =    531880.856297848     
  ps_ts2 prof sum =   531569.455811059     
  trcom prof sum =    531569.455811060     
  ps_ts2 cur sum  =   6767.79953192043     
  trcom cur sum  =    6767.79953192044     
  
  antenna # iant =            4
  powecha_use(iant) =    573614.766568330     
  ps_ts2 prof sum =   573273.728111979     
  trcom prof sum =    573273.728111978     
  ps_ts2 cur sum  =   9575.21809444848     
  trcom cur sum  =    9575.21809444847     
  
  antenna # iant =            5
  powecha_use(iant) =    556302.381097907     
  ps_ts2 prof sum =   556000.109039950     
  trcom prof sum =    556000.109039950     
  ps_ts2 cur sum  =   11466.3067184532     
  trcom cur sum  =    11466.3067184532     
  
  Total ECH heating:      3014798.00166157     
  Total Current Drive:    50514.0526962427     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3776
 TA= 4.03500E+00 CPU TIME= 1.61561E-01 SECONDS.  DT= 1.76986E-03
  
 TEC1=    4.03499999999994     
 TEC2=    4.03999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4594319444441     
  %check_save_state: izleft hours =    69.5322222222222     
 --> plasma_hash("gframe"): TA= 4.035000E+00 NSTEP=  3776 Hash code:  110655684
 ->PRGCHK: bdy curvature ratio at t= 4.0400E+00 seconds is:  5.6839E-02
% MHDEQ: TG1=     4.035000 ; TG2=     4.040000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4970E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6839E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.035000 TO TG2=    4.040000 @ NSTEP     3776
   GFRAME TG2 MOMENTS CHECKSUM:  2.4549735090700D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.59881E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.79692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.61032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.95597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.04627E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.49825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.09897E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.75554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.53716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.19744E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.25476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.29274E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.30429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.25163E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.09183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.61096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.01865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.09134E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.47586E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.47586E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.0400E+00  4.0450E+00 total power(Watts):  3.0054E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.04000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.382631E+02    0.376981E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.362535E+02    0.378504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.376909E+02    0.361239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.399792E+02    0.365443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.398887E+02    0.385947E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.376322E+02    0.393656E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.356909E+02    0.405654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.344697E+02    0.392125E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.343117E+02    0.374580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.352097E+02    0.357760E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.368459E+02    0.346527E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.390097E+02    0.342502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.409613E+02    0.348003E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.422475E+02    0.361254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.426443E+02    0.378168E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.414742E+02    0.396807E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.396787E+02    0.408886E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.376003E+02    0.411848E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.355815E+02    0.436049E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137195E+03   -0.327578E+02    0.418824E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.313185E+02    0.391695E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137996E+03   -0.316942E+02    0.361562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.337969E+02    0.335640E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.373085E+02    0.319145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.410242E+02    0.318840E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.442384E+02    0.333432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.460846E+02    0.359709E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.457028E+02    0.392263E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.429591E+02    0.422151E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.392688E+02    0.437712E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.391070E+02    0.292562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.370942E+02    0.294544E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.385153E+02    0.278031E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.408123E+02    0.281330E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.407466E+02    0.300369E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.383930E+02    0.308798E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.364649E+02    0.320495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.351285E+02    0.309187E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.349507E+02    0.292916E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.360246E+02    0.275342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.377537E+02    0.263665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.398187E+02    0.260103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.417812E+02    0.264818E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.430769E+02    0.276873E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.432716E+02    0.293437E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.423521E+02    0.309766E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.404616E+02    0.322135E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.383868E+02    0.325520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.363989E+02    0.349191E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.335426E+02    0.333843E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.320649E+02    0.309136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.325003E+02    0.280054E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.347770E+02    0.253350E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.380988E+02    0.238458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.419242E+02    0.236782E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.451523E+02    0.249736E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.467921E+02    0.274749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134002E+03   -0.464577E+02    0.304203E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.437640E+02    0.332860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.400957E+02    0.349231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.383368E+02    0.433731E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.363218E+02    0.434662E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.376758E+02    0.417662E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.399623E+02    0.422776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.399580E+02    0.443414E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.376873E+02    0.450509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.357299E+02    0.461908E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.345159E+02    0.447923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.341857E+02    0.430969E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.351962E+02    0.413357E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.369463E+02    0.401408E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.390158E+02    0.398342E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.410747E+02    0.404180E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.423516E+02    0.418622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.427288E+02    0.436653E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.416513E+02    0.454593E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.398323E+02    0.466092E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.376425E+02    0.468714E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.356925E+02    0.492123E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.326872E+02    0.474423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.312749E+02    0.446888E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.316768E+02    0.416145E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.338020E+02    0.389622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.373339E+02    0.373392E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.410577E+02    0.373912E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.444977E+02    0.389248E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.462061E+02    0.418609E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133208E+03   -0.457856E+02    0.452350E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133898E+03   -0.432287E+02    0.480478E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.393922E+02    0.495149E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.386208E+02    0.336861E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.366098E+02    0.338666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.380370E+02    0.321702E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.402241E+02    0.326059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.402536E+02    0.345281E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.378979E+02    0.353676E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.359657E+02    0.365568E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.348311E+02    0.352170E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.344703E+02    0.336506E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.353577E+02    0.320080E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.371834E+02    0.307681E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.393467E+02    0.303491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.413021E+02    0.308520E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.425972E+02    0.321025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.427823E+02    0.338368E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.418515E+02    0.355403E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.400611E+02    0.367352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.378830E+02    0.371142E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.359767E+02    0.394748E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.329479E+02    0.379485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.315830E+02    0.352988E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.320316E+02    0.322968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.341259E+02    0.297672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.376344E+02    0.281151E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.413508E+02    0.280504E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.445702E+02    0.294154E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.464323E+02    0.318755E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.459599E+02    0.350483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.432496E+02    0.379866E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.396730E+02    0.395572E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.391536E+02    0.235467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.369484E+02    0.239241E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.385584E+02    0.221619E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.408533E+02    0.224527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.407945E+02    0.242791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.384474E+02    0.251269E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137327E+03   -0.363306E+02    0.264433E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.351846E+02    0.252207E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.350022E+02    0.236461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.358789E+02    0.220949E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.377937E+02    0.207941E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.398573E+02    0.204411E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.419182E+02    0.207987E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.431134E+02    0.220075E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135453E+03   -0.433127E+02    0.235839E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.422927E+02    0.252376E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.405202E+02    0.263895E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.383469E+02    0.268189E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.363783E+02    0.291105E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.334247E+02    0.277772E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.321167E+02    0.252507E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138208E+03   -0.325441E+02    0.224278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.347251E+02    0.199126E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.382340E+02    0.182618E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.420586E+02    0.180764E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.451753E+02    0.194005E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.469264E+02    0.216837E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.463728E+02    0.246236E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.437102E+02    0.274230E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.400671E+02    0.290429E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677532.758907065     
  ps_ts2 prof sum =   677151.516020138     
  trcom prof sum =    677151.516020138     
  ps_ts2 cur sum  =   10159.5461116156     
  trcom cur sum  =    10159.5461116156     
  
  antenna # iant =            2
  powecha_use(iant) =    667242.008686192     
  ps_ts2 prof sum =   666843.765335080     
  trcom prof sum =    666843.765335079     
  ps_ts2 cur sum  =   12352.2053688472     
  trcom cur sum  =    12352.2053688472     
  
  antenna # iant =            3
  powecha_use(iant) =    532759.401427922     
  ps_ts2 prof sum =   532437.061992736     
  trcom prof sum =    532437.061992737     
  ps_ts2 cur sum  =   6778.20139218650     
  trcom cur sum  =    6778.20139218651     
  
  antenna # iant =            4
  powecha_use(iant) =    573516.817018672     
  ps_ts2 prof sum =   573165.356736174     
  trcom prof sum =    573165.356736173     
  ps_ts2 cur sum  =   9559.15242996017     
  trcom cur sum  =    9559.15242996016     
  
  antenna # iant =            5
  powecha_use(iant) =    554385.533301799     
  ps_ts2 prof sum =   554059.328175957     
  trcom prof sum =    554059.328175957     
  ps_ts2 cur sum  =   11406.2709576476     
  trcom cur sum  =    11406.2709576476     
  
  Total ECH heating:      3003657.02826008     
  Total Current Drive:    50255.3762602571     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3779
 TA= 4.04000E+00 CPU TIME= 1.62520E-01 SECONDS.  DT= 1.27228E-03
  
 TEC1=    4.03999999999994     
 TEC2=    4.04499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4741874999995     
  %check_save_state: izleft hours =    69.5175000000000     
 --> plasma_hash("gframe"): TA= 4.040000E+00 NSTEP=  3779 Hash code:   19302794
 ->PRGCHK: bdy curvature ratio at t= 4.0450E+00 seconds is:  5.6941E-02
% MHDEQ: TG1=     4.040000 ; TG2=     4.045000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7607E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6941E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.040000 TO TG2=    4.045000 @ NSTEP     3779
   GFRAME TG2 MOMENTS CHECKSUM:  2.4544847300005D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.0450E+00  4.0500E+00 total power(Watts):  3.0022E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.04500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.382711E+02    0.376753E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.362647E+02    0.378259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.376985E+02    0.360989E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.399875E+02    0.365197E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.400048E+02    0.385159E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.376399E+02    0.393400E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.356995E+02    0.405350E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.343853E+02    0.392410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.342229E+02    0.374952E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.352167E+02    0.357515E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.369536E+02    0.345607E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.390170E+02    0.342218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.409689E+02    0.347737E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.422561E+02    0.361000E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134909E+03   -0.425416E+02    0.378468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.415967E+02    0.396013E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.397955E+02    0.408077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.376097E+02    0.411523E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.356852E+02    0.435348E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.326733E+02    0.418994E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.313257E+02    0.391453E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.317006E+02    0.361323E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.339904E+02    0.333993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.373156E+02    0.318848E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.410314E+02    0.318550E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.444751E+02    0.331863E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.462118E+02    0.358877E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.457135E+02    0.391980E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.429703E+02    0.421802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.393857E+02    0.437014E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.391128E+02    0.292283E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.370999E+02    0.294273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.385207E+02    0.277754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.408180E+02    0.281046E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.407531E+02    0.300078E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.385017E+02    0.307806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.364717E+02    0.320200E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.353260E+02    0.307458E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.351456E+02    0.291140E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.360288E+02    0.275073E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.377601E+02    0.263356E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.398235E+02    0.259779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.418899E+02    0.263784E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.431935E+02    0.275844E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.433900E+02    0.292442E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.423595E+02    0.309469E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.405761E+02    0.321162E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.383928E+02    0.325233E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.364057E+02    0.348924E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.334557E+02    0.334247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.320700E+02    0.308862E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.325075E+02    0.279758E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.346901E+02    0.253818E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.382029E+02    0.237294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.419292E+02    0.236430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.451583E+02    0.249387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133812E+03   -0.470318E+02    0.273030E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.463484E+02    0.304574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.439991E+02    0.331279E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.401038E+02    0.348951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.383468E+02    0.433434E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.363296E+02    0.434383E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.377885E+02    0.416857E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.400804E+02    0.421989E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.400764E+02    0.442755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.376977E+02    0.450272E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.357401E+02    0.461684E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.345284E+02    0.447686E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.343869E+02    0.429769E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.352049E+02    0.413037E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.369551E+02    0.401118E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.390249E+02    0.398061E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.410847E+02    0.403865E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.423624E+02    0.418274E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.426291E+02    0.436758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.416632E+02    0.454350E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.398434E+02    0.465864E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.376490E+02    0.468493E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.357041E+02    0.491829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.326971E+02    0.474178E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.313729E+02    0.446241E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.317752E+02    0.415326E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.339998E+02    0.388254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.373418E+02    0.373156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.410665E+02    0.373673E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.443924E+02    0.389502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133120E+03   -0.463366E+02    0.417820E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133154E+03   -0.457982E+02    0.452097E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.431288E+02    0.480471E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.394007E+02    0.494855E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.386281E+02    0.336571E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.366161E+02    0.338383E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.380443E+02    0.321402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.403380E+02    0.325093E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.402604E+02    0.345003E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.380079E+02    0.352799E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.360718E+02    0.364727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.348379E+02    0.351912E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.346633E+02    0.334887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.355575E+02    0.318385E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.371944E+02    0.307365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.393532E+02    0.303213E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.413090E+02    0.308233E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.426082E+02    0.320709E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.430143E+02    0.336801E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.418599E+02    0.355139E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.400692E+02    0.367121E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.378868E+02    0.370928E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.359849E+02    0.394486E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.329546E+02    0.379258E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.315894E+02    0.352735E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.320374E+02    0.322698E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.341312E+02    0.297402E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.376398E+02    0.280875E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.413566E+02    0.280223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.448047E+02    0.292466E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133678E+03   -0.465581E+02    0.317785E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133819E+03   -0.459742E+02    0.350187E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.434795E+02    0.378568E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.396824E+02    0.395301E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.391580E+02    0.235126E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.371467E+02    0.237267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.385627E+02    0.221293E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.408578E+02    0.224187E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.407993E+02    0.242438E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.384522E+02    0.250933E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.365301E+02    0.262547E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.351897E+02    0.251869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.351914E+02    0.234461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.360705E+02    0.218949E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.378026E+02    0.207616E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.399616E+02    0.203300E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.419222E+02    0.207690E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.432255E+02    0.218952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.433189E+02    0.235484E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.424019E+02    0.251299E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.405260E+02    0.263583E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.383514E+02    0.267897E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.363838E+02    0.290830E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.334295E+02    0.277491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.321214E+02    0.252182E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.325478E+02    0.223960E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.347282E+02    0.198865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.381413E+02    0.183245E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.420623E+02    0.180523E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.451785E+02    0.193749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.468183E+02    0.217273E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.462647E+02    0.246630E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.437167E+02    0.273931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.400735E+02    0.290141E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670218.992839547     
  ps_ts2 prof sum =   669817.900497221     
  trcom prof sum =    669817.900497220     
  ps_ts2 cur sum  =   10038.3767295459     
  trcom cur sum  =    10038.3767295459     
  
  antenna # iant =            2
  powecha_use(iant) =    667306.992205245     
  ps_ts2 prof sum =   666919.082389156     
  trcom prof sum =    666919.082389156     
  ps_ts2 cur sum  =   12327.9854872822     
  trcom cur sum  =    12327.9854872822     
  
  antenna # iant =            3
  powecha_use(iant) =    533125.508434527     
  ps_ts2 prof sum =   532809.818820182     
  trcom prof sum =    532809.818820182     
  ps_ts2 cur sum  =   6781.00803838535     
  trcom cur sum  =    6781.00803838535     
  
  antenna # iant =            4
  powecha_use(iant) =    576042.039231869     
  ps_ts2 prof sum =   575718.477010990     
  trcom prof sum =    575718.477010989     
  ps_ts2 cur sum  =   9586.55002679411     
  trcom cur sum  =    9586.55002679411     
  
  antenna # iant =            5
  powecha_use(iant) =    555555.887422262     
  ps_ts2 prof sum =   555226.642431413     
  trcom prof sum =    555226.642431412     
  ps_ts2 cur sum  =   11400.2121526646     
  trcom cur sum  =    11400.2121526646     
  
  Total ECH heating:      3000491.92114896     
  Total Current Drive:    50134.1324346723     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3783
 TA= 4.04500E+00 CPU TIME= 1.60718E-01 SECONDS.  DT= 1.86799E-04
  
 TEC1=    4.04499999999994     
 TEC2=    4.04999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.4903336111111     
  %check_save_state: izleft hours =    69.5011111111111     
 --> plasma_hash("gframe"): TA= 4.045000E+00 NSTEP=  3783 Hash code:  105759846
 ->PRGCHK: bdy curvature ratio at t= 4.0500E+00 seconds is:  5.7043E-02
% MHDEQ: TG1=     4.045000 ; TG2=     4.050000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7591E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7043E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.045000 TO TG2=    4.050000 @ NSTEP     3783
   GFRAME TG2 MOMENTS CHECKSUM:  2.4539959581423D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.39150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.62626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.70516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.74861E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.99666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  7.06441E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.29010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.63584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.75876E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.18224E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.99977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.29784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.33266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.54581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.33084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.45256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.06441E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.08256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.76997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.76997E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  4.0500E+00  4.0550E+00 total power(Watts):  3.0044E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.05000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.383835E+02    0.375988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.363692E+02    0.377499E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.377065E+02    0.360801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.399964E+02    0.365005E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.400141E+02    0.384944E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.376498E+02    0.393155E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.357085E+02    0.405065E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.345820E+02    0.391095E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.342309E+02    0.374754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.352242E+02    0.357320E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.369613E+02    0.345395E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.390250E+02    0.341999E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.410864E+02    0.346894E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.423766E+02    0.360214E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.425512E+02    0.378269E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.416069E+02    0.395757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.398056E+02    0.407776E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.376193E+02    0.411218E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.356997E+02    0.435070E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.326818E+02    0.418696E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.313327E+02    0.391236E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.317970E+02    0.360494E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.339925E+02    0.333802E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.373231E+02    0.318637E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.411477E+02    0.317654E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.443702E+02    0.332269E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133522E+03   -0.462215E+02    0.358680E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.457246E+02    0.391734E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.432122E+02    0.420593E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.393962E+02    0.436749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.391203E+02    0.292103E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.371063E+02    0.294095E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.385274E+02    0.277586E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.408251E+02    0.280885E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.408680E+02    0.299182E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.385099E+02    0.307608E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.365781E+02    0.319290E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.353330E+02    0.307265E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.351524E+02    0.290964E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.360363E+02    0.274882E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.377674E+02    0.263170E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.399353E+02    0.258817E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.418970E+02    0.263598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.432014E+02    0.275675E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.433985E+02    0.292266E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.424776E+02    0.308587E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.405846E+02    0.320943E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.384007E+02    0.325016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.365129E+02    0.348072E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.334633E+02    0.334026E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.320755E+02    0.308667E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.325101E+02    0.279618E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.346956E+02    0.253622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.382106E+02    0.237061E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.420434E+02    0.235411E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.453913E+02    0.247670E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133757E+03   -0.470406E+02    0.272863E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133686E+03   -0.465914E+02    0.303025E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.438947E+02    0.331694E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.402192E+02    0.348113E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.383569E+02    0.433158E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.363393E+02    0.434112E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.377982E+02    0.416547E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.400914E+02    0.421671E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.400931E+02    0.442487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.377097E+02    0.450029E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.357506E+02    0.461461E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.344412E+02    0.447869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.343959E+02    0.429493E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.353118E+02    0.412237E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.369643E+02    0.400846E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.391400E+02    0.397286E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.410951E+02    0.403576E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.425977E+02    0.417052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.426407E+02    0.436479E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134636E+03   -0.416744E+02    0.454129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.398556E+02    0.465623E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.376600E+02    0.468253E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.357150E+02    0.491550E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.327071E+02    0.473923E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.313810E+02    0.446022E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.317832E+02    0.415030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.340073E+02    0.388047E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.373502E+02    0.372966E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.411849E+02    0.372915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133797E+03   -0.446341E+02    0.388237E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133068E+03   -0.463487E+02    0.417481E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132882E+03   -0.459291E+02    0.451509E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134011E+03   -0.431427E+02    0.480180E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.394187E+02    0.494538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.386361E+02    0.336347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.366244E+02    0.338156E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.380517E+02    0.321192E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.403463E+02    0.324875E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.402703E+02    0.344775E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.380161E+02    0.352597E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.360798E+02    0.364535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.348450E+02    0.351711E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.346750E+02    0.334641E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.355627E+02    0.318186E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.372978E+02    0.306476E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.393612E+02    0.303026E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.413171E+02    0.308037E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.427243E+02    0.319842E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.429114E+02    0.337210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.419794E+02    0.354337E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.400781E+02    0.366921E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.379983E+02    0.370148E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.359936E+02    0.394245E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.331479E+02    0.377883E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.316849E+02    0.351873E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.320428E+02    0.322486E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.343238E+02    0.295719E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.376463E+02    0.280710E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.414711E+02    0.279324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.448129E+02    0.292289E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133624E+03   -0.465674E+02    0.317567E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133564E+03   -0.460959E+02    0.349411E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.433760E+02    0.378898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.396920E+02    0.395054E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.391657E+02    0.234891E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.371541E+02    0.237027E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.386688E+02    0.220250E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.408663E+02    0.223967E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.408071E+02    0.242206E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.384596E+02    0.250721E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.365369E+02    0.262351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.353834E+02    0.250028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.352045E+02    0.234182E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.359843E+02    0.219578E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.378056E+02    0.207474E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.399693E+02    0.203148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.419302E+02    0.207526E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.432339E+02    0.218740E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.434348E+02    0.234480E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.424145E+02    0.251057E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.405326E+02    0.263404E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.384596E+02    0.266943E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.364878E+02    0.289913E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.334349E+02    0.277332E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.321277E+02    0.251956E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.326415E+02    0.222877E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.347353E+02    0.198718E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.383441E+02    0.181384E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.420709E+02    0.180426E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.451887E+02    0.193628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.470540E+02    0.215536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.465014E+02    0.244911E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.439470E+02    0.272305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.401864E+02    0.289241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669483.171992881     
  ps_ts2 prof sum =   669094.284652761     
  trcom prof sum =    669094.284652761     
  ps_ts2 cur sum  =   10016.0452317459     
  trcom cur sum  =    10016.0452317459     
  
  antenna # iant =            2
  powecha_use(iant) =    668089.713833130     
  ps_ts2 prof sum =   667703.810522556     
  trcom prof sum =    667703.810522555     
  ps_ts2 cur sum  =   12329.2416621147     
  trcom cur sum  =    12329.2416621146     
  
  antenna # iant =            3
  powecha_use(iant) =    533068.199977770     
  ps_ts2 prof sum =   532742.133422282     
  trcom prof sum =    532742.133422282     
  ps_ts2 cur sum  =   6778.23620409434     
  trcom cur sum  =    6778.23620409435     
  
  antenna # iant =            4
  powecha_use(iant) =    577145.936603912     
  ps_ts2 prof sum =   576835.570703744     
  trcom prof sum =    576835.570703744     
  ps_ts2 cur sum  =   9593.61112718645     
  trcom cur sum  =    9593.61112718644     
  
  antenna # iant =            5
  powecha_use(iant) =    556601.263941549     
  ps_ts2 prof sum =   556308.227486419     
  trcom prof sum =    556308.227486419     
  ps_ts2 cur sum  =   11410.7140780263     
  trcom cur sum  =    11410.7140780263     
  
  Total ECH heating:      3002684.02678776     
  Total Current Drive:    50127.8483031676     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3793
 TA= 4.05000E+00 CPU TIME= 1.59180E-01 SECONDS.  DT= 2.25197E-04
  
 TEC1=    4.04999999999994     
 TEC2=    4.05499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5071058333331     
  %check_save_state: izleft hours =    69.4844444444444     
 --> plasma_hash("gframe"): TA= 4.050000E+00 NSTEP=  3793 Hash code:   85898448
 ->PRGCHK: bdy curvature ratio at t= 4.0550E+00 seconds is:  5.7146E-02
% MHDEQ: TG1=     4.050000 ; TG2=     4.055000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2300E-03 SECONDS
   DATA R*BT AT EDGE:  2.7575E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7146E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.050000 TO TG2=    4.055000 @ NSTEP     3793
   GFRAME TG2 MOMENTS CHECKSUM:  2.4535071862840D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0550E+00  4.0600E+00 total power(Watts):  2.9928E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.05500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.383964E+02    0.375834E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.363811E+02    0.377349E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.377191E+02    0.360640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.400097E+02    0.364848E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.400273E+02    0.384777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.376627E+02    0.392957E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.356219E+02    0.405343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.345929E+02    0.390914E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.342424E+02    0.374598E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.352355E+02    0.357153E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.369733E+02    0.345198E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.390387E+02    0.341784E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.410999E+02    0.346704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.423907E+02    0.360057E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.425655E+02    0.378116E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.416211E+02    0.395552E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.398195E+02    0.407530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.376325E+02    0.410970E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.357123E+02    0.434877E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.326930E+02    0.418456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.313434E+02    0.391048E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.318074E+02    0.360328E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.340089E+02    0.333548E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.373347E+02    0.318404E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.411609E+02    0.317428E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.443846E+02    0.332045E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.462366E+02    0.358523E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133436E+03   -0.457400E+02    0.391550E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.431099E+02    0.420794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.394101E+02    0.436553E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.391321E+02    0.291884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.371174E+02    0.293876E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.385412E+02    0.277349E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.408380E+02    0.280661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.408812E+02    0.298958E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.385218E+02    0.307381E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.365896E+02    0.319065E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.353436E+02    0.307036E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.351643E+02    0.290744E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.360468E+02    0.274670E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.377789E+02    0.262932E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.399531E+02    0.258529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.419108E+02    0.263362E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.432150E+02    0.275452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.434121E+02    0.292045E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.424920E+02    0.308351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.405974E+02    0.320726E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.384140E+02    0.324782E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.365249E+02    0.347885E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.334738E+02    0.333809E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.320867E+02    0.308445E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.325216E+02    0.279386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.347056E+02    0.253356E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.382219E+02    0.236771E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.420515E+02    0.235157E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.454059E+02    0.247393E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133707E+03   -0.470552E+02    0.272635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133636E+03   -0.466064E+02    0.302801E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.439090E+02    0.331474E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.402324E+02    0.347927E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.383705E+02    0.432951E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.363529E+02    0.433908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.378114E+02    0.416299E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.401055E+02    0.421426E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.401017E+02    0.442328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.377218E+02    0.449890E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.357638E+02    0.461292E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.346467E+02    0.446905E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.344077E+02    0.429275E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.353241E+02    0.411987E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.369771E+02    0.400619E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.391538E+02    0.397067E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.411094E+02    0.403340E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.425005E+02    0.417246E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.426558E+02    0.436279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.416895E+02    0.453974E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.398702E+02    0.465442E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.376743E+02    0.468063E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.357295E+02    0.491316E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.327195E+02    0.473720E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.313924E+02    0.445861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.317942E+02    0.414787E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.339239E+02    0.388423E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.373627E+02    0.372812E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.411985E+02    0.372766E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133744E+03   -0.446491E+02    0.388055E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133016E+03   -0.463649E+02    0.417220E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132828E+03   -0.459451E+02    0.451357E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.433865E+02    0.479400E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134810E+03   -0.395410E+02    0.494048E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.386487E+02    0.336133E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.366364E+02    0.337944E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.380644E+02    0.320962E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.403593E+02    0.324659E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.402834E+02    0.344579E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.380253E+02    0.352437E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.360917E+02    0.364383E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.348566E+02    0.351530E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.346865E+02    0.334418E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.355754E+02    0.317949E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.373089E+02    0.306255E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.393738E+02    0.302791E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.413311E+02    0.307811E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.427380E+02    0.319618E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.429254E+02    0.336992E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.419932E+02    0.354165E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.400916E+02    0.366769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.380109E+02    0.369994E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.360057E+02    0.394050E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.331593E+02    0.377725E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.316959E+02    0.351693E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.320534E+02    0.322253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.343359E+02    0.295496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.376588E+02    0.280483E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.414841E+02    0.279098E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.448276E+02    0.292055E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.465823E+02    0.317334E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.461110E+02    0.349230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.433905E+02    0.378748E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.397056E+02    0.394858E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.391774E+02    0.234602E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.371655E+02    0.236742E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.385822E+02    0.220789E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.408782E+02    0.223687E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.408201E+02    0.241922E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.384725E+02    0.250441E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.365480E+02    0.262118E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.353950E+02    0.249758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.352100E+02    0.233933E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.359956E+02    0.219291E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.378164E+02    0.207218E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.399815E+02    0.202900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.419430E+02    0.207265E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.432466E+02    0.218464E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.434483E+02    0.234185E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.424268E+02    0.250788E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.405462E+02    0.263161E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.384717E+02    0.266708E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.364995E+02    0.289698E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.334463E+02    0.277093E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.321389E+02    0.251692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.326531E+02    0.222598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.347469E+02    0.198487E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.381609E+02    0.182935E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.420824E+02    0.180241E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.452009E+02    0.193417E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.468415E+02    0.216795E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.465163E+02    0.244635E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134645E+03   -0.439607E+02    0.272076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.401985E+02    0.289019E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664556.746081701     
  ps_ts2 prof sum =   664140.152087689     
  trcom prof sum =    664140.152087688     
  ps_ts2 cur sum  =   9950.75486474272     
  trcom cur sum  =    9950.75486474272     
  
  antenna # iant =            2
  powecha_use(iant) =    667916.656837105     
  ps_ts2 prof sum =   667531.222763309     
  trcom prof sum =    667531.222763308     
  ps_ts2 cur sum  =   12333.2336069532     
  trcom cur sum  =    12333.2336069532     
  
  antenna # iant =            3
  powecha_use(iant) =    532718.365457589     
  ps_ts2 prof sum =   532390.723733605     
  trcom prof sum =    532390.723733606     
  ps_ts2 cur sum  =   6783.24637216155     
  trcom cur sum  =    6783.24637216156     
  
  antenna # iant =            4
  powecha_use(iant) =    571506.945112518     
  ps_ts2 prof sum =   571194.687827948     
  trcom prof sum =    571194.687827948     
  ps_ts2 cur sum  =   9506.73113621599     
  trcom cur sum  =    9506.73113621599     
  
  antenna # iant =            5
  powecha_use(iant) =    556051.602525335     
  ps_ts2 prof sum =   555737.639624083     
  trcom prof sum =    555737.639624083     
  ps_ts2 cur sum  =   11402.2217685211     
  trcom cur sum  =    11402.2217685211     
  
  Total ECH heating:      2990994.42603663     
  Total Current Drive:    49976.1877485946     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3802
 TA= 4.05500E+00 CPU TIME= 1.59290E-01 SECONDS.  DT= 6.64601E-04
  
 TEC1=    4.05499999999994     
 TEC2=    4.05999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5249211111109     
  %check_save_state: izleft hours =    69.4666666666667     
 --> plasma_hash("gframe"): TA= 4.055000E+00 NSTEP=  3802 Hash code:   57052310
 ->PRGCHK: bdy curvature ratio at t= 4.0600E+00 seconds is:  5.7224E-02
% MHDEQ: TG1=     4.055000 ; TG2=     4.060000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7224E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.055000 TO TG2=    4.060000 @ NSTEP     3802
   GFRAME TG2 MOMENTS CHECKSUM:  2.4534384982588D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.30892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.55564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.77463E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -3.91672E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.96335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  6.49385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.23610E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.33869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.78316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.12370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  5.52458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -5.86737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.32699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.20834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.45025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.74676E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.03060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.04000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.77452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.77452E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0600E+00  4.0650E+00 total power(Watts):  2.9890E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.06000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.383948E+02    0.375706E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.363802E+02    0.377218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.377174E+02    0.360532E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.400079E+02    0.364732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.400258E+02    0.384645E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.376613E+02    0.392826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.357193E+02    0.404695E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.345916E+02    0.390789E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.342408E+02    0.374485E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.352341E+02    0.357051E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.369716E+02    0.345108E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.390384E+02    0.341692E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.410979E+02    0.346607E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.423889E+02    0.359942E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.425638E+02    0.377982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134955E+03   -0.416197E+02    0.395410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.398181E+02    0.407383E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.376311E+02    0.410829E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.357115E+02    0.434704E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.326919E+02    0.418320E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137674E+03   -0.313420E+02    0.390928E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.318056E+02    0.360235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.340075E+02    0.333469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.373330E+02    0.318328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.410512E+02    0.318023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.444969E+02    0.331318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133476E+03   -0.462347E+02    0.358399E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.457384E+02    0.391393E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.431087E+02    0.420627E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.394097E+02    0.436368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.391307E+02    0.291813E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.371172E+02    0.293803E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.385408E+02    0.277281E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.408368E+02    0.280602E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.407722E+02    0.299593E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.385200E+02    0.307300E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.365878E+02    0.318987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.353422E+02    0.306955E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.351629E+02    0.290677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.360464E+02    0.274597E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.377777E+02    0.262871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.399463E+02    0.258503E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.419092E+02    0.263300E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.432134E+02    0.275386E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.434107E+02    0.291966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.423806E+02    0.308955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.405956E+02    0.320627E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.384112E+02    0.324704E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.365233E+02    0.347794E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.334717E+02    0.333731E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.320854E+02    0.308371E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.325202E+02    0.279323E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.347061E+02    0.253289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.382213E+02    0.236709E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.419452E+02    0.235875E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.451799E+02    0.248828E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133711E+03   -0.470532E+02    0.272566E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.466045E+02    0.302717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.440204E+02    0.330743E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.402306E+02    0.347831E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.383694E+02    0.432780E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.363517E+02    0.433740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.378103E+02    0.416151E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.401045E+02    0.421262E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.401007E+02    0.442136E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.377210E+02    0.449694E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.357634E+02    0.461086E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.346457E+02    0.446720E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.344066E+02    0.429121E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.353229E+02    0.411847E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.369756E+02    0.400485E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.391540E+02    0.396926E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.411079E+02    0.403192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.424996E+02    0.417077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.426548E+02    0.436087E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.416895E+02    0.453753E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.398697E+02    0.465232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.376742E+02    0.467853E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.357291E+02    0.491130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.327190E+02    0.473535E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.313911E+02    0.445696E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.317927E+02    0.414657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.340182E+02    0.387733E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.373610E+02    0.372692E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.411968E+02    0.372638E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.446475E+02    0.387908E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133025E+03   -0.463640E+02    0.417035E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132838E+03   -0.459447E+02    0.451123E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133525E+03   -0.433862E+02    0.479178E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.395409E+02    0.493847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.386472E+02    0.336040E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.366349E+02    0.337860E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.380623E+02    0.320875E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.403576E+02    0.324571E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.402817E+02    0.344483E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.380249E+02    0.352331E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.360901E+02    0.364270E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.348551E+02    0.351438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.346849E+02    0.334338E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.355743E+02    0.317870E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.373073E+02    0.306177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.393715E+02    0.302718E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.413293E+02    0.307727E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.426251E+02    0.320198E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.429235E+02    0.336905E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.418810E+02    0.354662E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.400899E+02    0.366651E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.380092E+02    0.369876E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.360043E+02    0.393919E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.331576E+02    0.377606E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.316946E+02    0.351605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.320521E+02    0.322184E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.343345E+02    0.295426E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.376575E+02    0.280423E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.414826E+02    0.279035E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.448258E+02    0.291980E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133578E+03   -0.465803E+02    0.317251E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.461091E+02    0.349120E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.433887E+02    0.378613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.397042E+02    0.394711E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.391766E+02    0.234543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.371645E+02    0.236680E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.385811E+02    0.220753E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.408775E+02    0.223635E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.408188E+02    0.241857E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.384706E+02    0.250382E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.365467E+02    0.262058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.352073E+02    0.251306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.352089E+02    0.233871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.360879E+02    0.218419E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.378161E+02    0.207198E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.399803E+02    0.202896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.419424E+02    0.207249E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.432459E+02    0.218429E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.433388E+02    0.234906E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.424259E+02    0.250723E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.405446E+02    0.263097E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.384700E+02    0.266650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.363033E+02    0.291123E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.334452E+02    0.277038E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.321380E+02    0.251631E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.326520E+02    0.222550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.347465E+02    0.198488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.381607E+02    0.182973E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.420822E+02    0.180281E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.452003E+02    0.193432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134246E+03   -0.468407E+02    0.216763E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133948E+03   -0.465150E+02    0.244564E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.437364E+02    0.273478E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.401970E+02    0.288949E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664306.070090569     
  ps_ts2 prof sum =   663912.327819588     
  trcom prof sum =    663912.327819588     
  ps_ts2 cur sum  =   9947.30853805623     
  trcom cur sum  =    9947.30853805622     
  
  antenna # iant =            2
  powecha_use(iant) =    665993.115376844     
  ps_ts2 prof sum =   665600.594712812     
  trcom prof sum =    665600.594712812     
  ps_ts2 cur sum  =   12297.9114958160     
  trcom cur sum  =    12297.9114958160     
  
  antenna # iant =            3
  powecha_use(iant) =    532798.927200513     
  ps_ts2 prof sum =   532484.653295046     
  trcom prof sum =    532484.653295046     
  ps_ts2 cur sum  =   6786.06801278050     
  trcom cur sum  =    6786.06801278051     
  
  antenna # iant =            4
  powecha_use(iant) =    569233.061824997     
  ps_ts2 prof sum =   568920.920916569     
  trcom prof sum =    568920.920916569     
  ps_ts2 cur sum  =   9468.31162395698     
  trcom cur sum  =    9468.31162395696     
  
  antenna # iant =            5
  powecha_use(iant) =    556701.605731740     
  ps_ts2 prof sum =   556367.871191632     
  trcom prof sum =    556367.871191632     
  ps_ts2 cur sum  =   11418.0183059976     
  trcom cur sum  =    11418.0183059976     
  
  Total ECH heating:      2987286.36793565     
  Total Current Drive:    49917.6179766073     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3807
 TA= 4.06000E+00 CPU TIME= 1.64199E-01 SECONDS.  DT= 1.46020E-03
  
 TEC1=    4.05999999999994     
 TEC2=    4.06499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5407152777773     
  %check_save_state: izleft hours =    69.4508333333333     
 --> plasma_hash("gframe"): TA= 4.060000E+00 NSTEP=  3807 Hash code:   22020982
 ->PRGCHK: bdy curvature ratio at t= 4.0650E+00 seconds is:  5.7302E-02
% MHDEQ: TG1=     4.060000 ; TG2=     4.065000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7579E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7302E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.060000 TO TG2=    4.065000 @ NSTEP     3807
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533698102335D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0650E+00  4.0700E+00 total power(Watts):  2.9891E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.06500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.383931E+02    0.375555E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.363784E+02    0.377072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.377155E+02    0.360393E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.400060E+02    0.364583E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.400240E+02    0.384489E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.376595E+02    0.392675E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.357181E+02    0.404548E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.345900E+02    0.390641E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.342393E+02    0.374352E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.352321E+02    0.356924E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.369698E+02    0.344983E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.390374E+02    0.341556E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.409872E+02    0.347097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134902E+03   -0.423867E+02    0.359790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.425620E+02    0.377821E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.416180E+02    0.395249E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.398166E+02    0.407227E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.376244E+02    0.410694E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.357104E+02    0.434528E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.326907E+02    0.418174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.313405E+02    0.390793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.318045E+02    0.360105E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.340051E+02    0.333353E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.373312E+02    0.318210E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.410489E+02    0.317896E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.444946E+02    0.331182E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.462326E+02    0.358240E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133452E+03   -0.457368E+02    0.391214E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.432208E+02    0.420007E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.394085E+02    0.436179E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.391282E+02    0.291707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.371161E+02    0.293684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.385389E+02    0.277181E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.408340E+02    0.280505E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.407698E+02    0.299475E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.385177E+02    0.307183E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.364864E+02    0.319564E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.353402E+02    0.306849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.351603E+02    0.290580E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.360442E+02    0.274511E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.377754E+02    0.262783E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.399439E+02    0.258403E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.419068E+02    0.263205E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.432105E+02    0.275287E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.434083E+02    0.291852E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.423790E+02    0.308828E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.405929E+02    0.320505E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.384099E+02    0.324575E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.365213E+02    0.347666E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.334698E+02    0.333615E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.320835E+02    0.308258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.325183E+02    0.279235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.347038E+02    0.253207E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.382190E+02    0.236634E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.419430E+02    0.235799E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.451772E+02    0.248736E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.470503E+02    0.272469E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133647E+03   -0.466019E+02    0.302581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.440181E+02    0.330605E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.402285E+02    0.347698E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.383689E+02    0.432595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.363508E+02    0.433561E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.378089E+02    0.415993E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.401032E+02    0.421092E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.400998E+02    0.441934E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.377200E+02    0.449494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.357626E+02    0.460885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.344524E+02    0.447333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.344056E+02    0.428957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.353215E+02    0.411701E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.369740E+02    0.400336E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.391539E+02    0.396768E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.411063E+02    0.403036E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.426107E+02    0.416448E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.426538E+02    0.435889E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.416884E+02    0.453538E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.398691E+02    0.465017E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.376732E+02    0.467650E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.357278E+02    0.490946E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.327183E+02    0.473347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.313907E+02    0.445511E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.317914E+02    0.414517E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.340166E+02    0.387591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.373595E+02    0.372543E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.411949E+02    0.372485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.446459E+02    0.387739E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133034E+03   -0.463626E+02    0.416854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132847E+03   -0.459440E+02    0.450888E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.431584E+02    0.479518E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.395407E+02    0.493637E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.42 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.386448E+02    0.335918E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.366329E+02    0.337736E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.380606E+02    0.320754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.403556E+02    0.324433E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.402796E+02    0.344357E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.380243E+02    0.352192E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.360882E+02    0.364129E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.348533E+02    0.351312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.346833E+02    0.334216E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.355720E+02    0.317756E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.373050E+02    0.306063E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.393690E+02    0.302604E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.413268E+02    0.307604E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.426228E+02    0.320072E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.429214E+02    0.336761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.418789E+02    0.354520E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.400879E+02    0.366502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.380076E+02    0.369726E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.360029E+02    0.393768E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.329709E+02    0.378649E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.316034E+02    0.352144E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.320501E+02    0.322071E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.343320E+02    0.295321E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.376551E+02    0.280325E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.413732E+02    0.279672E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.448232E+02    0.291860E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133585E+03   -0.465777E+02    0.317111E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133525E+03   -0.461069E+02    0.348967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.433869E+02    0.378450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.396974E+02    0.394577E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.391745E+02    0.234470E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.371618E+02    0.236609E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.385789E+02    0.220702E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.408750E+02    0.223576E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.408163E+02    0.241774E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.384683E+02    0.250294E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.365444E+02    0.261969E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.352051E+02    0.251235E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.352070E+02    0.233803E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.360862E+02    0.218367E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.378148E+02    0.207173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.399781E+02    0.202876E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.419400E+02    0.207223E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.432433E+02    0.218380E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.433359E+02    0.234834E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.424233E+02    0.250634E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.405420E+02    0.263008E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.384686E+02    0.266558E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.363010E+02    0.291018E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.334429E+02    0.276950E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.321360E+02    0.251551E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.325634E+02    0.223362E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.347436E+02    0.198485E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.382547E+02    0.182121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.420799E+02    0.180303E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.451979E+02    0.193430E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.468378E+02    0.216723E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.462839E+02    0.245969E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.437337E+02    0.273385E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.400895E+02    0.289569E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659899.458990389     
  ps_ts2 prof sum =   659518.635362040     
  trcom prof sum =    659518.635362040     
  ps_ts2 cur sum  =   9878.96064740875     
  trcom cur sum  =    9878.96064740875     
  
  antenna # iant =            2
  powecha_use(iant) =    667746.289230542     
  ps_ts2 prof sum =   667361.119070513     
  trcom prof sum =    667361.119070513     
  ps_ts2 cur sum  =   12324.0975685350     
  trcom cur sum  =    12324.0975685350     
  
  antenna # iant =            3
  powecha_use(iant) =    533322.777427615     
  ps_ts2 prof sum =   532997.708157578     
  trcom prof sum =    532997.708157579     
  ps_ts2 cur sum  =   6792.66093344139     
  trcom cur sum  =    6792.66093344140     
  
  antenna # iant =            4
  powecha_use(iant) =    573463.796138518     
  ps_ts2 prof sum =   573128.743400655     
  trcom prof sum =    573128.743400654     
  ps_ts2 cur sum  =   9535.36748032129     
  trcom cur sum  =    9535.36748032128     
  
  antenna # iant =            5
  powecha_use(iant) =    554704.177087525     
  ps_ts2 prof sum =   554370.426004572     
  trcom prof sum =    554370.426004572     
  ps_ts2 cur sum  =   11368.3400078253     
  trcom cur sum  =    11368.3400078253     
  
  Total ECH heating:      2987376.63199536     
  Total Current Drive:    49899.4266375318     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3810
 TA= 4.06500E+00 CPU TIME= 1.46132E-01 SECONDS.  DT= 2.14320E-03
  
 TEC1=    4.06499999999994     
 TEC2=    4.06999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5573877777777     
  %check_save_state: izleft hours =    69.4341666666667     
 --> plasma_hash("gframe"): TA= 4.065000E+00 NSTEP=  3810 Hash code:  106180645
 ->PRGCHK: bdy curvature ratio at t= 4.0700E+00 seconds is:  5.7382E-02
% MHDEQ: TG1=     4.065000 ; TG2=     4.070000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4650E-03 SECONDS
   DATA R*BT AT EDGE:  2.7581E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7382E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.065000 TO TG2=    4.070000 @ NSTEP     3810
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533011222083D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.34136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.57715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.82205E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.44166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.94448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.19994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.13457E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.11232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  5.04646E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.62303E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -6.02297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  5.85602E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -4.07255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.28919E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.20810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.46040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.24129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.92122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.96465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.36081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.36081E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0700E+00  4.0750E+00 total power(Watts):  2.9910E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.07000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.383893E+02    0.375398E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.363747E+02    0.376923E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.377114E+02    0.360255E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.400019E+02    0.364443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.400200E+02    0.384323E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.376559E+02    0.392513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.357146E+02    0.404384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.345867E+02    0.390485E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.342356E+02    0.374210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.352282E+02    0.356798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.369659E+02    0.344863E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.390344E+02    0.341436E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.410913E+02    0.346345E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.423824E+02    0.359642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.425577E+02    0.377657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.416142E+02    0.395073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.398131E+02    0.407050E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.376228E+02    0.410516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.357076E+02    0.434330E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.326875E+02    0.418012E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137688E+03   -0.313372E+02    0.390648E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.318010E+02    0.359982E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.340012E+02    0.333250E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.373269E+02    0.318113E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.410443E+02    0.317793E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.444897E+02    0.331061E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.462279E+02    0.358084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133459E+03   -0.457326E+02    0.391024E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.431043E+02    0.420238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.394056E+02    0.435967E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.391240E+02    0.291626E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.371127E+02    0.293600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.385354E+02    0.277109E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.408295E+02    0.280431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.407651E+02    0.299392E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.385133E+02    0.307091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.365812E+02    0.318768E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.353363E+02    0.306758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.351563E+02    0.290499E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.360401E+02    0.274452E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.377711E+02    0.262723E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.399397E+02    0.258344E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.419020E+02    0.263137E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.432059E+02    0.275219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.434034E+02    0.291761E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.423759E+02    0.308718E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.405885E+02    0.320411E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.384055E+02    0.324473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.365175E+02    0.347546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.334659E+02    0.333514E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.320793E+02    0.308181E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.325145E+02    0.279175E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.347003E+02    0.253153E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.382153E+02    0.236590E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.419393E+02    0.235754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134713E+03   -0.451724E+02    0.248676E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.470453E+02    0.272388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133651E+03   -0.465968E+02    0.302480E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134391E+03   -0.440134E+02    0.330480E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.402241E+02    0.347571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.383661E+02    0.432388E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.363479E+02    0.433365E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.378056E+02    0.415815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.400999E+02    0.420901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.400976E+02    0.441698E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.377175E+02    0.449269E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.357600E+02    0.460664E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.346432E+02    0.446313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.344027E+02    0.428773E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.353182E+02    0.411538E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.369704E+02    0.400173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.391512E+02    0.396599E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.411026E+02    0.402857E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.424950E+02    0.416707E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.426508E+02    0.435664E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134611E+03   -0.416861E+02    0.453286E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.398669E+02    0.464774E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.376712E+02    0.467414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.357261E+02    0.490724E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.327162E+02    0.473140E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.313883E+02    0.445312E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.317883E+02    0.414360E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.340132E+02    0.387439E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.373555E+02    0.372394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.411908E+02    0.372321E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133767E+03   -0.446417E+02    0.387549E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133042E+03   -0.463590E+02    0.416642E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132857E+03   -0.459418E+02    0.450614E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133545E+03   -0.433838E+02    0.478690E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.395390E+02    0.493396E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.386407E+02    0.335801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.366288E+02    0.337625E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.380559E+02    0.320656E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.403511E+02    0.324326E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.402752E+02    0.344234E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.380213E+02    0.352063E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.360845E+02    0.363989E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.348494E+02    0.351192E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.346793E+02    0.334110E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.355684E+02    0.317656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.373008E+02    0.305972E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.393647E+02    0.302511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.413223E+02    0.307500E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.426180E+02    0.319959E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.429166E+02    0.336647E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.419848E+02    0.353774E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.400838E+02    0.366352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.380036E+02    0.369580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.359990E+02    0.393616E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.331529E+02    0.377321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.316891E+02    0.351372E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.320465E+02    0.321975E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.343280E+02    0.295248E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.376508E+02    0.280254E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.414754E+02    0.278866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.448183E+02    0.291767E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133589E+03   -0.465726E+02    0.316997E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133531E+03   -0.461021E+02    0.348821E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.433819E+02    0.378290E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.396951E+02    0.394400E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.391705E+02    0.234428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.371586E+02    0.236567E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.385753E+02    0.220682E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.408711E+02    0.223553E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.408116E+02    0.241737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.384641E+02    0.250246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.365398E+02    0.261911E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.352012E+02    0.251179E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.352026E+02    0.233770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.360842E+02    0.218353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.378116E+02    0.207181E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.399760E+02    0.202889E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.419362E+02    0.207230E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.432395E+02    0.218361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.433312E+02    0.234798E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.424189E+02    0.250578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.405371E+02    0.262946E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.384644E+02    0.266497E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.362969E+02    0.290943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.334392E+02    0.276888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.321330E+02    0.251489E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.326471E+02    0.222482E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.347412E+02    0.198506E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.381563E+02    0.183026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.420780E+02    0.180352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.451941E+02    0.193470E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134248E+03   -0.468335E+02    0.216706E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133954E+03   -0.465073E+02    0.244421E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.437289E+02    0.273306E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.401901E+02    0.288766E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659827.770512172     
  ps_ts2 prof sum =   659436.048618564     
  trcom prof sum =    659436.048618564     
  ps_ts2 cur sum  =   9867.89360919164     
  trcom cur sum  =    9867.89360919164     
  
  antenna # iant =            2
  powecha_use(iant) =    668463.983495932     
  ps_ts2 prof sum =   668068.949806958     
  trcom prof sum =    668068.949806958     
  ps_ts2 cur sum  =   12325.0637484150     
  trcom cur sum  =    12325.0637484150     
  
  antenna # iant =            3
  powecha_use(iant) =    532571.997455696     
  ps_ts2 prof sum =   532258.781783113     
  trcom prof sum =    532258.781783113     
  ps_ts2 cur sum  =   6778.07970986833     
  trcom cur sum  =    6778.07970986833     
  
  antenna # iant =            4
  powecha_use(iant) =    574202.364172220     
  ps_ts2 prof sum =   573892.062466150     
  trcom prof sum =    573892.062466149     
  ps_ts2 cur sum  =   9537.48183539986     
  trcom cur sum  =    9537.48183539985     
  
  antenna # iant =            5
  powecha_use(iant) =    555930.615203609     
  ps_ts2 prof sum =   555596.997323123     
  trcom prof sum =    555596.997323123     
  ps_ts2 cur sum  =   11384.2934118904     
  trcom cur sum  =    11384.2934118904     
  
  Total ECH heating:      2989252.83999791     
  Total Current Drive:    49892.8123147653     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3813
 TA= 4.07000E+00 CPU TIME= 1.59252E-01 SECONDS.  DT= 2.22260E-04
  
 TEC1=    4.06999999999994     
 TEC2=    4.07499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5752819444442     
  %check_save_state: izleft hours =    69.4163888888889     
 --> plasma_hash("gframe"): TA= 4.070000E+00 NSTEP=  3813 Hash code:   72872062
 ->PRGCHK: bdy curvature ratio at t= 4.0750E+00 seconds is:  5.7462E-02
% MHDEQ: TG1=     4.070000 ; TG2=     4.075000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7583E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7462E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.070000 TO TG2=    4.075000 @ NSTEP     3813
   GFRAME TG2 MOMENTS CHECKSUM:  2.4532324341830D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.0750E+00  4.0800E+00 total power(Watts):  2.9939E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.07500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.383874E+02    0.375239E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.363725E+02    0.376769E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.377091E+02    0.360117E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.399995E+02    0.364291E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.400180E+02    0.384157E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.376538E+02    0.392358E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.357127E+02    0.404234E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.345848E+02    0.390334E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.342335E+02    0.374059E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.352260E+02    0.356664E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.369637E+02    0.344739E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.390332E+02    0.341296E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.410887E+02    0.346211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.423800E+02    0.359493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.425554E+02    0.377486E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.416121E+02    0.394901E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.398114E+02    0.406880E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.376229E+02    0.410344E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.357064E+02    0.434148E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.326859E+02    0.417858E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.313357E+02    0.390509E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.317990E+02    0.359857E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.339988E+02    0.333139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.373242E+02    0.318004E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.410412E+02    0.317674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.444869E+02    0.330932E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133497E+03   -0.462254E+02    0.357920E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133468E+03   -0.457305E+02    0.390836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.432164E+02    0.419602E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.394048E+02    0.435764E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.391214E+02    0.291523E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.371108E+02    0.293488E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.385339E+02    0.276999E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.408271E+02    0.280308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.407622E+02    0.299278E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.385107E+02    0.306979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.363816E+02    0.320056E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.353342E+02    0.306649E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.351540E+02    0.290400E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.360374E+02    0.274340E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.377679E+02    0.262615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.399366E+02    0.258240E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.418984E+02    0.263028E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.432029E+02    0.275100E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.433998E+02    0.291651E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.423740E+02    0.308591E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.405858E+02    0.320285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.384029E+02    0.324359E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.365149E+02    0.347424E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.334635E+02    0.333405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.320766E+02    0.308076E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.325113E+02    0.279082E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.346977E+02    0.253050E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.382124E+02    0.236491E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.419369E+02    0.235647E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.451692E+02    0.248561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133723E+03   -0.470421E+02    0.272265E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.465937E+02    0.302354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.440106E+02    0.330348E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.402216E+02    0.347438E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.383647E+02    0.432201E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.363467E+02    0.433182E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.378039E+02    0.415645E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.400984E+02    0.420722E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.400963E+02    0.441500E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.377169E+02    0.449054E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.357593E+02    0.460452E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.344490E+02    0.446924E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.344011E+02    0.428601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.353164E+02    0.411377E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.369686E+02    0.400015E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.391448E+02    0.396448E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.411008E+02    0.402683E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134267E+03   -0.426056E+02    0.416068E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.426498E+02    0.435449E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.416847E+02    0.453069E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.398662E+02    0.464550E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.376703E+02    0.467204E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.357265E+02    0.490512E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.327153E+02    0.472945E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.313870E+02    0.445131E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.317867E+02    0.414211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.339108E+02    0.387881E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.373533E+02    0.372244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.411887E+02    0.372156E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.446389E+02    0.387380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133051E+03   -0.463576E+02    0.416435E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132867E+03   -0.459407E+02    0.450375E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.431555E+02    0.479041E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.395383E+02    0.493190E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.386383E+02    0.335684E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.366261E+02    0.337508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.380533E+02    0.320548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.403484E+02    0.324207E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.402725E+02    0.344102E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.380199E+02    0.351923E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.360821E+02    0.363849E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.348475E+02    0.351065E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.346770E+02    0.334000E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.355654E+02    0.317553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.372985E+02    0.305862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.393620E+02    0.302398E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.413190E+02    0.307390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.426151E+02    0.319841E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.429137E+02    0.336520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.418720E+02    0.354237E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.400815E+02    0.366202E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.380014E+02    0.369429E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.359971E+02    0.393458E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.329655E+02    0.378365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.315971E+02    0.351918E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.320436E+02    0.321874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.343254E+02    0.295140E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.376478E+02    0.280149E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.413659E+02    0.279481E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.448153E+02    0.291646E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133595E+03   -0.465694E+02    0.316865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.460994E+02    0.348674E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.433801E+02    0.378106E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.396949E+02    0.394228E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.391677E+02    0.234332E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.371551E+02    0.236471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.385722E+02    0.220601E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.408679E+02    0.223473E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.408088E+02    0.241624E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.384618E+02    0.250130E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.365374E+02    0.261809E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.351988E+02    0.251077E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.352020E+02    0.233672E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.360814E+02    0.218279E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.378087E+02    0.207116E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.399727E+02    0.202836E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.419329E+02    0.207168E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.432363E+02    0.218277E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.433281E+02    0.234688E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.424161E+02    0.250466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.405352E+02    0.262837E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.384616E+02    0.266381E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.362941E+02    0.290846E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.334362E+02    0.276794E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.321306E+02    0.251397E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.325586E+02    0.223253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.347385E+02    0.198467E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.382492E+02    0.182155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.420750E+02    0.180344E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.451905E+02    0.193439E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134251E+03   -0.468298E+02    0.216630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133959E+03   -0.465041E+02    0.244302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.437261E+02    0.273192E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.400826E+02    0.289387E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662719.627899295     
  ps_ts2 prof sum =   662340.674625000     
  trcom prof sum =    662340.674625001     
  ps_ts2 cur sum  =   9906.88209257063     
  trcom cur sum  =    9906.88209257063     
  
  antenna # iant =            2
  powecha_use(iant) =    670166.376373626     
  ps_ts2 prof sum =   669762.250243858     
  trcom prof sum =    669762.250243857     
  ps_ts2 cur sum  =   12347.0165008295     
  trcom cur sum  =    12347.0165008295     
  
  antenna # iant =            3
  powecha_use(iant) =    532044.299320481     
  ps_ts2 prof sum =   531709.377781635     
  trcom prof sum =    531709.377748892     
  ps_ts2 cur sum  =   6771.20969111103     
  trcom cur sum  =    6771.20969111104     
  
  antenna # iant =            4
  powecha_use(iant) =    572230.609061476     
  ps_ts2 prof sum =   571893.085302887     
  trcom prof sum =    571893.085302886     
  ps_ts2 cur sum  =   9498.49111808498     
  trcom cur sum  =    9498.49111808497     
  
  antenna # iant =            5
  powecha_use(iant) =    556760.023796555     
  ps_ts2 prof sum =   556428.893956829     
  trcom prof sum =    556428.893956829     
  ps_ts2 cur sum  =   11392.9797756161     
  trcom cur sum  =    11392.9797756161     
  
  Total ECH heating:      2992134.28187746     
  Total Current Drive:    49916.5791782122     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3822
 TA= 4.07500E+00 CPU TIME= 1.75132E-01 SECONDS.  DT= 7.37434E-04
  
 TEC1=    4.07499999999994     
 TEC2=    4.07999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.5930241666665     
  %check_save_state: izleft hours =    69.3986111111111     
 --> plasma_hash("gframe"): TA= 4.075000E+00 NSTEP=  3822 Hash code:   56727730
 ->PRGCHK: bdy curvature ratio at t= 4.0800E+00 seconds is:  5.7543E-02
% MHDEQ: TG1=     4.075000 ; TG2=     4.080000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7585E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7543E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.075000 TO TG2=    4.080000 @ NSTEP     3822
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531637461578D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.37497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.59945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.87120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.98561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.38353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.70107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.02937E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.14767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.20480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.45710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.91860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.19946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9= -2.21275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.25003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.20785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.47091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.38567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.80787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.88657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.48964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.48964E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0800E+00  4.0850E+00 total power(Watts):  2.9893E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.08000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.383855E+02    0.375134E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.363709E+02    0.376667E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.377073E+02    0.360025E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.399978E+02    0.364193E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.400161E+02    0.384041E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.376520E+02    0.392247E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.357109E+02    0.404116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.345831E+02    0.390226E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.342317E+02    0.373966E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.352243E+02    0.356581E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.369620E+02    0.344664E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.390259E+02    0.341257E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.410868E+02    0.346131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.423780E+02    0.359398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.425533E+02    0.377375E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.416102E+02    0.394783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.398093E+02    0.406758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.376229E+02    0.410222E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.357050E+02    0.433992E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.326845E+02    0.417737E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.313336E+02    0.390405E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.317973E+02    0.359775E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.339974E+02    0.333074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.373225E+02    0.317937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.410394E+02    0.317611E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.444849E+02    0.330857E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.462232E+02    0.357818E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133475E+03   -0.457285E+02    0.390710E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.432147E+02    0.419452E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.394034E+02    0.435593E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.391204E+02    0.291459E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.371102E+02    0.293430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.385330E+02    0.276948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.408257E+02    0.280260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.407608E+02    0.299218E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.385090E+02    0.306922E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.364785E+02    0.319294E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.353329E+02    0.306592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.351528E+02    0.290351E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.360357E+02    0.274302E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.377671E+02    0.262573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.399353E+02    0.258200E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.418981E+02    0.262984E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.432018E+02    0.275052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.433982E+02    0.291597E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.423734E+02    0.308524E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.405840E+02    0.320220E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.384012E+02    0.324293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.365137E+02    0.347342E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.334622E+02    0.333341E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.320757E+02    0.308017E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.325106E+02    0.279034E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.346971E+02    0.253007E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.382118E+02    0.236460E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.419361E+02    0.235620E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.451682E+02    0.248524E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133727E+03   -0.470403E+02    0.272222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133660E+03   -0.465918E+02    0.302293E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.440086E+02    0.330275E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.402197E+02    0.347359E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.383633E+02    0.432047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.363452E+02    0.433025E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.378024E+02    0.415517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.400966E+02    0.420586E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.400951E+02    0.441320E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.377150E+02    0.448879E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.357583E+02    0.460266E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.344473E+02    0.446761E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.343997E+02    0.428459E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.353148E+02    0.411259E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.369667E+02    0.399901E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.391430E+02    0.396331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.410989E+02    0.402568E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.426039E+02    0.415926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.426483E+02    0.435274E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.416835E+02    0.452866E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.398653E+02    0.464341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.376694E+02    0.467004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.357256E+02    0.490321E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.327144E+02    0.472766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.313857E+02    0.444970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.317849E+02    0.414098E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.340055E+02    0.387204E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.373517E+02    0.372145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.411867E+02    0.372053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133782E+03   -0.446371E+02    0.387257E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133059E+03   -0.463560E+02    0.416287E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132877E+03   -0.459402E+02    0.450139E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.431547E+02    0.478822E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.395378E+02    0.492979E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.386364E+02    0.335614E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.366243E+02    0.337440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.380517E+02    0.320481E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.403466E+02    0.324137E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.402706E+02    0.344021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.380198E+02    0.351831E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.360805E+02    0.363761E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.348458E+02    0.350988E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.346755E+02    0.333933E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.355639E+02    0.317488E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.372970E+02    0.305802E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.393604E+02    0.302340E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.413171E+02    0.307330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.426131E+02    0.319776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.429118E+02    0.336444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.418699E+02    0.354150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.400796E+02    0.366103E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.379998E+02    0.369331E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.359954E+02    0.393348E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.329636E+02    0.378269E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.315950E+02    0.351845E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.320424E+02    0.321811E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.343244E+02    0.295093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.376467E+02    0.280105E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.413645E+02    0.279432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.448131E+02    0.291602E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133599E+03   -0.465675E+02    0.316799E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.460973E+02    0.348584E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.433780E+02    0.377992E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.396947E+02    0.394105E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.67 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.391671E+02    0.234304E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.371548E+02    0.236439E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.385734E+02    0.220592E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.408675E+02    0.223463E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.408083E+02    0.241590E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.384610E+02    0.250094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.365362E+02    0.261763E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.351982E+02    0.251035E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.352014E+02    0.233654E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.360811E+02    0.218277E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.378085E+02    0.207138E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.399727E+02    0.202865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.419338E+02    0.207192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.432359E+02    0.218279E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.433279E+02    0.234658E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.424152E+02    0.250423E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.405342E+02    0.262790E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.384603E+02    0.266346E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.362935E+02    0.290787E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.334355E+02    0.276752E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.321303E+02    0.251354E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.325584E+02    0.223242E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137621E+03   -0.347387E+02    0.198500E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.382497E+02    0.182214E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.420757E+02    0.180406E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.451913E+02    0.193498E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134252E+03   -0.468293E+02    0.216638E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.462749E+02    0.245760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.437249E+02    0.273143E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.400810E+02    0.289330E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661012.334245802     
  ps_ts2 prof sum =   660635.368688646     
  trcom prof sum =    660635.368688647     
  ps_ts2 cur sum  =   9877.53139828426     
  trcom cur sum  =    9877.53139828425     
  
  antenna # iant =            2
  powecha_use(iant) =    666613.447024106     
  ps_ts2 prof sum =   666227.860337266     
  trcom prof sum =    666227.860337266     
  ps_ts2 cur sum  =   12280.0531242519     
  trcom cur sum  =    12280.0531242519     
  
  antenna # iant =            3
  powecha_use(iant) =    532389.495377421     
  ps_ts2 prof sum =   532064.069196497     
  trcom prof sum =    532064.069166222     
  ps_ts2 cur sum  =   6773.25875361759     
  trcom cur sum  =    6773.25875361759     
  
  antenna # iant =            4
  powecha_use(iant) =    572817.550399335     
  ps_ts2 prof sum =   572481.687635425     
  trcom prof sum =    572481.687635425     
  ps_ts2 cur sum  =   9505.69700902315     
  trcom cur sum  =    9505.69700902314     
  
  antenna # iant =            5
  powecha_use(iant) =    556469.838043548     
  ps_ts2 prof sum =   556135.531530351     
  trcom prof sum =    556135.531530351     
  ps_ts2 cur sum  =   11385.8011199065     
  trcom cur sum  =    11385.8011199065     
  
  Total ECH heating:      2987544.51735791     
  Total Current Drive:    49822.3414050834     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3827
 TA= 4.08000E+00 CPU TIME= 1.60298E-01 SECONDS.  DT= 9.35289E-04
  
 TEC1=    4.07999999999994     
 TEC2=    4.08499999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6052213888888     
  %check_save_state: izleft hours =    69.3863888888889     
 --> plasma_hash("gframe"): TA= 4.080000E+00 NSTEP=  3827 Hash code:   88604320
 ->PRGCHK: bdy curvature ratio at t= 4.0850E+00 seconds is:  5.7625E-02
% MHDEQ: TG1=     4.080000 ; TG2=     4.085000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1490E-03 SECONDS
   DATA R*BT AT EDGE:  2.7587E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7625E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.080000 TO TG2=    4.085000 @ NSTEP     3827
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530950581325D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0850E+00  4.0900E+00 total power(Watts):  2.9942E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.08500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.383839E+02    0.375010E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.363692E+02    0.376549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.377057E+02    0.359922E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.399960E+02    0.364075E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.400146E+02    0.383910E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.376507E+02    0.392108E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.357095E+02    0.403985E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.345817E+02    0.390101E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.342302E+02    0.373852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.352233E+02    0.356484E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.369603E+02    0.344580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.390241E+02    0.341171E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.409765E+02    0.346667E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.423762E+02    0.359281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.425516E+02    0.377243E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.416086E+02    0.394639E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.398080E+02    0.406615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.376233E+02    0.410071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.357038E+02    0.433831E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.326833E+02    0.417605E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.313328E+02    0.390283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.317060E+02    0.360323E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.339957E+02    0.333003E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.373208E+02    0.317873E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.410377E+02    0.317547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.444830E+02    0.330778E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.462215E+02    0.357697E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133482E+03   -0.457270E+02    0.390555E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.432135E+02    0.419294E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.394027E+02    0.435415E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.33 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.391189E+02    0.291418E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.371099E+02    0.293379E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.385268E+02    0.276954E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.408243E+02    0.280228E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.407590E+02    0.299169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385075E+02    0.306867E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.364769E+02    0.319230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.353306E+02    0.306539E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.351515E+02    0.290308E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.360346E+02    0.274272E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.377658E+02    0.262548E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.399343E+02    0.258177E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.418970E+02    0.262959E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.432003E+02    0.275024E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.433965E+02    0.291553E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.423660E+02    0.308498E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.405823E+02    0.320158E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.383995E+02    0.324224E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.365120E+02    0.347254E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.334604E+02    0.333271E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.320745E+02    0.307975E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.325096E+02    0.279009E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.346959E+02    0.252985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.382107E+02    0.236449E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.419369E+02    0.235597E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.451672E+02    0.248506E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133729E+03   -0.470387E+02    0.272194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133664E+03   -0.465899E+02    0.302236E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.440067E+02    0.330196E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135553E+03   -0.402180E+02    0.347268E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.383622E+02    0.431877E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.363441E+02    0.432864E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.378011E+02    0.415373E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.400954E+02    0.420431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.400895E+02    0.441136E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.377153E+02    0.448678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.357581E+02    0.460071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.344470E+02    0.446578E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.343990E+02    0.428307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.353136E+02    0.411123E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.369654E+02    0.399772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.391416E+02    0.396193E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.410973E+02    0.402421E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.426026E+02    0.415774E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.426474E+02    0.435089E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134639E+03   -0.416831E+02    0.452660E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.398648E+02    0.464139E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.376688E+02    0.466812E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.357253E+02    0.490133E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.327139E+02    0.472586E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.313850E+02    0.444801E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.317839E+02    0.413969E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.340055E+02    0.387075E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.373501E+02    0.372028E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.411850E+02    0.371929E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133789E+03   -0.446354E+02    0.387108E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133067E+03   -0.463549E+02    0.416106E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132886E+03   -0.459397E+02    0.449919E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.431545E+02    0.478612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.395374E+02    0.492782E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.386346E+02    0.335538E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.366227E+02    0.337359E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.380496E+02    0.320418E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.403448E+02    0.324073E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.402689E+02    0.343941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.380194E+02    0.351731E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.360790E+02    0.363654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.348442E+02    0.350899E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.346736E+02    0.333863E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.355621E+02    0.317421E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.372960E+02    0.305749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.393591E+02    0.302294E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.413155E+02    0.307272E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.426112E+02    0.319704E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.429099E+02    0.336360E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.418680E+02    0.354048E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.400781E+02    0.365986E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.379982E+02    0.369214E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.359943E+02    0.393214E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.329621E+02    0.378155E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.315938E+02    0.351758E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.320409E+02    0.321752E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.343229E+02    0.295046E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.376461E+02    0.280072E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.413630E+02    0.279402E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.448114E+02    0.291553E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133604E+03   -0.465656E+02    0.316727E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133549E+03   -0.460954E+02    0.348477E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.433764E+02    0.377856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.396950E+02    0.393965E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.391661E+02    0.234294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.371542E+02    0.236424E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.385730E+02    0.220597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.408668E+02    0.223466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.408075E+02    0.241571E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.384600E+02    0.250072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.365351E+02    0.261734E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.351976E+02    0.251012E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.352008E+02    0.233633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.360807E+02    0.218282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.378093E+02    0.207155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.399728E+02    0.202896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.419340E+02    0.207217E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.432302E+02    0.218335E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.433272E+02    0.234650E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.424143E+02    0.250402E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.405329E+02    0.262766E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.383577E+02    0.267087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.363891E+02    0.290003E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.334343E+02    0.276723E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.321294E+02    0.251330E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.325582E+02    0.223240E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.347403E+02    0.198523E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.382507E+02    0.182273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.420763E+02    0.180474E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134826E+03   -0.451919E+02    0.193550E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134253E+03   -0.468292E+02    0.216652E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.462739E+02    0.245744E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.437235E+02    0.273111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.400800E+02    0.289289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662083.311876409     
  ps_ts2 prof sum =   661695.333170778     
  trcom prof sum =    661695.333170778     
  ps_ts2 cur sum  =   9889.84339991512     
  trcom cur sum  =    9889.84339991512     
  
  antenna # iant =            2
  powecha_use(iant) =    670930.251065694     
  ps_ts2 prof sum =   670550.066847855     
  trcom prof sum =    670550.066847854     
  ps_ts2 cur sum  =   12350.9385488507     
  trcom cur sum  =    12350.9385488507     
  
  antenna # iant =            3
  powecha_use(iant) =    532435.462979102     
  ps_ts2 prof sum =   532113.806895457     
  trcom prof sum =    532113.806895457     
  ps_ts2 cur sum  =   6773.35031199232     
  trcom cur sum  =    6773.35031199233     
  
  antenna # iant =            4
  powecha_use(iant) =    573288.598929084     
  ps_ts2 prof sum =   572959.031676854     
  trcom prof sum =    572959.031676854     
  ps_ts2 cur sum  =   9507.61003238106     
  trcom cur sum  =    9507.61003238105     
  
  antenna # iant =            5
  powecha_use(iant) =    555502.094654505     
  ps_ts2 prof sum =   555181.868167631     
  trcom prof sum =    555181.868167631     
  ps_ts2 cur sum  =   11361.0416052598     
  trcom cur sum  =    11361.0416052598     
  
  Total ECH heating:      2992500.10675857     
  Total Current Drive:    49882.7838983990     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3831
 TA= 4.08500E+00 CPU TIME= 1.59680E-01 SECONDS.  DT= 1.79276E-03
  
 TEC1=    4.08499999999994     
 TEC2=    4.08999999999994     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6252233333335     
  %check_save_state: izleft hours =    69.3663888888889     
 --> plasma_hash("gframe"): TA= 4.085000E+00 NSTEP=  3831 Hash code:   56714669
 ->PRGCHK: bdy curvature ratio at t= 4.0900E+00 seconds is:  5.7665E-02
% MHDEQ: TG1=     4.085000 ; TG2=     4.090000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7589E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7665E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.085000 TO TG2=    4.090000 @ NSTEP     3831
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530263701073D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.40481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.91482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.46841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.90758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.36909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.03346E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.93599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.17905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  1.73580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.30982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.82597E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.50429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10=  2.82296E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.21527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.20764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.48025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.51382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.70727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.81727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.78270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.78270E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0900E+00  4.0950E+00 total power(Watts):  2.9866E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.09000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.382808E+02    0.375557E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.363701E+02    0.376520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.377066E+02    0.359911E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.399971E+02    0.364059E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.400154E+02    0.383873E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.376514E+02    0.392068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.357102E+02    0.403939E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.345824E+02    0.390060E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.342309E+02    0.373827E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.352244E+02    0.356473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.369617E+02    0.344579E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.390257E+02    0.341177E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.409778E+02    0.346668E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.423774E+02    0.359271E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.425526E+02    0.377210E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.416094E+02    0.394594E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.398087E+02    0.406561E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.376256E+02    0.410009E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.357044E+02    0.433726E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.326836E+02    0.417546E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.313332E+02    0.390246E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.317071E+02    0.360309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.339973E+02    0.333006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.373228E+02    0.317883E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.410398E+02    0.317553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134268E+03   -0.444847E+02    0.330789E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133514E+03   -0.462227E+02    0.357689E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.457278E+02    0.390513E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.432084E+02    0.419232E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.394034E+02    0.435305E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.391216E+02    0.291420E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.371132E+02    0.293380E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.385304E+02    0.276943E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.408276E+02    0.280232E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.407616E+02    0.299175E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.385098E+02    0.306872E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.364790E+02    0.319236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.353332E+02    0.306546E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.351545E+02    0.290306E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.360377E+02    0.274268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.377695E+02    0.262538E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.398347E+02    0.258929E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.419006E+02    0.262951E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.430935E+02    0.275758E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.433995E+02    0.291559E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.423681E+02    0.308510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.405843E+02    0.320167E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.384015E+02    0.324230E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.364138E+02    0.347898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.334574E+02    0.333310E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.320764E+02    0.307967E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.325123E+02    0.278998E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.347001E+02    0.252960E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.382148E+02    0.236421E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.419416E+02    0.235567E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.451710E+02    0.248491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.470423E+02    0.272198E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.463587E+02    0.303588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.440084E+02    0.330217E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.402195E+02    0.347265E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.383628E+02    0.431785E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.363447E+02    0.432764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.378016E+02    0.415315E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.400960E+02    0.420353E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.400923E+02    0.441007E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.377159E+02    0.448544E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.357588E+02    0.459931E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.344476E+02    0.446459E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.343995E+02    0.428221E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.353142E+02    0.411066E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.369660E+02    0.399728E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.391421E+02    0.396156E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.410980E+02    0.402371E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.426033E+02    0.415703E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.426482E+02    0.434978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.416840E+02    0.452513E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.398657E+02    0.463986E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.376695E+02    0.466666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.357262E+02    0.489974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.327147E+02    0.472447E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137391E+03   -0.313855E+02    0.444687E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.317846E+02    0.413913E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.340079E+02    0.387026E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.373511E+02    0.372002E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.410767E+02    0.372472E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133795E+03   -0.446362E+02    0.387067E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133075E+03   -0.463557E+02    0.416029E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.459409E+02    0.449760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134025E+03   -0.431556E+02    0.478440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134877E+03   -0.395383E+02    0.492616E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.386362E+02    0.335543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.366239E+02    0.337368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.380516E+02    0.320424E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.403467E+02    0.324081E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.402705E+02    0.343941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.380163E+02    0.351749E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.360796E+02    0.363642E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.348455E+02    0.350895E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.346752E+02    0.333866E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.355644E+02    0.317430E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.371973E+02    0.306472E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.393612E+02    0.302295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.413180E+02    0.307278E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.426134E+02    0.319713E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.430235E+02    0.335726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.418694E+02    0.354045E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.400792E+02    0.365967E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.378962E+02    0.369783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.359950E+02    0.393173E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.329626E+02    0.378127E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.315959E+02    0.351749E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.320427E+02    0.321755E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.341387E+02    0.296552E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.376491E+02    0.280070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.413662E+02    0.279402E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.448143E+02    0.291563E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.465678E+02    0.316734E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.460968E+02    0.348479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.433773E+02    0.377823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.396972E+02    0.393915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.391704E+02    0.234267E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.371583E+02    0.236396E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.385777E+02    0.220566E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.408715E+02    0.223437E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.408115E+02    0.241550E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.384640E+02    0.250048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.365384E+02    0.261728E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.352012E+02    0.250989E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.352049E+02    0.233603E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.360856E+02    0.218244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.378139E+02    0.207130E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.399784E+02    0.202865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.419393E+02    0.207187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.431287E+02    0.219095E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.433319E+02    0.234622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.424184E+02    0.250382E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.405367E+02    0.262755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.383611E+02    0.267077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.363918E+02    0.290003E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.334374E+02    0.276717E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138029E+03   -0.321329E+02    0.251306E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.325618E+02    0.223214E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.347453E+02    0.198488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.382558E+02    0.182237E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.420820E+02    0.180453E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.451977E+02    0.193518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.468347E+02    0.216625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.462784E+02    0.245723E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.437270E+02    0.273111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.400828E+02    0.289291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660575.213660970     
  ps_ts2 prof sum =   660195.547902019     
  trcom prof sum =    660195.547902019     
  ps_ts2 cur sum  =   9864.25841803486     
  trcom cur sum  =    9864.25841803485     
  
  antenna # iant =            2
  powecha_use(iant) =    668843.681933830     
  ps_ts2 prof sum =   668451.296142235     
  trcom prof sum =    668451.296142235     
  ps_ts2 cur sum  =   12312.0967941249     
  trcom cur sum  =    12312.0967941249     
  
  antenna # iant =            3
  powecha_use(iant) =    532673.013191193     
  ps_ts2 prof sum =   532353.939757378     
  trcom prof sum =    532353.939757379     
  ps_ts2 cur sum  =   6776.05541369925     
  trcom cur sum  =    6776.05541369925     
  
  antenna # iant =            4
  powecha_use(iant) =    569375.983142004     
  ps_ts2 prof sum =   569042.530715027     
  trcom prof sum =    569042.530715026     
  ps_ts2 cur sum  =   9440.56472155187     
  trcom cur sum  =    9440.56472155186     
  
  antenna # iant =            5
  powecha_use(iant) =    555144.833747057     
  ps_ts2 prof sum =   554833.364479067     
  trcom prof sum =    554833.364479067     
  ps_ts2 cur sum  =   11353.2080671210     
  trcom cur sum  =    11353.2080671210     
  
  Total ECH heating:      2984876.67899573     
  Total Current Drive:    49746.1834145319     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3834
 TA= 4.09000E+00 CPU TIME= 1.50756E-01 SECONDS.  DT= 1.20785E-03
  
 TEC1=    4.08999999999994     
 TEC2=    4.09499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6422741666663     
  %check_save_state: izleft hours =    69.3491666666667     
 --> plasma_hash("gframe"): TA= 4.090000E+00 NSTEP=  3834 Hash code:   60774859
 ->PRGCHK: bdy curvature ratio at t= 4.0950E+00 seconds is:  5.7699E-02
% MHDEQ: TG1=     4.090000 ; TG2=     4.095000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7591E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7699E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.090000 TO TG2=    4.095000 @ NSTEP     3834
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529576820820D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.0950E+00  4.1000E+00 total power(Watts):  2.9860E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.09500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.382822E+02    0.375515E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.362716E+02    0.377057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.377085E+02    0.359884E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.399986E+02    0.364029E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.400168E+02    0.383820E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.376526E+02    0.392016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.357113E+02    0.403879E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.343911E+02    0.391121E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.342325E+02    0.373784E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.352260E+02    0.356453E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.369634E+02    0.344573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.390275E+02    0.341172E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.409797E+02    0.346657E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.422676E+02    0.359840E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.425540E+02    0.377163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.416107E+02    0.394537E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.398098E+02    0.406498E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.376278E+02    0.409938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.357056E+02    0.433630E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.326846E+02    0.417478E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.313343E+02    0.390197E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.317085E+02    0.360285E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.339992E+02    0.333004E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.373252E+02    0.317880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.410421E+02    0.317553E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.444871E+02    0.330791E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133519E+03   -0.462244E+02    0.357665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133496E+03   -0.457292E+02    0.390448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134109E+03   -0.432118E+02    0.419137E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.394045E+02    0.435204E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.391246E+02    0.291410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.371104E+02    0.293403E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.385337E+02    0.276924E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.408308E+02    0.280221E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.407646E+02    0.299169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.384099E+02    0.307576E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.364812E+02    0.319232E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.353356E+02    0.306540E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.351573E+02    0.290290E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.360409E+02    0.274245E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.377729E+02    0.262500E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.398388E+02    0.258894E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.419045E+02    0.262919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.430971E+02    0.275738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134802E+03   -0.435140E+02    0.290843E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.423709E+02    0.308505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.405866E+02    0.320168E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.384036E+02    0.324231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.364157E+02    0.347888E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.334603E+02    0.333300E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.320796E+02    0.307956E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.325153E+02    0.278977E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.347964E+02    0.252108E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.382189E+02    0.236371E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.419465E+02    0.235514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134734E+03   -0.451755E+02    0.248447E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133739E+03   -0.470462E+02    0.272180E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.464785E+02    0.302914E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134416E+03   -0.440107E+02    0.330209E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.401142E+02    0.347885E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.383639E+02    0.431685E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.363457E+02    0.432671E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.378030E+02    0.415239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.400973E+02    0.420270E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.400955E+02    0.440890E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.377173E+02    0.448426E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.357598E+02    0.459809E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.344485E+02    0.446349E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.344005E+02    0.428137E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.351192E+02    0.412005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.369672E+02    0.399670E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.390375E+02    0.396621E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.410992E+02    0.402307E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.423798E+02    0.416540E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134465E+03   -0.426495E+02    0.434872E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.416852E+02    0.452387E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.398668E+02    0.463856E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.376707E+02    0.466536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.357273E+02    0.489830E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.327155E+02    0.472319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.313864E+02    0.444583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.317854E+02    0.413847E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.340103E+02    0.386970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.373525E+02    0.371956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.410781E+02    0.372432E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.444063E+02    0.388044E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133082E+03   -0.463571E+02    0.415949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133122E+03   -0.458241E+02    0.449978E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134035E+03   -0.431576E+02    0.478276E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.394327E+02    0.492724E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.386381E+02    0.335541E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.366258E+02    0.337366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.380539E+02    0.320419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.403489E+02    0.324082E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.402723E+02    0.343935E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.380179E+02    0.351734E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.360817E+02    0.363605E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.348472E+02    0.350881E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.346773E+02    0.333862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.355666E+02    0.317429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.372003E+02    0.306469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.393641E+02    0.302290E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.413207E+02    0.307274E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.426158E+02    0.319714E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.428019E+02    0.337000E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.418712E+02    0.354026E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.400805E+02    0.365935E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.378976E+02    0.369741E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.359961E+02    0.393118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.329639E+02    0.378084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.315974E+02    0.351734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.320448E+02    0.321749E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.341415E+02    0.296538E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.376523E+02    0.280052E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.413696E+02    0.279385E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.445905E+02    0.292954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.464528E+02    0.317397E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133771E+03   -0.459810E+02    0.349064E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.434924E+02    0.377228E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.397004E+02    0.393847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.391747E+02    0.234219E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.371623E+02    0.236347E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.385822E+02    0.220514E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.408762E+02    0.223386E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.408158E+02    0.241501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.384684E+02    0.250001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.363485E+02    0.263267E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.352049E+02    0.250943E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.350237E+02    0.235212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.360899E+02    0.218194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.378185E+02    0.207076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.398829E+02    0.203637E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.419439E+02    0.207143E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.431340E+02    0.219042E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.433365E+02    0.234574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.423149E+02    0.251109E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.405402E+02    0.262724E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.383653E+02    0.267055E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.363948E+02    0.289990E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.334404E+02    0.276694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.321364E+02    0.251264E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.325655E+02    0.223166E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137630E+03   -0.347477E+02    0.198444E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.382609E+02    0.182185E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.419853E+02    0.181222E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.452032E+02    0.193467E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134055E+03   -0.469527E+02    0.215811E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.462827E+02    0.245680E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.437308E+02    0.273094E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.400859E+02    0.289280E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659022.431460638     
  ps_ts2 prof sum =   658631.820848265     
  trcom prof sum =    658631.820848265     
  ps_ts2 cur sum  =   9842.01310276059     
  trcom cur sum  =    9842.01310276058     
  
  antenna # iant =            2
  powecha_use(iant) =    670152.480503390     
  ps_ts2 prof sum =   669792.674571909     
  trcom prof sum =    669792.674571908     
  ps_ts2 cur sum  =   12331.5153039867     
  trcom cur sum  =    12331.5153039867     
  
  antenna # iant =            3
  powecha_use(iant) =    532652.415976676     
  ps_ts2 prof sum =   532298.343217447     
  trcom prof sum =    532298.343217448     
  ps_ts2 cur sum  =   6777.79726429537     
  trcom cur sum  =    6777.79726429538     
  
  antenna # iant =            4
  powecha_use(iant) =    570074.246901767     
  ps_ts2 prof sum =   569734.352299061     
  trcom prof sum =    569734.352299061     
  ps_ts2 cur sum  =   9450.62434114717     
  trcom cur sum  =    9450.62434114717     
  
  antenna # iant =            5
  powecha_use(iant) =    554106.881719493     
  ps_ts2 prof sum =   553777.166910546     
  trcom prof sum =    553777.166910545     
  ps_ts2 cur sum  =   11328.0057372353     
  trcom cur sum  =    11328.0057372353     
  
  Total ECH heating:      2984234.35784723     
  Total Current Drive:    49729.9557494252     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3838
 TA= 4.09500E+00 CPU TIME= 1.68803E-01 SECONDS.  DT= 4.93843E-04
  
 TEC1=    4.09499999999993     
 TEC2=    4.09999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6607999999999     
  %check_save_state: izleft hours =    69.3308333333333     
 --> plasma_hash("gframe"): TA= 4.095000E+00 NSTEP=  3838 Hash code:   76735548
 ->PRGCHK: bdy curvature ratio at t= 4.1000E+00 seconds is:  5.7733E-02
% MHDEQ: TG1=     4.095000 ; TG2=     4.100000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7593E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7733E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.095000 TO TG2=    4.100000 @ NSTEP     3838
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528889940568D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.44102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.64325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.96777E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.05450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88652E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35156E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.65088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.82264E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.21714E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.37922E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.13103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.71351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.18151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.44187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.17307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.20737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.49158E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.66939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.58514E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.73314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.40694E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.40694E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1000E+00  4.1050E+00 total power(Watts):  2.9894E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.10000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.382828E+02    0.375495E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.362724E+02    0.377033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.377096E+02    0.359881E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.399994E+02    0.364025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.400173E+02    0.383792E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.376533E+02    0.391974E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.357118E+02    0.403831E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.343921E+02    0.391082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.343289E+02    0.373163E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.352271E+02    0.356454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.368643E+02    0.345235E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.390290E+02    0.341190E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.409812E+02    0.346672E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.422687E+02    0.359838E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.425549E+02    0.377137E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.416113E+02    0.394494E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.398104E+02    0.406447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.376237E+02    0.409899E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.357061E+02    0.433537E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.326850E+02    0.417417E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.313349E+02    0.390160E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.317096E+02    0.360277E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.338128E+02    0.334391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.373272E+02    0.317903E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.410442E+02    0.317582E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.444888E+02    0.330812E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133524E+03   -0.462256E+02    0.357669E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.457299E+02    0.390405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134112E+03   -0.432144E+02    0.419055E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.394051E+02    0.435105E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.391276E+02    0.291431E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.371130E+02    0.293432E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.385374E+02    0.276941E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.408342E+02    0.280240E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.407674E+02    0.299193E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.384122E+02    0.307602E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.364834E+02    0.319254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.353378E+02    0.306560E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.351601E+02    0.290307E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.360443E+02    0.274256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.377767E+02    0.262504E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.398426E+02    0.258900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.418012E+02    0.263678E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.431008E+02    0.275757E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.432944E+02    0.292293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135346E+03   -0.423733E+02    0.308535E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.405887E+02    0.320189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.384055E+02    0.324255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.364169E+02    0.347898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.335560E+02    0.332618E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.320816E+02    0.307970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.325185E+02    0.278986E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.348002E+02    0.252094E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.382235E+02    0.236365E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.419515E+02    0.235509E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.451804E+02    0.248442E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133742E+03   -0.470499E+02    0.272203E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133886E+03   -0.464811E+02    0.302952E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.437855E+02    0.331519E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.401156E+02    0.347898E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.383645E+02    0.431592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.363463E+02    0.432577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.378032E+02    0.415173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.400977E+02    0.420200E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.400987E+02    0.440767E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.377178E+02    0.448305E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.357604E+02    0.459678E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.344490E+02    0.446236E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.344009E+02    0.428056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.351195E+02    0.411948E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.369678E+02    0.399624E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.390381E+02    0.396577E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.410998E+02    0.402257E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.423803E+02    0.416471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.426501E+02    0.434767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.416860E+02    0.452242E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.398675E+02    0.463713E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.376713E+02    0.466395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.357281E+02    0.489675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.327162E+02    0.472187E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.313866E+02    0.444478E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.317857E+02    0.413790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.340123E+02    0.386928E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.373533E+02    0.371939E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.410792E+02    0.372408E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.444070E+02    0.388005E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133090E+03   -0.463577E+02    0.415871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133131E+03   -0.458250E+02    0.449836E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.431579E+02    0.478116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.394336E+02    0.492557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.386398E+02    0.335563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.366273E+02    0.337383E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.380559E+02    0.320443E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.403508E+02    0.324112E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.402737E+02    0.343951E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.380191E+02    0.351742E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.359837E+02    0.364209E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.348484E+02    0.350888E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.346786E+02    0.333881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.353748E+02    0.318862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.372029E+02    0.306485E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.393667E+02    0.302314E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.413232E+02    0.307301E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.426179E+02    0.319746E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.428035E+02    0.337023E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.418721E+02    0.354033E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.400813E+02    0.365923E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.378985E+02    0.369725E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.359967E+02    0.393075E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.329647E+02    0.378057E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.315986E+02    0.351739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.320467E+02    0.321769E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.341442E+02    0.296554E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.376558E+02    0.280067E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.413731E+02    0.279404E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.445936E+02    0.292983E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.464550E+02    0.317427E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133775E+03   -0.459824E+02    0.349076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.434933E+02    0.377199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.396958E+02    0.393829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.391793E+02    0.234209E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.371675E+02    0.236332E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.385875E+02    0.220506E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.408819E+02    0.223375E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.408209E+02    0.241489E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.384727E+02    0.249997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.363526E+02    0.263271E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.352090E+02    0.250936E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.350276E+02    0.235208E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.359072E+02    0.219878E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.378239E+02    0.207080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.398887E+02    0.203644E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.418457E+02    0.207957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.431401E+02    0.219039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.433414E+02    0.234574E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.423194E+02    0.251108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.405442E+02    0.262732E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.383685E+02    0.267056E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.363977E+02    0.290009E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.334436E+02    0.276699E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.321401E+02    0.251248E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138088E+03   -0.325701E+02    0.223156E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137634E+03   -0.347533E+02    0.198440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.382671E+02    0.182189E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.419921E+02    0.181232E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.452098E+02    0.193483E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.469587E+02    0.215819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.462877E+02    0.245682E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.437346E+02    0.273112E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.400890E+02    0.289302E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656376.436177141     
  ps_ts2 prof sum =   655986.291711519     
  trcom prof sum =    655986.291711519     
  ps_ts2 cur sum  =   9800.77582172647     
  trcom cur sum  =    9800.77582172647     
  
  antenna # iant =            2
  powecha_use(iant) =    672817.344342304     
  ps_ts2 prof sum =   672449.069477119     
  trcom prof sum =    672449.069477119     
  ps_ts2 cur sum  =   12380.4391373410     
  trcom cur sum  =    12380.4391373410     
  
  antenna # iant =            3
  powecha_use(iant) =    530947.435353784     
  ps_ts2 prof sum =   530600.437502989     
  trcom prof sum =    530600.437502989     
  ps_ts2 cur sum  =   6755.83559852366     
  trcom cur sum  =    6755.83559852367     
  
  antenna # iant =            4
  powecha_use(iant) =    574166.212373761     
  ps_ts2 prof sum =   573816.810708324     
  trcom prof sum =    573816.810708324     
  ps_ts2 cur sum  =   9516.82394511158     
  trcom cur sum  =    9516.82394511157     
  
  antenna # iant =            5
  powecha_use(iant) =    555090.354578202     
  ps_ts2 prof sum =   554755.693172481     
  trcom prof sum =    554755.693172481     
  ps_ts2 cur sum  =   11351.0323055990     
  trcom cur sum  =    11351.0323055990     
  
  Total ECH heating:      2987608.30257243     
  Total Current Drive:    49804.9068083018     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3844
 TA= 4.10000E+00 CPU TIME= 1.47667E-01 SECONDS.  DT= 1.18377E-03
  
 TEC1=    4.09999999999993     
 TEC2=    4.10499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6744255555554     
  %check_save_state: izleft hours =    69.3172222222222     
 --> plasma_hash("gframe"): TA= 4.100000E+00 NSTEP=  3844 Hash code:   10880298
 ->PRGCHK: bdy curvature ratio at t= 4.1050E+00 seconds is:  5.7768E-02
% MHDEQ: TG1=     4.100000 ; TG2=     4.105000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6920E-03 SECONDS
   DATA R*BT AT EDGE:  2.7595E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7768E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.100000 TO TG2=    4.105000 @ NSTEP     3844
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528203060315D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1050E+00  4.1100E+00 total power(Watts):  2.9914E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.10500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.382836E+02    0.375461E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.362734E+02    0.376994E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.377105E+02    0.359867E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.400004E+02    0.364004E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.400179E+02    0.383747E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.376538E+02    0.391924E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.357123E+02    0.403773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.343926E+02    0.391033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.343297E+02    0.373138E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.352281E+02    0.356442E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.368655E+02    0.345234E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.390302E+02    0.341196E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.409824E+02    0.346675E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.422696E+02    0.359826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.425557E+02    0.377100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.416119E+02    0.394440E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.398111E+02    0.406376E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.376243E+02    0.409832E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.357066E+02    0.433438E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.326854E+02    0.417348E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.313352E+02    0.390112E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.317105E+02    0.360262E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.338142E+02    0.334398E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.373290E+02    0.317919E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.410462E+02    0.317596E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.442616E+02    0.332101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133529E+03   -0.462266E+02    0.357658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.457306E+02    0.390354E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.432170E+02    0.418969E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.394057E+02    0.434998E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.391302E+02    0.291448E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.371156E+02    0.293442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.385399E+02    0.276953E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.408372E+02    0.280247E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.407698E+02    0.299212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.384144E+02    0.307620E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.364852E+02    0.319267E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.351477E+02    0.308030E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137494E+03   -0.349724E+02    0.291830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.360472E+02    0.274266E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.377805E+02    0.262513E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.398462E+02    0.258902E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.418048E+02    0.263685E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.431042E+02    0.275775E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.432971E+02    0.292313E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.423757E+02    0.308548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.405906E+02    0.320208E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.384070E+02    0.324273E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.364179E+02    0.347900E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.335584E+02    0.332620E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.320835E+02    0.307980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.325213E+02    0.278996E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.348038E+02    0.252088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.381295E+02    0.237158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.419563E+02    0.235501E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.451847E+02    0.248443E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.468203E+02    0.273648E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133890E+03   -0.464835E+02    0.302974E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.437871E+02    0.331534E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.401167E+02    0.347899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.30 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.383651E+02    0.431494E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.363470E+02    0.432476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.378037E+02    0.415104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.400982E+02    0.420117E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.401008E+02    0.440653E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.377183E+02    0.448179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.357610E+02    0.459543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.344493E+02    0.446124E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.344015E+02    0.427965E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.352180E+02    0.411382E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.369683E+02    0.399569E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.390387E+02    0.396523E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135121E+03   -0.411005E+02    0.402195E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134749E+03   -0.423809E+02    0.416393E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.426511E+02    0.434645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.416864E+02    0.452117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.398682E+02    0.463564E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.376720E+02    0.466251E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.357290E+02    0.489517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.327169E+02    0.472052E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.313870E+02    0.444367E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.317862E+02    0.413727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.340145E+02    0.386878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.373542E+02    0.371908E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.410800E+02    0.372377E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.444077E+02    0.387954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133097E+03   -0.463583E+02    0.415792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133140E+03   -0.458259E+02    0.449689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134054E+03   -0.431589E+02    0.477947E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.394348E+02    0.492385E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.386412E+02    0.335572E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.366286E+02    0.337390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.380578E+02    0.320458E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.403526E+02    0.324123E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.402749E+02    0.343956E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.379174E+02    0.352367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.359846E+02    0.364189E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.348492E+02    0.350886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.346796E+02    0.333890E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.353766E+02    0.318878E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.372049E+02    0.306503E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.393689E+02    0.302331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.413255E+02    0.307324E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.426196E+02    0.319762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.428049E+02    0.337035E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.418731E+02    0.354028E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.400821E+02    0.365902E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.378993E+02    0.369699E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.359973E+02    0.393025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.329652E+02    0.378021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.315993E+02    0.351736E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.320479E+02    0.321779E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.341465E+02    0.296565E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.376580E+02    0.280085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.413763E+02    0.279423E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.445961E+02    0.293006E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133830E+03   -0.464568E+02    0.317456E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.459835E+02    0.349074E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.434941E+02    0.377162E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.396964E+02    0.393777E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.391842E+02    0.234198E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.369789E+02    0.237957E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.385924E+02    0.220498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.408867E+02    0.223369E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.408251E+02    0.241484E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.384762E+02    0.250001E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.364527E+02    0.262484E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.353064E+02    0.250119E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.350324E+02    0.235191E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.359122E+02    0.219854E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.378289E+02    0.207068E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.398939E+02    0.203637E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.418516E+02    0.207949E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.431461E+02    0.219027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.433460E+02    0.234569E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.423239E+02    0.251102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.405478E+02    0.262738E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.383724E+02    0.267069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.364005E+02    0.290020E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.334464E+02    0.276706E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.321435E+02    0.251239E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.325746E+02    0.223132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.347583E+02    0.198429E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.382727E+02    0.182178E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.419984E+02    0.181225E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.452160E+02    0.193480E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.469642E+02    0.215818E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134193E+03   -0.464062E+02    0.244938E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.437378E+02    0.273138E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.400913E+02    0.289320E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654257.800507536     
  ps_ts2 prof sum =   653867.999662595     
  trcom prof sum =    653867.999662596     
  ps_ts2 cur sum  =   9765.88491423331     
  trcom cur sum  =    9765.88491423331     
  
  antenna # iant =            2
  powecha_use(iant) =    674979.868139904     
  ps_ts2 prof sum =   674572.203044267     
  trcom prof sum =    674572.203044266     
  ps_ts2 cur sum  =   12416.7519954201     
  trcom cur sum  =    12416.7519954201     
  
  antenna # iant =            3
  powecha_use(iant) =    532869.610768283     
  ps_ts2 prof sum =   532538.021857138     
  trcom prof sum =    532538.021857139     
  ps_ts2 cur sum  =   6779.60318177580     
  trcom cur sum  =    6779.60318177581     
  
  antenna # iant =            4
  powecha_use(iant) =    573555.624963873     
  ps_ts2 prof sum =   573213.345114969     
  trcom prof sum =    573213.345114969     
  ps_ts2 cur sum  =   9502.90100597631     
  trcom cur sum  =    9502.90100597630     
  
  antenna # iant =            5
  powecha_use(iant) =    555762.573980837     
  ps_ts2 prof sum =   555450.074645593     
  trcom prof sum =    555450.074645593     
  ps_ts2 cur sum  =   11363.4196322242     
  trcom cur sum  =    11363.4196322242     
  
  Total ECH heating:      2989641.64432456     
  Total Current Drive:    49828.5607296298     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3848
 TA= 4.10500E+00 CPU TIME= 1.60495E-01 SECONDS.  DT= 6.08588E-04
  
 TEC1=    4.10499999999993     
 TEC2=    4.10999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.6886191666663     
  %check_save_state: izleft hours =    69.3030555555556     
 --> plasma_hash("gframe"): TA= 4.105000E+00 NSTEP=  3848 Hash code:   98508215
 ->PRGCHK: bdy curvature ratio at t= 4.1100E+00 seconds is:  5.7653E-02
% MHDEQ: TG1=     4.105000 ; TG2=     4.110000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7603E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7653E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.105000 TO TG2=    4.110000 @ NSTEP     3848
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528511386320D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.42310E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.64119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.06849E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.12165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.91017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.55519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.84571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.21386E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.38130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.18507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.65785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.61925E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  2.21738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.24867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.21755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.31017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.77213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.67348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.63501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.37705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.37705E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.1100E+00  4.1150E+00 total power(Watts):  2.9820E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.11000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.382786E+02    0.375536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.362686E+02    0.377066E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.377061E+02    0.359948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.399955E+02    0.364080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.399059E+02    0.384367E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.376490E+02    0.392006E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.357078E+02    0.403872E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.343880E+02    0.391113E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.343254E+02    0.373211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.352238E+02    0.356526E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.368610E+02    0.345338E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.390252E+02    0.341303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.409772E+02    0.346772E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.422644E+02    0.359908E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.425504E+02    0.377169E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.416065E+02    0.394531E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.398060E+02    0.406479E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.376195E+02    0.409939E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.357023E+02    0.433504E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.326813E+02    0.417447E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.313312E+02    0.390192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.317065E+02    0.360347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.338101E+02    0.334506E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.373247E+02    0.318013E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.410415E+02    0.317698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134725E+03   -0.442561E+02    0.332219E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133548E+03   -0.462208E+02    0.357740E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.457248E+02    0.390437E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.429841E+02    0.419965E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.394009E+02    0.435058E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.391257E+02    0.291514E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.371114E+02    0.293506E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.385356E+02    0.276998E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.408327E+02    0.280290E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.407649E+02    0.299292E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.384098E+02    0.307705E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.364803E+02    0.319371E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.351440E+02    0.308107E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137514E+03   -0.349684E+02    0.291891E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.358514E+02    0.275864E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.376771E+02    0.263341E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.398423E+02    0.258953E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.418002E+02    0.263738E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.430993E+02    0.275811E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.432923E+02    0.292366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.423705E+02    0.308640E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.405854E+02    0.320311E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.384025E+02    0.324373E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.364136E+02    0.347994E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.335559E+02    0.332712E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.320798E+02    0.308066E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.325179E+02    0.279041E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.347998E+02    0.252152E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.381251E+02    0.237215E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.419514E+02    0.235552E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.451798E+02    0.248489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.469318E+02    0.272969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.464779E+02    0.303057E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.437816E+02    0.331650E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.401118E+02    0.347996E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.383603E+02    0.431572E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.363424E+02    0.432549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.377989E+02    0.415206E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.400932E+02    0.420217E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.400932E+02    0.440699E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.377138E+02    0.448210E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.357568E+02    0.459567E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.345421E+02    0.445741E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.343974E+02    0.428046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.352135E+02    0.411485E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.369636E+02    0.399661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.390337E+02    0.396612E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.410952E+02    0.402297E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.423755E+02    0.416496E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.426459E+02    0.434712E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.416819E+02    0.452134E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.398636E+02    0.463588E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.376676E+02    0.466277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.357247E+02    0.489563E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.327131E+02    0.472085E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.313818E+02    0.444421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.317822E+02    0.413829E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.340064E+02    0.386974E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.373494E+02    0.371987E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.410749E+02    0.372453E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.444027E+02    0.388025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133116E+03   -0.463525E+02    0.415897E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133161E+03   -0.458201E+02    0.449727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.431542E+02    0.477972E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.394303E+02    0.492425E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.386364E+02    0.335679E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.366243E+02    0.337495E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.380535E+02    0.320565E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.403478E+02    0.324232E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.402700E+02    0.344059E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.379127E+02    0.352458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.359801E+02    0.364268E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.348452E+02    0.350975E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.344850E+02    0.335358E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.353688E+02    0.319007E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.372002E+02    0.306593E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.393643E+02    0.302406E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.413205E+02    0.307408E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.426146E+02    0.319866E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.427995E+02    0.337147E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.418681E+02    0.354116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.400772E+02    0.365978E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.378944E+02    0.369776E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.359927E+02    0.393109E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.329609E+02    0.378100E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137957E+03   -0.315950E+02    0.351828E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137935E+03   -0.320445E+02    0.321873E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.341426E+02    0.296634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.376541E+02    0.280127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.413716E+02    0.279465E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.445869E+02    0.293089E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133849E+03   -0.464512E+02    0.317558E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133799E+03   -0.459779E+02    0.349173E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.434887E+02    0.377238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.396913E+02    0.393864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.391798E+02    0.234247E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.369738E+02    0.238010E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.385875E+02    0.220533E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.408819E+02    0.223397E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.407159E+02    0.242331E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.384723E+02    0.250048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.364498E+02    0.262527E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.353024E+02    0.250176E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.350260E+02    0.235271E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.359072E+02    0.219896E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.378245E+02    0.207066E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.398892E+02    0.203624E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.418465E+02    0.207934E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.431501E+02    0.218983E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.433411E+02    0.234610E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.423192E+02    0.251149E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.405434E+02    0.262783E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.383682E+02    0.267114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.363964E+02    0.290079E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.334428E+02    0.276757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.321398E+02    0.251298E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.325706E+02    0.223180E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137661E+03   -0.347541E+02    0.198414E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.382678E+02    0.182141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.419932E+02    0.181178E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.452111E+02    0.193435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134086E+03   -0.469588E+02    0.215819E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.464006E+02    0.244980E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.437332E+02    0.273162E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.400867E+02    0.289377E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    650779.976656381     
  ps_ts2 prof sum =   650387.497475343     
  trcom prof sum =    650387.497475343     
  ps_ts2 cur sum  =   9687.61400767828     
  trcom cur sum  =    9687.61400767828     
  
  antenna # iant =            2
  powecha_use(iant) =    673475.614447309     
  ps_ts2 prof sum =   673066.377785082     
  trcom prof sum =    673066.377785082     
  ps_ts2 cur sum  =   12359.1557859249     
  trcom cur sum  =    12359.1557859249     
  
  antenna # iant =            3
  powecha_use(iant) =    532454.773437756     
  ps_ts2 prof sum =   532142.438361220     
  trcom prof sum =    532142.438361221     
  ps_ts2 cur sum  =   6755.85834125882     
  trcom cur sum  =    6755.85834125883     
  
  antenna # iant =            4
  powecha_use(iant) =    570322.788821519     
  ps_ts2 prof sum =   569977.599799634     
  trcom prof sum =    569977.599799634     
  ps_ts2 cur sum  =   9424.56648696245     
  trcom cur sum  =    9424.56648696244     
  
  antenna # iant =            5
  powecha_use(iant) =    554982.070297851     
  ps_ts2 prof sum =   554673.342083740     
  trcom prof sum =    554673.342083740     
  ps_ts2 cur sum  =   11323.7569602840     
  trcom cur sum  =    11323.7569602840     
  
  Total ECH heating:      2980247.25550502     
  Total Current Drive:    49550.9515821085     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3854
 TA= 4.11000E+00 CPU TIME= 1.59122E-01 SECONDS.  DT= 6.62338E-06
  
 TEC1=    4.10999999999993     
 TEC2=    4.11499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7022216666662     
  %check_save_state: izleft hours =    69.2894444444444     
 --> plasma_hash("gframe"): TA= 4.110000E+00 NSTEP=  3854 Hash code:   57109655
 ->PRGCHK: bdy curvature ratio at t= 4.1150E+00 seconds is:  5.7537E-02
% MHDEQ: TG1=     4.110000 ; TG2=     4.115000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2570E-03 SECONDS
   DATA R*BT AT EDGE:  2.7611E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7537E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.110000 TO TG2=    4.115000 @ NSTEP     3854
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528819712325D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.1150E+00  4.1200E+00 total power(Watts):  2.9814E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.11500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.382736E+02    0.375598E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.362636E+02    0.377133E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.377006E+02    0.360030E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.399895E+02    0.364166E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.399005E+02    0.384430E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.376439E+02    0.392076E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.357028E+02    0.403959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.343832E+02    0.391185E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.343206E+02    0.373280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.352188E+02    0.356611E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.368558E+02    0.345438E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.390199E+02    0.341409E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.409716E+02    0.346870E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.422586E+02    0.359987E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.425432E+02    0.377240E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.416006E+02    0.394605E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.396932E+02    0.407062E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.376141E+02    0.410032E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.356976E+02    0.433568E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.326767E+02    0.417538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.313268E+02    0.390262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.317021E+02    0.360428E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.338075E+02    0.334598E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.373198E+02    0.318102E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.410363E+02    0.317785E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.442498E+02    0.332322E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.462144E+02    0.357823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133548E+03   -0.457178E+02    0.390517E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.429785E+02    0.420049E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.393957E+02    0.435125E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.391202E+02    0.291550E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.371065E+02    0.293554E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.385306E+02    0.277017E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.408276E+02    0.280313E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.407595E+02    0.299339E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.384045E+02    0.307779E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.364755E+02    0.319457E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.351387E+02    0.308189E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.349638E+02    0.291930E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.358467E+02    0.275882E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.376727E+02    0.263341E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.398375E+02    0.258943E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.417949E+02    0.263735E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.430937E+02    0.275818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.432866E+02    0.292404E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.423649E+02    0.308712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.404730E+02    0.321078E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.383975E+02    0.324469E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.364085E+02    0.348090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.335510E+02    0.332815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138004E+03   -0.320754E+02    0.308142E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.325131E+02    0.279070E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.347953E+02    0.252162E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.381198E+02    0.237210E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.419458E+02    0.235528E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.451740E+02    0.248475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.469259E+02    0.272965E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.464718E+02    0.303124E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.437755E+02    0.331757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.401062E+02    0.348090E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.383552E+02    0.431633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.363376E+02    0.432613E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.377940E+02    0.415297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.400876E+02    0.420308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.399798E+02    0.441149E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.377092E+02    0.448235E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.357522E+02    0.459586E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.345376E+02    0.445775E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.343922E+02    0.428119E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.352084E+02    0.411577E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.369584E+02    0.399741E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.390283E+02    0.396686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.410893E+02    0.402379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.423698E+02    0.416587E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.426403E+02    0.434773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.416761E+02    0.452158E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.398586E+02    0.463604E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.376627E+02    0.466297E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.357203E+02    0.489596E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.327092E+02    0.472106E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.312877E+02    0.444889E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.317778E+02    0.413922E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.340011E+02    0.387045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.373442E+02    0.372054E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.410691E+02    0.372522E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.443958E+02    0.388104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133136E+03   -0.463464E+02    0.415983E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133180E+03   -0.458153E+02    0.449745E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134097E+03   -0.431488E+02    0.477988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.394252E+02    0.492463E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.386309E+02    0.335788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.366192E+02    0.337600E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.380479E+02    0.320652E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.402356E+02    0.324996E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.402643E+02    0.344158E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.379074E+02    0.352548E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.359750E+02    0.364343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.348403E+02    0.351066E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.344798E+02    0.335462E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.354680E+02    0.318334E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.371953E+02    0.306661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.393590E+02    0.302479E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.413149E+02    0.307478E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.426090E+02    0.319955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.427935E+02    0.337254E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.418622E+02    0.354204E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.400718E+02    0.366052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.378892E+02    0.369848E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.359877E+02    0.393183E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.329565E+02    0.378158E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.315904E+02    0.351915E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.320407E+02    0.321968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.341380E+02    0.296684E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.376488E+02    0.280152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.413665E+02    0.279482E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.445902E+02    0.293077E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.464452E+02    0.317644E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133818E+03   -0.459714E+02    0.349267E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.434829E+02    0.377298E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.396859E+02    0.393926E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.391743E+02    0.234239E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.369700E+02    0.238006E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.385818E+02    0.220510E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.408757E+02    0.223382E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.407106E+02    0.242314E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.384672E+02    0.250049E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.364449E+02    0.262531E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.352979E+02    0.250184E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.350235E+02    0.235246E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.359025E+02    0.219866E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.378187E+02    0.207023E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.398830E+02    0.203569E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.418398E+02    0.207881E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.431379E+02    0.218971E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.433353E+02    0.234588E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.423136E+02    0.251143E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.405405E+02    0.262766E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.383633E+02    0.267123E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.363918E+02    0.290116E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.334383E+02    0.276776E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.321353E+02    0.251328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138136E+03   -0.325658E+02    0.223174E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.347498E+02    0.198363E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.382612E+02    0.182074E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.419859E+02    0.181100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.452021E+02    0.193361E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.469524E+02    0.215759E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.463949E+02    0.244955E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.437274E+02    0.273168E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.400818E+02    0.289410E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651685.011974739     
  ps_ts2 prof sum =   651293.768707102     
  trcom prof sum =    651293.768707102     
  ps_ts2 cur sum  =   9673.73253316678     
  trcom cur sum  =    9673.73253316677     
  
  antenna # iant =            2
  powecha_use(iant) =    673486.379539649     
  ps_ts2 prof sum =   673075.192091767     
  trcom prof sum =    673075.192091766     
  ps_ts2 cur sum  =   12328.3323312960     
  trcom cur sum  =    12328.3323312960     
  
  antenna # iant =            3
  powecha_use(iant) =    529231.361064072     
  ps_ts2 prof sum =   528915.425376089     
  trcom prof sum =    528915.425376090     
  ps_ts2 cur sum  =   6695.48251580945     
  trcom cur sum  =    6695.48251580946     
  
  antenna # iant =            4
  powecha_use(iant) =    571633.667805987     
  ps_ts2 prof sum =   571299.190588230     
  trcom prof sum =    571299.190588230     
  ps_ts2 cur sum  =   9420.28548725545     
  trcom cur sum  =    9420.28548725544     
  
  antenna # iant =            5
  powecha_use(iant) =    555338.278238042     
  ps_ts2 prof sum =   555030.104985208     
  trcom prof sum =    555030.104985208     
  ps_ts2 cur sum  =   11306.4225386633     
  trcom cur sum  =    11306.4225386633     
  
  Total ECH heating:      2979613.68174840     
  Total Current Drive:    49424.2554061910     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3878
 TA= 4.11500E+00 CPU TIME= 1.59294E-01 SECONDS.  DT= 6.72895E-04
  
 TEC1=    4.11499999999993     
 TEC2=    4.11999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7166208333331     
  %check_save_state: izleft hours =    69.2750000000000     
 --> plasma_hash("gframe"): TA= 4.115000E+00 NSTEP=  3878 Hash code:   76813896
 ->PRGCHK: bdy curvature ratio at t= 4.1200E+00 seconds is:  5.7422E-02
% MHDEQ: TG1=     4.115000 ; TG2=     4.120000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1130E-03 SECONDS
   DATA R*BT AT EDGE:  2.7618E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7422E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.115000 TO TG2=    4.120000 @ NSTEP     3878
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529128040229D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.35413E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.61513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.22190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.72087E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.97679E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.88626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.99546E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.17250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  3.22092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.45662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.64906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  5.77027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.94064E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.43865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.23817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.93642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.83584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.96197E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.51527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.63438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.63438E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1200E+00  4.1250E+00 total power(Watts):  2.9806E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.12000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.382704E+02    0.375686E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.362604E+02    0.377221E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.376972E+02    0.360131E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.399864E+02    0.364257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.398970E+02    0.384517E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.376406E+02    0.392168E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.356994E+02    0.404065E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.344784E+02    0.390708E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.343174E+02    0.373369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.350215E+02    0.357980E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.368526E+02    0.345559E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.390166E+02    0.341534E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.409679E+02    0.346994E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.422548E+02    0.360096E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.426528E+02    0.376773E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.414862E+02    0.395205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.396892E+02    0.407177E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.376103E+02    0.410141E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.356897E+02    0.433661E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.327662E+02    0.417149E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.313243E+02    0.390349E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.316994E+02    0.360529E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.338034E+02    0.334732E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.372164E+02    0.318916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.410330E+02    0.317903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.442460E+02    0.332462E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133801E+03   -0.460923E+02    0.358504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.457136E+02    0.390613E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.429744E+02    0.420161E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.393921E+02    0.435206E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.391177E+02    0.291634E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.371045E+02    0.293637E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.385282E+02    0.277079E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.407187E+02    0.281120E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.407567E+02    0.299432E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.384017E+02    0.307885E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.364729E+02    0.319575E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.351368E+02    0.308287E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.349612E+02    0.292013E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.358444E+02    0.275944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.376699E+02    0.263394E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.398347E+02    0.259001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.417922E+02    0.263780E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.430907E+02    0.275882E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.432834E+02    0.292486E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.423616E+02    0.308821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.404698E+02    0.321201E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.383934E+02    0.324602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.364051E+02    0.348208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.333625E+02    0.334310E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.320730E+02    0.308245E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.325112E+02    0.279130E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.346074E+02    0.253845E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.381180E+02    0.237249E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.419428E+02    0.235575E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.452831E+02    0.247771E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.469202E+02    0.273043E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.464682E+02    0.303228E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.437716E+02    0.331895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.401026E+02    0.348212E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.383517E+02    0.431721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.363343E+02    0.432700E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.376867E+02    0.415894E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.399762E+02    0.420868E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.399762E+02    0.441223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.377059E+02    0.448285E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.357491E+02    0.459622E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.345344E+02    0.445833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.343891E+02    0.428212E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.352051E+02    0.411689E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.369550E+02    0.399842E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.390246E+02    0.396782E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135181E+03   -0.410854E+02    0.402486E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.423658E+02    0.416695E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.426365E+02    0.434855E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.416724E+02    0.452201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.398553E+02    0.463628E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.376594E+02    0.466334E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.357172E+02    0.489649E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.327060E+02    0.472155E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.312864E+02    0.444933E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.316843E+02    0.414538E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.338081E+02    0.388266E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.373407E+02    0.372147E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.410652E+02    0.372619E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.445082E+02    0.387664E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133372E+03   -0.462230E+02    0.416541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133204E+03   -0.458102E+02    0.449802E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134119E+03   -0.431451E+02    0.478029E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.394240E+02    0.492502E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.386275E+02    0.335914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.366160E+02    0.337731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.379431E+02    0.321460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.402314E+02    0.325130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.402608E+02    0.344284E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.379040E+02    0.352667E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.359718E+02    0.364441E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.346450E+02    0.352469E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.344770E+02    0.335589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.354618E+02    0.318471E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.371900E+02    0.306783E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.392519E+02    0.303288E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.413117E+02    0.307584E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.426020E+02    0.320095E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.427898E+02    0.337385E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.418585E+02    0.354317E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.400682E+02    0.366149E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.378857E+02    0.369944E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.359850E+02    0.393275E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.329533E+02    0.378251E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.315886E+02    0.352030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137973E+03   -0.320378E+02    0.322087E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.341355E+02    0.296768E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.375466E+02    0.280974E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.413635E+02    0.279550E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.445821E+02    0.293191E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133888E+03   -0.464413E+02    0.317773E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.459670E+02    0.349390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.432515E+02    0.378484E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.396820E+02    0.394028E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.390716E+02    0.235079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.370627E+02    0.237246E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.385794E+02    0.220519E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.407704E+02    0.224199E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.407077E+02    0.242370E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.384636E+02    0.250111E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.364423E+02    0.262593E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.352944E+02    0.250245E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.350206E+02    0.235297E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.359004E+02    0.219881E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.376233E+02    0.208692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.398803E+02    0.203543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.418369E+02    0.207865E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.431346E+02    0.218986E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.433326E+02    0.234620E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.423107E+02    0.251201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.405357E+02    0.262827E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.383606E+02    0.267176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.363893E+02    0.290195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.335273E+02    0.276053E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.320462E+02    0.252204E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.325637E+02    0.223199E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.348368E+02    0.197469E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.382584E+02    0.182026E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.419827E+02    0.181042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.450920E+02    0.194088E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.469494E+02    0.215749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.463919E+02    0.244999E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.437244E+02    0.273228E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.400787E+02    0.289487E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651070.440812936     
  ps_ts2 prof sum =   650701.402246820     
  trcom prof sum =    650701.402246820     
  ps_ts2 cur sum  =   9642.91718396490     
  trcom cur sum  =    9642.91718396490     
  
  antenna # iant =            2
  powecha_use(iant) =    673005.703804457     
  ps_ts2 prof sum =   672588.711799296     
  trcom prof sum =    672588.711799295     
  ps_ts2 cur sum  =   12298.0462624825     
  trcom cur sum  =    12298.0462624825     
  
  antenna # iant =            3
  powecha_use(iant) =    527717.718226470     
  ps_ts2 prof sum =   527394.572892010     
  trcom prof sum =    527394.572892010     
  ps_ts2 cur sum  =   6660.20154214523     
  trcom cur sum  =    6660.20154214524     
  
  antenna # iant =            4
  powecha_use(iant) =    573617.665898681     
  ps_ts2 prof sum =   573268.056784885     
  trcom prof sum =    573268.056784885     
  ps_ts2 cur sum  =   9433.29496988162     
  trcom cur sum  =    9433.29496988160     
  
  antenna # iant =            5
  powecha_use(iant) =    555236.417201155     
  ps_ts2 prof sum =   554940.726601630     
  trcom prof sum =    554940.726601630     
  ps_ts2 cur sum  =   11290.3252808950     
  trcom cur sum  =    11290.3252808949     
  
  Total ECH heating:      2978893.47032464     
  Total Current Drive:    49324.7852393691     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3883
 TA= 4.12000E+00 CPU TIME= 1.63509E-01 SECONDS.  DT= 1.40042E-03
  
 TEC1=    4.11999999999993     
 TEC2=    4.12499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7363119444442     
  %check_save_state: izleft hours =    69.2552777777778     
 --> plasma_hash("gframe"): TA= 4.120000E+00 NSTEP=  3883 Hash code:   73242631
 ->PRGCHK: bdy curvature ratio at t= 4.1250E+00 seconds is:  5.7308E-02
% MHDEQ: TG1=     4.120000 ; TG2=     4.125000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1260E-03 SECONDS
   DATA R*BT AT EDGE:  2.7626E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7308E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.120000 TO TG2=    4.125000 @ NSTEP     3883
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529436368132D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1250E+00  4.1300E+00 total power(Watts):  2.9758E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.12500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.382661E+02    0.375773E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.362559E+02    0.377314E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.376930E+02    0.360239E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.399819E+02    0.364356E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.398922E+02    0.384605E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.376360E+02    0.392254E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.356955E+02    0.404161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.344717E+02    0.390810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.343136E+02    0.373460E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.350174E+02    0.358083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.368487E+02    0.345676E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.389075E+02    0.342300E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.409632E+02    0.347119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.422501E+02    0.360199E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.424236E+02    0.377966E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.414812E+02    0.395304E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.396847E+02    0.407277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.376061E+02    0.410247E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.355944E+02    0.434155E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.327626E+02    0.417250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.312314E+02    0.391004E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.316917E+02    0.360650E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.337995E+02    0.334852E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.372127E+02    0.319032E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.410287E+02    0.318016E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.442413E+02    0.332584E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133820E+03   -0.460872E+02    0.358614E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.454735E+02    0.391700E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.429694E+02    0.420270E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.392809E+02    0.435700E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.390106E+02    0.292446E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.370018E+02    0.294460E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.385247E+02    0.277149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.407152E+02    0.281190E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.407526E+02    0.299528E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.383980E+02    0.307981E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.364693E+02    0.319690E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.352294E+02    0.307661E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.349580E+02    0.292095E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.359375E+02    0.275239E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.376668E+02    0.263459E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.398317E+02    0.259065E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.417885E+02    0.263844E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.430870E+02    0.275952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.432794E+02    0.292562E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.423574E+02    0.308932E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.404662E+02    0.321310E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.383893E+02    0.324719E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.364010E+02    0.348323E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.333591E+02    0.334427E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.320699E+02    0.308344E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.325107E+02    0.279194E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.346026E+02    0.253918E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.381144E+02    0.237309E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.419393E+02    0.235625E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.452793E+02    0.247830E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.469252E+02    0.273063E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.464636E+02    0.303329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.437670E+02    0.332015E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.400980E+02    0.348335E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.383475E+02    0.431799E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.363303E+02    0.432774E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.376824E+02    0.415996E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.399715E+02    0.420973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.399718E+02    0.441277E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.377019E+02    0.448324E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.357458E+02    0.459646E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.345308E+02    0.445875E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.341925E+02    0.429220E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.352011E+02    0.411791E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.369509E+02    0.399933E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.390203E+02    0.396868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.409710E+02    0.403086E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.423610E+02    0.416800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.427449E+02    0.434515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.416684E+02    0.452229E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.398512E+02    0.463650E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.376504E+02    0.466363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.357137E+02    0.489687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.327026E+02    0.472186E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.312830E+02    0.444980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.316778E+02    0.414651E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.338052E+02    0.388342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.373323E+02    0.372259E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.410605E+02    0.372711E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.445028E+02    0.387755E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133392E+03   -0.462178E+02    0.416648E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133226E+03   -0.458055E+02    0.449834E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.432548E+02    0.477758E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.394185E+02    0.492538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.385197E+02    0.336694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.365123E+02    0.338515E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.379395E+02    0.321578E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.402277E+02    0.325239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.402583E+02    0.344394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.378997E+02    0.352778E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.359676E+02    0.364542E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.346409E+02    0.352577E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.344715E+02    0.335720E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.354588E+02    0.318582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.371937E+02    0.306830E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.392483E+02    0.303381E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.413076E+02    0.307695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.426066E+02    0.320172E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.427850E+02    0.337512E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.418540E+02    0.354429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.399564E+02    0.366837E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.378815E+02    0.370035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.358810E+02    0.393905E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.329493E+02    0.378342E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.315852E+02    0.352136E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.320352E+02    0.322195E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.342258E+02    0.296104E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.375436E+02    0.281045E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.413599E+02    0.279619E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.446915E+02    0.292575E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.464365E+02    0.317892E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.459624E+02    0.349503E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.432466E+02    0.378572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.395708E+02    0.394638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.390682E+02    0.235134E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.370605E+02    0.237294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.385762E+02    0.220551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.407665E+02    0.224237E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.407042E+02    0.242430E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.384601E+02    0.250173E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.364392E+02    0.262662E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.352915E+02    0.250312E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.350176E+02    0.235355E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.358972E+02    0.219917E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.377147E+02    0.207880E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.398768E+02    0.203543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.418332E+02    0.207871E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.431308E+02    0.219011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.433263E+02    0.234691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.423068E+02    0.251257E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.404274E+02    0.263657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.383575E+02    0.267240E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.363865E+02    0.290274E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.333420E+02    0.277694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.320434E+02    0.252277E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.325614E+02    0.223234E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.346546E+02    0.199209E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.382548E+02    0.182010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.419787E+02    0.181018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.450877E+02    0.194073E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.467191E+02    0.217304E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.463878E+02    0.245059E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.438318E+02    0.272562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.400752E+02    0.289573E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    649595.815763280     
  ps_ts2 prof sum =   649198.150609524     
  trcom prof sum =    649198.150609524     
  ps_ts2 cur sum  =   9596.18615390638     
  trcom cur sum  =    9596.18615390637     
  
  antenna # iant =            2
  powecha_use(iant) =    670864.273491916     
  ps_ts2 prof sum =   670481.940472568     
  trcom prof sum =    670481.940472568     
  ps_ts2 cur sum  =   12235.7069097451     
  trcom cur sum  =    12235.7069097451     
  
  antenna # iant =            3
  powecha_use(iant) =    526130.545482596     
  ps_ts2 prof sum =   525815.728072503     
  trcom prof sum =    525815.728072503     
  ps_ts2 cur sum  =   6621.58373398315     
  trcom cur sum  =    6621.58373398316     
  
  antenna # iant =            4
  powecha_use(iant) =    572517.783967886     
  ps_ts2 prof sum =   572179.087009908     
  trcom prof sum =    572179.087009908     
  ps_ts2 cur sum  =   9393.61784692749     
  trcom cur sum  =    9393.61784692747     
  
  antenna # iant =            5
  powecha_use(iant) =    556645.552786300     
  ps_ts2 prof sum =   556332.619444106     
  trcom prof sum =    556332.619444105     
  ps_ts2 cur sum  =   11302.4733598138     
  trcom cur sum  =    11302.4733598138     
  
  Total ECH heating:      2974007.52560861     
  Total Current Drive:    49149.5680043759     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3886
 TA= 4.12500E+00 CPU TIME= 1.60727E-01 SECONDS.  DT= 2.31132E-03
  
 TEC1=    4.12499999999993     
 TEC2=    4.12999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7495844444443     
  %check_save_state: izleft hours =    69.2419444444444     
 --> plasma_hash("gframe"): TA= 4.125000E+00 NSTEP=  3886 Hash code:  110417293
 ->PRGCHK: bdy curvature ratio at t= 4.1300E+00 seconds is:  5.7193E-02
% MHDEQ: TG1=     4.125000 ; TG2=     4.130000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7634E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7193E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.125000 TO TG2=    4.130000 @ NSTEP     3886
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529744696035D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.28519E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.58907E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.37522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.32030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.04337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.21820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.14513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.13117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.20182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.72802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.64027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.92174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.66404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.62853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.25877E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.56286E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.89951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.25031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.39559E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.71715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.71715E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  4.1300E+00  4.1350E+00 total power(Watts):  2.9840E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.13000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.382621E+02    0.375876E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.362524E+02    0.377409E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.376895E+02    0.360350E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.398707E+02    0.365064E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.398881E+02    0.384697E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.376323E+02    0.392350E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.356918E+02    0.404269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.344678E+02    0.390904E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.343104E+02    0.373553E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.351112E+02    0.357569E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.368451E+02    0.345810E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.389039E+02    0.342440E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.409596E+02    0.347247E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.422461E+02    0.360316E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.424195E+02    0.378065E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.414769E+02    0.395400E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.396808E+02    0.407394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.376022E+02    0.410362E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.355873E+02    0.434256E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.327592E+02    0.417363E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.312265E+02    0.391106E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137985E+03   -0.316943E+02    0.360725E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.338905E+02    0.334306E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.372094E+02    0.319164E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.409172E+02    0.318831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.443516E+02    0.332100E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133840E+03   -0.460828E+02    0.358738E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.455867E+02    0.391291E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.429649E+02    0.420390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.392769E+02    0.435781E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.390077E+02    0.292549E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.369991E+02    0.294563E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.384207E+02    0.277986E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.407122E+02    0.281274E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.406430E+02    0.300344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.383952E+02    0.308102E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.364652E+02    0.319835E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.352267E+02    0.307781E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.350506E+02    0.291437E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.359354E+02    0.275313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.376652E+02    0.263531E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.398284E+02    0.259144E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.417859E+02    0.263912E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.430839E+02    0.276033E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.432762E+02    0.292665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.422438E+02    0.309745E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.404623E+02    0.321452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.382829E+02    0.325537E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.363977E+02    0.348452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137838E+03   -0.333569E+02    0.334570E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.319783E+02    0.309201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138300E+03   -0.324172E+02    0.280075E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.346009E+02    0.253998E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.381124E+02    0.237378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.418308E+02    0.236479E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.450522E+02    0.249402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.469154E+02    0.273175E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133989E+03   -0.464598E+02    0.303457E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134730E+03   -0.438765E+02    0.331526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.400967E+02    0.348448E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.383436E+02    0.431900E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.363241E+02    0.432874E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.376785E+02    0.416113E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.399673E+02    0.421090E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.399679E+02    0.441347E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.376982E+02    0.448387E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.357426E+02    0.459688E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.345274E+02    0.445942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.341890E+02    0.429321E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.351976E+02    0.411906E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.368455E+02    0.400562E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.390165E+02    0.396965E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.409666E+02    0.403194E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.423564E+02    0.416926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.427406E+02    0.434607E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.415531E+02    0.452646E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.397392E+02    0.464052E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.376547E+02    0.466385E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.357102E+02    0.489747E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.327925E+02    0.471889E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.312795E+02    0.445052E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.316818E+02    0.414734E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.338013E+02    0.388440E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.372347E+02    0.372913E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.410564E+02    0.372812E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.444983E+02    0.387852E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133412E+03   -0.462128E+02    0.416775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133248E+03   -0.458009E+02    0.449894E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.432504E+02    0.477818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.394145E+02    0.492600E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.385164E+02    0.336841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.365093E+02    0.338652E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.379362E+02    0.321714E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.402232E+02    0.325392E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.401455E+02    0.345174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.378964E+02    0.352894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.359644E+02    0.364645E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.346375E+02    0.352700E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.345658E+02    0.335167E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.354556E+02    0.318711E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.371854E+02    0.306989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.392453E+02    0.303495E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.411963E+02    0.308514E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.424867E+02    0.320997E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.427812E+02    0.337660E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.418498E+02    0.354557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.399524E+02    0.366947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.378734E+02    0.370154E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.358777E+02    0.393999E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.330393E+02    0.377836E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.315821E+02    0.352254E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.319418E+02    0.323045E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.342234E+02    0.296207E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.375411E+02    0.281130E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.413570E+02    0.279701E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134685E+03   -0.446882E+02    0.292686E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.464324E+02    0.318036E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.459580E+02    0.349639E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.432399E+02    0.378680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.395666E+02    0.394734E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.390657E+02    0.235202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.370582E+02    0.237364E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.384748E+02    0.221434E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.407641E+02    0.224293E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.407017E+02    0.242501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.383577E+02    0.251051E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.364376E+02    0.262733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.352890E+02    0.250395E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137490E+03   -0.351081E+02    0.234593E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.359886E+02    0.219130E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.377136E+02    0.207912E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.398743E+02    0.203577E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.418303E+02    0.207910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.431280E+02    0.219059E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.432178E+02    0.235512E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.423045E+02    0.251329E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.404249E+02    0.263728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.383551E+02    0.267314E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.363840E+02    0.290367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.333396E+02    0.277780E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.320414E+02    0.252355E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138203E+03   -0.325594E+02    0.223295E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137975E+03   -0.346525E+02    0.199247E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137174E+03   -0.380612E+02    0.183745E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.419759E+02    0.181025E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.450849E+02    0.194085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.467160E+02    0.217348E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.463855E+02    0.245121E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.436066E+02    0.274097E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.400721E+02    0.289669E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654802.587809679     
  ps_ts2 prof sum =   654443.835714432     
  trcom prof sum =    654443.835714432     
  ps_ts2 cur sum  =   9649.90462755675     
  trcom cur sum  =    9649.90462755674     
  
  antenna # iant =            2
  powecha_use(iant) =    669660.640450864     
  ps_ts2 prof sum =   669255.344744395     
  trcom prof sum =    669255.344744395     
  ps_ts2 cur sum  =   12193.5034867716     
  trcom cur sum  =    12193.5034867716     
  
  antenna # iant =            3
  powecha_use(iant) =    526812.947620668     
  ps_ts2 prof sum =   526503.215116557     
  trcom prof sum =    526503.215116557     
  ps_ts2 cur sum  =   6613.45118160262     
  trcom cur sum  =    6613.45118160262     
  
  antenna # iant =            4
  powecha_use(iant) =    576747.316268424     
  ps_ts2 prof sum =   576415.208387876     
  trcom prof sum =    576415.208387876     
  ps_ts2 cur sum  =   9442.68414100921     
  trcom cur sum  =    9442.68414100920     
  
  antenna # iant =            5
  powecha_use(iant) =    555977.796054474     
  ps_ts2 prof sum =   555664.305269516     
  trcom prof sum =    555664.305269516     
  ps_ts2 cur sum  =   11276.8325228780     
  trcom cur sum  =    11276.8325228780     
  
  Total ECH heating:      2982281.90923278     
  Total Current Drive:    49176.3759598182     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3888
 TA= 4.13000E+00 CPU TIME= 1.59797E-01 SECONDS.  DT= 3.36086E-03
  
 TEC1=    4.12999999999993     
 TEC2=    4.13499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7621252777776     
  %check_save_state: izleft hours =    69.2294444444444     
 --> plasma_hash("gframe"): TA= 4.130000E+00 NSTEP=  3888 Hash code:   99653045
 ->PRGCHK: bdy curvature ratio at t= 4.1350E+00 seconds is:  5.7078E-02
% MHDEQ: TG1=     4.130000 ; TG2=     4.135000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7642E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7078E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.130000 TO TG2=    4.135000 @ NSTEP     3888
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530053023939D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1350E+00  4.1400E+00 total power(Watts):  2.9870E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.13500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.382584E+02    0.375945E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.362486E+02    0.377478E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.375824E+02    0.361051E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.398664E+02    0.365139E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.398836E+02    0.384771E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.376280E+02    0.392425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.356876E+02    0.404358E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.344647E+02    0.390971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.343063E+02    0.373632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.351072E+02    0.357656E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.368408E+02    0.345909E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.388994E+02    0.342543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.409550E+02    0.347345E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.422415E+02    0.360402E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.424146E+02    0.378138E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.414715E+02    0.395482E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.396758E+02    0.407490E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.374949E+02    0.410956E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.355833E+02    0.434335E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.325697E+02    0.418457E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.312239E+02    0.391171E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.316891E+02    0.360821E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.338867E+02    0.334409E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.372053E+02    0.319256E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.409125E+02    0.318927E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.443466E+02    0.332206E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.460775E+02    0.358826E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133846E+03   -0.455815E+02    0.391366E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.429598E+02    0.420491E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.392723E+02    0.435864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.390037E+02    0.292618E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.369959E+02    0.294624E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.384166E+02    0.278056E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.407077E+02    0.281339E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.406385E+02    0.300425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.383909E+02    0.308193E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.364622E+02    0.319918E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.352220E+02    0.307869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.350473E+02    0.291513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.359314E+02    0.275379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.376617E+02    0.263600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.398239E+02    0.259205E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.417794E+02    0.263988E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.430795E+02    0.276086E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.432714E+02    0.292745E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.422395E+02    0.309830E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.404577E+02    0.321551E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.382792E+02    0.325633E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.363935E+02    0.348549E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.333529E+02    0.334673E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.319748E+02    0.309287E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138320E+03   -0.324136E+02    0.280146E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.345964E+02    0.254068E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.381073E+02    0.237430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.418265E+02    0.236512E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.450471E+02    0.249461E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.469106E+02    0.273222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.464547E+02    0.303542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.438715E+02    0.331632E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.400900E+02    0.348557E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.383392E+02    0.431983E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.363278E+02    0.432932E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.376741E+02    0.416215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.399625E+02    0.421193E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.399633E+02    0.441416E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.376940E+02    0.448436E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.357386E+02    0.459723E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.345235E+02    0.445996E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.341851E+02    0.429410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.351935E+02    0.412005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.368413E+02    0.400645E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.390108E+02    0.397055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.409618E+02    0.403283E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.423515E+02    0.417030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.425119E+02    0.435504E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.415484E+02    0.452692E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.397353E+02    0.464073E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.376483E+02    0.466427E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.357065E+02    0.489800E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.327888E+02    0.471927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.312760E+02    0.445109E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.316738E+02    0.414850E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.337974E+02    0.388512E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.372269E+02    0.372999E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.410519E+02    0.372884E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.444932E+02    0.387925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133433E+03   -0.462074E+02    0.416880E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133269E+03   -0.457961E+02    0.449934E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.432457E+02    0.477856E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.394104E+02    0.492650E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.385119E+02    0.336946E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.365051E+02    0.338756E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.379320E+02    0.321810E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.402195E+02    0.325482E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.401410E+02    0.345274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.378921E+02    0.352986E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.359600E+02    0.364732E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.346335E+02    0.352794E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.345625E+02    0.335268E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.354520E+02    0.318810E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.371814E+02    0.307079E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.392408E+02    0.303584E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.411917E+02    0.308600E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.424819E+02    0.321099E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.427764E+02    0.337766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.418453E+02    0.354643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.399480E+02    0.367021E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.378766E+02    0.370197E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.358730E+02    0.394077E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.330357E+02    0.377906E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.315784E+02    0.352349E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138252E+03   -0.319383E+02    0.323142E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.342198E+02    0.296286E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.375368E+02    0.281195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.412450E+02    0.280503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.446833E+02    0.292760E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.464273E+02    0.318135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.459528E+02    0.349735E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.432374E+02    0.378742E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.395621E+02    0.394811E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.390607E+02    0.235251E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.370528E+02    0.237421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.384700E+02    0.221451E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.407591E+02    0.224308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.406975E+02    0.242547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.383533E+02    0.251106E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.364337E+02    0.262799E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.350969E+02    0.252085E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.351044E+02    0.234638E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.359847E+02    0.219141E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.377096E+02    0.207886E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.398696E+02    0.203543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.418258E+02    0.207877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.431237E+02    0.219052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.432133E+02    0.235545E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.422996E+02    0.251390E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.404209E+02    0.263793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.383521E+02    0.267372E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.363802E+02    0.290440E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.333361E+02    0.277847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.320380E+02    0.252428E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.325558E+02    0.223322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.346475E+02    0.199214E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.380565E+02    0.183684E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.419711E+02    0.180945E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.450797E+02    0.194006E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.467112E+02    0.217328E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.461521E+02    0.246674E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.436020E+02    0.274158E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.399627E+02    0.290470E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.64 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    654925.565400091     
  ps_ts2 prof sum =   654550.867409583     
  trcom prof sum =    654550.867409583     
  ps_ts2 cur sum  =   9626.38431587103     
  trcom cur sum  =    9626.38431587103     
  
  antenna # iant =            2
  powecha_use(iant) =    672164.613048838     
  ps_ts2 prof sum =   671770.241342864     
  trcom prof sum =    671770.241342863     
  ps_ts2 cur sum  =   12210.8312369770     
  trcom cur sum  =    12210.8312369770     
  
  antenna # iant =            3
  powecha_use(iant) =    524986.408585044     
  ps_ts2 prof sum =   524678.085824755     
  trcom prof sum =    524678.085824755     
  ps_ts2 cur sum  =   6572.69959867302     
  trcom cur sum  =    6572.69959867303     
  
  antenna # iant =            4
  powecha_use(iant) =    577797.665754098     
  ps_ts2 prof sum =   577470.810043556     
  trcom prof sum =    577470.810043555     
  ps_ts2 cur sum  =   9436.58211978468     
  trcom cur sum  =    9436.58211978467     
  
  antenna # iant =            5
  powecha_use(iant) =    557160.257595789     
  ps_ts2 prof sum =   556824.941981848     
  trcom prof sum =    556824.941981848     
  ps_ts2 cur sum  =   11277.8858086206     
  trcom cur sum  =    11277.8858086205     
  
  Total ECH heating:      2985294.94660260     
  Total Current Drive:    49124.3830799263     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3890
 TA= 4.13500E+00 CPU TIME= 1.59424E-01 SECONDS.  DT= 2.04893E-03
  
 TEC1=    4.13499999999993     
 TEC2=    4.13999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7775802777778     
  %check_save_state: izleft hours =    69.2138888888889     
 --> plasma_hash("gframe"): TA= 4.135000E+00 NSTEP=  3890 Hash code:   66977157
 ->PRGCHK: bdy curvature ratio at t= 4.1400E+00 seconds is:  5.6964E-02
% MHDEQ: TG1=     4.135000 ; TG2=     4.140000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7650E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6964E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.135000 TO TG2=    4.140000 @ NSTEP     3890
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530361351842D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.21894E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.56404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.52257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.93534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.10736E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41065E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.61518E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.28896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.09144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.88382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.98884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.63183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.10629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       9=  1.39823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.81101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.27858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.20387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.96070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.52741E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.28058E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.55164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.55164E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1400E+00  4.1450E+00 total power(Watts):  2.9783E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.14000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.382552E+02    0.376030E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.362457E+02    0.377559E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.375800E+02    0.361137E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.398632E+02    0.365231E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.398805E+02    0.384852E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.375223E+02    0.393047E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.354867E+02    0.405496E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.344626E+02    0.391050E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.341126E+02    0.374907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.351045E+02    0.357751E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.368380E+02    0.346017E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.388964E+02    0.342656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.409489E+02    0.347468E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.422378E+02    0.360498E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.424112E+02    0.378220E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.414691E+02    0.395561E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.396725E+02    0.407599E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.374916E+02    0.411072E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.355806E+02    0.434437E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.325674E+02    0.418570E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.312217E+02    0.391252E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.316867E+02    0.360912E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.338845E+02    0.334517E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.371995E+02    0.319393E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.409096E+02    0.319042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.443432E+02    0.332324E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133883E+03   -0.460731E+02    0.358919E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.455776E+02    0.391458E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.430698E+02    0.420169E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.392692E+02    0.435966E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.389999E+02    0.292736E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.369933E+02    0.294733E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.384140E+02    0.278155E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.407014E+02    0.281468E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.406360E+02    0.300540E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.383887E+02    0.308309E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.363611E+02    0.320733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.352192E+02    0.307980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.350449E+02    0.291617E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.359291E+02    0.275482E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.376592E+02    0.263709E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.398222E+02    0.259324E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.417792E+02    0.264087E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.430769E+02    0.276191E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.432687E+02    0.292851E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.422363E+02    0.309944E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.404547E+02    0.321667E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.382765E+02    0.325747E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.363907E+02    0.348653E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.333504E+02    0.334786E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.319726E+02    0.309395E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138340E+03   -0.324120E+02    0.280248E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.345958E+02    0.254173E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.381046E+02    0.237540E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.418243E+02    0.236610E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.450440E+02    0.249578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134105E+03   -0.469078E+02    0.273333E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.462172E+02    0.305005E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.438681E+02    0.331752E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.400872E+02    0.348661E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.383361E+02    0.432092E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.363194E+02    0.433057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.376710E+02    0.416335E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.399592E+02    0.421316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.399601E+02    0.441510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.375873E+02    0.448914E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.357356E+02    0.459797E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.345208E+02    0.446079E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.341822E+02    0.429521E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.351909E+02    0.412113E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.368382E+02    0.400738E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.390082E+02    0.397140E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.409526E+02    0.403398E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.424604E+02    0.416695E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.425061E+02    0.435622E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.415451E+02    0.452771E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.397320E+02    0.464141E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.376453E+02    0.466498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.357034E+02    0.489893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.327865E+02    0.472002E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.312734E+02    0.445192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137880E+03   -0.316710E+02    0.414965E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.337950E+02    0.388591E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.372240E+02    0.373080E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.410488E+02    0.372969E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.444896E+02    0.388008E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133453E+03   -0.462036E+02    0.417007E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133291E+03   -0.457925E+02    0.450017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.432365E+02    0.477930E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.394070E+02    0.492745E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.385089E+02    0.337060E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.365024E+02    0.338873E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.379291E+02    0.321925E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.402166E+02    0.325603E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.401381E+02    0.345380E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.378895E+02    0.353082E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.359576E+02    0.364811E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.347271E+02    0.352250E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.345595E+02    0.335384E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.354494E+02    0.318919E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.371791E+02    0.307184E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.392387E+02    0.303686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.411888E+02    0.308711E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.424787E+02    0.321214E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.427730E+02    0.337883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.417313E+02    0.355353E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.399448E+02    0.367111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.378706E+02    0.370297E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.358706E+02    0.394158E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.330332E+02    0.377988E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.315760E+02    0.352446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138272E+03   -0.319363E+02    0.323253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.342173E+02    0.296391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.375342E+02    0.281299E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.412426E+02    0.280614E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.446800E+02    0.292870E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.464236E+02    0.318254E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.459494E+02    0.349844E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.432340E+02    0.378825E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.395590E+02    0.394899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.390579E+02    0.235355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.370506E+02    0.237527E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.384683E+02    0.221519E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.407567E+02    0.224386E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.406952E+02    0.242662E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.383512E+02    0.251229E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.364311E+02    0.262910E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137828E+03   -0.350943E+02    0.252203E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.351023E+02    0.234740E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.359820E+02    0.219213E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.377073E+02    0.207924E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.398675E+02    0.203561E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.418216E+02    0.207915E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.431207E+02    0.219120E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.432105E+02    0.235645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.422965E+02    0.251507E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.404182E+02    0.263906E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.383483E+02    0.267493E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.361822E+02    0.292042E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.333346E+02    0.277953E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.320356E+02    0.252547E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.325535E+02    0.223409E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.346458E+02    0.199233E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.380550E+02    0.183661E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.419688E+02    0.180908E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.450772E+02    0.194000E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.467084E+02    0.217383E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.461490E+02    0.246789E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.435988E+02    0.274272E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.399594E+02    0.290572E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653289.525091493     
  ps_ts2 prof sum =   652898.359816859     
  trcom prof sum =    652898.359816859     
  ps_ts2 cur sum  =   9573.66561071681     
  trcom cur sum  =    9573.66561071681     
  
  antenna # iant =            2
  powecha_use(iant) =    670180.766053591     
  ps_ts2 prof sum =   669783.434209177     
  trcom prof sum =    669783.434209177     
  ps_ts2 cur sum  =   12142.3149630171     
  trcom cur sum  =    12142.3149630171     
  
  antenna # iant =            3
  powecha_use(iant) =    526133.654749677     
  ps_ts2 prof sum =   525837.124099689     
  trcom prof sum =    525837.124099689     
  ps_ts2 cur sum  =   6565.63816878737     
  trcom cur sum  =    6565.63816878738     
  
  antenna # iant =            4
  powecha_use(iant) =    572116.277058572     
  ps_ts2 prof sum =   571806.921316886     
  trcom prof sum =    571806.921316886     
  ps_ts2 cur sum  =   9317.04831725603     
  trcom cur sum  =    9317.04831725602     
  
  antenna # iant =            5
  powecha_use(iant) =    556538.070162226     
  ps_ts2 prof sum =   556197.335919873     
  trcom prof sum =    556197.335919873     
  ps_ts2 cur sum  =   11241.3633542193     
  trcom cur sum  =    11241.3633542193     
  
  Total ECH heating:      2976523.17536248     
  Total Current Drive:    48840.0304139966     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3893
 TA= 4.14000E+00 CPU TIME= 1.62965E-01 SECONDS.  DT= 4.87383E-04
  
 TEC1=    4.13999999999993     
 TEC2=    4.14499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.7965436111108     
  %check_save_state: izleft hours =    69.1950000000000     
 --> plasma_hash("gframe"): TA= 4.140000E+00 NSTEP=  3893 Hash code:   79143059
 ->PRGCHK: bdy curvature ratio at t= 4.1450E+00 seconds is:  5.6850E-02
% MHDEQ: TG1=     4.140000 ; TG2=     4.145000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6850E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.140000 TO TG2=    4.145000 @ NSTEP     3893
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530669679745D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1450E+00  4.1500E+00 total power(Watts):  2.9767E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.14500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.382513E+02    0.376120E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.362423E+02    0.377652E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.375768E+02    0.361231E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.398598E+02    0.365324E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.398767E+02    0.384942E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.375185E+02    0.393140E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.355825E+02    0.405083E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.344588E+02    0.391143E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.341092E+02    0.374999E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.351017E+02    0.357843E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.368355E+02    0.346119E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.388936E+02    0.342761E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.408456E+02    0.348154E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.422342E+02    0.360590E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.424075E+02    0.378304E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.414654E+02    0.395655E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.396689E+02    0.407708E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.374881E+02    0.411191E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.355772E+02    0.434545E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.325644E+02    0.418687E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.312189E+02    0.391340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.316844E+02    0.361000E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.338811E+02    0.334633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.372036E+02    0.319448E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.409061E+02    0.319148E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.443396E+02    0.332434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.460701E+02    0.359016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133888E+03   -0.455735E+02    0.391551E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.430659E+02    0.420295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.392655E+02    0.436076E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.389977E+02    0.292809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.369904E+02    0.294819E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.384110E+02    0.278237E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.407062E+02    0.281498E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.406328E+02    0.300626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.383871E+02    0.308391E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.363580E+02    0.320835E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.352182E+02    0.308072E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.350429E+02    0.291694E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.359266E+02    0.275566E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.376553E+02    0.263798E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.398192E+02    0.259400E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.417757E+02    0.264157E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.430733E+02    0.276270E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.432651E+02    0.292941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.422326E+02    0.310046E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.404513E+02    0.321773E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.382733E+02    0.325857E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.363882E+02    0.348752E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.333478E+02    0.334898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.319700E+02    0.309490E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.324097E+02    0.280322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.345930E+02    0.254263E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.381017E+02    0.237597E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.418210E+02    0.236663E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.450409E+02    0.249645E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134126E+03   -0.469039E+02    0.273401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.462135E+02    0.305100E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.438646E+02    0.331860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.400838E+02    0.348763E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.382276E+02    0.432646E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.362154E+02    0.433607E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.376674E+02    0.416458E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.399554E+02    0.421443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.399564E+02    0.441608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.375836E+02    0.448997E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.357317E+02    0.459865E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.345178E+02    0.446165E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.342756E+02    0.429171E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.351877E+02    0.412231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.368351E+02    0.400838E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.390050E+02    0.397231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.409584E+02    0.403473E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.424563E+02    0.416826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.425022E+02    0.435735E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.415414E+02    0.452850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.397284E+02    0.464212E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.376417E+02    0.466569E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.357000E+02    0.489982E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.327834E+02    0.472078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.312706E+02    0.445277E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.316682E+02    0.415083E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.337916E+02    0.388683E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.372208E+02    0.373171E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.410451E+02    0.373054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134195E+03   -0.444855E+02    0.388106E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133474E+03   -0.461992E+02    0.417141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133312E+03   -0.457882E+02    0.450106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.430132E+02    0.478592E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.394029E+02    0.492845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.385057E+02    0.337170E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.364995E+02    0.338981E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.379262E+02    0.322032E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.402134E+02    0.325713E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.401347E+02    0.345487E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.378863E+02    0.353181E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.359545E+02    0.364904E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.347246E+02    0.352344E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.345564E+02    0.335494E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.354468E+02    0.319025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.371764E+02    0.307279E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.392355E+02    0.303782E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.411855E+02    0.308808E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.424752E+02    0.321322E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.427696E+02    0.337991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.417277E+02    0.355453E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.399414E+02    0.367203E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.378674E+02    0.370386E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.358670E+02    0.394249E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.330303E+02    0.378072E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.315734E+02    0.352545E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.319346E+02    0.323348E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.342147E+02    0.296478E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.375312E+02    0.281377E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.412393E+02    0.280686E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.446767E+02    0.292947E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.464199E+02    0.318357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133937E+03   -0.459456E+02    0.349944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.432302E+02    0.378912E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.395552E+02    0.394996E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.390548E+02    0.235410E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.370522E+02    0.237569E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.384654E+02    0.221537E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.407535E+02    0.224411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.406921E+02    0.242727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.383484E+02    0.251302E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.364283E+02    0.262995E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.350921E+02    0.252277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.350997E+02    0.234796E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.359797E+02    0.219227E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.377042E+02    0.207905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.398642E+02    0.203535E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.418183E+02    0.207890E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.431173E+02    0.219128E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.432071E+02    0.235698E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.422930E+02    0.251583E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.404148E+02    0.263990E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.382447E+02    0.268341E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.361791E+02    0.292130E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.333322E+02    0.278027E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138423E+03   -0.320335E+02    0.252625E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138268E+03   -0.325511E+02    0.223435E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.346435E+02    0.199200E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.380516E+02    0.183599E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.419650E+02    0.180831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.450719E+02    0.193939E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.467046E+02    0.217383E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.461454E+02    0.246845E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.435957E+02    0.274345E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.399586E+02    0.290638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656813.151498586     
  ps_ts2 prof sum =   656436.322594264     
  trcom prof sum =    656436.322557180     
  ps_ts2 cur sum  =   9596.36127138728     
  trcom cur sum  =    9596.36127138728     
  
  antenna # iant =            2
  powecha_use(iant) =    670417.034125954     
  ps_ts2 prof sum =   670027.453901650     
  trcom prof sum =    670027.453901649     
  ps_ts2 cur sum  =   12114.6967549583     
  trcom cur sum  =    12114.6967549583     
  
  antenna # iant =            3
  powecha_use(iant) =    521777.400048820     
  ps_ts2 prof sum =   521484.425624273     
  trcom prof sum =    521484.425624274     
  ps_ts2 cur sum  =   6489.46015448571     
  trcom cur sum  =    6489.46015448571     
  
  antenna # iant =            4
  powecha_use(iant) =    572504.415047347     
  ps_ts2 prof sum =   572201.246595481     
  trcom prof sum =    572201.246595481     
  ps_ts2 cur sum  =   9297.54168897527     
  trcom cur sum  =    9297.54168897526     
  
  antenna # iant =            5
  powecha_use(iant) =    555198.779404953     
  ps_ts2 prof sum =   554859.614226314     
  trcom prof sum =    554859.614226313     
  ps_ts2 cur sum  =   11188.3909184578     
  trcom cur sum  =    11188.3909184578     
  
  Total ECH heating:      2975009.06290490     
  Total Current Drive:    48686.4507882643     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3899
 TA= 4.14500E+00 CPU TIME= 1.60101E-01 SECONDS.  DT= 1.25004E-03
  
 TEC1=    4.14499999999993     
 TEC2=    4.14999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8105424999999     
  %check_save_state: izleft hours =    69.1811111111111     
 --> plasma_hash("gframe"): TA= 4.145000E+00 NSTEP=  3899 Hash code:   39247891
 ->PRGCHK: bdy curvature ratio at t= 4.1500E+00 seconds is:  5.6736E-02
% MHDEQ: TG1=     4.145000 ; TG2=     4.150000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1660E-03 SECONDS
   DATA R*BT AT EDGE:  2.7666E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6736E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.145000 TO TG2=    4.150000 @ NSTEP     3899
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530978007649D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.14893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.53758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.67828E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.52853E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.17498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       5=  4.87826E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.44096E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.04946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.32653E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.26447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.62290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  3.24455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #      10= -5.61232E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.00385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.29951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.82450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.02537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.82024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.15904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.00978E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.00978E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.1500E+00  4.1550E+00 total power(Watts):  2.9807E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.15000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.382476E+02    0.376228E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.362406E+02    0.377744E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.375747E+02    0.361336E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.398578E+02    0.365428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.398747E+02    0.385038E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.375164E+02    0.393240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.355800E+02    0.405201E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.344567E+02    0.391246E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.341073E+02    0.375096E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.351001E+02    0.357951E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.368338E+02    0.346235E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.388918E+02    0.342880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.408379E+02    0.348295E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.421205E+02    0.361289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.424049E+02    0.378414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.414624E+02    0.395770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.396663E+02    0.407833E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.374859E+02    0.411314E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.355748E+02    0.434667E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.325630E+02    0.418815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.312172E+02    0.391437E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.315930E+02    0.361741E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137518E+03   -0.338803E+02    0.334748E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.371983E+02    0.319594E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.409042E+02    0.319268E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.443377E+02    0.332559E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.460676E+02    0.359129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.455706E+02    0.391664E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134515E+03   -0.430629E+02    0.420444E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.392629E+02    0.436200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.389964E+02    0.292913E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.369883E+02    0.294932E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.384093E+02    0.278335E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.407003E+02    0.281619E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.406309E+02    0.300737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.383839E+02    0.308512E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.363564E+02    0.320952E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.352157E+02    0.308181E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.350406E+02    0.291802E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.359250E+02    0.275666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.376529E+02    0.263905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.397138E+02    0.260289E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.417729E+02    0.264275E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.429614E+02    0.277101E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.433746E+02    0.292339E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.422308E+02    0.310160E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.404496E+02    0.321896E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.382717E+02    0.325980E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.362870E+02    0.349508E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137916E+03   -0.333465E+02    0.335010E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.319690E+02    0.309604E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.324085E+02    0.280417E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.345921E+02    0.254366E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.381002E+02    0.237700E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.418194E+02    0.236769E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.450388E+02    0.249760E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.469021E+02    0.273504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.463284E+02    0.304544E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.436355E+02    0.333269E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.399748E+02    0.349504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.382251E+02    0.432773E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.362129E+02    0.433736E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.376649E+02    0.416595E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.399528E+02    0.421585E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.399536E+02    0.441724E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.375811E+02    0.449095E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.356305E+02    0.460316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.343218E+02    0.447090E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.342733E+02    0.429302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.351854E+02    0.412361E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.368314E+02    0.400960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.390028E+02    0.397337E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.409521E+02    0.403604E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.422286E+02    0.417875E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.424992E+02    0.435864E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.415385E+02    0.452948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.397253E+02    0.464300E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.375353E+02    0.467004E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.355974E+02    0.490383E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.325954E+02    0.472852E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137830E+03   -0.312686E+02    0.445376E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137919E+03   -0.316660E+02    0.415211E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.338851E+02    0.388209E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.372188E+02    0.373272E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.409334E+02    0.373732E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.442516E+02    0.389243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133507E+03   -0.461899E+02    0.417299E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133551E+03   -0.456663E+02    0.450578E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.430066E+02    0.478704E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.393998E+02    0.492957E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.385042E+02    0.337288E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.364980E+02    0.339097E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.379246E+02    0.322149E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.402113E+02    0.325831E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.401327E+02    0.345608E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.378845E+02    0.353293E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.359525E+02    0.365006E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.347230E+02    0.352454E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.345557E+02    0.335608E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.354451E+02    0.319138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.370748E+02    0.308106E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.392320E+02    0.303904E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.411838E+02    0.308919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.424732E+02    0.321445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.426557E+02    0.338747E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.417257E+02    0.355559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.399392E+02    0.367306E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.377623E+02    0.371079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.358669E+02    0.394351E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.328422E+02    0.379361E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.314833E+02    0.353308E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.319330E+02    0.323465E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.340264E+02    0.298090E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.375298E+02    0.281478E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.412371E+02    0.280791E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.444478E+02    0.294450E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.463005E+02    0.319127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.458255E+02    0.350658E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.432278E+02    0.379012E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.395530E+02    0.395096E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.36 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.390535E+02    0.235505E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.370464E+02    0.237690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.384646E+02    0.221597E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.407519E+02    0.224483E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.406908E+02    0.242827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.383468E+02    0.251409E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.364262E+02    0.263106E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.350907E+02    0.252391E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.350986E+02    0.234891E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.359783E+02    0.219292E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.377032E+02    0.207932E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.398631E+02    0.203542E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.418178E+02    0.207905E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.430086E+02    0.219979E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.432056E+02    0.235797E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.422917E+02    0.251690E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.404124E+02    0.264100E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.382441E+02    0.268442E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.362754E+02    0.291482E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138167E+03   -0.333311E+02    0.278123E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138443E+03   -0.320324E+02    0.252734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138508E+03   -0.324633E+02    0.224366E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.346416E+02    0.199206E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.381457E+02    0.182712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.419636E+02    0.180799E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.450707E+02    0.193921E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.467031E+02    0.217433E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.461439E+02    0.246964E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.435941E+02    0.274445E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.399552E+02    0.290758E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657457.906723522     
  ps_ts2 prof sum =   657083.573393776     
  trcom prof sum =    657083.573393776     
  ps_ts2 cur sum  =   9581.45250528233     
  trcom cur sum  =    9581.45250528233     
  
  antenna # iant =            2
  powecha_use(iant) =    669323.025353646     
  ps_ts2 prof sum =   668936.539308210     
  trcom prof sum =    668936.539308210     
  ps_ts2 cur sum  =   12067.6031522318     
  trcom cur sum  =    12067.6031522318     
  
  antenna # iant =            3
  powecha_use(iant) =    522667.348374444     
  ps_ts2 prof sum =   522331.175133228     
  trcom prof sum =    522331.175133229     
  ps_ts2 cur sum  =   6483.26281087067     
  trcom cur sum  =    6483.26281087068     
  
  antenna # iant =            4
  powecha_use(iant) =    575903.091107790     
  ps_ts2 prof sum =   575545.634142904     
  trcom prof sum =    575545.634142904     
  ps_ts2 cur sum  =   9330.07221708060     
  trcom cur sum  =    9330.07221708059     
  
  antenna # iant =            5
  powecha_use(iant) =    555300.563711865     
  ps_ts2 prof sum =   554987.946850659     
  trcom prof sum =    554987.946850659     
  ps_ts2 cur sum  =   11169.8408492029     
  trcom cur sum  =    11169.8408492029     
  
  Total ECH heating:      2978884.86882878     
  Total Current Drive:    48632.2315346683     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3903
 TA= 4.15000E+00 CPU TIME= 1.59858E-01 SECONDS.  DT= 2.92798E-04
  
 TEC1=    4.14999999999993     
 TEC2=    4.15499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8265208333332     
  %check_save_state: izleft hours =    69.1650000000000     
 --> plasma_hash("gframe"): TA= 4.150000E+00 NSTEP=  3903 Hash code:   89181195
 ->PRGCHK: bdy curvature ratio at t= 4.1550E+00 seconds is:  5.6623E-02
% MHDEQ: TG1=     4.150000 ; TG2=     4.155000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7674E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6623E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.150000 TO TG2=    4.155000 @ NSTEP     3903
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531286335552D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1550E+00  4.1600E+00 total power(Watts):  2.9760E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.15500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.381435E+02    0.376915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.361388E+02    0.378447E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.375733E+02    0.361461E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.398516E+02    0.365573E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.398723E+02    0.385169E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.375142E+02    0.393372E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.355781E+02    0.405333E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.342627E+02    0.392473E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.341063E+02    0.375207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.350989E+02    0.358077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.367321E+02    0.347016E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.388905E+02    0.343019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.408362E+02    0.348437E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.421189E+02    0.361422E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.424029E+02    0.378540E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.414605E+02    0.395893E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.396641E+02    0.407976E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.374837E+02    0.411458E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.355726E+02    0.434798E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.325604E+02    0.418960E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.312157E+02    0.391552E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.315919E+02    0.361862E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.336919E+02    0.336248E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.371974E+02    0.319726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.409032E+02    0.319405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.441076E+02    0.333975E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.460656E+02    0.359275E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.455682E+02    0.391796E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.428331E+02    0.421490E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.392605E+02    0.436334E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.389956E+02    0.293033E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.369877E+02    0.295051E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.384088E+02    0.278448E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.406999E+02    0.281738E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.406300E+02    0.300860E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.382805E+02    0.309349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.363555E+02    0.321084E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.352152E+02    0.308303E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.350402E+02    0.291915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.359247E+02    0.275783E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.376533E+02    0.264026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.397132E+02    0.260416E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.416662E+02    0.265162E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.429608E+02    0.277218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.431513E+02    0.293877E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.422301E+02    0.310284E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.404484E+02    0.322035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.382705E+02    0.326114E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.362856E+02    0.349642E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.334380E+02    0.334462E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.319678E+02    0.309720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138400E+03   -0.324083E+02    0.280531E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.346829E+02    0.253688E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.381003E+02    0.237809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.418191E+02    0.236876E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.450386E+02    0.249886E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.466685E+02    0.275052E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.463275E+02    0.304672E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.436344E+02    0.333408E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.399730E+02    0.349647E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.382227E+02    0.432911E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.362107E+02    0.433870E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.376627E+02    0.416748E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.399503E+02    0.421739E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.399512E+02    0.441848E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.375787E+02    0.449201E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.356281E+02    0.460407E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.343193E+02    0.447200E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.342712E+02    0.429440E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.349871E+02    0.413506E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.368308E+02    0.401076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.388950E+02    0.397987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.409502E+02    0.403735E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.422261E+02    0.418042E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.424964E+02    0.436006E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.415362E+02    0.453050E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.397224E+02    0.464403E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.375330E+02    0.467093E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.355951E+02    0.490491E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.325932E+02    0.472944E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.312666E+02    0.445483E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.316641E+02    0.415351E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.338836E+02    0.388325E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.372172E+02    0.373392E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.409320E+02    0.373854E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.442494E+02    0.389373E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133508E+03   -0.461968E+02    0.417447E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133573E+03   -0.456634E+02    0.450693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.430036E+02    0.478807E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.392898E+02    0.493342E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.385030E+02    0.337428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.364969E+02    0.339233E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.379235E+02    0.322285E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.402102E+02    0.325972E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.401313E+02    0.345749E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.378831E+02    0.353425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.357531E+02    0.366351E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.347218E+02    0.352583E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.345549E+02    0.335744E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.352506E+02    0.320678E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.370741E+02    0.308232E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.392329E+02    0.304018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.411826E+02    0.309054E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.424723E+02    0.321577E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.426525E+02    0.338899E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.417242E+02    0.355691E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.399376E+02    0.367428E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.377607E+02    0.371201E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.358631E+02    0.394479E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.328408E+02    0.379476E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.314815E+02    0.353436E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138331E+03   -0.319322E+02    0.323593E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138036E+03   -0.340257E+02    0.298202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.375293E+02    0.281595E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.412372E+02    0.280903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.444469E+02    0.294574E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.462991E+02    0.319271E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.458237E+02    0.350800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.433393E+02    0.378592E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.395509E+02    0.395223E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.390536E+02    0.235608E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.370465E+02    0.237797E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.384640E+02    0.221680E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.407518E+02    0.224562E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.406905E+02    0.242949E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.383460E+02    0.251542E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.362328E+02    0.264807E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137888E+03   -0.350905E+02    0.252519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138028E+03   -0.349131E+02    0.236665E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.359784E+02    0.219360E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.377033E+02    0.207970E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.397647E+02    0.204393E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.418190E+02    0.207941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.430086E+02    0.220049E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.432051E+02    0.235912E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.421839E+02    0.252600E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.404127E+02    0.264225E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.382444E+02    0.268554E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.362744E+02    0.291597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.333309E+02    0.278237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.320323E+02    0.252860E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138530E+03   -0.324634E+02    0.224444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.346418E+02    0.199233E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.381459E+02    0.182701E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.419639E+02    0.180775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.450710E+02    0.193911E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.468163E+02    0.216716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.462575E+02    0.246344E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.435933E+02    0.274562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.399547E+02    0.290874E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    652881.400275208     
  ps_ts2 prof sum =   652461.881293045     
  trcom prof sum =    652461.881293045     
  ps_ts2 cur sum  =   9492.83424361428     
  trcom cur sum  =    9492.83424361427     
  
  antenna # iant =            2
  powecha_use(iant) =    668675.350340849     
  ps_ts2 prof sum =   668301.834342202     
  trcom prof sum =    668301.834342202     
  ps_ts2 cur sum  =   12035.9974239760     
  trcom cur sum  =    12035.9974239760     
  
  antenna # iant =            3
  powecha_use(iant) =    524901.452443277     
  ps_ts2 prof sum =   524560.697576827     
  trcom prof sum =    524560.697576827     
  ps_ts2 cur sum  =   6493.99273690287     
  trcom cur sum  =    6493.99273690288     
  
  antenna # iant =            4
  powecha_use(iant) =    574460.029335854     
  ps_ts2 prof sum =   574103.539306626     
  trcom prof sum =    574103.539306626     
  ps_ts2 cur sum  =   9288.28718885615     
  trcom cur sum  =    9288.28718885613     
  
  antenna # iant =            5
  powecha_use(iant) =    555057.267143137     
  ps_ts2 prof sum =   554745.399893050     
  trcom prof sum =    554745.399893050     
  ps_ts2 cur sum  =   11151.7002175049     
  trcom cur sum  =    11151.7002175049     
  
  Total ECH heating:      2974173.35241175     
  Total Current Drive:    48462.8118108542     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3911
 TA= 4.15500E+00 CPU TIME= 1.60157E-01 SECONDS.  DT= 7.33137E-04
  
 TEC1=    4.15499999999993     
 TEC2=    4.15999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8384155555555     
  %check_save_state: izleft hours =    69.1530555555556     
 --> plasma_hash("gframe"): TA= 4.155000E+00 NSTEP=  3911 Hash code:   34301165
 ->PRGCHK: bdy curvature ratio at t= 4.1600E+00 seconds is:  5.6677E-02
% MHDEQ: TG1=     4.155000 ; TG2=     4.160000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7660E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6677E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.155000 TO TG2=    4.160000 @ NSTEP     3911
   GFRAME TG2 MOMENTS CHECKSUM:  2.4532511231609D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.11525E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.62107E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.60016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.47767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.15684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4=  2.03357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.41270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.08307E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.62302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.22114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.61131E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.80311E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  4.23454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.95115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.48120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.89508E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.01818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.82530E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.30320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  8.08615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  8.08615E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1600E+00  4.1650E+00 total power(Watts):  2.9712E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.16000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.382517E+02    0.376290E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.362406E+02    0.377824E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.375753E+02    0.361423E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.398583E+02    0.365510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.398747E+02    0.385117E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.375164E+02    0.393307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.354813E+02    0.405769E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.344569E+02    0.391305E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.341076E+02    0.375173E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.351003E+02    0.358043E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.368339E+02    0.346340E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.388920E+02    0.342992E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.408383E+02    0.348404E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.422324E+02    0.360803E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.424052E+02    0.378492E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.414628E+02    0.395828E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.396664E+02    0.407879E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.374861E+02    0.411349E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136652E+03   -0.355749E+02    0.434681E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.325670E+02    0.418833E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.312170E+02    0.391500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.316829E+02    0.361190E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.338812E+02    0.334858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.371996E+02    0.319725E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.409060E+02    0.319402E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.443388E+02    0.332684E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.460680E+02    0.359238E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.455706E+02    0.391734E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.430630E+02    0.420470E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.392630E+02    0.436210E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.389983E+02    0.293055E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.369899E+02    0.295070E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.384118E+02    0.278476E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.407026E+02    0.281766E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.406327E+02    0.300884E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.383849E+02    0.308654E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.363576E+02    0.321080E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.352177E+02    0.308313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.350423E+02    0.291933E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.359275E+02    0.275800E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.376560E+02    0.264038E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.398201E+02    0.259644E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.417758E+02    0.264426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.430741E+02    0.276524E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.432655E+02    0.293199E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.422327E+02    0.310304E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.404512E+02    0.322028E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.382732E+02    0.326100E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.363865E+02    0.348969E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.333469E+02    0.335125E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.319697E+02    0.309729E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.324089E+02    0.280550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.345934E+02    0.254496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.381043E+02    0.237796E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.418234E+02    0.236861E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.450425E+02    0.249894E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.469049E+02    0.273668E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.462132E+02    0.305377E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.438639E+02    0.332110E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.400821E+02    0.348986E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.382251E+02    0.432788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.363137E+02    0.433308E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.376650E+02    0.416628E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.399528E+02    0.421614E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.399537E+02    0.441732E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.375813E+02    0.449103E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.357305E+02    0.459942E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.345155E+02    0.446274E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.342734E+02    0.429322E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.351854E+02    0.412397E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.368330E+02    0.400995E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.390030E+02    0.397395E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.409522E+02    0.403654E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.424538E+02    0.416998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.424992E+02    0.435873E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.415390E+02    0.452943E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.397259E+02    0.464290E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.376392E+02    0.466651E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.356974E+02    0.490081E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.327822E+02    0.472155E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.312687E+02    0.445385E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.316657E+02    0.415247E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.337898E+02    0.388844E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.372191E+02    0.373351E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.410431E+02    0.373246E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.444833E+02    0.388278E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.461941E+02    0.417330E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133345E+03   -0.457850E+02    0.450217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.432351E+02    0.478101E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.394004E+02    0.492935E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.385049E+02    0.337407E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.364989E+02    0.339206E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.379257E+02    0.322281E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.402129E+02    0.325960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.401332E+02    0.345720E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.378847E+02    0.353394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.359529E+02    0.365091E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.347231E+02    0.352553E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.345567E+02    0.335718E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.354459E+02    0.319270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.371763E+02    0.307527E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.392368E+02    0.304027E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.411856E+02    0.309064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.424748E+02    0.321580E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.427683E+02    0.338239E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.417264E+02    0.355655E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.399398E+02    0.367385E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.378657E+02    0.370572E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.358648E+02    0.394414E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.330285E+02    0.378246E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138119E+03   -0.315725E+02    0.352742E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.319341E+02    0.323586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.342150E+02    0.296720E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.375321E+02    0.281617E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.412423E+02    0.280917E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.446768E+02    0.293221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134013E+03   -0.464189E+02    0.318643E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.459437E+02    0.350176E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134972E+03   -0.432281E+02    0.379095E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.395528E+02    0.395163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.390578E+02    0.235596E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.370518E+02    0.237780E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.384723E+02    0.221616E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.407565E+02    0.224536E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.406940E+02    0.242946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.383495E+02    0.251541E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.364297E+02    0.263239E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.350939E+02    0.252512E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.351023E+02    0.234974E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.359823E+02    0.219318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.377079E+02    0.207913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.398634E+02    0.203538E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.418235E+02    0.207883E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.431203E+02    0.219218E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.432097E+02    0.235895E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.422953E+02    0.251837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.404156E+02    0.264238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.383477E+02    0.267806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.361790E+02    0.292368E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.333329E+02    0.278252E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138449E+03   -0.320352E+02    0.252852E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138299E+03   -0.325543E+02    0.223544E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.346457E+02    0.199147E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.380555E+02    0.183440E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.419693E+02    0.180649E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.450774E+02    0.193807E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.467079E+02    0.217460E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.461475E+02    0.247097E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.435966E+02    0.274600E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.399573E+02    0.290899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651847.959663542     
  ps_ts2 prof sum =   651455.289249764     
  trcom prof sum =    651455.289249765     
  ps_ts2 cur sum  =   9490.59619954313     
  trcom cur sum  =    9490.59619954313     
  
  antenna # iant =            2
  powecha_use(iant) =    666241.673404398     
  ps_ts2 prof sum =   665849.688663767     
  trcom prof sum =    665849.688663766     
  ps_ts2 cur sum  =   11992.0355911697     
  trcom cur sum  =    11992.0355911697     
  
  antenna # iant =            3
  powecha_use(iant) =    524011.842989907     
  ps_ts2 prof sum =   523723.069745014     
  trcom prof sum =    523723.069745015     
  ps_ts2 cur sum  =   6496.04337683578     
  trcom cur sum  =    6496.04337683578     
  
  antenna # iant =            4
  powecha_use(iant) =    573737.204152130     
  ps_ts2 prof sum =   573429.214598223     
  trcom prof sum =    573429.214598222     
  ps_ts2 cur sum  =   9282.52752729144     
  trcom cur sum  =    9282.52752729143     
  
  antenna # iant =            5
  powecha_use(iant) =    555406.363451016     
  ps_ts2 prof sum =   555064.329429893     
  trcom prof sum =    555064.329429892     
  ps_ts2 cur sum  =   11151.7665202016     
  trcom cur sum  =    11151.7665202016     
  
  Total ECH heating:      2969521.59168666     
  Total Current Drive:    48412.9692150417     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3916
 TA= 4.16000E+00 CPU TIME= 1.59688E-01 SECONDS.  DT= 9.66261E-04
  
 TEC1=    4.15999999999993     
 TEC2=    4.16499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8539499999999     
  %check_save_state: izleft hours =    69.1375000000000     
 --> plasma_hash("gframe"): TA= 4.160000E+00 NSTEP=  3916 Hash code:   44332334
 ->PRGCHK: bdy curvature ratio at t= 4.1650E+00 seconds is:  5.6732E-02
% MHDEQ: TG1=     4.160000 ; TG2=     4.165000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6732E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.160000 TO TG2=    4.165000 @ NSTEP     3916
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533736127665D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1650E+00  4.1700E+00 total power(Watts):  2.9835E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.16500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.382481E+02    0.376276E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.362424E+02    0.377784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.376793E+02    0.360778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.399670E+02    0.364884E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.398763E+02    0.385078E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.376209E+02    0.392725E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.356806E+02    0.404664E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.344582E+02    0.391261E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.343007E+02    0.373935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.350047E+02    0.358636E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.368355E+02    0.346304E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.389985E+02    0.342314E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.409488E+02    0.347747E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.422344E+02    0.360762E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.426311E+02    0.377363E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.414645E+02    0.395776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.396681E+02    0.407800E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.375907E+02    0.410770E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.355766E+02    0.434568E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.327491E+02    0.417763E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.313077E+02    0.390885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.316842E+02    0.361153E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.337886E+02    0.335505E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.372018E+02    0.319697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.410160E+02    0.318708E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.442259E+02    0.333305E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.460703E+02    0.359197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133691E+03   -0.456902E+02    0.391186E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.429512E+02    0.420809E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.392648E+02    0.436098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.391037E+02    0.292319E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.370914E+02    0.294321E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.385158E+02    0.277709E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.408113E+02    0.281025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.407417E+02    0.300167E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.383869E+02    0.308642E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.364586E+02    0.320353E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.351229E+02    0.309026E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.349492E+02    0.292677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.358335E+02    0.276562E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.376593E+02    0.264023E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.398229E+02    0.259634E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.417798E+02    0.264409E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.430770E+02    0.276519E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.432680E+02    0.293200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.423450E+02    0.309607E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.404532E+02    0.322007E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.383780E+02    0.325395E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.363881E+02    0.348932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.333491E+02    0.335083E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.320608E+02    0.308972E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138152E+03   -0.325005E+02    0.279754E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.345957E+02    0.254474E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.381085E+02    0.237755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.419318E+02    0.236053E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.452707E+02    0.248380E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134139E+03   -0.469080E+02    0.273671E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.464497E+02    0.304026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.437525E+02    0.332725E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.400840E+02    0.348952E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.383317E+02    0.432242E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.363153E+02    0.433199E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.376666E+02    0.416535E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.399545E+02    0.421508E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.399556E+02    0.441615E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.376867E+02    0.448600E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.357319E+02    0.459839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.345173E+02    0.446169E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.341785E+02    0.429678E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.351869E+02    0.412312E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.369360E+02    0.400417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.390046E+02    0.397341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.409539E+02    0.403587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.423429E+02    0.417358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.427273E+02    0.434934E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.416524E+02    0.452461E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.398359E+02    0.463827E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.376411E+02    0.466545E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.356995E+02    0.489956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.326909E+02    0.472392E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.312703E+02    0.445283E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.316671E+02    0.415161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.337912E+02    0.388800E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.373225E+02    0.372730E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.410446E+02    0.373213E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.444850E+02    0.388239E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133494E+03   -0.461983E+02    0.417207E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133335E+03   -0.457872E+02    0.450096E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134032E+03   -0.432376E+02    0.477973E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.394028E+02    0.492800E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.386104E+02    0.336720E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.365999E+02    0.338511E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.379280E+02    0.322249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.402151E+02    0.325930E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.402422E+02    0.345054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.378864E+02    0.353356E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.359544E+02    0.365056E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.346283E+02    0.353159E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.344623E+02    0.336365E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.354475E+02    0.319245E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.371785E+02    0.307511E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.392340E+02    0.304047E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.412959E+02    0.308359E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.425879E+02    0.320897E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.427702E+02    0.338209E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.418387E+02    0.355018E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.400487E+02    0.366765E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.378673E+02    0.370536E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.359669E+02    0.393822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137696E+03   -0.329371E+02    0.378796E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.315738E+02    0.352705E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138083E+03   -0.320257E+02    0.322848E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.341235E+02    0.297455E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.375346E+02    0.281609E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.413471E+02    0.280209E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.445658E+02    0.293916E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.464212E+02    0.318623E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.459455E+02    0.350150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.432296E+02    0.379064E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.396617E+02    0.394581E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.390621E+02    0.235556E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.370546E+02    0.237741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.385686E+02    0.220769E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.407614E+02    0.224482E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.406966E+02    0.242920E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.384521E+02    0.250726E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.364318E+02    0.263226E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.352857E+02    0.250864E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137786E+03   -0.350123E+02    0.235766E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.358919E+02    0.220106E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.376152E+02    0.208677E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.398720E+02    0.203416E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.418277E+02    0.207804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.431248E+02    0.219156E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.433215E+02    0.235075E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.422984E+02    0.251807E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.405238E+02    0.263460E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.383504E+02    0.267794E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.363767E+02    0.290859E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.335177E+02    0.276668E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.320375E+02    0.252826E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138287E+03   -0.325569E+02    0.223485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.347407E+02    0.198158E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.382504E+02    0.181570E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.419742E+02    0.180486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.451920E+02    0.192892E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.469386E+02    0.215840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.463792E+02    0.245583E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.437107E+02    0.273863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.400649E+02    0.290172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657341.814920870     
  ps_ts2 prof sum =   656966.487792442     
  trcom prof sum =    656966.487792443     
  ps_ts2 cur sum  =   9583.00832892110     
  trcom cur sum  =    9583.00832892110     
  
  antenna # iant =            2
  powecha_use(iant) =    670221.833098499     
  ps_ts2 prof sum =   669814.622530373     
  trcom prof sum =    669814.622530372     
  ps_ts2 cur sum  =   12066.6742745163     
  trcom cur sum  =    12066.6742745163     
  
  antenna # iant =            3
  powecha_use(iant) =    524379.637180424     
  ps_ts2 prof sum =   524058.110160275     
  trcom prof sum =    524058.110160276     
  ps_ts2 cur sum  =   6513.77704980164     
  trcom cur sum  =    6513.77704980165     
  
  antenna # iant =            4
  powecha_use(iant) =    576550.591888621     
  ps_ts2 prof sum =   576203.766178299     
  trcom prof sum =    576203.766178298     
  ps_ts2 cur sum  =   9336.23918412431     
  trcom cur sum  =    9336.23918412430     
  
  antenna # iant =            5
  powecha_use(iant) =    555024.155494017     
  ps_ts2 prof sum =   554718.091901719     
  trcom prof sum =    554718.091901719     
  ps_ts2 cur sum  =   11134.8375320306     
  trcom cur sum  =    11134.8375320306     
  
  Total ECH heating:      2981761.07856311     
  Total Current Drive:    48634.5363693939     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3920
 TA= 4.16500E+00 CPU TIME= 1.59537E-01 SECONDS.  DT= 1.64516E-03
  
 TEC1=    4.16499999999993     
 TEC2=    4.16999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8734072222223     
  %check_save_state: izleft hours =    69.1180555555556     
 --> plasma_hash("gframe"): TA= 4.165000E+00 NSTEP=  3920 Hash code:   31088202
 ->PRGCHK: bdy curvature ratio at t= 4.1700E+00 seconds is:  5.6790E-02
% MHDEQ: TG1=     4.165000 ; TG2=     4.170000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7632E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6790E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.165000 TO TG2=    4.170000 @ NSTEP     3920
   GFRAME TG2 MOMENTS CHECKSUM:  2.4534961042952D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.12006E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.81533E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.28340E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.79529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.05088E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.60971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.19948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19357E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.71387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.85037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.59731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.80852E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.39132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.64695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.82301E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.42731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.93713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.53356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.71682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.59052E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.59052E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1700E+00  4.1750E+00 total power(Watts):  2.9821E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.17000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.382532E+02    0.376221E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.362442E+02    0.377741E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.376813E+02    0.360739E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.399689E+02    0.364855E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.399855E+02    0.384477E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.376228E+02    0.392659E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.356826E+02    0.404579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.343642E+02    0.391758E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.343025E+02    0.373890E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.352008E+02    0.357338E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.368375E+02    0.346270E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.390006E+02    0.342284E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.409511E+02    0.347716E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.422365E+02    0.360733E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.425213E+02    0.377862E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.415777E+02    0.395194E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.397778E+02    0.407216E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.375930E+02    0.410673E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.356782E+02    0.434013E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.326541E+02    0.418174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.313095E+02    0.390827E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.316858E+02    0.361113E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.337906E+02    0.335478E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.373037E+02    0.319010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.410184E+02    0.318704E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.442285E+02    0.333284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133693E+03   -0.461903E+02    0.358595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.456930E+02    0.391114E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.429539E+02    0.420692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.393742E+02    0.435554E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.391063E+02    0.292347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.370939E+02    0.294334E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.385188E+02    0.277738E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.408141E+02    0.281056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.407442E+02    0.300189E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.383924E+02    0.308624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.364602E+02    0.320357E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.353177E+02    0.307572E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.351420E+02    0.291184E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.360283E+02    0.275035E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.377614E+02    0.263261E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.398262E+02    0.259660E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.417833E+02    0.264438E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.430801E+02    0.276558E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.432707E+02    0.293223E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.423476E+02    0.309616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.405626E+02    0.321323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.383796E+02    0.325389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.363901E+02    0.348897E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137454E+03   -0.335359E+02    0.333692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.320628E+02    0.308965E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.325033E+02    0.279766E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.347853E+02    0.252850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.382114E+02    0.236945E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.419363E+02    0.236048E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.451623E+02    0.249155E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133914E+03   -0.470278E+02    0.273009E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.464526E+02    0.304045E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.437544E+02    0.332714E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.400861E+02    0.348918E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.383341E+02    0.432126E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.363176E+02    0.433083E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.377724E+02    0.415947E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.400651E+02    0.420928E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.400664E+02    0.441099E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.376893E+02    0.448493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.357345E+02    0.459736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.344229E+02    0.446476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.343735E+02    0.428640E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.351890E+02    0.412214E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.369376E+02    0.400346E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.390063E+02    0.397278E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.410722E+02    0.402989E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.423455E+02    0.417243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.426169E+02    0.435229E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.416552E+02    0.452348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.398382E+02    0.463733E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.376441E+02    0.466430E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.357022E+02    0.489829E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.326931E+02    0.472290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.313625E+02    0.444752E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.317599E+02    0.414550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.339836E+02    0.387613E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.373246E+02    0.372680E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.410470E+02    0.373173E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.443717E+02    0.388698E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133269E+03   -0.463201E+02    0.416653E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.457902E+02    0.449976E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.431267E+02    0.478142E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.394060E+02    0.492668E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.386125E+02    0.336689E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.366019E+02    0.338482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.380315E+02    0.321571E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.403241E+02    0.325251E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.402444E+02    0.345022E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.378884E+02    0.353320E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.359564E+02    0.365014E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.348226E+02    0.351836E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.346557E+02    0.334979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.353531E+02    0.319946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.371806E+02    0.307519E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.393439E+02    0.303324E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.412978E+02    0.308374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135388E+03   -0.425904E+02    0.320894E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.427726E+02    0.338184E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.418409E+02    0.354982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.400507E+02    0.366735E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.378694E+02    0.370485E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.359645E+02    0.393775E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.329384E+02    0.378750E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.315753E+02    0.352670E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.320271E+02    0.322834E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137775E+03   -0.341260E+02    0.297467E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.376373E+02    0.280877E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.413528E+02    0.280223E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.445687E+02    0.293942E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.464238E+02    0.318635E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.459480E+02    0.350122E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.434593E+02    0.377925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.396640E+02    0.394518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.391666E+02    0.234741E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.371589E+02    0.236894E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.385745E+02    0.220727E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.408687E+02    0.223649E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.408048E+02    0.242142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.384561E+02    0.250730E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.363386E+02    0.264029E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.351955E+02    0.251673E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.350160E+02    0.235751E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.360834E+02    0.218378E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.378125E+02    0.206923E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.399773E+02    0.202512E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.419369E+02    0.206924E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.431307E+02    0.219127E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.433252E+02    0.235085E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.423022E+02    0.251832E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.405268E+02    0.263484E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.383526E+02    0.267820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.363790E+02    0.290879E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.334290E+02    0.277470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.321277E+02    0.251998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138274E+03   -0.325602E+02    0.223450E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.347454E+02    0.198081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.382554E+02    0.181452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.420820E+02    0.179527E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.451973E+02    0.192796E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.468306E+02    0.216591E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.462692E+02    0.246353E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.437138E+02    0.273898E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.400712E+02    0.290165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656337.449406696     
  ps_ts2 prof sum =   655937.098490541     
  trcom prof sum =    655937.098490541     
  ps_ts2 cur sum  =   9579.40021298521     
  trcom cur sum  =    9579.40021298521     
  
  antenna # iant =            2
  powecha_use(iant) =    670368.794798154     
  ps_ts2 prof sum =   670004.116964692     
  trcom prof sum =    670004.116964691     
  ps_ts2 cur sum  =   12067.1416505044     
  trcom cur sum  =    12067.1416505044     
  
  antenna # iant =            3
  powecha_use(iant) =    525486.129114559     
  ps_ts2 prof sum =   525164.730600408     
  trcom prof sum =    525164.730600408     
  ps_ts2 cur sum  =   6541.29772447477     
  trcom cur sum  =    6541.29772447478     
  
  antenna # iant =            4
  powecha_use(iant) =    574566.262893596     
  ps_ts2 prof sum =   574221.122704983     
  trcom prof sum =    574221.122704982     
  ps_ts2 cur sum  =   9309.11141628418     
  trcom cur sum  =    9309.11141628417     
  
  antenna # iant =            5
  powecha_use(iant) =    555291.996216874     
  ps_ts2 prof sum =   554964.103285743     
  trcom prof sum =    554964.103285744     
  ps_ts2 cur sum  =   11131.2282117472     
  trcom cur sum  =    11131.2282117472     
  
  Total ECH heating:      2980291.17204637     
  Total Current Drive:    48628.1792159958     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3923
 TA= 4.17000E+00 CPU TIME= 1.69227E-01 SECONDS.  DT= 1.62298E-03
  
 TEC1=    4.16999999999993     
 TEC2=    4.17499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.8871772222224     
  %check_save_state: izleft hours =    69.1044444444444     
 --> plasma_hash("gframe"): TA= 4.170000E+00 NSTEP=  3923 Hash code:    6519091
 ->PRGCHK: bdy curvature ratio at t= 4.1750E+00 seconds is:  5.6848E-02
% MHDEQ: TG1=     4.170000 ; TG2=     4.175000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7619E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6848E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.170000 TO TG2=    4.175000 @ NSTEP     3923
   GFRAME TG2 MOMENTS CHECKSUM:  2.4536185958239D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1750E+00  4.1800E+00 total power(Watts):  2.9728E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.17500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.383591E+02    0.375599E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.363459E+02    0.377121E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.376831E+02    0.360714E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.399710E+02    0.364822E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.399880E+02    0.384425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.376254E+02    0.392594E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.356845E+02    0.404498E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.345587E+02    0.390587E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.342082E+02    0.374456E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.352025E+02    0.357313E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.369394E+02    0.345615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.390026E+02    0.342275E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.409558E+02    0.347695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.423501E+02    0.360115E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.425233E+02    0.377826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.415788E+02    0.395139E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.397799E+02    0.407125E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.375949E+02    0.410578E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.356802E+02    0.433903E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.326601E+02    0.418055E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.313113E+02    0.390775E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.317772E+02    0.360447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.339800E+02    0.334111E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.373070E+02    0.319012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.410202E+02    0.318737E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.444595E+02    0.332027E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133668E+03   -0.461984E+02    0.358556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133668E+03   -0.456953E+02    0.391055E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.431836E+02    0.419679E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.393765E+02    0.435437E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.391093E+02    0.292370E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.370964E+02    0.294362E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.385216E+02    0.277766E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.408180E+02    0.281079E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.407470E+02    0.300215E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.384926E+02    0.307976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.364623E+02    0.320372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.353195E+02    0.307600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.351443E+02    0.291211E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.360307E+02    0.275060E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.377663E+02    0.263272E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.399331E+02    0.258898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.418951E+02    0.263703E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.431936E+02    0.275865E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.433850E+02    0.292564E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.423498E+02    0.309653E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.405645E+02    0.321354E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.383817E+02    0.325403E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.364914E+02    0.348240E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.334445E+02    0.334369E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.320648E+02    0.308983E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.325071E+02    0.279782E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.346973E+02    0.253657E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.382152E+02    0.236928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.419422E+02    0.236030E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.451668E+02    0.249159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.470315E+02    0.273051E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133823E+03   -0.465724E+02    0.303423E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.439836E+02    0.331451E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.401951E+02    0.348282E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.383363E+02    0.432009E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.363199E+02    0.432971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.377746E+02    0.415837E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.400673E+02    0.420816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.400688E+02    0.440984E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.376915E+02    0.448384E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.358361E+02    0.459267E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.346187E+02    0.445548E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.343758E+02    0.428528E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.352888E+02    0.411619E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.369395E+02    0.400274E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.391145E+02    0.396686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.410691E+02    0.402927E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.425728E+02    0.416213E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.426194E+02    0.435103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.416576E+02    0.452234E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.398412E+02    0.463611E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.377506E+02    0.465965E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.357049E+02    0.489700E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.326955E+02    0.472182E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.313644E+02    0.444649E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.317617E+02    0.414453E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.339852E+02    0.387562E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.373262E+02    0.372656E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.411585E+02    0.372562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133974E+03   -0.446056E+02    0.387605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133258E+03   -0.463226E+02    0.416535E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133098E+03   -0.459115E+02    0.449495E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133788E+03   -0.433602E+02    0.477415E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.395159E+02    0.492266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.386142E+02    0.336688E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.366037E+02    0.338476E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.380339E+02    0.321584E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.403257E+02    0.325273E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.402464E+02    0.345012E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.379930E+02    0.352678E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.360571E+02    0.364376E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.348243E+02    0.351815E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.346566E+02    0.334979E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.355486E+02    0.318552E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.372834E+02    0.306823E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.393464E+02    0.303356E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.413004E+02    0.308410E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.425925E+02    0.320923E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.428867E+02    0.337552E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.418428E+02    0.354973E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.400527E+02    0.366701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.379741E+02    0.369876E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.359694E+02    0.393705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.329404E+02    0.378715E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.315769E+02    0.352646E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.320287E+02    0.322837E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.343150E+02    0.295989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.376400E+02    0.280910E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.414631E+02    0.279523E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.447987E+02    0.292599E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133760E+03   -0.465438E+02    0.318019E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133714E+03   -0.460678E+02    0.349515E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.433476E+02    0.378433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.396655E+02    0.394456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.391714E+02    0.234726E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.371580E+02    0.236916E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.385793E+02    0.220699E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.408740E+02    0.223622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.408104E+02    0.242136E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.384607E+02    0.250737E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.365347E+02    0.262462E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.351985E+02    0.251674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.352050E+02    0.234069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.360875E+02    0.218335E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.378168E+02    0.206867E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.399819E+02    0.202446E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.419423E+02    0.206871E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.432431E+02    0.218282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.433304E+02    0.235078E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.424139E+02    0.251074E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.405319E+02    0.263501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.384570E+02    0.267069E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.362840E+02    0.291656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.334320E+02    0.277494E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.321301E+02    0.251993E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.326509E+02    0.222553E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.347498E+02    0.198011E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.383581E+02    0.180469E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.420878E+02    0.179405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.452038E+02    0.192712E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.468366E+02    0.216555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.465023E+02    0.244873E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.437174E+02    0.273942E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.400694E+02    0.290237E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653101.691953206     
  ps_ts2 prof sum =   652727.765531039     
  trcom prof sum =    652727.765496071     
  ps_ts2 cur sum  =   9542.49836711971     
  trcom cur sum  =    9542.49836711970     
  
  antenna # iant =            2
  powecha_use(iant) =    668793.473385156     
  ps_ts2 prof sum =   668407.968373117     
  trcom prof sum =    668407.968373117     
  ps_ts2 cur sum  =   12037.0374325617     
  trcom cur sum  =    12037.0374325617     
  
  antenna # iant =            3
  powecha_use(iant) =    526669.798224284     
  ps_ts2 prof sum =   526374.332284895     
  trcom prof sum =    526374.332284895     
  ps_ts2 cur sum  =   6569.83485801489     
  trcom cur sum  =    6569.83485801490     
  
  antenna # iant =            4
  powecha_use(iant) =    569112.679616706     
  ps_ts2 prof sum =   568790.200294088     
  trcom prof sum =    568790.200294088     
  ps_ts2 cur sum  =   9224.36503581382     
  trcom cur sum  =    9224.36503581381     
  
  antenna # iant =            5
  powecha_use(iant) =    555074.114637942     
  ps_ts2 prof sum =   554744.123398431     
  trcom prof sum =    554744.123398430     
  ps_ts2 cur sum  =   11122.0228753741     
  trcom cur sum  =    11122.0228753741     
  
  Total ECH heating:      2971044.38984660     
  Total Current Drive:    48495.7585688842     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3926
 TA= 4.17500E+00 CPU TIME= 1.61723E-01 SECONDS.  DT= 1.68537E-03
  
 TEC1=    4.17499999999993     
 TEC2=    4.17999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9012472222216     
  %check_save_state: izleft hours =    69.0902777777778     
 --> plasma_hash("gframe"): TA= 4.175000E+00 NSTEP=  3926 Hash code:   18774777
 ->PRGCHK: bdy curvature ratio at t= 4.1800E+00 seconds is:  5.6909E-02
% MHDEQ: TG1=     4.175000 ; TG2=     4.180000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7605E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6909E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.175000 TO TG2=    4.180000 @ NSTEP     3926
   GFRAME TG2 MOMENTS CHECKSUM:  2.4537410873526D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.12487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.00959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.96664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.11292E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.94491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42410E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.98421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.98626E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.30406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.80471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.47959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.58332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.81395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -4.00829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.34275E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.16483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.95955E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.85609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.24181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.13043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.16832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.16832E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1800E+00  4.1850E+00 total power(Watts):  2.9826E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.18000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.383617E+02    0.375579E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.363484E+02    0.377090E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.377879E+02    0.360091E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.400808E+02    0.364213E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.399907E+02    0.384401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.377299E+02    0.392028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.357860E+02    0.403927E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.345608E+02    0.390552E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.344019E+02    0.373239E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.351078E+02    0.357922E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.369426E+02    0.345592E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.390055E+02    0.342259E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.410628E+02    0.347073E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.423531E+02    0.360104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.427509E+02    0.376699E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.415810E+02    0.395112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.397825E+02    0.407065E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.377005E+02    0.410016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.356826E+02    0.433827E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.328479E+02    0.416985E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.313138E+02    0.390738E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.317794E+02    0.360424E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.338890E+02    0.334775E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.373054E+02    0.319036E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.411316E+02    0.318070E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134621E+03   -0.443488E+02    0.332654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133667E+03   -0.461961E+02    0.358558E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133441E+03   -0.458159E+02    0.390521E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.430726E+02    0.420045E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.393789E+02    0.435356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.392164E+02    0.291656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.371001E+02    0.294366E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.386268E+02    0.277016E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.409228E+02    0.280389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.408575E+02    0.299521E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.384977E+02    0.307967E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.365637E+02    0.319675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.353228E+02    0.307602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.350522E+02    0.291964E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.360342E+02    0.275057E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.377703E+02    0.263266E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.399371E+02    0.258896E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.419049E+02    0.263668E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.431982E+02    0.275867E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.433892E+02    0.292570E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.424635E+02    0.308984E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.405677E+02    0.321353E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.384878E+02    0.324724E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.364941E+02    0.348226E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.334470E+02    0.334359E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.320674E+02    0.308980E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.325998E+02    0.278991E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.347003E+02    0.253642E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.382196E+02    0.236887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.420532E+02    0.235209E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.453964E+02    0.247651E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.470362E+02    0.273069E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.465762E+02    0.303448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.438736E+02    0.332081E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.401983E+02    0.348262E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.384436E+02    0.431490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.364229E+02    0.432448E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.377769E+02    0.415762E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.400699E+02    0.420733E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.400712E+02    0.440904E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.377976E+02    0.447916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.358373E+02    0.459215E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.346208E+02    0.445475E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.342815E+02    0.428911E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.352909E+02    0.411556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.369421E+02    0.400229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.391170E+02    0.396647E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.410667E+02    0.402889E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.424630E+02    0.416593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134199E+03   -0.428484E+02    0.434191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.417718E+02    0.451794E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.399518E+02    0.463193E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.377529E+02    0.465896E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.358070E+02    0.489318E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.328844E+02    0.471409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.313666E+02    0.444583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137660E+03   -0.317644E+02    0.414383E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.338926E+02    0.388094E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.373287E+02    0.372628E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.411612E+02    0.372547E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.446084E+02    0.387580E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133247E+03   -0.463256E+02    0.416454E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133087E+03   -0.459145E+02    0.449415E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.433577E+02    0.477343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.395188E+02    0.492164E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.386173E+02    0.336672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.366064E+02    0.338458E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.380369E+02    0.321582E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.403290E+02    0.325278E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.403568E+02    0.344365E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.379958E+02    0.352658E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.360593E+02    0.364360E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.347306E+02    0.352438E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.345636E+02    0.335641E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.355513E+02    0.318550E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.372867E+02    0.306837E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.393500E+02    0.303362E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.414121E+02    0.307727E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.427067E+02    0.320266E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.428902E+02    0.337537E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.419565E+02    0.354357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.401627E+02    0.366096E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.379767E+02    0.369849E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.359724E+02    0.393661E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.331285E+02    0.377504E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.316686E+02    0.351966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138043E+03   -0.320319E+02    0.322834E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.343179E+02    0.295995E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.376437E+02    0.280914E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.414676E+02    0.279530E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.446894E+02    0.293321E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.465477E+02    0.318035E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.460711E+02    0.349509E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.433505E+02    0.378413E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.396680E+02    0.394421E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.391756E+02    0.234683E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.371638E+02    0.236863E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.386831E+02    0.219804E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.409824E+02    0.222752E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.408153E+02    0.242104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.385657E+02    0.249916E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.365405E+02    0.262451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.353898E+02    0.250029E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.351166E+02    0.234852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.359987E+02    0.219096E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.379189E+02    0.205918E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.399878E+02    0.202335E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.419482E+02    0.206776E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.432488E+02    0.218219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.434450E+02    0.234246E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.424187E+02    0.251063E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.406409E+02    0.262736E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.384611E+02    0.267065E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.364830E+02    0.290167E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137898E+03   -0.334356E+02    0.277483E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138176E+03   -0.321339E+02    0.251966E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.326567E+02    0.222485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.348448E+02    0.197011E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.383636E+02    0.180315E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.420941E+02    0.179244E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.453200E+02    0.191770E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.470697E+02    0.214926E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.465073E+02    0.244861E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.438333E+02    0.273217E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.401793E+02    0.289512E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656929.121551192     
  ps_ts2 prof sum =   656549.979082062     
  trcom prof sum =    656549.979044116     
  ps_ts2 cur sum  =   9614.11536525312     
  trcom cur sum  =    9614.11536525311     
  
  antenna # iant =            2
  powecha_use(iant) =    671514.246352047     
  ps_ts2 prof sum =   671121.208857286     
  trcom prof sum =    671121.208857286     
  ps_ts2 cur sum  =   12088.7035872596     
  trcom cur sum  =    12088.7035872596     
  
  antenna # iant =            3
  powecha_use(iant) =    525022.012367428     
  ps_ts2 prof sum =   524710.706561255     
  trcom prof sum =    524710.706561256     
  ps_ts2 cur sum  =   6562.72527167765     
  trcom cur sum  =    6562.72527167766     
  
  antenna # iant =            4
  powecha_use(iant) =    572853.878669655     
  ps_ts2 prof sum =   572510.189123902     
  trcom prof sum =    572510.189123901     
  ps_ts2 cur sum  =   9294.34807619108     
  trcom cur sum  =    9294.34807619107     
  
  antenna # iant =            5
  powecha_use(iant) =    556320.233552053     
  ps_ts2 prof sum =   556014.993293827     
  trcom prof sum =    556014.993293827     
  ps_ts2 cur sum  =   11140.5324321186     
  trcom cur sum  =    11140.5324321186     
  
  Total ECH heating:      2980907.07688039     
  Total Current Drive:    48700.4247325000     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3929
 TA= 4.18000E+00 CPU TIME= 1.59871E-01 SECONDS.  DT= 1.50989E-03
  
 TEC1=    4.17999999999993     
 TEC2=    4.18499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9190827777775     
  %check_save_state: izleft hours =    69.0725000000000     
 --> plasma_hash("gframe"): TA= 4.180000E+00 NSTEP=  3929 Hash code:  119601756
 ->PRGCHK: bdy curvature ratio at t= 4.1850E+00 seconds is:  5.6970E-02
% MHDEQ: TG1=     4.180000 ; TG2=     4.185000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1830E-03 SECONDS
   DATA R*BT AT EDGE:  2.7591E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6970E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.180000 TO TG2=    4.185000 @ NSTEP     3929
   GFRAME TG2 MOMENTS CHECKSUM:  2.4538635788814D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1850E+00  4.1900E+00 total power(Watts):  2.9907E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.18500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.383643E+02    0.375559E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.363509E+02    0.377065E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.377908E+02    0.360068E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.400837E+02    0.364193E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.399935E+02    0.384368E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.377315E+02    0.392000E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.357889E+02    0.403857E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.344666E+02    0.391072E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.344038E+02    0.373213E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136681E+03   -0.353045E+02    0.356649E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.369452E+02    0.345582E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.391131E+02    0.341607E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.410678E+02    0.347061E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.423560E+02    0.360090E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.426415E+02    0.377225E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.417007E+02    0.394517E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135307E+03   -0.398926E+02    0.406505E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.377032E+02    0.409938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.357846E+02    0.433288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.327574E+02    0.417400E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.314048E+02    0.390129E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.317816E+02    0.360404E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.338896E+02    0.334780E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.374126E+02    0.318342E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.411350E+02    0.318081E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.445810E+02    0.331395E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133452E+03   -0.463117E+02    0.358006E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133430E+03   -0.458193E+02    0.390478E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.430757E+02    0.419948E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.394887E+02    0.434841E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.392202E+02    0.291675E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.372025E+02    0.293663E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.386301E+02    0.277044E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.409314E+02    0.280389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.408615E+02    0.299541E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.385013E+02    0.307989E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.365672E+02    0.319681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.352299E+02    0.308343E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.350551E+02    0.291989E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.361359E+02    0.274300E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.378733E+02    0.262504E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.399421E+02    0.258900E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.419039E+02    0.263726E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.432027E+02    0.275909E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.433933E+02    0.292605E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.424673E+02    0.309008E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.406782E+02    0.320698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.384909E+02    0.324730E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.364968E+02    0.348212E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.336368E+02    0.332976E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.321588E+02    0.308253E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.326027E+02    0.279008E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.348901E+02    0.252018E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.383240E+02    0.236069E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.420582E+02    0.235199E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.452896E+02    0.248420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133660E+03   -0.471575E+02    0.272411E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133794E+03   -0.465802E+02    0.303492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.438774E+02    0.332081E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.402010E+02    0.348260E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.384464E+02    0.431391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.364256E+02    0.432352E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.378833E+02    0.415190E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.401810E+02    0.420178E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.400741E+02    0.440818E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.378003E+02    0.447834E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.358413E+02    0.459122E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.346282E+02    0.445377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.344770E+02    0.427896E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.352935E+02    0.411476E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.370466E+02    0.399643E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.391197E+02    0.396598E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.411836E+02    0.402319E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.424660E+02    0.416506E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.427383E+02    0.434511E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.417746E+02    0.451708E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.399547E+02    0.463116E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.377557E+02    0.465818E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.358103E+02    0.489211E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.327932E+02    0.471680E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.313690E+02    0.444505E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137194E+03   -0.319478E+02    0.413278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.340852E+02    0.386923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.374333E+02    0.372019E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.411641E+02    0.372524E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.444957E+02    0.388061E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133021E+03   -0.464480E+02    0.415919E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133077E+03   -0.459179E+02    0.449324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.432499E+02    0.477538E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.395221E+02    0.492055E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.387241E+02    0.336016E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.367086E+02    0.337795E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.381423E+02    0.320907E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.404389E+02    0.324621E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.403597E+02    0.344359E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.379985E+02    0.352646E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.360621E+02    0.364340E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.349254E+02    0.351143E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.345665E+02    0.335630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.354581E+02    0.319260E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.372899E+02    0.306846E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.394580E+02    0.302676E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.414158E+02    0.307748E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.427104E+02    0.320286E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.428934E+02    0.337540E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.419594E+02    0.354344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.401655E+02    0.366077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.379793E+02    0.369828E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.360744E+02    0.393073E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.330372E+02    0.378067E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.316706E+02    0.351951E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.321236E+02    0.322120E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.342270E+02    0.296758E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.377461E+02    0.280187E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.414715E+02    0.279562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.446937E+02    0.293342E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133732E+03   -0.465516E+02    0.318057E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133688E+03   -0.460744E+02    0.349509E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.435809E+02    0.377300E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.397783E+02    0.393851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.392817E+02    0.233861E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.372655E+02    0.236037E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.386884E+02    0.219765E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.409880E+02    0.222721E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.409241E+02    0.241316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.385696E+02    0.249928E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.364475E+02    0.263243E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.353940E+02    0.250027E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137517E+03   -0.351213E+02    0.234828E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.361924E+02    0.217366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.379259E+02    0.205858E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.400942E+02    0.201431E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.420587E+02    0.205896E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.432550E+02    0.218182E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.434501E+02    0.234247E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.424243E+02    0.251068E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.406449E+02    0.262762E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.384661E+02    0.267085E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.364861E+02    0.290196E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.335334E+02    0.276693E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.322249E+02    0.251135E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.326611E+02    0.222442E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.348490E+02    0.196934E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.383698E+02    0.180197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.422046E+02    0.178283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.453270E+02    0.191677E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.469633E+02    0.215661E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.463989E+02    0.245617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.438376E+02    0.273256E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.401832E+02    0.289541E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659711.434593132     
  ps_ts2 prof sum =   659329.307467119     
  trcom prof sum =    659329.307427109     
  ps_ts2 cur sum  =   9668.05756970865     
  trcom cur sum  =    9668.05756970864     
  
  antenna # iant =            2
  powecha_use(iant) =    672594.999199827     
  ps_ts2 prof sum =   672202.548550714     
  trcom prof sum =    672202.548550714     
  ps_ts2 cur sum  =   12108.5488007078     
  trcom cur sum  =    12108.5488007078     
  
  antenna # iant =            3
  powecha_use(iant) =    526356.979504543     
  ps_ts2 prof sum =   526046.658967024     
  trcom prof sum =    526046.658967025     
  ps_ts2 cur sum  =   6592.76744852924     
  trcom cur sum  =    6592.76744852924     
  
  antenna # iant =            4
  powecha_use(iant) =    576882.264462340     
  ps_ts2 prof sum =   576532.572857223     
  trcom prof sum =    576532.572857222     
  ps_ts2 cur sum  =   9365.99828133368     
  trcom cur sum  =    9365.99828133367     
  
  antenna # iant =            5
  powecha_use(iant) =    555119.660510627     
  ps_ts2 prof sum =   554803.922115135     
  trcom prof sum =    554803.922115135     
  ps_ts2 cur sum  =   11111.7463171692     
  trcom cur sum  =    11111.7463171692     
  
  Total ECH heating:      2988915.00991720     
  Total Current Drive:    48847.1184174486     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3932
 TA= 4.18500E+00 CPU TIME= 1.67467E-01 SECONDS.  DT= 2.00343E-03
  
 TEC1=    4.18499999999993     
 TEC2=    4.18999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9364652777774     
  %check_save_state: izleft hours =    69.0550000000000     
 --> plasma_hash("gframe"): TA= 4.185000E+00 NSTEP=  3932 Hash code:   93988795
 ->PRGCHK: bdy curvature ratio at t= 4.1900E+00 seconds is:  5.7033E-02
% MHDEQ: TG1=     4.185000 ; TG2=     4.190000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3520E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7033E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.185000 TO TG2=    4.190000 @ NSTEP     3932
   GFRAME TG2 MOMENTS CHECKSUM:  2.4539860704101D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.12944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.19429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.66547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.41491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.84415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41787E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -7.24182E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.78354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.40912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.89108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.12707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.57001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.81910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.54566E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.05352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.18282E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.46558E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.77903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.96442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.52369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.10446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.10446E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.1900E+00  4.1950E+00 total power(Watts):  2.9792E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.19000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.384696E+02    0.374934E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.364518E+02    0.376440E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.377922E+02    0.360012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.400850E+02    0.364143E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.401022E+02    0.383771E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.377341E+02    0.391931E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.357899E+02    0.403787E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.346600E+02    0.389909E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.343100E+02    0.373758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.353056E+02    0.356591E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.370467E+02    0.344878E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.391146E+02    0.341543E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.411781E+02    0.346374E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.424690E+02    0.359445E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.426429E+02    0.377178E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.416970E+02    0.394474E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.398940E+02    0.406428E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.377046E+02    0.409859E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.357859E+02    0.433204E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.327586E+02    0.417314E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.314055E+02    0.390076E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.317827E+02    0.360350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.340801E+02    0.333340E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.374141E+02    0.318268E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.411365E+02    0.318012E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.444681E+02    0.331960E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133429E+03   -0.463187E+02    0.357932E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133417E+03   -0.458206E+02    0.390432E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.431911E+02    0.419403E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.394901E+02    0.434756E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.392274E+02    0.291559E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.372034E+02    0.293584E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.386326E+02    0.276948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.409330E+02    0.280308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.408628E+02    0.299471E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.386051E+02    0.307212E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.365736E+02    0.319582E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.354229E+02    0.306822E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.352475E+02    0.290406E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.361366E+02    0.274208E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.378745E+02    0.262401E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.400470E+02    0.258019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.420072E+02    0.262895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.433141E+02    0.275088E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.435064E+02    0.291823E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.424689E+02    0.308936E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.406796E+02    0.320627E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.384926E+02    0.324663E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.365977E+02    0.347512E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.335447E+02    0.333595E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.321594E+02    0.308184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.326036E+02    0.278920E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.347984E+02    0.252719E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.383254E+02    0.235938E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.421657E+02    0.234285E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.455153E+02    0.246796E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133649E+03   -0.471594E+02    0.272313E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133571E+03   -0.466991E+02    0.302740E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.439924E+02    0.331378E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.403095E+02    0.347571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.384478E+02    0.431301E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.364270E+02    0.432267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.378845E+02    0.415113E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.401823E+02    0.420097E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.401839E+02    0.440327E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.378017E+02    0.447761E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.358427E+02    0.459059E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.345288E+02    0.445733E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.344783E+02    0.427806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.353929E+02    0.410892E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.370476E+02    0.399582E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.392268E+02    0.396017E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.411848E+02    0.402253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.425801E+02    0.415962E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.427433E+02    0.434409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.417760E+02    0.451638E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.399562E+02    0.463049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.377572E+02    0.465752E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.358116E+02    0.489132E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.327945E+02    0.471619E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.314601E+02    0.444003E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.318585E+02    0.413712E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.340866E+02    0.386872E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.374342E+02    0.371972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.412751E+02    0.371909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133723E+03   -0.447289E+02    0.386972E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133010E+03   -0.464498E+02    0.415827E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132848E+03   -0.460383E+02    0.448881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133539E+03   -0.434802E+02    0.476863E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.396305E+02    0.491704E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.387251E+02    0.335949E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.367103E+02    0.337720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.381435E+02    0.320839E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.404406E+02    0.324545E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.403612E+02    0.344284E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.381026E+02    0.351963E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.361623E+02    0.363673E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.349267E+02    0.351079E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.347585E+02    0.334207E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.356525E+02    0.317787E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.373908E+02    0.306065E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.394594E+02    0.302605E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.414174E+02    0.307683E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.427120E+02    0.320219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.430067E+02    0.336843E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.420714E+02    0.353679E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.401669E+02    0.366028E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.380871E+02    0.369174E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.360752E+02    0.393025E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.330390E+02    0.378016E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.316717E+02    0.351895E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137795E+03   -0.321246E+02    0.322054E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.344166E+02    0.295186E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.377489E+02    0.280096E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.415801E+02    0.278742E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.448088E+02    0.292576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.466708E+02    0.317347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133463E+03   -0.461936E+02    0.348862E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.434689E+02    0.377794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.397793E+02    0.393799E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.392833E+02    0.233730E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.372665E+02    0.235908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.387884E+02    0.218789E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.409896E+02    0.222579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.409256E+02    0.241195E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.385710E+02    0.249814E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.366416E+02    0.261569E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.353059E+02    0.250692E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.353092E+02    0.233041E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.361000E+02    0.218077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.379269E+02    0.205712E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.400964E+02    0.201282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.420601E+02    0.205740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.433636E+02    0.217238E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.435602E+02    0.233336E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.425331E+02    0.250189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.406467E+02    0.262646E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.385659E+02    0.266225E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.363888E+02    0.290861E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.335277E+02    0.276643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.322264E+02    0.251016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137792E+03   -0.327487E+02    0.221450E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.348502E+02    0.196785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.384656E+02    0.179155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.422058E+02    0.178102E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134617E+03   -0.454366E+02    0.190702E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133802E+03   -0.471913E+02    0.213970E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.466281E+02    0.244010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.440613E+02    0.271708E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.402896E+02    0.288727E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655560.146368770     
  ps_ts2 prof sum =   655161.881118519     
  trcom prof sum =    655161.881078536     
  ps_ts2 cur sum  =   9609.68921621990     
  trcom cur sum  =    9609.68921621990     
  
  antenna # iant =            2
  powecha_use(iant) =    669615.185200980     
  ps_ts2 prof sum =   669226.009971862     
  trcom prof sum =    669226.009971862     
  ps_ts2 cur sum  =   12042.1413234659     
  trcom cur sum  =    12042.1413234659     
  
  antenna # iant =            3
  powecha_use(iant) =    526238.991487172     
  ps_ts2 prof sum =   525916.961910453     
  trcom prof sum =    525916.961910453     
  ps_ts2 cur sum  =   6597.15933569328     
  trcom cur sum  =    6597.15933569329     
  
  antenna # iant =            4
  powecha_use(iant) =    573523.301556849     
  ps_ts2 prof sum =   573190.270157302     
  trcom prof sum =    573190.270157301     
  ps_ts2 cur sum  =   9307.28679020403     
  trcom cur sum  =    9307.28679020402     
  
  antenna # iant =            5
  powecha_use(iant) =    554245.029528215     
  ps_ts2 prof sum =   553927.521121941     
  trcom prof sum =    553927.521121941     
  ps_ts2 cur sum  =   11074.1779034323     
  trcom cur sum  =    11074.1779034323     
  
  Total ECH heating:      2977422.64424009     
  Total Current Drive:    48630.4545690155     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3935
 TA= 4.19000E+00 CPU TIME= 1.60150E-01 SECONDS.  DT= 6.15358E-04
  
 TEC1=    4.18999999999993     
 TEC2=    4.19499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9515588888887     
  %check_save_state: izleft hours =    69.0400000000000     
 --> plasma_hash("gframe"): TA= 4.190000E+00 NSTEP=  3935 Hash code:   62451134
 ->PRGCHK: bdy curvature ratio at t= 4.1950E+00 seconds is:  5.7070E-02
% MHDEQ: TG1=     4.190000 ; TG2=     4.195000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0850E-03 SECONDS
   DATA R*BT AT EDGE:  2.7563E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7070E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.190000 TO TG2=    4.195000 @ NSTEP     3935
   GFRAME TG2 MOMENTS CHECKSUM:  2.4541085619388D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.1950E+00  4.2000E+00 total power(Watts):  2.9084E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.19500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.384709E+02    0.374886E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.364526E+02    0.376397E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.378958E+02    0.359351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.401934E+02    0.363504E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.401035E+02    0.383721E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.378385E+02    0.391339E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.358901E+02    0.403205E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.346600E+02    0.389868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.345023E+02    0.372519E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.352097E+02    0.357166E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.370478E+02    0.344812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.392206E+02    0.340838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.411794E+02    0.346315E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.424703E+02    0.359393E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.427565E+02    0.376581E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.418035E+02    0.393927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.399001E+02    0.406336E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.378089E+02    0.409293E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.357869E+02    0.433124E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.329459E+02    0.416235E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.314056E+02    0.390037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.318731E+02    0.359666E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.339875E+02    0.333954E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.375159E+02    0.317513E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.412459E+02    0.317277E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.446985E+02    0.330634E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133204E+03   -0.464382E+02    0.357314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133190E+03   -0.459396E+02    0.389881E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.431924E+02    0.419326E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.394913E+02    0.434673E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.17 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.393254E+02    0.290817E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.373034E+02    0.292791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.387355E+02    0.276128E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.410407E+02    0.279507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.409710E+02    0.298701E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.386064E+02    0.307157E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.366685E+02    0.318857E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.353282E+02    0.307484E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.351536E+02    0.291093E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.360416E+02    0.274915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.379753E+02    0.261551E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.400498E+02    0.257943E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.421215E+02    0.262044E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.433159E+02    0.275018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.435081E+02    0.291763E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.425805E+02    0.308193E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.407880E+02    0.319894E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.385963E+02    0.323923E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.365984E+02    0.347447E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.335454E+02    0.333532E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.322516E+02    0.307380E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.326943E+02    0.278068E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.349861E+02    0.251006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.384255E+02    0.235029E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.421681E+02    0.234179E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.454049E+02    0.247460E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133427E+03   -0.472780E+02    0.271529E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133559E+03   -0.467009E+02    0.302677E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.439937E+02    0.331320E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.403156E+02    0.347485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.385539E+02    0.430782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.365309E+02    0.431731E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.378856E+02    0.415024E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.401836E+02    0.420009E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.401851E+02    0.440250E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.379066E+02    0.447298E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.359434E+02    0.458628E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.347195E+02    0.444849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.343828E+02    0.428189E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.353946E+02    0.410812E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.371505E+02    0.398997E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.392282E+02    0.395959E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.412962E+02    0.401686E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.425815E+02    0.415877E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.428527E+02    0.433924E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.418888E+02    0.451200E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.400655E+02    0.462639E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.378621E+02    0.465343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.359129E+02    0.488757E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.329825E+02    0.470848E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.314611E+02    0.443937E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137400E+03   -0.318592E+02    0.413638E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.339924E+02    0.387392E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.375375E+02    0.371338E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.412763E+02    0.371860E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.446145E+02    0.387441E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132783E+03   -0.465704E+02    0.415306E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132837E+03   -0.460397E+02    0.448809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133748E+03   -0.433673E+02    0.477092E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.396320E+02    0.491620E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.388303E+02    0.335232E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.368108E+02    0.337000E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.382470E+02    0.320092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.405481E+02    0.323824E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.404697E+02    0.343598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.381037E+02    0.351909E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.361633E+02    0.363625E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.348312E+02    0.351666E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.346645E+02    0.334818E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.356535E+02    0.317727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.373918E+02    0.306004E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.395645E+02    0.301831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.415273E+02    0.306921E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.428245E+02    0.319491E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.430082E+02    0.336776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.420728E+02    0.353625E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.402754E+02    0.365392E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.380835E+02    0.369149E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.359768E+02    0.393516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.331330E+02    0.377375E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.317618E+02    0.351178E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.322152E+02    0.321278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.343241E+02    0.295868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.378500E+02    0.279277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.415817E+02    0.278680E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134465E+03   -0.448106E+02    0.292512E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133496E+03   -0.466726E+02    0.317283E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133451E+03   -0.461952E+02    0.348804E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.436990E+02    0.376651E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.398879E+02    0.393214E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.393855E+02    0.232822E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.373647E+02    0.234990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.387913E+02    0.218671E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.410946E+02    0.221653E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.410315E+02    0.240316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.386727E+02    0.248938E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.366430E+02    0.261495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.354895E+02    0.249028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.352179E+02    0.233773E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.362889E+02    0.216268E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.380249E+02    0.204733E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.401985E+02    0.200301E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.421672E+02    0.204784E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.433657E+02    0.217114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.435687E+02    0.233191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.426439E+02    0.249328E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.407514E+02    0.261821E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.385684E+02    0.266147E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.365867E+02    0.289304E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.337142E+02    0.274996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.322290E+02    0.250930E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.327497E+02    0.221334E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137367E+03   -0.349414E+02    0.195759E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.384674E+02    0.178993E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.423102E+02    0.177077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.454392E+02    0.190529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.470806E+02    0.214615E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134091E+03   -0.465161E+02    0.244669E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.439519E+02    0.272362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.402912E+02    0.288675E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.58 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    587380.864221625     
  ps_ts2 prof sum =   587041.383440535     
  trcom prof sum =    587041.383422517     
  ps_ts2 cur sum  =   8611.76421966821     
  trcom cur sum  =    8611.76421966820     
  
  antenna # iant =            2
  powecha_use(iant) =    668285.376736296     
  ps_ts2 prof sum =   667871.637553773     
  trcom prof sum =    667871.637553773     
  ps_ts2 cur sum  =   12008.2546902865     
  trcom cur sum  =    12008.2546902865     
  
  antenna # iant =            3
  powecha_use(iant) =    526162.316312069     
  ps_ts2 prof sum =   525837.141530116     
  trcom prof sum =    525837.141530116     
  ps_ts2 cur sum  =   6601.11947004101     
  trcom cur sum  =    6601.11947004102     
  
  antenna # iant =            4
  powecha_use(iant) =    571385.715759372     
  ps_ts2 prof sum =   571033.605903400     
  trcom prof sum =    571033.605903400     
  ps_ts2 cur sum  =   9270.79212136887     
  trcom cur sum  =    9270.79212136886     
  
  antenna # iant =            5
  powecha_use(iant) =    555185.201633112     
  ps_ts2 prof sum =   554879.820502618     
  trcom prof sum =    554879.820502618     
  ps_ts2 cur sum  =   11074.6534366089     
  trcom cur sum  =    11074.6534366089     
  
  Total ECH heating:      2906663.58891243     
  Total Current Drive:    47566.5839379735     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3940
 TA= 4.19500E+00 CPU TIME= 1.68336E-01 SECONDS.  DT= 1.81510E-03
  
 TEC1=    4.19499999999993     
 TEC2=    4.19999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9656294444442     
  %check_save_state: izleft hours =    69.0258333333333     
 --> plasma_hash("gframe"): TA= 4.195000E+00 NSTEP=  3940 Hash code:    2451340
 ->PRGCHK: bdy curvature ratio at t= 4.2000E+00 seconds is:  5.7067E-02
% MHDEQ: TG1=     4.195000 ; TG2=     4.200000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7550E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7067E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.195000 TO TG2=    4.200000 @ NSTEP     3940
   GFRAME TG2 MOMENTS CHECKSUM:  2.4542310564811D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.13405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.38032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.36213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.71909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.74267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.51570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.57935E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.51494E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.97807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.77200E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.55661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.82430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.21928E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.76221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23451E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.97526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.70142E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.68504E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.91978E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.28839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.28839E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2000E+00  4.2050E+00 total power(Watts):  2.3247E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.20000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.393273E+02    0.290810E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.373105E+02    0.292749E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.387416E+02    0.276086E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.410470E+02    0.279471E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.409770E+02    0.298680E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.386119E+02    0.307115E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.366689E+02    0.318863E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.355242E+02    0.306012E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.353489E+02    0.289554E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.362400E+02    0.273323E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.379812E+02    0.261497E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.400556E+02    0.257883E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.421282E+02    0.261990E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.434320E+02    0.274253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.436254E+02    0.291030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.425867E+02    0.308173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.407939E+02    0.319874E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.386006E+02    0.323908E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.366032E+02    0.347420E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.337359E+02    0.332138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137601E+03   -0.322561E+02    0.307348E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.327046E+02    0.277986E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.349944E+02    0.250920E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.384330E+02    0.234938E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.421750E+02    0.234093E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.456378E+02    0.245888E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.472848E+02    0.271504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133337E+03   -0.468244E+02    0.302000E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134074E+03   -0.442265E+02    0.330036E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.403157E+02    0.347497E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.385580E+02    0.430743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.365303E+02    0.431712E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.379934E+02    0.414496E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.402964E+02    0.419495E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.402976E+02    0.439811E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.379104E+02    0.447273E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.359470E+02    0.458613E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.347261E+02    0.444810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.345794E+02    0.427213E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.353985E+02    0.410773E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.371548E+02    0.398969E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.392327E+02    0.395936E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.413009E+02    0.401658E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.425863E+02    0.415828E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.428589E+02    0.433881E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.418930E+02    0.451180E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.400694E+02    0.462626E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.378696E+02    0.465320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.359162E+02    0.488731E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.328924E+02    0.471184E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.314641E+02    0.443904E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.318669E+02    0.413569E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.341862E+02    0.386246E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.375444E+02    0.371313E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.412814E+02    0.371845E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133483E+03   -0.448511E+02    0.386402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132773E+03   -0.465755E+02    0.415263E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132609E+03   -0.461630E+02    0.448430E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133737E+03   -0.433714E+02    0.477073E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134806E+03   -0.396358E+02    0.491588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.388357E+02    0.335200E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.368158E+02    0.336969E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.382519E+02    0.320068E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.405530E+02    0.323808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.404749E+02    0.343582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.382114E+02    0.351271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.361677E+02    0.363610E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.350283E+02    0.350366E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.346720E+02    0.334774E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.355613E+02    0.318406E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.373975E+02    0.305982E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.395704E+02    0.301800E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.415329E+02    0.306901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.428303E+02    0.319473E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134359E+03   -0.432377E+02    0.335494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.420782E+02    0.353616E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.402803E+02    0.365384E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.380896E+02    0.369127E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.361802E+02    0.392403E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.331370E+02    0.377356E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.317658E+02    0.351152E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.322184E+02    0.321251E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.343290E+02    0.295838E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.378555E+02    0.279239E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.415870E+02    0.278641E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.450445E+02    0.291094E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133274E+03   -0.467963E+02    0.316626E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133227E+03   -0.463187E+02    0.348198E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134236E+03   -0.435856E+02    0.377196E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.398924E+02    0.393200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.393929E+02    0.232727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.373722E+02    0.234907E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.387977E+02    0.218564E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.411026E+02    0.221551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.410385E+02    0.240229E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.386794E+02    0.248861E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.365522E+02    0.262230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.354039E+02    0.249752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.352230E+02    0.233677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.362945E+02    0.216150E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.380310E+02    0.204600E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.402048E+02    0.200166E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.421744E+02    0.204653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.434800E+02    0.216200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.435700E+02    0.233141E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.426439E+02    0.249306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.407590E+02    0.261765E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385746E+02    0.266094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.365922E+02    0.289269E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.336285E+02    0.275729E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.323211E+02    0.250031E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.327548E+02    0.221230E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.349476E+02    0.195625E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.383783E+02    0.179691E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.423166E+02    0.176906E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.455558E+02    0.189561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133575E+03   -0.473149E+02    0.212949E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133663E+03   -0.467526E+02    0.243106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.439581E+02    0.272327E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.402967E+02    0.288642E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    670292.321245695     
  ps_ts2 prof sum =   669947.713932992     
  trcom prof sum =    669947.713932992     
  ps_ts2 cur sum  =   12049.4200405684     
  trcom cur sum  =    12049.4200405684     
  
  antenna # iant =            3
  powecha_use(iant) =    525138.980330647     
  ps_ts2 prof sum =   524823.236568033     
  trcom prof sum =    524823.236568033     
  ps_ts2 cur sum  =   6601.65675231555     
  trcom cur sum  =    6601.65675231556     
  
  antenna # iant =            4
  powecha_use(iant) =    572982.949502704     
  ps_ts2 prof sum =   572638.067123305     
  trcom prof sum =    572638.067123304     
  ps_ts2 cur sum  =   9306.76141893628     
  trcom cur sum  =    9306.76141893627     
  
  antenna # iant =            5
  powecha_use(iant) =    556257.589536191     
  ps_ts2 prof sum =   555915.625546144     
  trcom prof sum =    555915.625546144     
  ps_ts2 cur sum  =   11094.3987974447     
  trcom cur sum  =    11094.3987974447     
  
  Total ECH heating:      2323324.64317047     
  Total Current Drive:    39052.2370092649     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2000E+00  4.2050E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.20000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    29189.6551888025     
  ps_ts2 prof e sum =    28719.7967963019     
  ps_ts2 prof i sum =   1.676954201222439E-009
  trcom  prof e sum =    28719.7967962962     
  trcom  prof i sum =   1.676954201200481E-009
  ps_ts2 cur sum    =   -2316.35040510988     
  trcom  cur sum    =   -2316.35040510927     
  
  Total LH heating on electrons:    28719.7967962962     
  Total LH heating on ions:        1.676954201200481E-009
  Total Current Drive:             -2316.35040510927     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3943
 TA= 4.20000E+00 CPU TIME= 1.59397E-01 SECONDS.  DT= 1.14504E-03
  
 TEC1=    4.19999999999993     
 TEC2=    4.20499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9808458333328     
  %check_save_state: izleft hours =    69.0108333333333     
 --> plasma_hash("gframe"): TA= 4.200000E+00 NSTEP=  3943 Hash code:   54166989
 ->PRGCHK: bdy curvature ratio at t= 4.2050E+00 seconds is:  5.7066E-02
% MHDEQ: TG1=     4.200000 ; TG2=     4.205000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1180E-03 SECONDS
   DATA R*BT AT EDGE:  2.7536E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7066E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.200000 TO TG2=    4.205000 @ NSTEP     3943
   GFRAME TG2 MOMENTS CHECKSUM:  2.4543535510234D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2050E+00  4.2100E+00 total power(Watts):  2.5444E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.20500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.385842E+02    0.374280E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.365618E+02    0.375775E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.379051E+02    0.359311E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.402034E+02    0.363466E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.402206E+02    0.383151E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.378471E+02    0.391301E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.358983E+02    0.403136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.345736E+02    0.390362E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.344150E+02    0.373074E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.354124E+02    0.355863E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.371580E+02    0.344097E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.392307E+02    0.340771E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.412987E+02    0.345642E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134594E+03   -0.425925E+02    0.358771E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.427670E+02    0.376550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.418192E+02    0.393866E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.400066E+02    0.405802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.378177E+02    0.409210E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.358940E+02    0.432599E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.328604E+02    0.416636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.315038E+02    0.389407E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.318780E+02    0.359625E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.341836E+02    0.332522E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.375261E+02    0.317429E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.412572E+02    0.317201E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.445960E+02    0.331200E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133181E+03   -0.464498E+02    0.357283E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133168E+03   -0.459509E+02    0.389841E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.433159E+02    0.418777E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135013E+03   -0.396068E+02    0.434167E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.393376E+02    0.290701E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.373154E+02    0.292678E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.387470E+02    0.275997E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.410532E+02    0.279377E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.409823E+02    0.298605E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.387187E+02    0.306362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.366783E+02    0.318774E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.355306E+02    0.305941E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.353539E+02    0.289477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.362450E+02    0.273231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.379865E+02    0.261391E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.401646E+02    0.256999E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.421340E+02    0.261877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.434397E+02    0.274157E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.436315E+02    0.290958E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.427024E+02    0.307428E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.407995E+02    0.319819E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.386073E+02    0.323852E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.366078E+02    0.347385E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.336469E+02    0.332770E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.322599E+02    0.307285E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.327044E+02    0.277930E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.349015E+02    0.251647E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.384375E+02    0.234817E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.422867E+02    0.233164E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133990E+03   -0.456446E+02    0.245759E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133398E+03   -0.472971E+02    0.271377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133327E+03   -0.468310E+02    0.301932E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.441190E+02    0.330621E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.404231E+02    0.346861E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.385622E+02    0.430694E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.365366E+02    0.431656E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.379978E+02    0.414447E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.403009E+02    0.419446E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.403020E+02    0.439768E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.379143E+02    0.447239E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.359508E+02    0.458586E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.346327E+02    0.445194E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.345833E+02    0.427169E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.353043E+02    0.411225E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.371590E+02    0.398940E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.393432E+02    0.395390E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.413059E+02    0.401621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.427037E+02    0.415321E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.428636E+02    0.433838E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.418974E+02    0.451151E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.400736E+02    0.462605E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.378689E+02    0.465308E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.359199E+02    0.488687E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.328957E+02    0.471152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.315581E+02    0.443432E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.319575E+02    0.413030E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.341901E+02    0.386222E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.375444E+02    0.371309E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.413958E+02    0.371267E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133472E+03   -0.448565E+02    0.386387E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132762E+03   -0.465808E+02    0.415218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132598E+03   -0.461678E+02    0.448403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.436044E+02    0.476448E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.397471E+02    0.491276E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.388407E+02    0.335157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.368205E+02    0.336930E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.382568E+02    0.320016E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.405599E+02    0.323751E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.404830E+02    0.343525E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.382162E+02    0.351233E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.362709E+02    0.362978E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.350326E+02    0.350323E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.348628E+02    0.333398E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.357600E+02    0.316946E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.374080E+02    0.305878E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.395750E+02    0.301745E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.415386E+02    0.306831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.428419E+02    0.319393E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.431315E+02    0.336080E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.421941E+02    0.352987E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.402855E+02    0.365356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.380943E+02    0.369104E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.361845E+02    0.392379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.331409E+02    0.377338E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.317702E+02    0.351114E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.322246E+02    0.321194E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.343339E+02    0.295768E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.378611E+02    0.279152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.417015E+02    0.277817E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.449369E+02    0.291715E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.468027E+02    0.316578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133216E+03   -0.463245E+02    0.348171E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.435945E+02    0.377171E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.398972E+02    0.393171E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.393985E+02    0.232592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.373764E+02    0.234772E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.389014E+02    0.217582E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.411077E+02    0.221393E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.410444E+02    0.240093E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.386844E+02    0.248738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.367505E+02    0.260543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137115E+03   -0.354078E+02    0.249635E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.354128E+02    0.231883E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.362990E+02    0.215998E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.379345E+02    0.205318E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.402102E+02    0.199987E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.421795E+02    0.204482E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.434870E+02    0.216036E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.436793E+02    0.232253E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.426553E+02    0.249154E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.407647E+02    0.261660E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.386808E+02    0.265228E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.365973E+02    0.289190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.336329E+02    0.275640E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.323247E+02    0.249917E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.327590E+02    0.221081E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.349519E+02    0.195446E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.385738E+02    0.177753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.423220E+02    0.176698E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.455625E+02    0.189362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.473216E+02    0.212775E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.467596E+02    0.242967E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.440768E+02    0.271495E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.404083E+02    0.287834E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    221912.076351590     
  ps_ts2 prof sum =   221775.591996902     
  trcom prof sum =    221775.591996902     
  ps_ts2 cur sum  =   3263.05198819948     
  trcom cur sum  =    3263.05198819948     
  
  antenna # iant =            2
  powecha_use(iant) =    671729.493773304     
  ps_ts2 prof sum =   671344.769900957     
  trcom prof sum =    671344.769900957     
  ps_ts2 cur sum  =   12080.2607119913     
  trcom cur sum  =    12080.2607119913     
  
  antenna # iant =            3
  powecha_use(iant) =    524582.625333562     
  ps_ts2 prof sum =   524259.879203263     
  trcom prof sum =    524259.879203263     
  ps_ts2 cur sum  =   6608.19118423336     
  trcom cur sum  =    6608.19118423337     
  
  antenna # iant =            4
  powecha_use(iant) =    569339.760342011     
  ps_ts2 prof sum =   568993.473849223     
  trcom prof sum =    568993.473849222     
  ps_ts2 cur sum  =   9256.57566497668     
  trcom cur sum  =    9256.57566497666     
  
  antenna # iant =            5
  powecha_use(iant) =    556797.719378885     
  ps_ts2 prof sum =   556471.789890466     
  trcom prof sum =    556471.789890466     
  ps_ts2 cur sum  =   11100.3706443970     
  trcom cur sum  =    11100.3706443970     
  
  Total ECH heating:      2542845.50484081     
  Total Current Drive:    42308.4501937978     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2050E+00  4.2100E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.20500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2122.99362188952     
  ps_ts2 prof e sum =    2090.17241430031     
  ps_ts2 prof i sum =   8.734114234066631E-011
  trcom  prof e sum =    2090.17241429206     
  trcom  prof i sum =   8.734114233947751E-011
  ps_ts2 cur sum    =   -168.237927642357     
  trcom  cur sum    =   -168.237927641516     
  
  Total LH heating on electrons:    2090.17241429206     
  Total LH heating on ions:        8.734114233947751E-011
  Total Current Drive:             -168.237927641516     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3947
 TA= 4.20500E+00 CPU TIME= 1.60721E-01 SECONDS.  DT= 7.93167E-04
  
 TEC1=    4.20499999999993     
 TEC2=    4.20999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    10.9981716666666     
  %check_save_state: izleft hours =    68.9933333333333     
 --> plasma_hash("gframe"): TA= 4.205000E+00 NSTEP=  3947 Hash code:   49960978
 ->PRGCHK: bdy curvature ratio at t= 4.2100E+00 seconds is:  5.7007E-02
% MHDEQ: TG1=     4.205000 ; TG2=     4.210000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7546E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7007E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.205000 TO TG2=    4.210000 @ NSTEP     3947
   GFRAME TG2 MOMENTS CHECKSUM:  2.4548710420972D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.30477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.68314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  7.49962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.62621E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.69607E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.35547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.37408E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.64969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.97440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.30040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.30775E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.13960E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.40874E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.42234E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.24647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.80628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.51167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.39460E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.11970E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.11439E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.11439E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2100E+00  4.2150E+00 total power(Watts):  2.9652E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.21000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.384803E+02    0.375016E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.364621E+02    0.376514E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.379054E+02    0.359469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.402037E+02    0.363629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.402204E+02    0.383310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.378471E+02    0.391469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.358983E+02    0.403332E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.345731E+02    0.390536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.345109E+02    0.372630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.354128E+02    0.356020E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.371586E+02    0.344264E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.392312E+02    0.340933E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.411904E+02    0.346430E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.425926E+02    0.358938E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.427667E+02    0.376728E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.418130E+02    0.394076E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.400163E+02    0.405980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.378171E+02    0.409416E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.358934E+02    0.432793E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.328601E+02    0.416840E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.315037E+02    0.389571E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.318869E+02    0.359727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.339966E+02    0.334041E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.375267E+02    0.317586E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.412581E+02    0.317353E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133946E+03   -0.447107E+02    0.330748E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.464500E+02    0.357457E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133191E+03   -0.459498E+02    0.390051E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133799E+03   -0.434289E+02    0.418561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.396060E+02    0.434372E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.393382E+02    0.290850E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.373163E+02    0.292822E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.387476E+02    0.276148E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.410539E+02    0.279535E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.409832E+02    0.298756E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.387203E+02    0.306511E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.366787E+02    0.318934E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.355314E+02    0.306087E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.353550E+02    0.289627E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.362458E+02    0.273386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.379873E+02    0.261553E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.401655E+02    0.257176E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.421349E+02    0.262058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.434403E+02    0.274318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.436323E+02    0.291110E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.425931E+02    0.308262E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.407997E+02    0.319983E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.386064E+02    0.324021E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.366082E+02    0.347546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.337412E+02    0.332243E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.322608E+02    0.307428E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.327042E+02    0.278083E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.349052E+02    0.251810E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.384395E+02    0.234997E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.421817E+02    0.234146E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134013E+03   -0.456457E+02    0.245953E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133431E+03   -0.472925E+02    0.271567E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133352E+03   -0.468318E+02    0.302090E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134088E+03   -0.442330E+02    0.330164E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.403258E+02    0.347602E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.385615E+02    0.430902E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.365386E+02    0.431849E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.379973E+02    0.414666E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.403000E+02    0.419673E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.403011E+02    0.439971E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.379136E+02    0.447422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.359500E+02    0.458747E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.347265E+02    0.444963E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.345828E+02    0.427369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.354023E+02    0.410932E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.371588E+02    0.399131E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135460E+03   -0.392370E+02    0.396098E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.413052E+02    0.401828E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133992E+03   -0.428153E+02    0.415099E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134172E+03   -0.428611E+02    0.434061E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.418963E+02    0.451340E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.400725E+02    0.462771E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.378686E+02    0.465472E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.359188E+02    0.488884E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.328949E+02    0.471323E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.314675E+02    0.444043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.319571E+02    0.413235E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.341906E+02    0.386385E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.375470E+02    0.371458E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.412864E+02    0.371996E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133496E+03   -0.448564E+02    0.386572E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132786E+03   -0.465800E+02    0.415460E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132623E+03   -0.461667E+02    0.448597E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.433745E+02    0.477238E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.396383E+02    0.491750E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.388411E+02    0.335327E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.368211E+02    0.337094E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.382577E+02    0.320173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.405591E+02    0.323926E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.404805E+02    0.343709E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.382165E+02    0.351395E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.361722E+02    0.363740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.350332E+02    0.350476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.348647E+02    0.333558E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.355671E+02    0.318498E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.374039E+02    0.306057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.395763E+02    0.301886E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.415393E+02    0.306986E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.428369E+02    0.319579E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.431318E+02    0.336256E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.420838E+02    0.353752E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.402856E+02    0.365519E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.380930E+02    0.369270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.361845E+02    0.392557E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.331411E+02    0.377488E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.317707E+02    0.351265E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.322254E+02    0.321348E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.343342E+02    0.295910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.378621E+02    0.279300E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.417024E+02    0.277974E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.450514E+02    0.291174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133288E+03   -0.468033E+02    0.316745E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.463248E+02    0.348349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.435955E+02    0.377344E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.398969E+02    0.393356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.393992E+02    0.232786E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.373784E+02    0.234958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.388041E+02    0.218593E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.411093E+02    0.221582E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.410451E+02    0.240285E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.386850E+02    0.248929E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.367516E+02    0.260715E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.354071E+02    0.249832E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.354141E+02    0.232057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.363003E+02    0.216180E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.380417E+02    0.204564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.402115E+02    0.200165E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.421814E+02    0.204653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.434878E+02    0.216225E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.436903E+02    0.232382E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.426569E+02    0.249325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.407658E+02    0.261829E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.385809E+02    0.266156E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.365980E+02    0.289337E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.336337E+02    0.275791E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.323261E+02    0.250092E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.327600E+02    0.221261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.349538E+02    0.195611E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.385759E+02    0.177917E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.423236E+02    0.176866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.455636E+02    0.189529E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133591E+03   -0.473227E+02    0.212968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133679E+03   -0.467607E+02    0.243160E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.441889E+02    0.270929E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.403041E+02    0.288706E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    647880.710341193     
  ps_ts2 prof sum =   647500.333831245     
  trcom prof sum =    647500.333831244     
  ps_ts2 cur sum  =   9517.05415645637     
  trcom cur sum  =    9517.05415645636     
  
  antenna # iant =            2
  powecha_use(iant) =    671643.277258997     
  ps_ts2 prof sum =   671281.442334273     
  trcom prof sum =    671281.442334272     
  ps_ts2 cur sum  =   12068.4222282272     
  trcom cur sum  =    12068.4222282272     
  
  antenna # iant =            3
  powecha_use(iant) =    522571.605785368     
  ps_ts2 prof sum =   522261.761765985     
  trcom prof sum =    522261.761765986     
  ps_ts2 cur sum  =   6575.09725196646     
  trcom cur sum  =    6575.09725196647     
  
  antenna # iant =            4
  powecha_use(iant) =    566030.970767416     
  ps_ts2 prof sum =   565690.201585774     
  trcom prof sum =    565690.201585773     
  ps_ts2 cur sum  =   9193.80026859673     
  trcom cur sum  =    9193.80026859672     
  
  antenna # iant =            5
  powecha_use(iant) =    557038.727265917     
  ps_ts2 prof sum =   556738.105417872     
  trcom prof sum =    556738.105417872     
  ps_ts2 cur sum  =   11099.5242409170     
  trcom cur sum  =    11099.5242409170     
  
  Total ECH heating:      2963471.84493515     
  Total Current Drive:    48453.8981461637     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2100E+00  4.2150E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.21000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2123.87968438489     
  ps_ts2 prof e sum =    2089.41407832226     
  ps_ts2 prof i sum =   1.121435865843486E-010
  trcom  prof e sum =    2089.41407830412     
  trcom  prof i sum =   1.121435865831791E-010
  ps_ts2 cur sum    =   -168.263636030723     
  trcom  cur sum    =   -168.263636030691     
  
  Total LH heating on electrons:    2089.41407830412     
  Total LH heating on ions:        1.121435865831791E-010
  Total Current Drive:             -168.263636030691     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3952
 TA= 4.21000E+00 CPU TIME= 1.60427E-01 SECONDS.  DT= 5.33617E-04
  
 TEC1=    4.20999999999993     
 TEC2=    4.21499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.0135502777775     
  %check_save_state: izleft hours =    68.9780555555556     
 --> plasma_hash("gframe"): TA= 4.210000E+00 NSTEP=  3952 Hash code:   14295545
 ->PRGCHK: bdy curvature ratio at t= 4.2150E+00 seconds is:  5.6953E-02
% MHDEQ: TG1=     4.210000 ; TG2=     4.215000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7556E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6953E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.210000 TO TG2=    4.215000 @ NSTEP     3952
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553885331709D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2150E+00  4.2200E+00 total power(Watts):  2.9880E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.21500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.384793E+02    0.375154E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.364614E+02    0.376656E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.379044E+02    0.359609E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.402029E+02    0.363767E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.402196E+02    0.383471E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.378458E+02    0.391638E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.358971E+02    0.403509E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.345720E+02    0.390688E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.345104E+02    0.372768E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.354128E+02    0.356156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.370578E+02    0.345041E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.392307E+02    0.341077E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.411896E+02    0.346563E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134425E+03   -0.427036E+02    0.358489E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.427659E+02    0.376874E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.418223E+02    0.394206E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.400103E+02    0.406190E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.378160E+02    0.409608E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.358922E+02    0.432967E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.329523E+02    0.416515E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.315026E+02    0.389721E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.318811E+02    0.359889E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.339970E+02    0.334175E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.375261E+02    0.317726E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.412572E+02    0.317503E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.447100E+02    0.330892E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133242E+03   -0.464431E+02    0.357624E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.459493E+02    0.390209E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.434276E+02    0.418764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.396048E+02    0.434547E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.393380E+02    0.290958E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.373158E+02    0.292931E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.387475E+02    0.276256E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.410533E+02    0.279638E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.409823E+02    0.298881E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.386163E+02    0.307338E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.366786E+02    0.319069E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.355308E+02    0.306211E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.353545E+02    0.289735E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.362455E+02    0.273492E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.379870E+02    0.261674E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.401651E+02    0.257295E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.421327E+02    0.262179E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.434397E+02    0.274416E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134718E+03   -0.436316E+02    0.291221E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.425926E+02    0.308396E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.407992E+02    0.320118E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.386071E+02    0.324149E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.366080E+02    0.347674E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.337412E+02    0.332381E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.322606E+02    0.307549E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.327055E+02    0.278186E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.349970E+02    0.251137E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.384385E+02    0.235139E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.421805E+02    0.234281E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.456449E+02    0.246084E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133457E+03   -0.472921E+02    0.271660E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133376E+03   -0.468313E+02    0.302217E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134111E+03   -0.442322E+02    0.330307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.403208E+02    0.347759E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.385601E+02    0.431086E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.365348E+02    0.432032E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.379963E+02    0.414859E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.402988E+02    0.419870E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.402996E+02    0.440137E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.379123E+02    0.447575E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.359481E+02    0.458902E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.347281E+02    0.445110E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.345820E+02    0.427548E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.354012E+02    0.411112E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135854E+03   -0.371580E+02    0.399299E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.392358E+02    0.396267E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134820E+03   -0.413042E+02    0.402012E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.425890E+02    0.416213E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134192E+03   -0.428612E+02    0.434241E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.418948E+02    0.451493E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.400712E+02    0.462920E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.378674E+02    0.465620E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.359172E+02    0.489057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.328934E+02    0.471474E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.314664E+02    0.444185E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.318654E+02    0.413921E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.341900E+02    0.386532E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.375464E+02    0.371600E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.412856E+02    0.372141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.448553E+02    0.386731E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132809E+03   -0.465786E+02    0.415671E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132647E+03   -0.461652E+02    0.448766E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133776E+03   -0.433727E+02    0.477410E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.396366E+02    0.491928E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.388407E+02    0.335466E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.368203E+02    0.337234E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.382576E+02    0.320297E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.405594E+02    0.324056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.404798E+02    0.343845E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.382161E+02    0.351534E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.361716E+02    0.363877E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.350329E+02    0.350615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.348643E+02    0.333691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.355664E+02    0.318628E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.374035E+02    0.306178E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.395750E+02    0.302008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.415387E+02    0.307110E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.428365E+02    0.319719E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.432433E+02    0.335772E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.420830E+02    0.353891E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.402850E+02    0.365657E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.380938E+02    0.369404E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.361835E+02    0.392713E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.331405E+02    0.377627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.317700E+02    0.351400E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137584E+03   -0.322251E+02    0.321475E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.343340E+02    0.296023E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.378618E+02    0.279408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.415946E+02    0.278804E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.450509E+02    0.291291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133312E+03   -0.468027E+02    0.316883E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133264E+03   -0.463241E+02    0.348493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.435933E+02    0.377500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.398957E+02    0.393522E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.393984E+02    0.232922E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.373771E+02    0.235097E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.388033E+02    0.218716E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.411078E+02    0.221708E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.410444E+02    0.240421E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.386849E+02    0.249057E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.367513E+02    0.260833E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.354084E+02    0.249953E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.352281E+02    0.233862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.362993E+02    0.216297E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.380363E+02    0.204710E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.402107E+02    0.200260E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.421803E+02    0.204761E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.434867E+02    0.216348E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.436840E+02    0.232550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.426560E+02    0.249454E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.407652E+02    0.261939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.385809E+02    0.266265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.365977E+02    0.289445E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.336350E+02    0.275885E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.323262E+02    0.250227E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.327596E+02    0.221389E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.349529E+02    0.195703E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.385752E+02    0.178015E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.423225E+02    0.176963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.455622E+02    0.189634E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133616E+03   -0.473215E+02    0.213091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133702E+03   -0.467598E+02    0.243290E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.439659E+02    0.272485E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.403036E+02    0.288815E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661050.646777353     
  ps_ts2 prof sum =   660692.682853991     
  trcom prof sum =    660692.682853991     
  ps_ts2 cur sum  =   9696.41958016572     
  trcom cur sum  =    9696.41958016572     
  
  antenna # iant =            2
  powecha_use(iant) =    672131.507510367     
  ps_ts2 prof sum =   671787.982881982     
  trcom prof sum =    671787.982881982     
  ps_ts2 cur sum  =   12060.2477819000     
  trcom cur sum  =    12060.2477818999     
  
  antenna # iant =            3
  powecha_use(iant) =    521650.027205015     
  ps_ts2 prof sum =   521340.170351006     
  trcom prof sum =    521340.170351006     
  ps_ts2 cur sum  =   6553.46859651738     
  trcom cur sum  =    6553.46859651739     
  
  antenna # iant =            4
  powecha_use(iant) =    577056.808483500     
  ps_ts2 prof sum =   576725.184822593     
  trcom prof sum =    576725.184822592     
  ps_ts2 cur sum  =   9359.11332697357     
  trcom cur sum  =    9359.11332697356     
  
  antenna # iant =            5
  powecha_use(iant) =    556100.196796295     
  ps_ts2 prof sum =   555784.390213576     
  trcom prof sum =    555784.390213576     
  ps_ts2 cur sum  =   11067.9539139119     
  trcom cur sum  =    11067.9539139119     
  
  Total ECH heating:      2986330.41112315     
  Total Current Drive:    48737.2031994685     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2150E+00  4.2200E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.21500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2127.39758300722     
  ps_ts2 prof e sum =    2092.16567436784     
  ps_ts2 prof i sum =   1.436549360820032E-010
  trcom  prof e sum =    2092.16567436764     
  trcom  prof i sum =   1.436549360808860E-010
  ps_ts2 cur sum    =   -168.582590043668     
  trcom  cur sum    =   -168.582590043648     
  
  Total LH heating on electrons:    2092.16567436764     
  Total LH heating on ions:        1.436549360808860E-010
  Total Current Drive:             -168.582590043648     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3958
 TA= 4.21500E+00 CPU TIME= 1.59173E-01 SECONDS.  DT= 7.75733E-04
  
 TEC1=    4.21499999999993     
 TEC2=    4.21999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.0337258333329     
  %check_save_state: izleft hours =    68.9577777777778     
 --> plasma_hash("gframe"): TA= 4.215000E+00 NSTEP=  3958 Hash code:   70538038
 ->PRGCHK: bdy curvature ratio at t= 4.2200E+00 seconds is:  5.6907E-02
% MHDEQ: TG1=     4.215000 ; TG2=     4.220000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7565E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6907E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.215000 TO TG2=    4.220000 @ NSTEP     3958
   GFRAME TG2 MOMENTS CHECKSUM:  2.4559060242446D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.66817E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.08988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.20291E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.18308E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.73091E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.24236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.20280E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.79988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.85013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.39931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.78698E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.19965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.46295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.81458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.20323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.75890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.20469E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -6.23132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  6.02276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.22465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.22465E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.999997716164216E-006
 EC call, timestep(sec):  4.2200E+00  4.2250E+00 total power(Watts):  2.3991E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.22000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.384776E+02    0.375353E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.364596E+02    0.376848E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.379034E+02    0.359799E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.402012E+02    0.363970E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.402175E+02    0.383674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.378436E+02    0.391838E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.358947E+02    0.403717E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.345706E+02    0.390882E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.345090E+02    0.372959E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.354115E+02    0.356342E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.370566E+02    0.345230E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.392294E+02    0.341275E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135257E+03   -0.411896E+02    0.346765E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134447E+03   -0.427018E+02    0.358695E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.427637E+02    0.377086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.418156E+02    0.394431E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.400083E+02    0.406394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.378135E+02    0.409822E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.358899E+02    0.433141E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.329500E+02    0.416728E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.315018E+02    0.389911E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.318802E+02    0.360071E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.339959E+02    0.334363E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.375245E+02    0.317927E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.412562E+02    0.317701E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133991E+03   -0.447089E+02    0.331108E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133242E+03   -0.464519E+02    0.357799E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133237E+03   -0.459467E+02    0.390432E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.434245E+02    0.418997E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.396019E+02    0.434731E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.393376E+02    0.291144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.373155E+02    0.293115E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.387473E+02    0.276434E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.410514E+02    0.279827E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.409823E+02    0.299069E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.386139E+02    0.307545E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.366776E+02    0.319256E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.355303E+02    0.306398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.353547E+02    0.289907E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.362456E+02    0.273665E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.379874E+02    0.261859E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.400611E+02    0.258269E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.421345E+02    0.262367E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.434397E+02    0.274599E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.436315E+02    0.291413E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.425919E+02    0.308594E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.407981E+02    0.320323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.386060E+02    0.324345E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.366070E+02    0.347870E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.337400E+02    0.332572E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.322604E+02    0.307730E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.327040E+02    0.278356E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.349973E+02    0.251333E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.384390E+02    0.235342E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.421809E+02    0.234497E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.456452E+02    0.246297E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133478E+03   -0.472919E+02    0.271863E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133397E+03   -0.468305E+02    0.302427E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134132E+03   -0.442311E+02    0.330519E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.403194E+02    0.347960E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.385575E+02    0.431270E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.365324E+02    0.432207E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.379940E+02    0.415069E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.402962E+02    0.420087E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.402967E+02    0.440316E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.379096E+02    0.447735E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.359451E+02    0.459051E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.347256E+02    0.445266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.345796E+02    0.427731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.353990E+02    0.411324E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.371554E+02    0.399507E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.392336E+02    0.396473E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.413020E+02    0.402229E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134474E+03   -0.425861E+02    0.416441E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134214E+03   -0.428581E+02    0.434436E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.418917E+02    0.451657E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.400681E+02    0.463077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.378642E+02    0.465779E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.359141E+02    0.489220E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.328907E+02    0.471627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.314641E+02    0.444337E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.318634E+02    0.414123E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.341883E+02    0.386727E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.375447E+02    0.371794E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.412835E+02    0.372343E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133541E+03   -0.448527E+02    0.386958E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132830E+03   -0.465755E+02    0.415908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132670E+03   -0.461619E+02    0.448943E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133792E+03   -0.433727E+02    0.477570E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.396331E+02    0.492103E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.388397E+02    0.335663E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.368193E+02    0.337430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.382568E+02    0.320492E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.405584E+02    0.324260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.404783E+02    0.344054E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.382146E+02    0.351727E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.361705E+02    0.364063E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.350318E+02    0.350807E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137130E+03   -0.346730E+02    0.335232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.355658E+02    0.318823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.374029E+02    0.306370E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.395751E+02    0.302200E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.415381E+02    0.307320E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.428355E+02    0.319926E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.432418E+02    0.335978E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.420815E+02    0.354094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.402832E+02    0.365855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.380921E+02    0.369598E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.361815E+02    0.392917E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.331392E+02    0.377814E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.317691E+02    0.351581E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.322240E+02    0.321661E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.343339E+02    0.296202E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.378620E+02    0.279577E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.415947E+02    0.278986E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.450506E+02    0.291487E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133333E+03   -0.468016E+02    0.317103E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133285E+03   -0.463223E+02    0.348708E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.435912E+02    0.377710E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.398937E+02    0.393733E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.39 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.393988E+02    0.233129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.373726E+02    0.235337E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.388038E+02    0.218903E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.411086E+02    0.221905E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.410445E+02    0.240644E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.386851E+02    0.249271E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.365582E+02    0.262591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.354093E+02    0.250146E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.352287E+02    0.234066E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.363004E+02    0.216479E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.380372E+02    0.204882E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.402117E+02    0.200428E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.421809E+02    0.204937E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.434874E+02    0.216542E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.435761E+02    0.233547E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.426561E+02    0.249680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.407656E+02    0.262129E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.385812E+02    0.266451E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.365976E+02    0.289626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.336334E+02    0.276062E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.323263E+02    0.250423E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.327607E+02    0.221562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.349545E+02    0.195865E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.383849E+02    0.179916E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.423244E+02    0.177121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.455637E+02    0.189798E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133638E+03   -0.473224E+02    0.213289E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133723E+03   -0.467601E+02    0.243520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.439658E+02    0.272674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.402998E+02    0.289024E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    70339.9637753050     
  ps_ts2 prof sum =   70302.0196031294     
  trcom prof sum =    70302.0196031295     
  ps_ts2 cur sum  =   1030.29662929492     
  trcom cur sum  =    1030.29662929492     
  
  antenna # iant =            2
  powecha_use(iant) =    670611.367662518     
  ps_ts2 prof sum =   670266.756480532     
  trcom prof sum =    670266.756480531     
  ps_ts2 cur sum  =   12028.8186761999     
  trcom cur sum  =    12028.8186761999     
  
  antenna # iant =            3
  powecha_use(iant) =    524269.570327019     
  ps_ts2 prof sum =   523960.072123185     
  trcom prof sum =    523960.072123185     
  ps_ts2 cur sum  =   6574.91500819410     
  trcom cur sum  =    6574.91500819411     
  
  antenna # iant =            4
  powecha_use(iant) =    576644.505422725     
  ps_ts2 prof sum =   576299.770519061     
  trcom prof sum =    576299.770481971     
  ps_ts2 cur sum  =   9343.22697810978     
  trcom cur sum  =    9343.22697810977     
  
  antenna # iant =            5
  powecha_use(iant) =    557217.929428321     
  ps_ts2 prof sum =   556874.658448456     
  trcom prof sum =    556874.658448456     
  ps_ts2 cur sum  =   11093.9499149801     
  trcom cur sum  =    11093.9499149801     
  
  Total ECH heating:      2397703.27713727     
  Total Current Drive:    40071.2072067788     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2200E+00  4.2250E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.22000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    21053.4548331855     
  ps_ts2 prof e sum =    20701.5312324665     
  ps_ts2 prof i sum =   1.502404353961932E-009
  trcom  prof e sum =    20701.5312324651     
  trcom  prof i sum =   1.502404353951967E-009
  ps_ts2 cur sum    =   -1667.83495331992     
  trcom  cur sum    =   -1667.83495331978     
  
  Total LH heating on electrons:    20701.5312324651     
  Total LH heating on ions:        1.502404353951967E-009
  Total Current Drive:             -1667.83495331978     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3963
 TA= 4.22000E+00 CPU TIME= 1.59664E-01 SECONDS.  DT= 6.59268E-04
  
 TEC1=    4.21999999999993     
 TEC2=    4.22499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.0528477777777     
  %check_save_state: izleft hours =    68.9386111111111     
 --> plasma_hash("gframe"): TA= 4.220000E+00 NSTEP=  3963 Hash code:   85840263
 ->PRGCHK: bdy curvature ratio at t= 4.2250E+00 seconds is:  5.6867E-02
% MHDEQ: TG1=     4.220000 ; TG2=     4.225000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7575E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6867E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.220000 TO TG2=    4.225000 @ NSTEP     3963
   GFRAME TG2 MOMENTS CHECKSUM:  2.4564235153184D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2250E+00  4.2300E+00 total power(Watts):  2.4042E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.22500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.384750E+02    0.375527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.364607E+02    0.377001E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.379042E+02    0.359948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.402024E+02    0.364121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.401106E+02    0.384389E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.378449E+02    0.392003E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.358957E+02    0.403892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.346684E+02    0.390489E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.345095E+02    0.373106E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.352182E+02    0.357732E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.370580E+02    0.345377E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.392309E+02    0.341419E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.411894E+02    0.346914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.424799E+02    0.360018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.427647E+02    0.377249E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.418153E+02    0.394627E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.399010E+02    0.407082E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.378142E+02    0.410007E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.357911E+02    0.433757E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.329504E+02    0.416911E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.314131E+02    0.390635E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.318812E+02    0.360208E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.339970E+02    0.334504E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.375267E+02    0.318064E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.412579E+02    0.317844E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.447104E+02    0.331249E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133276E+03   -0.464487E+02    0.357969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133262E+03   -0.459477E+02    0.390617E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.431974E+02    0.420091E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.396023E+02    0.434912E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.393392E+02    0.291279E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.373173E+02    0.293251E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.387489E+02    0.276570E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.410546E+02    0.279956E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.409832E+02    0.299206E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.386242E+02    0.307628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.366789E+02    0.319404E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.353399E+02    0.307978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.351660E+02    0.291535E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.360540E+02    0.275346E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.379890E+02    0.262009E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.400630E+02    0.258422E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.421363E+02    0.262511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.433309E+02    0.275468E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134551E+03   -0.437442E+02    0.290849E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.425932E+02    0.308733E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135411E+03   -0.407997E+02    0.320463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.386073E+02    0.324490E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.366083E+02    0.348015E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137458E+03   -0.335551E+02    0.334075E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.322622E+02    0.307860E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.327071E+02    0.278486E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.349995E+02    0.251490E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.384403E+02    0.235508E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.421833E+02    0.234655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.454214E+02    0.247977E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133503E+03   -0.472933E+02    0.272007E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133844E+03   -0.465979E+02    0.303897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.440053E+02    0.331931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.403206E+02    0.348108E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135452E+03   -0.385582E+02    0.431450E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.365330E+02    0.432387E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.378909E+02    0.415741E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.402968E+02    0.420280E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.401888E+02    0.440889E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.379100E+02    0.447897E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.359462E+02    0.459201E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.347263E+02    0.445411E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.343872E+02    0.428826E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.353995E+02    0.411512E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.371564E+02    0.399681E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.392342E+02    0.396652E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.413025E+02    0.402408E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.425867E+02    0.416639E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.428585E+02    0.434623E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.418920E+02    0.451826E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.400680E+02    0.463249E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.378643E+02    0.465945E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.359146E+02    0.489397E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.329844E+02    0.471443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.314648E+02    0.444489E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.318639E+02    0.414296E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.339984E+02    0.388012E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.375457E+02    0.371946E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.412847E+02    0.372496E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.446219E+02    0.388162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132855E+03   -0.465761E+02    0.416117E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132913E+03   -0.460436E+02    0.449483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.433691E+02    0.477768E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.396330E+02    0.492294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.388408E+02    0.335808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.368210E+02    0.337561E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.382578E+02    0.320649E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.405600E+02    0.324398E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.404798E+02    0.344196E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.381126E+02    0.352494E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.361714E+02    0.364212E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.348405E+02    0.352221E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.346741E+02    0.335371E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.356645E+02    0.318257E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.374040E+02    0.306508E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.395773E+02    0.302337E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.415394E+02    0.307454E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.428366E+02    0.320076E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.430195E+02    0.337385E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.420826E+02    0.354245E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.402843E+02    0.366007E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.380932E+02    0.369749E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.360823E+02    0.393631E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.331394E+02    0.377965E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.317705E+02    0.351720E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.322254E+02    0.321799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.343358E+02    0.296323E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.378631E+02    0.279712E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.415958E+02    0.279127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.450519E+02    0.291625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133358E+03   -0.468034E+02    0.317240E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133523E+03   -0.462062E+02    0.349447E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134094E+03   -0.437060E+02    0.377334E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.398939E+02    0.393910E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.47 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.393999E+02    0.233294E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.373829E+02    0.235434E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.388049E+02    0.219053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.411099E+02    0.222061E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.410460E+02    0.240809E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.386875E+02    0.249428E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.366562E+02    0.261960E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.355043E+02    0.249499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.352300E+02    0.234227E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.363018E+02    0.216623E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.380386E+02    0.205013E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.402129E+02    0.200563E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.421822E+02    0.205071E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.434883E+02    0.216694E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.435776E+02    0.233709E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.426576E+02    0.249839E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.407669E+02    0.262286E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.385826E+02    0.266596E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.365996E+02    0.289751E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.336367E+02    0.276201E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.322399E+02    0.251419E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.327620E+02    0.221720E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.349559E+02    0.195993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.384822E+02    0.179180E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.423257E+02    0.177259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.454563E+02    0.190732E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.470971E+02    0.214993E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.465329E+02    0.245187E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.439673E+02    0.272811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.403045E+02    0.289135E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.81 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    83387.0063300049     
  ps_ts2 prof sum =   83339.4467346260     
  trcom prof sum =    83339.4467346259     
  ps_ts2 cur sum  =   1220.18305789052     
  trcom cur sum  =    1220.18305789052     
  
  antenna # iant =            2
  powecha_use(iant) =    669434.057384672     
  ps_ts2 prof sum =   669021.092165604     
  trcom prof sum =    669021.092165603     
  ps_ts2 cur sum  =   11995.7683333442     
  trcom cur sum  =    11995.7683333442     
  
  antenna # iant =            3
  powecha_use(iant) =    522376.681559906     
  ps_ts2 prof sum =   522057.955545232     
  trcom prof sum =    522057.955545233     
  ps_ts2 cur sum  =   6545.52638253591     
  trcom cur sum  =    6545.52638253592     
  
  antenna # iant =            4
  powecha_use(iant) =    572275.000519038     
  ps_ts2 prof sum =   571945.512068100     
  trcom prof sum =    571945.512068100     
  ps_ts2 cur sum  =   9262.80362121148     
  trcom cur sum  =    9262.80362121147     
  
  antenna # iant =            5
  powecha_use(iant) =    556760.393207892     
  ps_ts2 prof sum =   556444.142344192     
  trcom prof sum =    556444.142344192     
  ps_ts2 cur sum  =   11077.0338727286     
  trcom cur sum  =    11077.0338727286     
  
  Total ECH heating:      2402808.14885775     
  Total Current Drive:    40101.3152677107     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2250E+00  4.2300E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.22500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2135.76398549543     
  ps_ts2 prof e sum =    2099.25289294761     
  ps_ts2 prof i sum =   1.637737124641628E-010
  trcom  prof e sum =    2099.25289293239     
  trcom  prof i sum =   1.637737124633932E-010
  ps_ts2 cur sum    =   -169.269046079315     
  trcom  cur sum    =   -169.269046079294     
  
  Total LH heating on electrons:    2099.25289293239     
  Total LH heating on ions:        1.637737124633932E-010
  Total Current Drive:             -169.269046079294     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3968
 TA= 4.22500E+00 CPU TIME= 1.59627E-01 SECONDS.  DT= 1.49864E-03
  
 TEC1=    4.22499999999993     
 TEC2=    4.22999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.0718627777778     
  %check_save_state: izleft hours =    68.9197222222222     
 --> plasma_hash("gframe"): TA= 4.225000E+00 NSTEP=  3968 Hash code:   36137495
 ->PRGCHK: bdy curvature ratio at t= 4.2300E+00 seconds is:  5.6833E-02
% MHDEQ: TG1=     4.225000 ; TG2=     4.230000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7585E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6833E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.225000 TO TG2=    4.230000 @ NSTEP     3968
   GFRAME TG2 MOMENTS CHECKSUM:  2.4569410063921D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.05462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.52243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.95081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.83871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.76795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.20166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.02066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.95959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.71797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  1.24321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.23316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.71878E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.52061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.48364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.32791E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.64507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.58013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.74794E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.91968E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.42573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.42573E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2300E+00  4.2350E+00 total power(Watts):  2.9673E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.23000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.384859E+02    0.375687E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.364624E+02    0.377202E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.379063E+02    0.360147E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.401984E+02    0.364353E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.401123E+02    0.384604E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.378463E+02    0.392220E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.358969E+02    0.404116E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.346698E+02    0.390699E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.345112E+02    0.373302E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.353176E+02    0.357298E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.370601E+02    0.345575E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.392334E+02    0.341620E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.411919E+02    0.347121E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.424820E+02    0.360229E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.428789E+02    0.376919E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.417064E+02    0.395360E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.399020E+02    0.407325E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.377120E+02    0.410738E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.357918E+02    0.433974E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.327655E+02    0.418123E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.314146E+02    0.390834E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.318829E+02    0.360395E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.340936E+02    0.334016E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.374283E+02    0.318942E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.412607E+02    0.318042E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134465E+03   -0.444844E+02    0.332721E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133300E+03   -0.464509E+02    0.358195E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133285E+03   -0.459492E+02    0.390859E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.431982E+02    0.420341E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.394959E+02    0.435563E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.393429E+02    0.291451E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.373208E+02    0.293417E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.387528E+02    0.276747E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.410584E+02    0.280136E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.409872E+02    0.299386E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136142E+03   -0.386218E+02    0.307852E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.366813E+02    0.319587E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.354389E+02    0.307436E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.351690E+02    0.291704E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.360574E+02    0.275524E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.378933E+02    0.262981E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.400668E+02    0.258619E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.420321E+02    0.263463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.433347E+02    0.275653E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.435245E+02    0.292443E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.425964E+02    0.308929E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.406954E+02    0.321330E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.386103E+02    0.324686E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.366108E+02    0.348205E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.335582E+02    0.334263E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137924E+03   -0.321762E+02    0.308770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.327103E+02    0.278657E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.348165E+02    0.253309E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.383450E+02    0.236512E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.421872E+02    0.234860E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.454258E+02    0.248190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.472974E+02    0.272198E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133657E+03   -0.467183E+02    0.303436E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134607E+03   -0.440081E+02    0.332146E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.403231E+02    0.348312E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.385588E+02    0.431676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.365337E+02    0.432609E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.378918E+02    0.415980E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.401895E+02    0.420977E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.401892E+02    0.441119E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.379103E+02    0.448100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.359463E+02    0.459389E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.347267E+02    0.445615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.343880E+02    0.429046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.354006E+02    0.411742E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.370559E+02    0.400426E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.392357E+02    0.396874E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.411935E+02    0.403153E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.425877E+02    0.416891E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134043E+03   -0.429724E+02    0.434457E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.418923E+02    0.452042E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135106E+03   -0.399549E+02    0.463803E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.378644E+02    0.466131E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.359143E+02    0.489607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.329844E+02    0.471627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.314653E+02    0.444681E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.318649E+02    0.414522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.340001E+02    0.388209E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.374455E+02    0.372732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.412867E+02    0.372711E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.447394E+02    0.387886E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133086E+03   -0.464612E+02    0.416817E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132937E+03   -0.460439E+02    0.449711E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133629E+03   -0.434833E+02    0.477688E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.396328E+02    0.492513E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.387398E+02    0.336654E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.367241E+02    0.338414E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.381578E+02    0.321520E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.404560E+02    0.325265E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.404823E+02    0.344397E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.381152E+02    0.352691E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.361734E+02    0.364406E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.348430E+02    0.352412E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.346767E+02    0.335562E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.356675E+02    0.318444E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.374075E+02    0.306689E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.394794E+02    0.303206E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.415420E+02    0.307651E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.428395E+02    0.320282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.430177E+02    0.337609E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.420848E+02    0.354450E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.402864E+02    0.366216E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.380951E+02    0.369952E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.360840E+02    0.393840E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.332348E+02    0.377563E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.317726E+02    0.351905E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.321389E+02    0.322692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.344326E+02    0.295748E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.378670E+02    0.279891E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.416031E+02    0.279290E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.448277E+02    0.293204E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133593E+03   -0.466888E+02    0.318104E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133547E+03   -0.462086E+02    0.349668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.434801E+02    0.378639E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.397884E+02    0.394654E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.394039E+02    0.233494E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.371890E+02    0.237290E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.388122E+02    0.219217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.411140E+02    0.222250E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.410507E+02    0.241010E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.386913E+02    0.249631E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.366600E+02    0.262142E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.355081E+02    0.249696E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.352335E+02    0.234417E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.361183E+02    0.218489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.380431E+02    0.205182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.402120E+02    0.200765E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.421865E+02    0.205248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.433858E+02    0.217677E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.435817E+02    0.233918E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.425537E+02    0.250817E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.407701E+02    0.262483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.385864E+02    0.266782E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.366028E+02    0.289922E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.335486E+02    0.277156E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.322437E+02    0.251600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.327659E+02    0.221883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.349597E+02    0.196155E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.384863E+02    0.179348E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.423304E+02    0.177428E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.454609E+02    0.190913E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.471018E+02    0.215177E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134190E+03   -0.465376E+02    0.245394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.439711E+02    0.273000E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.403084E+02    0.289308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    646962.988740772     
  ps_ts2 prof sum =   646604.593251007     
  trcom prof sum =    646604.593251007     
  ps_ts2 cur sum  =   9464.44702088169     
  trcom cur sum  =    9464.44702088169     
  
  antenna # iant =            2
  powecha_use(iant) =    670304.197920872     
  ps_ts2 prof sum =   669885.677434709     
  trcom prof sum =    669885.677434708     
  ps_ts2 cur sum  =   12017.7756409383     
  trcom cur sum  =    12017.7756409383     
  
  antenna # iant =            3
  powecha_use(iant) =    518725.553297354     
  ps_ts2 prof sum =   518425.177495595     
  trcom prof sum =    518425.177495595     
  ps_ts2 cur sum  =   6496.36892646047     
  trcom cur sum  =    6496.36892646047     
  
  antenna # iant =            4
  powecha_use(iant) =    574997.858356931     
  ps_ts2 prof sum =   574653.484497191     
  trcom prof sum =    574653.484497191     
  ps_ts2 cur sum  =   9308.21158606001     
  trcom cur sum  =    9308.21158606000     
  
  antenna # iant =            5
  powecha_use(iant) =    556335.131694902     
  ps_ts2 prof sum =   556005.387262535     
  trcom prof sum =    556005.387262535     
  ps_ts2 cur sum  =   11076.8700504069     
  trcom cur sum  =    11076.8700504069     
  
  Total ECH heating:      2965574.31994104     
  Total Current Drive:    48363.6732247474     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2300E+00  4.2350E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.23000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2139.28666685413     
  ps_ts2 prof e sum =    2102.90696137796     
  ps_ts2 prof i sum =   1.651089758704875E-010
  trcom  prof e sum =    2102.90696136290     
  trcom  prof i sum =   1.651089758697971E-010
  ps_ts2 cur sum    =   -169.665163153050     
  trcom  cur sum    =   -169.665163153029     
  
  Total LH heating on electrons:    2102.90696136290     
  Total LH heating on ions:        1.651089758697971E-010
  Total Current Drive:             -169.665163153029     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3971
 TA= 4.23000E+00 CPU TIME= 1.62243E-01 SECONDS.  DT= 2.03509E-03
  
 TEC1=    4.22999999999993     
 TEC2=    4.23499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    11.0920644444445     
  %check_save_state: izleft hours =    68.8994444444444     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  4.2300000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.626E+03 MB.

 --> plasma_hash("gframe"): TA= 4.230000E+00 NSTEP=  3971 Hash code:    5536369
 ->PRGCHK: bdy curvature ratio at t= 4.2350E+00 seconds is:  5.6806E-02
% MHDEQ: TG1=     4.230000 ; TG2=     4.235000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0730E-03 SECONDS
   DATA R*BT AT EDGE:  2.7595E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6806E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.230000 TO TG2=    4.235000 @ NSTEP     3971
   GFRAME TG2 MOMENTS CHECKSUM:  2.4574584974658D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2350E+00  4.2400E+00 total power(Watts):  2.9820E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.23500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.384825E+02    0.375920E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.364645E+02    0.377402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.378061E+02    0.360950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.401032E+02    0.365094E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.401141E+02    0.384820E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.377447E+02    0.392972E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.357990E+02    0.404857E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.346714E+02    0.390906E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.343218E+02    0.374683E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.353199E+02    0.357490E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.370628E+02    0.345769E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.391309E+02    0.342457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.411946E+02    0.347323E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.424843E+02    0.360435E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.426562E+02    0.378229E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.417082E+02    0.395590E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.399033E+02    0.407564E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.377134E+02    0.410973E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.357926E+02    0.434195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.327666E+02    0.418346E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.314163E+02    0.391031E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137881E+03   -0.317943E+02    0.361214E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.340972E+02    0.334201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.374314E+02    0.319136E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.412633E+02    0.318244E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.444867E+02    0.332937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133537E+03   -0.463354E+02    0.358979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.457150E+02    0.392102E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134350E+03   -0.431992E+02    0.420601E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.394966E+02    0.435789E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.81 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.392431E+02    0.292361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.372249E+02    0.294336E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.386548E+02    0.277679E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.409562E+02    0.281052E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.409907E+02    0.299575E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.386251E+02    0.308040E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.366858E+02    0.319778E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.354425E+02    0.307612E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.352678E+02    0.291134E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.361576E+02    0.274936E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.378962E+02    0.263177E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.400700E+02    0.258834E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.420364E+02    0.263667E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.433388E+02    0.275852E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.435283E+02    0.292635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.425992E+02    0.309129E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.406978E+02    0.321533E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.385096E+02    0.325561E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.366130E+02    0.348402E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.335605E+02    0.334449E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.321781E+02    0.308955E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.326242E+02    0.279614E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.348207E+02    0.253504E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.383451E+02    0.236740E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.421916E+02    0.235067E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.455428E+02    0.247654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.470690E+02    0.273805E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.467196E+02    0.303651E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.440107E+02    0.332356E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.403258E+02    0.348512E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.385549E+02    0.431927E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.364338E+02    0.433274E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.378928E+02    0.416222E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.401904E+02    0.421224E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.401899E+02    0.441346E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.378069E+02    0.448708E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.359469E+02    0.459579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.347274E+02    0.445815E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.344856E+02    0.428811E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.354021E+02    0.411967E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.370578E+02    0.400641E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.392367E+02    0.397104E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.411951E+02    0.403379E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.425888E+02    0.417139E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.427466E+02    0.435518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.417823E+02    0.452618E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.399652E+02    0.463973E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.378647E+02    0.466324E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.358179E+02    0.490094E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.327974E+02    0.472508E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.314660E+02    0.444877E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.318661E+02    0.414743E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.340970E+02    0.387850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.374477E+02    0.372928E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.412883E+02    0.372923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.447412E+02    0.388117E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133117E+03   -0.464588E+02    0.417101E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132962E+03   -0.460446E+02    0.449938E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.434833E+02    0.477904E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.396325E+02    0.492732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.387426E+02    0.336851E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.367269E+02    0.338619E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.381611E+02    0.321711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.404584E+02    0.325470E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.404850E+02    0.344598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.381177E+02    0.352888E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.361757E+02    0.364600E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.349409E+02    0.351968E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.347751E+02    0.335077E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.356707E+02    0.318633E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.374112E+02    0.306871E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.394798E+02    0.303414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135404E+03   -0.415454E+02    0.307843E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.428420E+02    0.320481E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.430310E+02    0.337764E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.420873E+02    0.354658E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.401762E+02    0.367026E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.380973E+02    0.370152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136404E+03   -0.360856E+02    0.394048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137511E+03   -0.330501E+02    0.378941E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.316845E+02    0.352739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.321420E+02    0.322869E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.344359E+02    0.295926E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.377706E+02    0.280824E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.416037E+02    0.279495E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.448315E+02    0.293399E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133617E+03   -0.466923E+02    0.318314E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133571E+03   -0.462115E+02    0.349884E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.434822E+02    0.378859E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.397902E+02    0.394878E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136324E+03   -0.393073E+02    0.234496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.372900E+02    0.236674E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.388132E+02    0.219424E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.411184E+02    0.222443E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.409505E+02    0.242005E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.385946E+02    0.250624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.366638E+02    0.262343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.355118E+02    0.249899E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.353304E+02    0.233780E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.361224E+02    0.218675E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.378543E+02    0.207046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.401258E+02    0.201706E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.420870E+02    0.206243E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.433904E+02    0.217868E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.435861E+02    0.234128E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.425574E+02    0.251036E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.407744E+02    0.262690E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.385903E+02    0.266976E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.366063E+02    0.290104E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.335519E+02    0.277328E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.322474E+02    0.251796E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.327698E+02    0.222060E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.350543E+02    0.195439E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.384916E+02    0.179520E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.422327E+02    0.178457E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.454661E+02    0.191090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133922E+03   -0.472202E+02    0.214594E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134004E+03   -0.466562E+02    0.244866E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.439753E+02    0.273204E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.403121E+02    0.289495E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656430.270981941     
  ps_ts2 prof sum =   656022.654303866     
  trcom prof sum =    656022.654303866     
  ps_ts2 cur sum  =   9602.37264052055     
  trcom cur sum  =    9602.37264052054     
  
  antenna # iant =            2
  powecha_use(iant) =    673427.959664520     
  ps_ts2 prof sum =   673031.310082116     
  trcom prof sum =    673031.310082115     
  ps_ts2 cur sum  =   12078.5072332656     
  trcom cur sum  =    12078.5072332656     
  
  antenna # iant =            3
  powecha_use(iant) =    519946.235750072     
  ps_ts2 prof sum =   519647.507163620     
  trcom prof sum =    519647.507163620     
  ps_ts2 cur sum  =   6509.03254663723     
  trcom cur sum  =    6509.03254663723     
  
  antenna # iant =            4
  powecha_use(iant) =    576085.282427978     
  ps_ts2 prof sum =   575757.683063603     
  trcom prof sum =    575757.683063602     
  ps_ts2 cur sum  =   9327.52628775239     
  trcom cur sum  =    9327.52628775238     
  
  antenna # iant =            5
  powecha_use(iant) =    556098.912293742     
  ps_ts2 prof sum =   555803.279489240     
  trcom prof sum =    555803.279489240     
  ps_ts2 cur sum  =   11077.2922302571     
  trcom cur sum  =    11077.2922302571     
  
  Total ECH heating:      2980262.43410244     
  Total Current Drive:    48594.7309384328     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2350E+00  4.2400E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.23500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2135.76398237828     
  ps_ts2 prof e sum =    2098.76159533156     
  ps_ts2 prof i sum =   1.587894597607447E-010
  trcom  prof e sum =    2098.76159531668     
  trcom  prof i sum =   1.587894597601397E-010
  ps_ts2 cur sum    =   -169.340759443616     
  trcom  cur sum    =   -169.340759443597     
  
  Total LH heating on electrons:    2098.76159531668     
  Total LH heating on ions:        1.587894597601397E-010
  Total Current Drive:             -169.340759443597     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3974
 TA= 4.23500E+00 CPU TIME= 1.59876E-01 SECONDS.  DT= 5.26312E-04
  
 TEC1=    4.23499999999993     
 TEC2=    4.23999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.1087002777774     
  %check_save_state: izleft hours =    68.8827777777778     
 --> plasma_hash("gframe"): TA= 4.235000E+00 NSTEP=  3974 Hash code:  106472010
 ->PRGCHK: bdy curvature ratio at t= 4.2400E+00 seconds is:  5.6785E-02
% MHDEQ: TG1=     4.235000 ; TG2=     4.240000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1190E-03 SECONDS
   DATA R*BT AT EDGE:  2.7605E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6785E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.235000 TO TG2=    4.240000 @ NSTEP     3974
   GFRAME TG2 MOMENTS CHECKSUM:  2.4579759885396D+04
 %MFRCHK - LABEL "RMS11", #       1= -4.92216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.42171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.93330E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.66124E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.80314E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.30435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.84764E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.11130E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.59244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -2.70467E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.70710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.21191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.57537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.26948E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.05132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.58705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.96297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.33887E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.82177E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.05916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.05916E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2400E+00  4.2450E+00 total power(Watts):  2.5250E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.24000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.383838E+02    0.376747E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.363695E+02    0.378229E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.378121E+02    0.361196E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.401049E+02    0.365377E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.401192E+02    0.385085E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.377498E+02    0.393228E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.358013E+02    0.405109E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.344828E+02    0.392254E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.343272E+02    0.374925E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.353255E+02    0.357738E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.370688E+02    0.346020E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.391375E+02    0.342707E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.410922E+02    0.348206E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.424905E+02    0.360705E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.426619E+02    0.378501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135051E+03   -0.417133E+02    0.395860E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.399080E+02    0.407826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.377176E+02    0.411231E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.357966E+02    0.434427E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.327709E+02    0.418581E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.314209E+02    0.391265E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.318007E+02    0.361444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.339140E+02    0.335803E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.374382E+02    0.319392E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.411631E+02    0.319183E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.446088E+02    0.332594E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133561E+03   -0.463419E+02    0.359268E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133548E+03   -0.458384E+02    0.391890E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134156E+03   -0.433178E+02    0.420434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.395007E+02    0.436035E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.392509E+02    0.292610E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.372323E+02    0.294577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.386630E+02    0.277918E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.409641E+02    0.281299E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.408916E+02    0.300537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.386323E+02    0.308301E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.365920E+02    0.320725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.354489E+02    0.307869E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.352752E+02    0.291369E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.361661E+02    0.275158E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.379043E+02    0.263416E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.400793E+02    0.259071E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.420455E+02    0.263906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.433474E+02    0.276090E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.435365E+02    0.292896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.424971E+02    0.310077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.407057E+02    0.321802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.385168E+02    0.325820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.365193E+02    0.349288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.336594E+02    0.334019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.321857E+02    0.309184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.326315E+02    0.279833E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.348287E+02    0.253737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.383579E+02    0.236950E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.420949E+02    0.236099E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.453273E+02    0.249411E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133788E+03   -0.471949E+02    0.273357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133705E+03   -0.467304E+02    0.303933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.441351E+02    0.331990E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.402249E+02    0.349394E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.384637E+02    0.432568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.364377E+02    0.433508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.378973E+02    0.416480E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.401948E+02    0.421489E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.401939E+02    0.441580E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.378108E+02    0.448920E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.358502E+02    0.460158E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.345366E+02    0.446850E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.344895E+02    0.429046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.352097E+02    0.413211E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.370622E+02    0.400898E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.391361E+02    0.397880E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.411999E+02    0.403648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.424806E+02    0.417872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134530E+03   -0.427508E+02    0.435767E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.417849E+02    0.452850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.399637E+02    0.464209E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.377637E+02    0.466894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.358169E+02    0.490328E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.328004E+02    0.472708E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.314694E+02    0.445078E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.318706E+02    0.414972E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.341019E+02    0.388098E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.374529E+02    0.373184E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.411846E+02    0.373750E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133852E+03   -0.447467E+02    0.388403E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133142E+03   -0.464637E+02    0.417392E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132988E+03   -0.460487E+02    0.450187E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134121E+03   -0.432576E+02    0.478727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.395277E+02    0.493231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.387488E+02    0.337121E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.367340E+02    0.338860E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.381677E+02    0.321976E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.404659E+02    0.325736E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.403841E+02    0.345491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.381239E+02    0.353143E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.359829E+02    0.366057E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.349472E+02    0.352205E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.347808E+02    0.335331E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.356774E+02    0.318886E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.373178E+02    0.307841E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.394871E+02    0.303668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.414453E+02    0.308795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.427388E+02    0.321413E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.430319E+02    0.338071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.419830E+02    0.355523E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.401918E+02    0.367240E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.379994E+02    0.370993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.360905E+02    0.394296E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.330554E+02    0.379176E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.316909E+02    0.352970E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.321480E+02    0.323120E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137626E+03   -0.342557E+02    0.297651E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.377786E+02    0.281059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.415045E+02    0.280472E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134400E+03   -0.449537E+02    0.292975E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.467001E+02    0.318613E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133595E+03   -0.462182E+02    0.350169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.434879E+02    0.379134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.397951E+02    0.395143E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.393164E+02    0.234733E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.372988E+02    0.236908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.387234E+02    0.220469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.410245E+02    0.223483E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.409593E+02    0.242255E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.386028E+02    0.250876E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.366729E+02    0.262566E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.353320E+02    0.251750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.353389E+02    0.234007E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.362251E+02    0.218034E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.379601E+02    0.206409E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.401314E+02    0.201947E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.420970E+02    0.206460E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.434004E+02    0.218098E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.434870E+02    0.235149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.425670E+02    0.251279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.406784E+02    0.263682E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.384978E+02    0.267983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.365160E+02    0.291084E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.335593E+02    0.277550E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.322552E+02    0.252021E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.326907E+02    0.223137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.348827E+02    0.197401E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.385013E+02    0.179745E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.422431E+02    0.178688E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134771E+03   -0.454769E+02    0.191323E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133949E+03   -0.472304E+02    0.214840E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.466662E+02    0.245132E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.438728E+02    0.274176E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.402147E+02    0.290472E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    202264.487260381     
  ps_ts2 prof sum =   202142.516000133     
  trcom prof sum =    202142.516000133     
  ps_ts2 cur sum  =   2962.51901657009     
  trcom cur sum  =    2962.51901657009     
  
  antenna # iant =            2
  powecha_use(iant) =    672498.893185667     
  ps_ts2 prof sum =   672133.602499853     
  trcom prof sum =    672133.602499853     
  ps_ts2 cur sum  =   12076.9641230107     
  trcom cur sum  =    12076.9641230107     
  
  antenna # iant =            3
  powecha_use(iant) =    521491.425284053     
  ps_ts2 prof sum =   521161.000052166     
  trcom prof sum =    521161.000052166     
  ps_ts2 cur sum  =   6535.94098751323     
  trcom cur sum  =    6535.94098751324     
  
  antenna # iant =            4
  powecha_use(iant) =    571480.583797261     
  ps_ts2 prof sum =   571139.525482729     
  trcom prof sum =    571139.525482728     
  ps_ts2 cur sum  =   9265.17726176159     
  trcom cur sum  =    9265.17726176158     
  
  antenna # iant =            5
  powecha_use(iant) =    557230.477004055     
  ps_ts2 prof sum =   556924.043773354     
  trcom prof sum =    556924.043773354     
  ps_ts2 cur sum  =   11114.9050823662     
  trcom cur sum  =    11114.9050823662     
  
  Total ECH heating:      2523500.68780823     
  Total Current Drive:    41955.5064712218     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2400E+00  4.2450E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.24000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    26288.8015775855     
  ps_ts2 prof e sum =    25829.7194807873     
  ps_ts2 prof i sum =   2.007364676342314E-009
  trcom  prof e sum =    25829.7194806007     
  trcom  prof i sum =   2.007364676295761E-009
  ps_ts2 cur sum    =   -2085.06909925929     
  trcom  cur sum    =   -2085.06909925904     
  
  Total LH heating on electrons:    25829.7194806007     
  Total LH heating on ions:        2.007364676295761E-009
  Total Current Drive:             -2085.06909925904     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3980
 TA= 4.24000E+00 CPU TIME= 1.66386E-01 SECONDS.  DT= 8.50676E-04
  
 TEC1=    4.23999999999993     
 TEC2=    4.24499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.1252261111106     
  %check_save_state: izleft hours =    68.8663888888889     
 --> plasma_hash("gframe"): TA= 4.240000E+00 NSTEP=  3980 Hash code:   28363501
 ->PRGCHK: bdy curvature ratio at t= 4.2450E+00 seconds is:  5.6768E-02
% MHDEQ: TG1=     4.240000 ; TG2=     4.245000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3060E-03 SECONDS
   DATA R*BT AT EDGE:  2.7615E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6768E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.240000 TO TG2=    4.245000 @ NSTEP     3980
   GFRAME TG2 MOMENTS CHECKSUM:  2.4584934796133D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2450E+00  4.2500E+00 total power(Watts):  2.3219E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.24500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.392579E+02    0.292865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.372393E+02    0.294829E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.386703E+02    0.278168E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.409722E+02    0.281549E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.408980E+02    0.300808E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.385365E+02    0.309257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.365982E+02    0.320984E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.352630E+02    0.309551E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.350914E+02    0.293101E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.361712E+02    0.275416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.379125E+02    0.263663E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.399842E+02    0.260093E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.419459E+02    0.264925E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.432453E+02    0.277080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.434330E+02    0.293860E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.425043E+02    0.310348E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.407123E+02    0.322069E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.385225E+02    0.326082E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.365250E+02    0.349538E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.336652E+02    0.334264E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.321912E+02    0.309424E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.326384E+02    0.280065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.349295E+02    0.253177E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.383665E+02    0.237195E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.421031E+02    0.236354E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.453361E+02    0.249687E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133812E+03   -0.472039E+02    0.273639E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.466211E+02    0.304880E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.439114E+02    0.333545E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.402308E+02    0.349658E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.384623E+02    0.432841E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.364412E+02    0.433752E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.379012E+02    0.416738E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.401987E+02    0.421759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.400889E+02    0.442228E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.378140E+02    0.449148E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.358533E+02    0.460370E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.346369E+02    0.446665E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.344930E+02    0.429288E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.353120E+02    0.412962E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.370665E+02    0.401147E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.391406E+02    0.398134E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.412044E+02    0.403909E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.424847E+02    0.418150E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.427545E+02    0.436029E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.417882E+02    0.453089E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.399665E+02    0.464434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.377669E+02    0.467102E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.358191E+02    0.490554E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.327979E+02    0.472928E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.313822E+02    0.445718E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.317833E+02    0.415713E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.339159E+02    0.389453E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.374581E+02    0.373430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.411898E+02    0.374012E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.445205E+02    0.389697E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133167E+03   -0.464681E+02    0.417685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133231E+03   -0.459333E+02    0.450809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.432602E+02    0.478967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.395299E+02    0.493472E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.387552E+02    0.337374E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.367391E+02    0.339116E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.381745E+02    0.322238E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.404725E+02    0.326003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.403902E+02    0.345755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.380266E+02    0.354016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.360872E+02    0.365699E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.349525E+02    0.352455E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.345956E+02    0.336917E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.354897E+02    0.320531E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.373245E+02    0.308095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.394942E+02    0.303927E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.414524E+02    0.309058E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.427458E+02    0.321688E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.429263E+02    0.338970E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.419889E+02    0.355783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.401923E+02    0.367524E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.380046E+02    0.371238E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.360950E+02    0.394545E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.330600E+02    0.379411E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.316961E+02    0.353206E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.321539E+02    0.323355E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.342622E+02    0.297894E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.377857E+02    0.281306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.415126E+02    0.280726E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.447347E+02    0.294626E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.465899E+02    0.319541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.461071E+02    0.351037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.436073E+02    0.378867E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.397998E+02    0.395399E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.393196E+02    0.235018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.373070E+02    0.237150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.387325E+02    0.220689E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.410337E+02    0.223715E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.409677E+02    0.242510E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.386110E+02    0.251128E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.364849E+02    0.264391E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.354339E+02    0.251190E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.351612E+02    0.235898E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.362339E+02    0.218249E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.379695E+02    0.206614E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.401414E+02    0.202152E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.421069E+02    0.206672E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.433027E+02    0.219124E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.434962E+02    0.235406E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.424681E+02    0.252306E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.406860E+02    0.263941E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.385049E+02    0.268228E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.365228E+02    0.291327E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.335662E+02    0.277783E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.322626E+02    0.252260E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138161E+03   -0.326990E+02    0.223337E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.348916E+02    0.197601E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.384149E+02    0.180830E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.422520E+02    0.178925E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.453785E+02    0.192352E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.470143E+02    0.216625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.464466E+02    0.246904E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.438812E+02    0.274447E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.402222E+02    0.290721E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    671912.761916850     
  ps_ts2 prof sum =   671523.349914836     
  trcom prof sum =    671523.349914835     
  ps_ts2 cur sum  =   12079.5798703090     
  trcom cur sum  =    12079.5798703090     
  
  antenna # iant =            3
  powecha_use(iant) =    519211.572099248     
  ps_ts2 prof sum =   518883.044090235     
  trcom prof sum =    518883.044090236     
  ps_ts2 cur sum  =   6516.57585227130     
  trcom cur sum  =    6516.57585227131     
  
  antenna # iant =            4
  powecha_use(iant) =    574438.772928177     
  ps_ts2 prof sum =   574096.430748217     
  trcom prof sum =    574096.430748216     
  ps_ts2 cur sum  =   9324.39057709671     
  trcom cur sum  =    9324.39057709670     
  
  antenna # iant =            5
  powecha_use(iant) =    556371.439669929     
  ps_ts2 prof sum =   556050.287963628     
  trcom prof sum =    556050.287963628     
  ps_ts2 cur sum  =   11110.8662405251     
  trcom cur sum  =    11110.8662405251     
  
  Total ECH heating:      2320553.11271692     
  Total Current Drive:    39031.4125402021     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2450E+00  4.2500E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.24500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2124.76473941416     
  ps_ts2 prof e sum =    2087.17168530228     
  ps_ts2 prof i sum =   1.625610367197749E-010
  trcom  prof e sum =    2087.17168529157     
  trcom  prof i sum =   1.625610367169158E-010
  ps_ts2 cur sum    =   -168.534774482175     
  trcom  cur sum    =   -168.534774481105     
  
  Total LH heating on electrons:    2087.17168529157     
  Total LH heating on ions:        1.625610367169158E-010
  Total Current Drive:             -168.534774481105     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3985
 TA= 4.24500E+00 CPU TIME= 1.59253E-01 SECONDS.  DT= 1.19152E-04
  
 TEC1=    4.24499999999993     
 TEC2=    4.24999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.1416752777777     
  %check_save_state: izleft hours =    68.8500000000000     
 --> plasma_hash("gframe"): TA= 4.245000E+00 NSTEP=  3985 Hash code:   57879595
 ->PRGCHK: bdy curvature ratio at t= 4.2500E+00 seconds is:  5.6758E-02
% MHDEQ: TG1=     4.245000 ; TG2=     4.250000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1930E-03 SECONDS
   DATA R*BT AT EDGE:  2.7625E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6758E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.245000 TO TG2=    4.250000 @ NSTEP     3985
   GFRAME TG2 MOMENTS CHECKSUM:  2.4590109706870D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.78880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.34418E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.83833E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.40705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.67462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.26302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.46690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.65255E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.18103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.70503E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.63014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       8=  1.76009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.77474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.75891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.34581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.92980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.72385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.95822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.95822E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2500E+00  4.2550E+00 total power(Watts):  2.9186E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.25000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.383923E+02    0.377223E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.363778E+02    0.378696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.378213E+02    0.361686E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.401147E+02    0.365872E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.400204E+02    0.386115E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.377623E+02    0.393698E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.358107E+02    0.405573E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.345874E+02    0.392158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.344310E+02    0.374795E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.351404E+02    0.359454E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.369780E+02    0.347153E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.391480E+02    0.343231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.411023E+02    0.348723E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.423889E+02    0.361803E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134947E+03   -0.426709E+02    0.379012E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.416103E+02    0.396877E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.398077E+02    0.408814E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.377245E+02    0.411723E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.357028E+02    0.435331E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.328701E+02    0.418558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.313385E+02    0.392270E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.318093E+02    0.361895E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.339232E+02    0.336290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.373489E+02    0.320583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.411749E+02    0.319699E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134773E+03   -0.443914E+02    0.334389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133610E+03   -0.463526E+02    0.359812E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133598E+03   -0.458473E+02    0.392419E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.430965E+02    0.421858E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.393995E+02    0.436942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.392633E+02    0.293098E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.372446E+02    0.295054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.386764E+02    0.278379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.409780E+02    0.281773E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.409035E+02    0.301043E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.385400E+02    0.309499E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.366033E+02    0.321226E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.352680E+02    0.309779E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.350964E+02    0.293320E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.359862E+02    0.277139E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.378188E+02    0.264639E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.399899E+02    0.260303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.419520E+02    0.265135E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.432527E+02    0.277299E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.434388E+02    0.294103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.425096E+02    0.310598E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.406101E+02    0.322987E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.385279E+02    0.326328E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.365290E+02    0.349776E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.334821E+02    0.335859E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.321962E+02    0.309647E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.326433E+02    0.280264E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.347491E+02    0.254984E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.382737E+02    0.238198E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.421099E+02    0.236555E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.453472E+02    0.249871E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133837E+03   -0.472106E+02    0.273871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.466268E+02    0.305130E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.439161E+02    0.333805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.402348E+02    0.349903E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.384647E+02    0.433074E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.364435E+02    0.433983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.378002E+02    0.417453E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.400929E+02    0.422456E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.400911E+02    0.442463E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.378162E+02    0.449364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.358552E+02    0.460561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.346388E+02    0.446875E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.343020E+02    0.430429E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.353164E+02    0.413188E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.370671E+02    0.401384E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.391437E+02    0.398366E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.412075E+02    0.404151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.424875E+02    0.418405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.427569E+02    0.436280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.417904E+02    0.453309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135195E+03   -0.399685E+02    0.464634E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.377687E+02    0.467296E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.358206E+02    0.490762E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.329020E+02    0.472742E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.313842E+02    0.445922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.317858E+02    0.415935E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.339187E+02    0.389675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.374617E+02    0.373662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.411938E+02    0.374250E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.446395E+02    0.389439E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133191E+03   -0.464710E+02    0.417957E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133257E+03   -0.459356E+02    0.451047E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134174E+03   -0.432620E+02    0.479179E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.395313E+02    0.493692E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.387584E+02    0.337633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.367429E+02    0.339358E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.380768E+02    0.323163E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.403704E+02    0.326912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.403945E+02    0.346001E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.380305E+02    0.354253E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.360910E+02    0.365926E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.347637E+02    0.353953E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.345984E+02    0.337161E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.355915E+02    0.320071E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.373294E+02    0.308328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.394983E+02    0.304172E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.414576E+02    0.309308E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.427508E+02    0.321951E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.429303E+02    0.339238E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.419933E+02    0.356037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.401962E+02    0.367763E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.380083E+02    0.371473E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.359986E+02    0.395303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.330634E+02    0.379627E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.316998E+02    0.353428E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.321583E+02    0.323586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.342704E+02    0.298083E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.377915E+02    0.281513E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.415184E+02    0.280951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.447405E+02    0.294866E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133900E+03   -0.465953E+02    0.319806E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.461115E+02    0.351301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.433832E+02    0.380187E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.398031E+02    0.395637E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.393354E+02    0.235149E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.371193E+02    0.238969E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.387392E+02    0.220893E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.410406E+02    0.223917E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.409743E+02    0.242709E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.386173E+02    0.251321E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.365878E+02    0.263806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.354396E+02    0.251384E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137678E+03   -0.351675E+02    0.236088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.360519E+02    0.220139E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.379762E+02    0.206820E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.401483E+02    0.202367E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.421138E+02    0.206888E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.433100E+02    0.219334E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.435034E+02    0.235606E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.424742E+02    0.252521E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.406923E+02    0.264152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.385107E+02    0.268439E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.365282E+02    0.291548E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.336628E+02    0.277206E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.321803E+02    0.253273E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.327051E+02    0.223530E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.348981E+02    0.197805E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.384220E+02    0.181046E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.422610E+02    0.179132E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.453863E+02    0.192578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.470220E+02    0.216842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.464538E+02    0.247116E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.438875E+02    0.274661E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.402276E+02    0.290949E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    595003.287990984     
  ps_ts2 prof sum =   594654.632195888     
  trcom prof sum =    594654.632195888     
  ps_ts2 cur sum  =   8728.80015238294     
  trcom cur sum  =    8728.80015238294     
  
  antenna # iant =            2
  powecha_use(iant) =    670015.878940122     
  ps_ts2 prof sum =   669589.828987131     
  trcom prof sum =    669589.828944752     
  ps_ts2 cur sum  =   12050.8270808945     
  trcom cur sum  =    12050.8270808945     
  
  antenna # iant =            3
  powecha_use(iant) =    519762.474814772     
  ps_ts2 prof sum =   519452.911399253     
  trcom prof sum =    519452.911399253     
  ps_ts2 cur sum  =   6526.97617252482     
  trcom cur sum  =    6526.97617252483     
  
  antenna # iant =            4
  powecha_use(iant) =    578860.112568068     
  ps_ts2 prof sum =   578513.692784513     
  trcom prof sum =    578513.692784513     
  ps_ts2 cur sum  =   9399.54148635207     
  trcom cur sum  =    9399.54148635206     
  
  antenna # iant =            5
  powecha_use(iant) =    554918.956435438     
  ps_ts2 prof sum =   554601.850971670     
  trcom prof sum =    554601.850971670     
  ps_ts2 cur sum  =   11089.2428479851     
  trcom cur sum  =    11089.2428479851     
  
  Total ECH heating:      2916812.91629608     
  Total Current Drive:    47795.3877401394     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2500E+00  4.2550E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.25000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2129.16232357412     
  ps_ts2 prof e sum =    2091.24203645274     
  ps_ts2 prof i sum =   1.742719717116957E-010
  trcom  prof e sum =    2091.24203643794     
  trcom  prof i sum =   1.742719717090746E-010
  ps_ts2 cur sum    =   -168.859855399058     
  trcom  cur sum    =   -168.859855399039     
  
  Total LH heating on electrons:    2091.24203643794     
  Total LH heating on ions:        1.742719717090746E-010
  Total Current Drive:             -168.859855399039     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   3996
 TA= 4.25000E+00 CPU TIME= 1.59897E-01 SECONDS.  DT= 1.29731E-03
  
 TEC1=    4.24999999999993     
 TEC2=    4.25499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.1608394444445     
  %check_save_state: izleft hours =    68.8308333333333     
 --> plasma_hash("gframe"): TA= 4.250000E+00 NSTEP=  3996 Hash code:   42650337
 ->PRGCHK: bdy curvature ratio at t= 4.2550E+00 seconds is:  5.6754E-02
% MHDEQ: TG1=     4.250000 ; TG2=     4.255000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7635E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6754E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.250000 TO TG2=    4.255000 @ NSTEP     3996
   GFRAME TG2 MOMENTS CHECKSUM:  2.4595284617608D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2550E+00  4.2600E+00 total power(Watts):  2.9893E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.25500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.383951E+02    0.377443E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.363806E+02    0.378912E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.378244E+02    0.361904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.401177E+02    0.366094E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.400229E+02    0.386337E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.377602E+02    0.393927E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.358128E+02    0.405797E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.345898E+02    0.392372E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.344340E+02    0.374999E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.351430E+02    0.359662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.369806E+02    0.347383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.390462E+02    0.344088E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.411059E+02    0.348953E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.423920E+02    0.362030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135188E+03   -0.425612E+02    0.379781E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.416127E+02    0.397103E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.398099E+02    0.409041E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.377268E+02    0.411949E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.357044E+02    0.435558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.326857E+02    0.419757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.313415E+02    0.392470E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.318123E+02    0.362100E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.339266E+02    0.336508E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.373526E+02    0.320813E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.411788E+02    0.319939E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.443951E+02    0.334636E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.462378E+02    0.360611E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.458497E+02    0.392666E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.430985E+02    0.422106E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.394011E+02    0.437178E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.392677E+02    0.293311E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.372488E+02    0.295266E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.386809E+02    0.278573E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.409828E+02    0.281979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.409077E+02    0.301274E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.385440E+02    0.309728E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.366066E+02    0.321459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.353683E+02    0.309280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137567E+03   -0.351033E+02    0.293508E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.359907E+02    0.277331E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.378207E+02    0.264847E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.399951E+02    0.260486E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.419573E+02    0.265324E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.432565E+02    0.277512E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.434433E+02    0.294323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.425136E+02    0.310838E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.406137E+02    0.323228E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.385315E+02    0.326560E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.365355E+02    0.349983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.334855E+02    0.336078E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.321104E+02    0.310593E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.326479E+02    0.280457E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.347542E+02    0.255160E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.382793E+02    0.238400E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.421158E+02    0.236764E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.453488E+02    0.250098E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.472158E+02    0.274090E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133988E+03   -0.466312E+02    0.305385E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.439198E+02    0.334056E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.402382E+02    0.350126E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.384664E+02    0.433314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.364450E+02    0.434209E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.378024E+02    0.417683E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.400948E+02    0.422700E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.400926E+02    0.442692E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.378176E+02    0.449577E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.358566E+02    0.460746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.346404E+02    0.447082E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.343036E+02    0.430648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.353165E+02    0.413419E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.369700E+02    0.402110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.391459E+02    0.398587E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135446E+03   -0.410997E+02    0.404874E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.424893E+02    0.418657E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.428720E+02    0.436126E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.417918E+02    0.453528E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.398617E+02    0.465157E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.377700E+02    0.467477E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.358216E+02    0.490959E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.328998E+02    0.472916E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.313857E+02    0.446122E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.317877E+02    0.416152E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.339213E+02    0.389878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.373624E+02    0.374452E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.411969E+02    0.374468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.446421E+02    0.389674E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.463535E+02    0.418648E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133282E+03   -0.459372E+02    0.451279E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.433777E+02    0.479084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.395321E+02    0.493898E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.386586E+02    0.338502E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.366464E+02    0.340240E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.380806E+02    0.323390E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.403742E+02    0.327150E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.403977E+02    0.346234E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136413E+03   -0.380336E+02    0.354474E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.360939E+02    0.366136E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.347668E+02    0.354163E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.346028E+02    0.337376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.355935E+02    0.320301E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.373334E+02    0.308554E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.393980E+02    0.305103E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.414613E+02    0.309548E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.427550E+02    0.322194E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.429346E+02    0.339471E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.419965E+02    0.356265E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.401992E+02    0.367987E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.380112E+02    0.371688E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.360011E+02    0.395521E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.331589E+02    0.379247E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.317027E+02    0.353637E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.320730E+02    0.324500E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.343650E+02    0.297575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.377958E+02    0.281718E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.415232E+02    0.281156E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.447448E+02    0.295094E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.465951E+02    0.320079E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.461151E+02    0.351542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.433859E+02    0.380418E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.396983E+02    0.396374E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.393373E+02    0.235381E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.371246E+02    0.239168E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.387457E+02    0.221125E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.410466E+02    0.224146E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.408755E+02    0.243690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.386258E+02    0.251495E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.365929E+02    0.263983E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.354451E+02    0.251558E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.351729E+02    0.236287E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.360576E+02    0.220370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.379823E+02    0.207071E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.400536E+02    0.203469E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.421200E+02    0.207151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.433162E+02    0.219578E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.435093E+02    0.235825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.424799E+02    0.252712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.406974E+02    0.264341E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.385156E+02    0.268624E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.365323E+02    0.291756E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138065E+03   -0.334845E+02    0.278949E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138338E+03   -0.321855E+02    0.253447E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138200E+03   -0.327115E+02    0.223743E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137798E+03   -0.349036E+02    0.198062E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.384282E+02    0.181302E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.422675E+02    0.179401E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.453930E+02    0.192859E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.470284E+02    0.217099E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.464597E+02    0.247319E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.438918E+02    0.274874E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.402320E+02    0.291167E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670659.272172890     
  ps_ts2 prof sum =   670255.968349643     
  trcom prof sum =    670255.968349644     
  ps_ts2 cur sum  =   9840.03691298627     
  trcom cur sum  =    9840.03691298626     
  
  antenna # iant =            2
  powecha_use(iant) =    669475.151346360     
  ps_ts2 prof sum =   669070.289225425     
  trcom prof sum =    669070.289225425     
  ps_ts2 cur sum  =   12040.7875427666     
  trcom cur sum  =    12040.7875427666     
  
  antenna # iant =            3
  powecha_use(iant) =    520517.352683550     
  ps_ts2 prof sum =   520217.581643560     
  trcom prof sum =    520217.581643561     
  ps_ts2 cur sum  =   6538.77722086213     
  trcom cur sum  =    6538.77722086214     
  
  antenna # iant =            4
  powecha_use(iant) =    573945.779555168     
  ps_ts2 prof sum =   573611.595164176     
  trcom prof sum =    573611.595164175     
  ps_ts2 cur sum  =   9319.94695190539     
  trcom cur sum  =    9319.94695190538     
  
  antenna # iant =            5
  powecha_use(iant) =    554746.290511485     
  ps_ts2 prof sum =   554419.315472187     
  trcom prof sum =    554419.315472187     
  ps_ts2 cur sum  =   11085.8729824919     
  trcom cur sum  =    11085.8729824919     
  
  Total ECH heating:      2987574.74985499     
  Total Current Drive:    48825.4216110123     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2550E+00  4.2600E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.25500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2118.15787448556     
  ps_ts2 prof e sum =    2079.74186057788     
  ps_ts2 prof i sum =   1.852290726903245E-010
  trcom  prof e sum =    2079.74186057754     
  trcom  prof i sum =   1.852290726881421E-010
  ps_ts2 cur sum    =   -167.918363194778     
  trcom  cur sum    =   -167.918363194742     
  
  Total LH heating on electrons:    2079.74186057754     
  Total LH heating on ions:        1.852290726881421E-010
  Total Current Drive:             -167.918363194742     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4000
 TA= 4.25500E+00 CPU TIME= 1.71122E-01 SECONDS.  DT= 6.75105E-05
  
 TEC1=    4.25499999999993     
 TEC2=    4.25999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.1814866666666     
  %check_save_state: izleft hours =    68.8100000000000     
 --> plasma_hash("gframe"): TA= 4.255000E+00 NSTEP=  4000 Hash code:  119983550
 ->PRGCHK: bdy curvature ratio at t= 4.2600E+00 seconds is:  5.6745E-02
% MHDEQ: TG1=     4.255000 ; TG2=     4.260000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3680E-03 SECONDS
   DATA R*BT AT EDGE:  2.7647E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6745E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.255000 TO TG2=    4.260000 @ NSTEP     4000
   GFRAME TG2 MOMENTS CHECKSUM:  2.4591061742021D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.89612E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.31767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.86033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.38481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.74212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.24681E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.20487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5= -6.19667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.15629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.66872E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.72946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       7= -1.89868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.97269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.88271E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #      10=  5.38675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -2.26951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.58946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.73323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.73323E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.2600E+00  4.2650E+00 total power(Watts):  2.6451E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.26000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.383164E+02    0.378131E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.364050E+02    0.379026E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.377470E+02    0.362594E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.400370E+02    0.366784E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.400496E+02    0.386473E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.376774E+02    0.394604E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.357376E+02    0.406418E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.344199E+02    0.393581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.342651E+02    0.376273E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.352642E+02    0.359119E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.370063E+02    0.347436E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.390725E+02    0.344147E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.410242E+02    0.349646E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.424201E+02    0.362143E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.425894E+02    0.379921E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.416400E+02    0.397250E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.398366E+02    0.409169E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.376486E+02    0.412555E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.357282E+02    0.435675E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.327076E+02    0.419845E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.313624E+02    0.392565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.317442E+02    0.362790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.340443E+02    0.335863E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.373780E+02    0.320834E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.410982E+02    0.320641E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.445364E+02    0.334092E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133802E+03   -0.462678E+02    0.360743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.457613E+02    0.393331E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.432409E+02    0.421804E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.394271E+02    0.437318E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.391906E+02    0.294039E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.371741E+02    0.295996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.386049E+02    0.279330E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.409037E+02    0.282723E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.408303E+02    0.301977E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.385701E+02    0.309744E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.365327E+02    0.322161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.353924E+02    0.309283E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.352201E+02    0.292776E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.361097E+02    0.276575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.378488E+02    0.264822E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.400214E+02    0.260488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.419849E+02    0.265333E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.432851E+02    0.277529E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.434722E+02    0.294347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.424318E+02    0.311540E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.406411E+02    0.323257E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.384547E+02    0.327256E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.364573E+02    0.350688E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.335078E+02    0.336104E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.321327E+02    0.310583E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.325798E+02    0.281225E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.347777E+02    0.255130E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.383044E+02    0.238318E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.420370E+02    0.237476E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134619E+03   -0.454867E+02    0.249364E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.471297E+02    0.274822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133947E+03   -0.466620E+02    0.305433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134682E+03   -0.440626E+02    0.333497E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.402651E+02    0.350211E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.383863E+02    0.433873E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.363682E+02    0.434764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.378274E+02    0.417797E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.401213E+02    0.422821E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.401190E+02    0.442848E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.377384E+02    0.450136E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.357801E+02    0.461315E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.344687E+02    0.448044E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.344234E+02    0.430298E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.351434E+02    0.414506E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.369946E+02    0.402229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.390662E+02    0.399236E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.411270E+02    0.405014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.424043E+02    0.419242E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.426731E+02    0.437082E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.417071E+02    0.454096E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.398874E+02    0.465394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.376905E+02    0.468048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.357451E+02    0.491418E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.327340E+02    0.473801E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.314067E+02    0.446252E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.318094E+02    0.416238E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.340399E+02    0.389427E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.373872E+02    0.374565E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.411142E+02    0.375159E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.444399E+02    0.390852E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133385E+03   -0.463836E+02    0.418807E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133234E+03   -0.459663E+02    0.451510E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.431760E+02    0.479929E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.394498E+02    0.494360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.386847E+02    0.338553E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.366717E+02    0.340280E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.381067E+02    0.323420E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.404013E+02    0.327188E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135977E+03   -0.403171E+02    0.346926E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.380591E+02    0.354554E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.361183E+02    0.366231E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.348869E+02    0.353599E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.347226E+02    0.336740E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.356178E+02    0.320317E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.372585E+02    0.309271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.394246E+02    0.305118E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.413810E+02    0.310251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.426720E+02    0.322889E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.429632E+02    0.339538E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.419139E+02    0.356949E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.401184E+02    0.368674E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.379333E+02    0.372380E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.360252E+02    0.395636E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.329951E+02    0.380512E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.316346E+02    0.354332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.320941E+02    0.324515E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.343845E+02    0.297603E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.377215E+02    0.282464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.414436E+02    0.281896E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.448887E+02    0.294441E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133882E+03   -0.466299E+02    0.320127E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133836E+03   -0.461452E+02    0.351660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134839E+03   -0.434145E+02    0.380564E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.397248E+02    0.396511E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.392582E+02    0.236126E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.372466E+02    0.238273E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.387712E+02    0.220954E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.409697E+02    0.224805E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.409024E+02    0.243648E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.385476E+02    0.252268E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.366173E+02    0.263985E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.352802E+02    0.253140E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.352895E+02    0.235358E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.361761E+02    0.219337E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.379099E+02    0.207686E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.400798E+02    0.203218E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.420430E+02    0.207734E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.433443E+02    0.219407E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.435377E+02    0.235741E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.425077E+02    0.252694E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.406191E+02    0.265102E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.385412E+02    0.268628E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.364592E+02    0.292496E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.335075E+02    0.278940E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.322073E+02    0.253405E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138169E+03   -0.327319E+02    0.223586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.348364E+02    0.198675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.384529E+02    0.181037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.421926E+02    0.179963E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.454220E+02    0.192589E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.471724E+02    0.216146E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134275E+03   -0.466043E+02    0.246560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.438089E+02    0.275613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.401537E+02    0.291897E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.38 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    333866.846192971     
  ps_ts2 prof sum =   333675.622648482     
  trcom prof sum =    333675.622648482     
  ps_ts2 cur sum  =   4897.89103912834     
  trcom cur sum  =    4897.89103912833     
  
  antenna # iant =            2
  powecha_use(iant) =    666977.406924545     
  ps_ts2 prof sum =   666617.252014512     
  trcom prof sum =    666617.251972255     
  ps_ts2 cur sum  =   12000.9044695603     
  trcom cur sum  =    12000.9044695603     
  
  antenna # iant =            3
  powecha_use(iant) =    518642.598461245     
  ps_ts2 prof sum =   518305.391943794     
  trcom prof sum =    518305.391943794     
  ps_ts2 cur sum  =   6512.99199838771     
  trcom cur sum  =    6512.99199838772     
  
  antenna # iant =            4
  powecha_use(iant) =    570272.109708800     
  ps_ts2 prof sum =   569957.620561810     
  trcom prof sum =    569957.620561810     
  ps_ts2 cur sum  =   9261.64252985986     
  trcom cur sum  =    9261.64252985985     
  
  antenna # iant =            5
  powecha_use(iant) =    555312.066517001     
  ps_ts2 prof sum =   555015.349179502     
  trcom prof sum =    555015.349179502     
  ps_ts2 cur sum  =   11107.4077653429     
  trcom cur sum  =    11107.4077653429     
  
  Total ECH heating:      2643571.23630584     
  Total Current Drive:    43780.8378022791     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2600E+00  4.2650E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.26000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    29918.9265373439     
  ps_ts2 prof e sum =    29376.3195874074     
  ps_ts2 prof i sum =   2.271108648217512E-009
  trcom  prof e sum =    29376.3195874002     
  trcom  prof i sum =   2.271108648193165E-009
  ps_ts2 cur sum    =   -2369.33627818119     
  trcom  cur sum    =   -2369.33627818044     
  
  Total LH heating on electrons:    29376.3195874002     
  Total LH heating on ions:        2.271108648193165E-009
  Total Current Drive:             -2369.33627818044     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4014
 TA= 4.26000E+00 CPU TIME= 1.62779E-01 SECONDS.  DT= 4.47509E-04
  
 TEC1=    4.25999999999993     
 TEC2=    4.26499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2001911111106     
  %check_save_state: izleft hours =    68.7913888888889     
 --> plasma_hash("gframe"): TA= 4.260000E+00 NSTEP=  4014 Hash code:   57879735
 ->PRGCHK: bdy curvature ratio at t= 4.2650E+00 seconds is:  5.6743E-02
% MHDEQ: TG1=     4.260000 ; TG2=     4.265000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6743E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.260000 TO TG2=    4.265000 @ NSTEP     4014
   GFRAME TG2 MOMENTS CHECKSUM:  2.4586838866435D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2650E+00  4.2700E+00 total power(Watts):  2.3132E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.26500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.392163E+02    0.294027E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.371987E+02    0.295988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.386304E+02    0.279284E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.409303E+02    0.282691E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.408548E+02    0.301995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.384930E+02    0.310448E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.365569E+02    0.322177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.352231E+02    0.310712E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.350525E+02    0.294240E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.359419E+02    0.278035E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.378737E+02    0.264735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.399438E+02    0.261158E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.419048E+02    0.266000E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.432023E+02    0.278220E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.433887E+02    0.295043E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.424593E+02    0.311572E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.405602E+02    0.323953E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.384799E+02    0.327289E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.364810E+02    0.350756E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.334384E+02    0.336795E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.321561E+02    0.310561E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.326017E+02    0.281168E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.348939E+02    0.254205E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.383303E+02    0.238178E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.420640E+02    0.237341E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.452950E+02    0.250714E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.471593E+02    0.274796E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.465749E+02    0.306113E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.438584E+02    0.334818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.401840E+02    0.350899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.384063E+02    0.434018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.363917E+02    0.434887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.377482E+02    0.418371E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.400387E+02    0.423385E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.400362E+02    0.443408E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.377627E+02    0.450319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.358032E+02    0.461513E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.345886E+02    0.447795E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.342525E+02    0.431306E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.352652E+02    0.414110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.370188E+02    0.402343E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.390913E+02    0.399353E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.411534E+02    0.405146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.424316E+02    0.419365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134729E+03   -0.427003E+02    0.437240E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134931E+03   -0.417335E+02    0.454308E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135337E+03   -0.399163E+02    0.465612E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.377148E+02    0.468256E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.357687E+02    0.491587E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.327552E+02    0.473990E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.313367E+02    0.446812E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137961E+03   -0.317397E+02    0.416818E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.338716E+02    0.390636E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.374118E+02    0.374667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.411409E+02    0.375278E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134266E+03   -0.445839E+02    0.390486E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133340E+03   -0.464131E+02    0.418952E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133404E+03   -0.458760E+02    0.452086E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.433177E+02    0.479884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.394748E+02    0.494541E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.387106E+02    0.338600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.366956E+02    0.340329E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.381347E+02    0.323424E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.403206E+02    0.327879E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.403434E+02    0.346995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.379812E+02    0.355240E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.360428E+02    0.366916E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.347177E+02    0.354915E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.345542E+02    0.338098E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.355442E+02    0.321023E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.372816E+02    0.309278E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.394508E+02    0.305124E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.414079E+02    0.310271E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.426997E+02    0.322929E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.428784E+02    0.340232E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.419408E+02    0.357049E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.401409E+02    0.368795E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.379582E+02    0.372476E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.358495E+02    0.396806E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.330170E+02    0.380600E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.316565E+02    0.354377E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.321154E+02    0.324518E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.342238E+02    0.299033E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.377462E+02    0.282430E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.414704E+02    0.281864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.446895E+02    0.295822E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.465419E+02    0.320810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.460569E+02    0.352341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.433284E+02    0.381228E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.397506E+02    0.396631E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.392875E+02    0.235961E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.372709E+02    0.238138E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.386963E+02    0.221638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.409959E+02    0.224670E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.409287E+02    0.243523E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.385725E+02    0.252159E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.364437E+02    0.265477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.353038E+02    0.253018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137844E+03   -0.351264E+02    0.236876E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.361989E+02    0.219201E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.379341E+02    0.207540E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.401046E+02    0.203073E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.420701E+02    0.207587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.432640E+02    0.220065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.434565E+02    0.236390E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.424269E+02    0.253351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.406456E+02    0.265020E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.384656E+02    0.269316E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.364833E+02    0.292473E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.335290E+02    0.278883E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.322291E+02    0.253278E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.326665E+02    0.224294E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.348586E+02    0.198511E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.382839E+02    0.182604E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.422170E+02    0.179802E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.453404E+02    0.193242E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.469691E+02    0.217582E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.464050E+02    0.247929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.438381E+02    0.275573E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.401800E+02    0.291885E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    667678.713008823     
  ps_ts2 prof sum =   667263.399607566     
  trcom prof sum =    667263.399571916     
  ps_ts2 cur sum  =   12015.8932308229     
  trcom cur sum  =    12015.8932308229     
  
  antenna # iant =            3
  powecha_use(iant) =    516380.779144513     
  ps_ts2 prof sum =   516072.969614171     
  trcom prof sum =    516072.969614172     
  ps_ts2 cur sum  =   6480.95556336078     
  trcom cur sum  =    6480.95556336079     
  
  antenna # iant =            4
  powecha_use(iant) =    573853.844490913     
  ps_ts2 prof sum =   573494.808045823     
  trcom prof sum =    573494.808045822     
  ps_ts2 cur sum  =   9318.21683128651     
  trcom cur sum  =    9318.21683128650     
  
  antenna # iant =            5
  powecha_use(iant) =    555321.147647398     
  ps_ts2 prof sum =   554982.997652212     
  trcom prof sum =    554982.997652212     
  ps_ts2 cur sum  =   11113.7461289382     
  trcom cur sum  =    11113.7461289382     
  
  Total ECH heating:      2311814.17488412     
  Total Current Drive:    38928.8117544083     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2650E+00  4.2700E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.26500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2131.36740796916     
  ps_ts2 prof e sum =    2092.44223173623     
  ps_ts2 prof i sum =   1.499348300315334E-010
  trcom  prof e sum =    2092.44223173594     
  trcom  prof i sum =   1.499348300301079E-010
  ps_ts2 cur sum    =   -168.724380874101     
  trcom  cur sum    =   -168.724380874070     
  
  Total LH heating on electrons:    2092.44223173594     
  Total LH heating on ions:        1.499348300301079E-010
  Total Current Drive:             -168.724380874070     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4020
 TA= 4.26500E+00 CPU TIME= 1.60489E-01 SECONDS.  DT= 1.65910E-03
  
 TEC1=    4.26499999999993     
 TEC2=    4.26999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2155713888887     
  %check_save_state: izleft hours =    68.7761111111111     
 --> plasma_hash("gframe"): TA= 4.265000E+00 NSTEP=  4020 Hash code:   19433584
 ->PRGCHK: bdy curvature ratio at t= 4.2700E+00 seconds is:  5.6748E-02
% MHDEQ: TG1=     4.265000 ; TG2=     4.270000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7670E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6748E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.265000 TO TG2=    4.270000 @ NSTEP     4020
   GFRAME TG2 MOMENTS CHECKSUM:  2.4582615883298D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.72603E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.80010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.99980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.87017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22059E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.08578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.04137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  4.42324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6=  4.90615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.68802E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.03751E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.88999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  3.40139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.21964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  6.08364E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.26662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -4.59963E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.39882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.97220E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.97220E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.2700E+00  4.2750E+00 total power(Watts):  2.7674E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.27000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.383666E+02    0.378365E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.363548E+02    0.379807E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.376960E+02    0.363374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.399840E+02    0.367578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.399958E+02    0.387263E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.376304E+02    0.395344E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.356872E+02    0.407146E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.343709E+02    0.394325E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.342171E+02    0.377045E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137170E+03   -0.352156E+02    0.359884E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.369564E+02    0.348192E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.390210E+02    0.344901E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.409709E+02    0.350415E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.423656E+02    0.362935E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.425339E+02    0.380735E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.415852E+02    0.398027E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.397822E+02    0.409919E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.375968E+02    0.413260E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.356766E+02    0.436396E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.326595E+02    0.420519E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.313166E+02    0.393303E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138284E+03   -0.316983E+02    0.363548E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.339983E+02    0.336584E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.373293E+02    0.321543E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.410459E+02    0.321362E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.444843E+02    0.334834E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.462111E+02    0.361553E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.457038E+02    0.394150E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.431841E+02    0.422532E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.393724E+02    0.438057E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.391406E+02    0.294734E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.371258E+02    0.296695E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.385559E+02    0.279978E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.408527E+02    0.283379E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.407766E+02    0.302687E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.385209E+02    0.310451E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.364847E+02    0.322870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.353449E+02    0.309995E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.351733E+02    0.293463E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.360648E+02    0.277201E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.378012E+02    0.265400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.399723E+02    0.261040E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.419342E+02    0.265910E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.432327E+02    0.278169E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.434196E+02    0.295036E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.423789E+02    0.312260E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.405892E+02    0.323976E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.384044E+02    0.327972E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.364073E+02    0.351449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.334630E+02    0.336816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138349E+03   -0.320881E+02    0.311289E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.325358E+02    0.281880E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.347312E+02    0.255674E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.382571E+02    0.238819E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.420934E+02    0.237170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.454390E+02    0.249827E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.470750E+02    0.275458E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.466070E+02    0.306143E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.440085E+02    0.334237E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.402127E+02    0.350980E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.383328E+02    0.434587E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.363162E+02    0.435482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.377747E+02    0.418497E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.400667E+02    0.423525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.400637E+02    0.443616E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.376848E+02    0.450915E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.357278E+02    0.462094E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.344180E+02    0.448794E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.343731E+02    0.430994E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.350936E+02    0.415194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.369432E+02    0.402982E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.391193E+02    0.399488E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.410718E+02    0.405788E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.423484E+02    0.419954E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.426160E+02    0.437837E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.416499E+02    0.454915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.398313E+02    0.466206E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.376364E+02    0.468828E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.356917E+02    0.492049E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.326843E+02    0.474519E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.313589E+02    0.446979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.317623E+02    0.416915E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.339913E+02    0.390192E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.373364E+02    0.375349E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.411699E+02    0.375407E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134221E+03   -0.446145E+02    0.390655E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133511E+03   -0.463250E+02    0.419555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133357E+03   -0.459065E+02    0.452369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134494E+03   -0.431172E+02    0.480715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.395015E+02    0.494744E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.386343E+02    0.339291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.366219E+02    0.341024E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.380571E+02    0.324136E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.403494E+02    0.327914E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.402646E+02    0.347690E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.380084E+02    0.355319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.360687E+02    0.367009E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.348385E+02    0.354354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137378E+03   -0.346752E+02    0.337468E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.355706E+02    0.321026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.373084E+02    0.309276E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.393730E+02    0.305827E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.413291E+02    0.310968E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.426186E+02    0.323613E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.429086E+02    0.340301E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.418594E+02    0.357740E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.400652E+02    0.369470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.378818E+02    0.373165E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.359748E+02    0.396394E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.329478E+02    0.381276E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.315896E+02    0.355078E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.320493E+02    0.325222E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.343425E+02    0.298267E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.376728E+02    0.283128E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.414983E+02    0.281833E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.448348E+02    0.295134E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134014E+03   -0.465746E+02    0.320854E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.460889E+02    0.352461E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.433584E+02    0.381383E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.396710E+02    0.397280E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.392139E+02    0.236588E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.371999E+02    0.238775E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.387240E+02    0.221439E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.409205E+02    0.225286E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.408529E+02    0.244143E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.384996E+02    0.252797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.365704E+02    0.264561E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.352348E+02    0.253674E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.352444E+02    0.235869E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.360360E+02    0.220697E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.377668E+02    0.209025E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.400312E+02    0.203702E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.419936E+02    0.208202E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.432933E+02    0.219874E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.434869E+02    0.236213E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.424569E+02    0.253211E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.405693E+02    0.265672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.384930E+02    0.269226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.363132E+02    0.293927E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.334617E+02    0.279589E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.321647E+02    0.253949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.326893E+02    0.224110E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.348821E+02    0.198299E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.384055E+02    0.181484E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.421413E+02    0.180392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.453701E+02    0.193009E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.471201E+02    0.216579E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.465517E+02    0.247031E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.437573E+02    0.276234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.402071E+02    0.291869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    450790.714993372     
  ps_ts2 prof sum =   450528.801882031     
  trcom prof sum =    450528.801882032     
  ps_ts2 cur sum  =   6613.29586314710     
  trcom cur sum  =    6613.29586314710     
  
  antenna # iant =            2
  powecha_use(iant) =    670803.936518101     
  ps_ts2 prof sum =   670432.696876371     
  trcom prof sum =    670432.696876370     
  ps_ts2 cur sum  =   12082.1693243075     
  trcom cur sum  =    12082.1693243075     
  
  antenna # iant =            3
  powecha_use(iant) =    517384.327698209     
  ps_ts2 prof sum =   517066.009493927     
  trcom prof sum =    517066.009493927     
  ps_ts2 cur sum  =   6493.41715559342     
  trcom cur sum  =    6493.41715559343     
  
  antenna # iant =            4
  powecha_use(iant) =    574695.449122175     
  ps_ts2 prof sum =   574377.547742976     
  trcom prof sum =    574377.547742975     
  ps_ts2 cur sum  =   9336.50805997360     
  trcom cur sum  =    9336.50805997360     
  
  antenna # iant =            5
  powecha_use(iant) =    553720.693840481     
  ps_ts2 prof sum =   553391.491373764     
  trcom prof sum =    553391.491340944     
  ps_ts2 cur sum  =   11092.4945018394     
  trcom cur sum  =    11092.4945018394     
  
  Total ECH heating:      2765796.54733625     
  Total Current Drive:    45617.8849048610     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2700E+00  4.2750E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.27000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2127.84472656250     
  ps_ts2 prof e sum =    2089.86328500165     
  ps_ts2 prof i sum =   1.141773221229370E-010
  trcom  prof e sum =    2089.86328498334     
  trcom  prof i sum =   1.141773221212374E-010
  ps_ts2 cur sum    =   -168.244731695729     
  trcom  cur sum    =   -168.244731695711     
  
  Total LH heating on electrons:    2089.86328498334     
  Total LH heating on ions:        1.141773221212374E-010
  Total Current Drive:             -168.244731695711     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4023
 TA= 4.27000E+00 CPU TIME= 1.59398E-01 SECONDS.  DT= 1.58379E-03
  
 TEC1=    4.26999999999993     
 TEC2=    4.27499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2337166666664     
  %check_save_state: izleft hours =    68.7577777777778     
 --> plasma_hash("gframe"): TA= 4.270000E+00 NSTEP=  4023 Hash code:   10015394
 ->PRGCHK: bdy curvature ratio at t= 4.2750E+00 seconds is:  5.6759E-02
% MHDEQ: TG1=     4.270000 ; TG2=     4.275000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7682E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6759E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.270000 TO TG2=    4.275000 @ NSTEP     4023
   GFRAME TG2 MOMENTS CHECKSUM:  2.4578392900161D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.2750E+00  4.2800E+00 total power(Watts):  2.9750E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.27500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.382922E+02    0.379026E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.362813E+02    0.380469E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.377232E+02    0.363458E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.400128E+02    0.367676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.399169E+02    0.387914E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.376565E+02    0.395465E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.357135E+02    0.407248E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.344925E+02    0.393886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.343384E+02    0.376546E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.350464E+02    0.361182E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.368825E+02    0.348873E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.390492E+02    0.344950E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.409958E+02    0.350503E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.422840E+02    0.363617E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.424518E+02    0.381397E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.415089E+02    0.398650E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.397029E+02    0.410521E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.376233E+02    0.413379E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.356029E+02    0.436983E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.327772E+02    0.420128E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138309E+03   -0.312498E+02    0.393955E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.317219E+02    0.363608E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.338349E+02    0.337937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.373517E+02    0.321569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.410754E+02    0.321369E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.442864E+02    0.336118E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.461214E+02    0.362261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134303E+03   -0.454996E+02    0.395287E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.429862E+02    0.423550E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.392929E+02    0.438645E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.391686E+02    0.294702E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.371526E+02    0.296662E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.385834E+02    0.279918E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.408764E+02    0.283370E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.408060E+02    0.302668E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.384457E+02    0.311138E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.365112E+02    0.322868E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.351780E+02    0.311397E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.350075E+02    0.294914E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.358967E+02    0.278668E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.378286E+02    0.265284E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.398967E+02    0.261688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.418615E+02    0.266531E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.431513E+02    0.278838E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.433385E+02    0.295708E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.424092E+02    0.312259E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.405110E+02    0.324651E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.384321E+02    0.327991E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.364339E+02    0.351502E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138084E+03   -0.333943E+02    0.337502E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138309E+03   -0.321117E+02    0.311258E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138336E+03   -0.325594E+02    0.281810E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.348504E+02    0.254721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.382839E+02    0.238653E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.420160E+02    0.237785E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.452445E+02    0.251185E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.471077E+02    0.275401E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134254E+03   -0.465222E+02    0.306808E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.438117E+02    0.335531E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.401343E+02    0.351657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.383603E+02    0.434752E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.363426E+02    0.435638E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.376981E+02    0.419080E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.399868E+02    0.424105E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.399830E+02    0.444218E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.377112E+02    0.451127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.357524E+02    0.462318E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.345443E+02    0.448565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.342044E+02    0.432023E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.352175E+02    0.414810E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.368682E+02    0.403599E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.390410E+02    0.400123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.409908E+02    0.406398E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.423783E+02    0.420097E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.427591E+02    0.437652E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.415669E+02    0.455512E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.397507E+02    0.466778E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.376630E+02    0.469045E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.357169E+02    0.492231E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.328014E+02    0.474361E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138012E+03   -0.312916E+02    0.447570E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.316946E+02    0.417494E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.338254E+02    0.391391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.372612E+02    0.376023E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.410897E+02    0.376077E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.445299E+02    0.391309E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.462377E+02    0.420147E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.458188E+02    0.452975E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.432617E+02    0.480674E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.394212E+02    0.495205E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.386621E+02    0.339328E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.366485E+02    0.341053E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.379822E+02    0.324811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.402715E+02    0.328579E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.402939E+02    0.347749E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.379328E+02    0.356000E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.359957E+02    0.367691E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.346708E+02    0.355666E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.345091E+02    0.338816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.354993E+02    0.321710E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.372350E+02    0.309965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.394028E+02    0.305810E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.413587E+02    0.310963E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.426490E+02    0.323626E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.428271E+02    0.340982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.418895E+02    0.357830E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.400941E+02    0.369569E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.379094E+02    0.373264E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.359011E+02    0.397033E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.329726E+02    0.381355E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.316132E+02    0.355118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138255E+03   -0.320714E+02    0.325212E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.341794E+02    0.299713E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.376997E+02    0.283074E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.414214E+02    0.282502E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.446383E+02    0.296489E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.464896E+02    0.321513E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.460035E+02    0.353135E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.432753E+02    0.382045E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.395920E+02    0.397920E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.392412E+02    0.236416E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.372262E+02    0.238605E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.386506E+02    0.222107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.409485E+02    0.225117E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.408815E+02    0.243972E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.385271E+02    0.252643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.365002E+02    0.265220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.353542E+02    0.252716E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.350830E+02    0.237357E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.361552E+02    0.219684E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.378885E+02    0.208019E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.400583E+02    0.203539E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.420214E+02    0.208048E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.432146E+02    0.220508E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.434077E+02    0.236827E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.423787E+02    0.253830E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.405989E+02    0.265573E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.384198E+02    0.269899E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.364375E+02    0.293147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138126E+03   -0.334863E+02    0.279513E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.321883E+02    0.253793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138501E+03   -0.326248E+02    0.224799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138100E+03   -0.348149E+02    0.199008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.382378E+02    0.183048E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.421684E+02    0.180215E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.452902E+02    0.193654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.469240E+02    0.217967E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.463545E+02    0.248369E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.437869E+02    0.276175E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.401301E+02    0.292560E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659833.364504630     
  ps_ts2 prof sum =   659445.302142549     
  trcom prof sum =    659445.302142549     
  ps_ts2 cur sum  =   9679.39064912822     
  trcom cur sum  =    9679.39064912821     
  
  antenna # iant =            2
  powecha_use(iant) =    671677.688352578     
  ps_ts2 prof sum =   671274.683360807     
  trcom prof sum =    671274.683360806     
  ps_ts2 cur sum  =   12103.7997909009     
  trcom cur sum  =    12103.7997909009     
  
  antenna # iant =            3
  powecha_use(iant) =    517555.823137004     
  ps_ts2 prof sum =   517253.261216060     
  trcom prof sum =    517253.261216061     
  ps_ts2 cur sum  =   6496.04112562769     
  trcom cur sum  =    6496.04112562769     
  
  antenna # iant =            4
  powecha_use(iant) =    572339.977232856     
  ps_ts2 prof sum =   571999.776609096     
  trcom prof sum =    571999.776609096     
  ps_ts2 cur sum  =   9300.76752110380     
  trcom cur sum  =    9300.76752110380     
  
  antenna # iant =            5
  powecha_use(iant) =    553593.935016372     
  ps_ts2 prof sum =   553281.312036553     
  trcom prof sum =    553281.312006281     
  ps_ts2 cur sum  =   11096.4798226258     
  trcom cur sum  =    11096.4798226258     
  
  Total ECH heating:      2973254.33533479     
  Total Current Drive:    48676.4789093864     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2750E+00  4.2800E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.27500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2123.88538736749     
  ps_ts2 prof e sum =    2085.56831080788     
  ps_ts2 prof i sum =   9.303590922607702E-011
  trcom  prof e sum =    2085.56831080734     
  trcom  prof i sum =   9.303590922457662E-011
  ps_ts2 cur sum    =   -167.783495865642     
  trcom  cur sum    =   -167.783495865586     
  
  Total LH heating on electrons:    2085.56831080734     
  Total LH heating on ions:        9.303590922457662E-011
  Total Current Drive:             -167.783495865586     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4026
 TA= 4.27500E+00 CPU TIME= 1.59714E-01 SECONDS.  DT= 1.79558E-03
  
 TEC1=    4.27499999999993     
 TEC2=    4.27999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2552499999997     
  %check_save_state: izleft hours =    68.7363888888889     
 --> plasma_hash("gframe"): TA= 4.275000E+00 NSTEP=  4026 Hash code:   84206118
 ->PRGCHK: bdy curvature ratio at t= 4.2800E+00 seconds is:  5.6778E-02
% MHDEQ: TG1=     4.275000 ; TG2=     4.280000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7694E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6778E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.275000 TO TG2=    4.280000 @ NSTEP     4026
   GFRAME TG2 MOMENTS CHECKSUM:  2.4574169917024D+04
 %MFRCHK - LABEL "RMS11", #       1=  5.89855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC12", #       1= -8.57758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.34838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.56160E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.87876E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.38572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.86207E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  2.16539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.95725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.15210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.48661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.03009E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.08521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.32306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.86959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.30890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.21302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.23244E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.76976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.76976E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2800E+00  4.2850E+00 total power(Watts):  2.7896E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.28000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.382159E+02    0.379721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137069E+03   -0.362075E+02    0.381172E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.376485E+02    0.364166E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.399344E+02    0.368391E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.399460E+02    0.388068E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.375816E+02    0.396126E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.356399E+02    0.407871E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137657E+03   -0.343253E+02    0.395083E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.341719E+02    0.377827E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.351700E+02    0.360662E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.369103E+02    0.348949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.389733E+02    0.345658E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.409218E+02    0.351178E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.422028E+02    0.364326E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.424823E+02    0.381560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.415337E+02    0.398825E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.397266E+02    0.410670E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.375471E+02    0.413986E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.356343E+02    0.437118E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.326144E+02    0.421200E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.312731E+02    0.394059E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.316551E+02    0.364317E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.339545E+02    0.337310E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.372836E+02    0.322258E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.409972E+02    0.322080E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.444335E+02    0.335578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.461581E+02    0.362406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134044E+03   -0.456503E+02    0.394988E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.429026E+02    0.424147E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.393210E+02    0.438825E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.390909E+02    0.295458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.370805E+02    0.297407E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.385098E+02    0.280658E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.408038E+02    0.284077E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.407291E+02    0.303396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.384746E+02    0.311164E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.364351E+02    0.323607E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.352993E+02    0.310709E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.351295E+02    0.294175E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.360206E+02    0.277872E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.377565E+02    0.266012E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.399270E+02    0.261631E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.418868E+02    0.266516E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.431827E+02    0.278847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.433700E+02    0.295748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.423295E+02    0.312976E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.405408E+02    0.324702E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.383562E+02    0.328707E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.363608E+02    0.352212E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.334195E+02    0.337537E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138489E+03   -0.320465E+02    0.311997E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.324947E+02    0.282557E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138071E+03   -0.346891E+02    0.256239E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.382127E+02    0.239332E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.419401E+02    0.238455E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.451644E+02    0.251842E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.470248E+02    0.276126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.463211E+02    0.308177E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.437299E+02    0.336221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.400547E+02    0.352368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.382822E+02    0.435344E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.362677E+02    0.436223E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.377256E+02    0.419206E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.400155E+02    0.424251E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.400113E+02    0.444421E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.376338E+02    0.451725E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.356786E+02    0.462885E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.343700E+02    0.449565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137150E+03   -0.343262E+02    0.431717E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.350468E+02    0.415889E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.368952E+02    0.403728E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.389629E+02    0.400778E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.410205E+02    0.406545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.422954E+02    0.420692E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.425619E+02    0.438641E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.415959E+02    0.455758E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.397785E+02    0.467023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.375808E+02    0.469624E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.356420E+02    0.492684E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.326372E+02    0.475227E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.313147E+02    0.447734E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.317178E+02    0.417596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.339460E+02    0.390971E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.372885E+02    0.376151E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.410097E+02    0.376778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134781E+03   -0.443291E+02    0.392491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133639E+03   -0.462702E+02    0.420327E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133699E+03   -0.457312E+02    0.453597E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.430617E+02    0.481492E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.393406E+02    0.495660E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.385866E+02    0.340032E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.365759E+02    0.341758E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.380104E+02    0.324848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.403008E+02    0.328636E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.402160E+02    0.348450E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.379609E+02    0.356094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.358236E+02    0.368991E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.347937E+02    0.355116E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.346337E+02    0.338177E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.355266E+02    0.321735E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.371631E+02    0.310695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.393279E+02    0.306531E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.412807E+02    0.311680E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.425689E+02    0.324329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.427462E+02    0.341668E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.418091E+02    0.358536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.400156E+02    0.370278E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.378337E+02    0.373965E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.359277E+02    0.397164E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.329041E+02    0.382050E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.315473E+02    0.355828E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.320058E+02    0.325933E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.341116E+02    0.300460E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137090E+03   -0.376274E+02    0.283817E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.413429E+02    0.283242E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.447849E+02    0.295865E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.462874E+02    0.322848E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.459186E+02    0.353845E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.434205E+02    0.381685E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.396209E+02    0.398068E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.391681E+02    0.237104E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.371565E+02    0.239294E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.386794E+02    0.221975E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.408747E+02    0.225795E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.408067E+02    0.244651E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.384548E+02    0.253345E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.365269E+02    0.265168E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.351895E+02    0.254240E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.352027E+02    0.236395E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.359939E+02    0.221234E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.377224E+02    0.209577E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.399865E+02    0.204244E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.419473E+02    0.208731E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.432461E+02    0.220375E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.433365E+02    0.237447E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.424097E+02    0.253749E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.405227E+02    0.266280E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.384475E+02    0.269867E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.363666E+02    0.293892E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.334202E+02    0.280262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138593E+03   -0.321252E+02    0.254508E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138466E+03   -0.326493E+02    0.224660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.349312E+02    0.197991E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.383618E+02    0.182023E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.420949E+02    0.180916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.453218E+02    0.193532E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.470717E+02    0.217065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134566E+03   -0.465027E+02    0.247541E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.437070E+02    0.276901E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.400547E+02    0.293292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.39 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    475953.735891665     
  ps_ts2 prof sum =   475677.052715685     
  trcom prof sum =    475677.052715685     
  ps_ts2 cur sum  =   6987.39398533217     
  trcom cur sum  =    6987.39398533216     
  
  antenna # iant =            2
  powecha_use(iant) =    669377.410333229     
  ps_ts2 prof sum =   668982.053552219     
  trcom prof sum =    668982.053552219     
  ps_ts2 cur sum  =   12074.6650806588     
  trcom cur sum  =    12074.6650806588     
  
  antenna # iant =            3
  powecha_use(iant) =    515738.363974515     
  ps_ts2 prof sum =   515418.174732749     
  trcom prof sum =    515418.174732750     
  ps_ts2 cur sum  =   6477.64381195703     
  trcom cur sum  =    6477.64381195704     
  
  antenna # iant =            4
  powecha_use(iant) =    574413.314968912     
  ps_ts2 prof sum =   574066.602849932     
  trcom prof sum =    574066.602849931     
  ps_ts2 cur sum  =   9342.72993204126     
  trcom cur sum  =    9342.72993204125     
  
  antenna # iant =            5
  powecha_use(iant) =    554158.987621857     
  ps_ts2 prof sum =   553852.950784337     
  trcom prof sum =    553852.950784337     
  ps_ts2 cur sum  =   11120.8786436914     
  trcom cur sum  =    11120.8786436914     
  
  Total ECH heating:      2787996.83463492     
  Total Current Drive:    46003.3114536807     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2800E+00  4.2850E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.28000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    13890.0157738266     
  ps_ts2 prof e sum =    13637.5403754583     
  ps_ts2 prof i sum =   5.695655443043591E-010
  trcom  prof e sum =    13637.5403754549     
  trcom  prof i sum =   5.695655442978764E-010
  ps_ts2 cur sum    =   -1096.06037976338     
  trcom  cur sum    =   -1096.06037976303     
  
  Total LH heating on electrons:    13637.5403754549     
  Total LH heating on ions:        5.695655442978764E-010
  Total Current Drive:             -1096.06037976303     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4029
 TA= 4.28000E+00 CPU TIME= 1.68946E-01 SECONDS.  DT= 1.19993E-03
  
 TEC1=    4.27999999999993     
 TEC2=    4.28499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2767105555556     
  %check_save_state: izleft hours =    68.7147222222222     
 --> plasma_hash("gframe"): TA= 4.280000E+00 NSTEP=  4029 Hash code:  103321989
 ->PRGCHK: bdy curvature ratio at t= 4.2850E+00 seconds is:  5.6805E-02
% MHDEQ: TG1=     4.280000 ; TG2=     4.285000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7706E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6805E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.280000 TO TG2=    4.285000 @ NSTEP     4029
   GFRAME TG2 MOMENTS CHECKSUM:  2.4569946933887D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.2850E+00  4.2900E+00 total power(Watts):  2.3152E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.28500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.391195E+02    0.295462E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.371055E+02    0.297421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.385361E+02    0.280642E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.408318E+02    0.284075E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.407567E+02    0.303432E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.383980E+02    0.311894E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.364647E+02    0.323614E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.351308E+02    0.312154E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.349626E+02    0.295664E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.358516E+02    0.279380E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.377822E+02    0.265951E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.398495E+02    0.262305E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.418054E+02    0.267213E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.431012E+02    0.279563E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.432873E+02    0.296475E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.423581E+02    0.313018E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.404609E+02    0.325400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.383836E+02    0.328743E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.363860E+02    0.352282E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138220E+03   -0.333492E+02    0.338244E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138447E+03   -0.320687E+02    0.312009E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.325171E+02    0.282532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.348064E+02    0.255314E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.382376E+02    0.239183E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.419683E+02    0.238292E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.451947E+02    0.251725E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.468163E+02    0.277556E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.464693E+02    0.307586E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.437593E+02    0.336295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.400836E+02    0.352446E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.383080E+02    0.435477E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.362921E+02    0.436352E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.376482E+02    0.419755E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.399336E+02    0.424804E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.399291E+02    0.444987E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.376591E+02    0.451910E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.357024E+02    0.463076E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.344908E+02    0.449332E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.341559E+02    0.432714E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.351684E+02    0.415490E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.368181E+02    0.404339E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.389900E+02    0.400882E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.409378E+02    0.407139E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.423238E+02    0.420807E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.424765E+02    0.439200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.415114E+02    0.456332E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.396966E+02    0.467570E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.376103E+02    0.469813E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.356654E+02    0.492843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.327533E+02    0.475055E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138145E+03   -0.312452E+02    0.448294E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.316488E+02    0.418152E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.337770E+02    0.392174E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.372119E+02    0.376839E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.410374E+02    0.376912E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.444752E+02    0.392139E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133811E+03   -0.461810E+02    0.420885E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.457612E+02    0.453834E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.432047E+02    0.481429E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.393666E+02    0.495826E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.386132E+02    0.340083E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.366011E+02    0.341817E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.379337E+02    0.325556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.402216E+02    0.329337E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.402431E+02    0.348529E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.378834E+02    0.356797E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.359478E+02    0.368494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.346245E+02    0.356445E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.344629E+02    0.339559E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.354542E+02    0.322455E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.371886E+02    0.310722E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.393547E+02    0.306564E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.413084E+02    0.311720E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.425975E+02    0.324389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.427747E+02    0.341755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.418372E+02    0.358644E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.400427E+02    0.370403E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.378595E+02    0.374087E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.358523E+02    0.397788E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.329270E+02    0.382152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.315695E+02    0.355885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138393E+03   -0.320297E+02    0.325947E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.341352E+02    0.300466E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.376532E+02    0.283809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.413712E+02    0.283240E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.445864E+02    0.297259E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.464362E+02    0.322280E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.459427E+02    0.353995E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.432211E+02    0.382887E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.395408E+02    0.398689E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.391948E+02    0.236941E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.371820E+02    0.239139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.386056E+02    0.222622E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136512E+03   -0.409012E+02    0.225618E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.408341E+02    0.244509E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.384807E+02    0.253223E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.364544E+02    0.265883E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.352153E+02    0.254105E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.350401E+02    0.237887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.361121E+02    0.220217E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.378440E+02    0.208563E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.400124E+02    0.204080E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.419745E+02    0.208571E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.431666E+02    0.220998E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.433595E+02    0.237325E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.423296E+02    0.254407E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.405503E+02    0.266224E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.383723E+02    0.270582E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.363916E+02    0.293900E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138266E+03   -0.334431E+02    0.280238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138556E+03   -0.321471E+02    0.254379E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.325842E+02    0.225346E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138248E+03   -0.347733E+02    0.199577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.381934E+02    0.183585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.421216E+02    0.180733E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.452408E+02    0.194171E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.468745E+02    0.218443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.463042E+02    0.248897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.437365E+02    0.276892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.400818E+02    0.293312E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    671088.848668231     
  ps_ts2 prof sum =   670679.990614502     
  trcom prof sum =    670679.990614502     
  ps_ts2 cur sum  =   12108.5359346061     
  trcom cur sum  =    12108.5359346061     
  
  antenna # iant =            3
  powecha_use(iant) =    516108.683874685     
  ps_ts2 prof sum =   515803.305354284     
  trcom prof sum =    515803.305354284     
  ps_ts2 cur sum  =   6481.44157915405     
  trcom cur sum  =    6481.44157915406     
  
  antenna # iant =            4
  powecha_use(iant) =    574151.147019036     
  ps_ts2 prof sum =   573815.295714449     
  trcom prof sum =    573815.295714448     
  ps_ts2 cur sum  =   9338.15515750359     
  trcom cur sum  =    9338.15515750358     
  
  antenna # iant =            5
  powecha_use(iant) =    553878.154574660     
  ps_ts2 prof sum =   553556.496161891     
  trcom prof sum =    553556.496161891     
  ps_ts2 cur sum  =   11123.5860803891     
  trcom cur sum  =    11123.5860803891     
  
  Total ECH heating:      2313855.08784512     
  Total Current Drive:    39051.7187516529     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2850E+00  4.2900E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.28500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2131.35901641846     
  ps_ts2 prof e sum =    2093.13242936072     
  ps_ts2 prof i sum =   7.044319040689455E-011
  trcom  prof e sum =    2093.13242936025     
  trcom  prof i sum =   7.044319040599136E-011
  ps_ts2 cur sum    =   -168.024388256068     
  trcom  cur sum    =   -168.024388256017     
  
  Total LH heating on electrons:    2093.13242936025     
  Total LH heating on ions:        7.044319040599136E-011
  Total Current Drive:             -168.024388256017     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4033
 TA= 4.28500E+00 CPU TIME= 1.46596E-01 SECONDS.  DT= 5.31590E-04
  
 TEC1=    4.28499999999993     
 TEC2=    4.28999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.2960488888887     
  %check_save_state: izleft hours =    68.6955555555556     
 --> plasma_hash("gframe"): TA= 4.285000E+00 NSTEP=  4033 Hash code:  114394347
 ->PRGCHK: bdy curvature ratio at t= 4.2900E+00 seconds is:  5.6840E-02
% MHDEQ: TG1=     4.285000 ; TG2=     4.290000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6840E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.285000 TO TG2=    4.290000 @ NSTEP     4033
   GFRAME TG2 MOMENTS CHECKSUM:  2.4565723950750D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.40806E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.83257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.06123E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.40500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88857E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.20151E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.72822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.65733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  2.25739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.30783E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.68203E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.98939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.19007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.44497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.44114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.67239E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.49905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.63768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.04245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.67803E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.67803E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2900E+00  4.2950E+00 total power(Watts):  2.6294E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.29000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.381637E+02    0.380514E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.362576E+02    0.381382E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.375973E+02    0.364951E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.398813E+02    0.369184E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.398919E+02    0.388849E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.375297E+02    0.396866E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.355896E+02    0.408531E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.342761E+02    0.395810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.341238E+02    0.378601E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.351211E+02    0.361433E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.368600E+02    0.349699E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.389209E+02    0.346405E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.408679E+02    0.351948E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.421478E+02    0.365129E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.424270E+02    0.382365E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.414788E+02    0.399558E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.396782E+02    0.411309E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.374953E+02    0.414615E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.355774E+02    0.437820E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.325667E+02    0.421807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.312278E+02    0.394769E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138554E+03   -0.316098E+02    0.365073E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.339073E+02    0.338032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.372334E+02    0.322987E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.409443E+02    0.322811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.443781E+02    0.336331E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.461007E+02    0.363233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.455929E+02    0.395760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.428444E+02    0.424805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.392666E+02    0.439530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.390419E+02    0.296212E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.370302E+02    0.298175E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.384596E+02    0.281407E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.407525E+02    0.284834E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.406766E+02    0.304164E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.384240E+02    0.311917E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.363891E+02    0.324316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.352519E+02    0.311455E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.350821E+02    0.294940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.359724E+02    0.278616E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.377072E+02    0.266687E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.398759E+02    0.262264E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.418344E+02    0.267193E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.431298E+02    0.279593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.433160E+02    0.296520E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.422758E+02    0.313731E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.404873E+02    0.325435E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.383064E+02    0.329421E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.363111E+02    0.352964E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.333726E+02    0.338254E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.320016E+02    0.312744E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138656E+03   -0.324497E+02    0.283306E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.346429E+02    0.256830E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.381634E+02    0.239843E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.419962E+02    0.238152E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.453364E+02    0.250907E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134442E+03   -0.469692E+02    0.276865E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.462650E+02    0.308946E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.439026E+02    0.335731E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.401107E+02    0.352518E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.382290E+02    0.436021E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.362158E+02    0.436899E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.376733E+02    0.419832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.399610E+02    0.424894E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.399567E+02    0.445153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.375809E+02    0.452462E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.356272E+02    0.463603E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.343198E+02    0.450280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.342767E+02    0.432361E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137498E+03   -0.349959E+02    0.416515E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.368437E+02    0.404419E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.389099E+02    0.401484E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.409659E+02    0.407229E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.422396E+02    0.421342E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.425053E+02    0.439355E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.415391E+02    0.456534E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.397234E+02    0.467759E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.375320E+02    0.470321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.355902E+02    0.493247E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.325888E+02    0.475856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.312671E+02    0.448429E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.316720E+02    0.418195E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.339012E+02    0.391680E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.372372E+02    0.376944E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.409552E+02    0.377582E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.442725E+02    0.393267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133768E+03   -0.462120E+02    0.421002E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.456721E+02    0.454400E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.430043E+02    0.482173E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.392860E+02    0.496232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.385351E+02    0.340769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.365264E+02    0.342493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.379602E+02    0.325580E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.402486E+02    0.329362E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.401628E+02    0.349202E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.379096E+02    0.356868E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.359727E+02    0.368591E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.347449E+02    0.355878E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.345830E+02    0.338915E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.354783E+02    0.322466E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.372145E+02    0.310735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.392765E+02    0.307288E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.412274E+02    0.312430E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.425146E+02    0.325067E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.429161E+02    0.341192E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.417542E+02    0.359327E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.399623E+02    0.371077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.377816E+02    0.374762E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.358772E+02    0.397877E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.328566E+02    0.382813E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138594E+03   -0.315019E+02    0.356574E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138573E+03   -0.319618E+02    0.326651E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.342526E+02    0.299744E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137226E+03   -0.375779E+02    0.284575E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.413989E+02    0.283274E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.447299E+02    0.296626E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134279E+03   -0.464669E+02    0.322335E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.458616E+02    0.354643E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135007E+03   -0.433647E+02    0.382497E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.395673E+02    0.398796E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.391195E+02    0.237599E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.371077E+02    0.239810E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.386312E+02    0.222468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.409280E+02    0.225475E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.407563E+02    0.245166E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.385063E+02    0.253127E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.364787E+02    0.265839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.353334E+02    0.253196E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.350603E+02    0.237763E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137997E+03   -0.359473E+02    0.221750E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.378694E+02    0.208424E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.399374E+02    0.204784E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.420017E+02    0.208428E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.432008E+02    0.220815E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.433879E+02    0.237185E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.423576E+02    0.254311E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.404710E+02    0.266956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.383976E+02    0.270564E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.362197E+02    0.295393E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138444E+03   -0.333739E+02    0.281015E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138739E+03   -0.320812E+02    0.255093E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138615E+03   -0.326063E+02    0.225189E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.347958E+02    0.199449E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.383089E+02    0.182616E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.421479E+02    0.180592E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.452695E+02    0.194047E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134643E+03   -0.470186E+02    0.217524E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.464483E+02    0.248061E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.436537E+02    0.277639E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.401088E+02    0.293343E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    317430.813185960     
  ps_ts2 prof sum =   317242.100421631     
  trcom prof sum =    317242.100421631     
  ps_ts2 cur sum  =   4659.50077404605     
  trcom cur sum  =    4659.50077404605     
  
  antenna # iant =            2
  powecha_use(iant) =    670048.044029149     
  ps_ts2 prof sum =   669662.379109573     
  trcom prof sum =    669662.379109572     
  ps_ts2 cur sum  =   12087.3145215431     
  trcom cur sum  =    12087.3145215431     
  
  antenna # iant =            3
  powecha_use(iant) =    516913.996177710     
  ps_ts2 prof sum =   516590.178562677     
  trcom prof sum =    516590.178562677     
  ps_ts2 cur sum  =   6491.12143128788     
  trcom cur sum  =    6491.12143128789     
  
  antenna # iant =            4
  powecha_use(iant) =    569589.927019255     
  ps_ts2 prof sum =   569289.773609933     
  trcom prof sum =    569289.773609932     
  ps_ts2 cur sum  =   9261.84948805157     
  trcom cur sum  =    9261.84948805156     
  
  antenna # iant =            5
  powecha_use(iant) =    555463.219977490     
  ps_ts2 prof sum =   555151.906608985     
  trcom prof sum =    555151.906608985     
  ps_ts2 cur sum  =   11155.5053389303     
  trcom cur sum  =    11155.5053389303     
  
  Total ECH heating:      2627936.33831280     
  Total Current Drive:    43655.2915538588     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2900E+00  4.2950E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.29000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2119.03487396240     
  ps_ts2 prof e sum =    2081.49664301118     
  ps_ts2 prof i sum =   4.990735340285431E-011
  trcom  prof e sum =    2081.49664301070     
  trcom  prof i sum =   4.990735340207630E-011
  ps_ts2 cur sum    =   -166.781614971518     
  trcom  cur sum    =   -166.781614971466     
  
  Total LH heating on electrons:    2081.49664301070     
  Total LH heating on ions:        4.990735340207630E-011
  Total Current Drive:             -166.781614971466     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4039
 TA= 4.29000E+00 CPU TIME= 1.61447E-01 SECONDS.  DT= 7.96531E-04
  
 TEC1=    4.28999999999993     
 TEC2=    4.29499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3179616666662     
  %check_save_state: izleft hours =    68.6736111111111     
 --> plasma_hash("gframe"): TA= 4.290000E+00 NSTEP=  4039 Hash code:   68083402
 ->PRGCHK: bdy curvature ratio at t= 4.2950E+00 seconds is:  5.6883E-02
% MHDEQ: TG1=     4.290000 ; TG2=     4.295000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2690E-03 SECONDS
   DATA R*BT AT EDGE:  2.7730E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6883E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.290000 TO TG2=    4.295000 @ NSTEP     4039
   GFRAME TG2 MOMENTS CHECKSUM:  2.4561500967614D+04
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.2950E+00  4.3000E+00 total power(Watts):  2.9610E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.29500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.381906E+02    0.380676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.361829E+02    0.382100E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.376239E+02    0.365103E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.399091E+02    0.369355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.398119E+02    0.389538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.375561E+02    0.396996E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.356147E+02    0.408629E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.343971E+02    0.395402E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137590E+03   -0.342439E+02    0.378167E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.349513E+02    0.362787E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.367852E+02    0.350442E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.389467E+02    0.346526E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.408967E+02    0.352089E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.421771E+02    0.365308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.423437E+02    0.383085E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.413963E+02    0.400205E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.395978E+02    0.411908E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.375214E+02    0.414729E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.355021E+02    0.438426E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.326831E+02    0.421430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138351E+03   -0.312499E+02    0.394889E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138508E+03   -0.316328E+02    0.365200E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138180E+03   -0.337432E+02    0.339432E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.372596E+02    0.323053E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.409731E+02    0.322896E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.441794E+02    0.337681E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.460139E+02    0.363986E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134341E+03   -0.455054E+02    0.396437E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.428752E+02    0.424959E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.391858E+02    0.440140E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.390710E+02    0.296278E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.370542E+02    0.298258E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.384852E+02    0.281484E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.407822E+02    0.284904E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.407061E+02    0.304234E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.383490E+02    0.312666E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.364170E+02    0.324370E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138007E+03   -0.350849E+02    0.312927E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.349153E+02    0.296482E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.359992E+02    0.278667E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.377354E+02    0.266713E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.398031E+02    0.263037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.418639E+02    0.267245E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.430503E+02    0.280391E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.432353E+02    0.297293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.423029E+02    0.313815E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.404100E+02    0.326161E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.383344E+02    0.329492E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.363373E+02    0.353081E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137913E+03   -0.334906E+02    0.337652E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.320243E+02    0.312781E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.324742E+02    0.283347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.346697E+02    0.256794E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.381928E+02    0.239770E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.419200E+02    0.238888E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135426E+03   -0.451439E+02    0.252389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.470025E+02    0.276968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134518E+03   -0.464151E+02    0.308394E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.437054E+02    0.337084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.400314E+02    0.353263E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.382551E+02    0.436205E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.362407E+02    0.437080E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.375956E+02    0.420410E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.398798E+02    0.425480E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.398745E+02    0.445765E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.376054E+02    0.452703E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.356514E+02    0.463812E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.344409E+02    0.450095E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.341063E+02    0.433403E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.351194E+02    0.416133E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.368696E+02    0.404533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.389346E+02    0.401630E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.408840E+02    0.407841E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.422684E+02    0.421490E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.424203E+02    0.439967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.414551E+02    0.457136E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.396409E+02    0.468327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.375574E+02    0.470521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.356144E+02    0.493416E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.326113E+02    0.476013E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.311973E+02    0.449043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.316025E+02    0.418779E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.337312E+02    0.392921E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.372637E+02    0.377103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.409836E+02    0.377764E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.444192E+02    0.392957E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133939E+03   -0.461232E+02    0.421599E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133778E+03   -0.457016E+02    0.454702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.431477E+02    0.482116E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.393123E+02    0.496416E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.385627E+02    0.340867E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.365525E+02    0.342591E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.379876E+02    0.325643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.401701E+02    0.330100E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.401912E+02    0.349336E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.378332E+02    0.357612E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.358989E+02    0.369331E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.345766E+02    0.357246E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.344162E+02    0.340313E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.353091E+02    0.323898E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.371410E+02    0.311494E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.393053E+02    0.307360E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.412573E+02    0.312509E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.425455E+02    0.325148E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.427214E+02    0.342544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.417834E+02    0.359494E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.399902E+02    0.371252E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.378085E+02    0.374921E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.357026E+02    0.399053E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138133E+03   -0.328803E+02    0.382946E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138549E+03   -0.315248E+02    0.356677E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138531E+03   -0.319858E+02    0.326689E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138242E+03   -0.340885E+02    0.301271E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137185E+03   -0.376046E+02    0.284639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.413214E+02    0.284073E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.445335E+02    0.298080E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.463818E+02    0.323066E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134393E+03   -0.458929E+02    0.354826E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.431662E+02    0.383737E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.394873E+02    0.399450E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.391486E+02    0.237528E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.371363E+02    0.239735E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.385609E+02    0.223198E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.408550E+02    0.226186E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.407864E+02    0.245123E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.384342E+02    0.253885E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.363107E+02    0.267422E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.351714E+02    0.254765E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.351841E+02    0.236819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137747E+03   -0.360695E+02    0.220804E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.378009E+02    0.209162E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.399673E+02    0.204677E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.419269E+02    0.209151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.432266E+02    0.220766E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.433107E+02    0.237901E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.423892E+02    0.254305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.405010E+02    0.266995E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.383247E+02    0.271369E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137488E+03   -0.363437E+02    0.294723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.333991E+02    0.281047E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.321045E+02    0.255055E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.326315E+02    0.225077E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.347311E+02    0.200203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.383428E+02    0.182431E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.420757E+02    0.181303E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.451924E+02    0.194746E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.468252E+02    0.218982E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.462531E+02    0.249537E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.436854E+02    0.277715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.400326E+02    0.294130E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    644813.536618139     
  ps_ts2 prof sum =   644444.921068735     
  trcom prof sum =    644444.921068735     
  ps_ts2 cur sum  =   9471.64589332152     
  trcom cur sum  =    9471.64589332152     
  
  antenna # iant =            2
  powecha_use(iant) =    670595.829362907     
  ps_ts2 prof sum =   670206.686797165     
  trcom prof sum =    670206.686797165     
  ps_ts2 cur sum  =   12110.6956922483     
  trcom cur sum  =    12110.6956922484     
  
  antenna # iant =            3
  powecha_use(iant) =    517290.353361606     
  ps_ts2 prof sum =   516976.050808046     
  trcom prof sum =    516976.050808046     
  ps_ts2 cur sum  =   6500.17192834531     
  trcom cur sum  =    6500.17192834531     
  
  antenna # iant =            4
  powecha_use(iant) =    572650.332067687     
  ps_ts2 prof sum =   572283.511881773     
  trcom prof sum =    572283.511881772     
  ps_ts2 cur sum  =   9318.96764019698     
  trcom cur sum  =    9318.96764019697     
  
  antenna # iant =            5
  powecha_use(iant) =    555662.251058951     
  ps_ts2 prof sum =   555347.304671530     
  trcom prof sum =    555347.304671530     
  ps_ts2 cur sum  =   11179.8368621051     
  trcom cur sum  =    11179.8368621051     
  
  Total ECH heating:      2959258.47522725     
  Total Current Drive:    48581.3180162172     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.2950E+00  4.3000E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.29500
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    2129.60501701718     
  ps_ts2 prof e sum =    2092.61556014373     
  ps_ts2 prof i sum =   3.577687326079534E-011
  trcom  prof e sum =    2092.61556014323     
  trcom  prof i sum =   3.577687326020490E-011
  ps_ts2 cur sum    =   -167.567752142904     
  trcom  cur sum    =   -167.567752142849     
  
  Total LH heating on electrons:    2092.61556014323     
  Total LH heating on ions:        3.577687326020490E-011
  Total Current Drive:             -167.567752142849     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4044
 TA= 4.29500E+00 CPU TIME= 1.61285E-01 SECONDS.  DT= 5.09375E-04
  
 TEC1=    4.29499999999993     
 TEC2=    4.29999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3350716666666     
  %check_save_state: izleft hours =    68.6563888888889     
 --> plasma_hash("gframe"): TA= 4.295000E+00 NSTEP=  4044 Hash code:    2594062
 ->PRGCHK: bdy curvature ratio at t= 4.3000E+00 seconds is:  5.6934E-02
% MHDEQ: TG1=     4.295000 ; TG2=     4.300000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3380E-03 SECONDS
   DATA R*BT AT EDGE:  2.7741E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6934E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.295000 TO TG2=    4.300000 @ NSTEP     4044
   GFRAME TG2 MOMENTS CHECKSUM:  2.4557277997909D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.23338E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.30105E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.54562E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.05365E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.89867E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.60976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.08114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.44635E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -3.06954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.08578E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.22810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.21784E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.35493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.94369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.56283E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.49965E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.72547E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.07528E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.84668E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.57722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.57722E-38 RESET TO ZERO 
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.3000E+00  4.3050E+00 total power(Watts):  2.9303E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.30000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.381160E+02    0.381400E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.361107E+02    0.382819E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.375504E+02    0.365846E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.398323E+02    0.370097E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.398410E+02    0.389720E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.374820E+02    0.397658E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.355431E+02    0.409236E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.342307E+02    0.396604E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.340790E+02    0.379470E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.350769E+02    0.362305E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137157E+03   -0.368144E+02    0.350533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.388746E+02    0.347219E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.408194E+02    0.352805E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.420976E+02    0.366056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.423759E+02    0.383287E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.414283E+02    0.400361E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.396283E+02    0.412038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.374471E+02    0.415320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.355295E+02    0.438607E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.325225E+02    0.422485E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138532E+03   -0.311852E+02    0.395553E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138688E+03   -0.315683E+02    0.365930E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.338651E+02    0.338794E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.371902E+02    0.323709E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.408983E+02    0.323550E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135497E+03   -0.440990E+02    0.338365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134314E+03   -0.460487E+02    0.364189E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.455400E+02    0.396627E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.427935E+02    0.425548E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.392157E+02    0.440348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.389988E+02    0.296953E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.369877E+02    0.298913E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.384160E+02    0.282192E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.407084E+02    0.285606E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.406315E+02    0.304897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.383799E+02    0.312639E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.363473E+02    0.325031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137749E+03   -0.352104E+02    0.312175E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.350398E+02    0.295691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.359319E+02    0.279394E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.376659E+02    0.267477E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.398331E+02    0.263054E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.417894E+02    0.267990E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.430846E+02    0.280376E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.432660E+02    0.297298E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.422289E+02    0.314459E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.404396E+02    0.326189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.382612E+02    0.330171E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.362663E+02    0.353803E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.333306E+02    0.339009E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138766E+03   -0.319609E+02    0.313460E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.324109E+02    0.284078E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138357E+03   -0.346048E+02    0.257583E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.381236E+02    0.240558E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.419537E+02    0.238866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.450663E+02    0.253147E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.469223E+02    0.277665E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.463341E+02    0.309039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.436256E+02    0.337767E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.399554E+02    0.353985E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.381790E+02    0.436804E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.361673E+02    0.437686E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.376244E+02    0.420549E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.399104E+02    0.425629E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.397958E+02    0.446380E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.375288E+02    0.453312E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.355809E+02    0.464375E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.342728E+02    0.451096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.342300E+02    0.433113E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.349498E+02    0.417199E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.367964E+02    0.405155E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.388613E+02    0.402252E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.409153E+02    0.407983E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.421875E+02    0.422074E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.424522E+02    0.440188E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.414862E+02    0.457399E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.396710E+02    0.468560E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.374811E+02    0.471068E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.355413E+02    0.493853E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.325427E+02    0.476516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.312206E+02    0.449238E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.316277E+02    0.418872E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137706E+03   -0.338534E+02    0.392511E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.371904E+02    0.377833E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.409116E+02    0.378474E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.442203E+02    0.394142E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.461580E+02    0.421773E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133950E+03   -0.456161E+02    0.455330E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.429499E+02    0.482897E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.392341E+02    0.496857E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.384890E+02    0.341562E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.364815E+02    0.343290E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.379154E+02    0.326313E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.402021E+02    0.330118E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.401151E+02    0.350044E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.378632E+02    0.357738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.357283E+02    0.370655E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.347012E+02    0.356725E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.345397E+02    0.339688E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.354351E+02    0.323194E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.371713E+02    0.311461E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.392321E+02    0.308019E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.411815E+02    0.313164E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.424673E+02    0.325818E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.426423E+02    0.343236E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.417051E+02    0.360224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.399134E+02    0.371993E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.377346E+02    0.375659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.358307E+02    0.398662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138312E+03   -0.328126E+02    0.383662E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138730E+03   -0.314605E+02    0.357404E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138713E+03   -0.319218E+02    0.327363E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.342108E+02    0.300485E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.375319E+02    0.285371E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.412469E+02    0.284774E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135183E+03   -0.446832E+02    0.297384E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.462997E+02    0.323731E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.458100E+02    0.355557E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135135E+03   -0.433134E+02    0.383423E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.395183E+02    0.399596E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.58 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.390788E+02    0.238312E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.370687E+02    0.240521E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.385917E+02    0.223148E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.407827E+02    0.226964E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.407144E+02    0.245895E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.383650E+02    0.254660E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.364380E+02    0.266630E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.352953E+02    0.253942E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138250E+03   -0.350257E+02    0.238448E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.359094E+02    0.222430E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.378310E+02    0.209080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.398977E+02    0.205424E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.418547E+02    0.209895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.431524E+02    0.221522E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.433448E+02    0.237896E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.423141E+02    0.255079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.404267E+02    0.267750E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.383557E+02    0.271354E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.362816E+02    0.295367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138583E+03   -0.333349E+02    0.281782E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138867E+03   -0.320487E+02    0.255813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138760E+03   -0.325704E+02    0.225875E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.347590E+02    0.200088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.382758E+02    0.183158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.421083E+02    0.181157E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.452274E+02    0.194639E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.469755E+02    0.218180E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.464045E+02    0.248811E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.436084E+02    0.278430E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.399592E+02    0.294810E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    613466.745624401     
  ps_ts2 prof sum =   613107.579067671     
  trcom prof sum =    613107.579067671     
  ps_ts2 cur sum  =   9022.81402574627     
  trcom cur sum  =    9022.81402574626     
  
  antenna # iant =            2
  powecha_use(iant) =    667262.350378266     
  ps_ts2 prof sum =   666878.115271117     
  trcom prof sum =    666878.115271117     
  ps_ts2 cur sum  =   12069.6262483233     
  trcom cur sum  =    12069.6262483232     
  
  antenna # iant =            3
  powecha_use(iant) =    516484.792718569     
  ps_ts2 prof sum =   516173.201945912     
  trcom prof sum =    516173.201945912     
  ps_ts2 cur sum  =   6498.10221971816     
  trcom cur sum  =    6498.10221971816     
  
  antenna # iant =            4
  powecha_use(iant) =    576841.564901897     
  ps_ts2 prof sum =   576522.278631779     
  trcom prof sum =    576522.278631779     
  ps_ts2 cur sum  =   9401.31791465071     
  trcom cur sum  =    9401.31791465070     
  
  antenna # iant =            5
  powecha_use(iant) =    556270.852693049     
  ps_ts2 prof sum =   555971.935027577     
  trcom prof sum =    555971.935027577     
  ps_ts2 cur sum  =   11210.1301484701     
  trcom cur sum  =    11210.1301484701     
  
  Total ECH heating:      2928653.10994405     
  Total Current Drive:    48201.9905569085     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 LH call, timestep(sec):  4.3000E+00  4.3050E+00 total power(Watts):  0.0000E+00
 call geqdsk_write198927D05_ps.geqdsk
 -------------------------------------------------
Genray calculations for TA=         4.30000
 -------------------------------------------------
Intializing GENRAY...
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
Beginning calculations for source     1
 zcmd= cp ../198927D05_genray_lhh.in genray_LH.in
  
 transcribe:  max line length =          90
 transcribe:  complete
 
 in default_in after set data for /genr/
 r0x=   1.00000000000000     
 b0=   1.00000000000000     
 outdat=zrn.dat             
 stat=new
 mnemonic=genray
 rayop=both    
 dielectric_op=disabled
 partner=disabled                        
 default_in k,i,tpop1(k,i)           1           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           1   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           1   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           1   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           2   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           2   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           2   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           3   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           3   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           3   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           4   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           4   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           4   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           5   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           5   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           5   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           6   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           6   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           6   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           7   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           7   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           7   1.00000000000000     
 default_in k,i,tpop1(k,i)           1           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           2           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           3           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           4           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           5           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           6           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           7           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           8           8   1.00000000000000     
 default_in k,i,tpop1(k,i)           9           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          10           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          11           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          12           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          13           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          14           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          15           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          16           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          17           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          18           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          19           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          20           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          21           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          22           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          23           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          24           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          25           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          26           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          27           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          28           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          29           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          30           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          31           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          32           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          33           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          34           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          35           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          36           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          37           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          38           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          39           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          40           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          41           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          42           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          43           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          44           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          45           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          46           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          47           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          48           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          49           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          50           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          51           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          52           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          53           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          54           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          55           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          56           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          57           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          58           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          59           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          60           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          61           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          62           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          63           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          64           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          65           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          66           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          67           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          68           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          69           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          70           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          71           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          72           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          73           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          74           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          75           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          76           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          77           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          78           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          79           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          80           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          81           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          82           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          83           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          84           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          85           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          86           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          87           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          88           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          89           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          90           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          91           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          92           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          93           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          94           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          95           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          96           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          97           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          98           8   1.00000000000000     
 default_in k,i,tpop1(k,i)          99           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         100           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         101           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         102           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         103           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         104           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         105           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         106           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         107           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         108           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         109           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         110           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         111           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         112           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         113           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         114           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         115           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         116           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         117           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         118           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         119           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         120           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         121           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         122           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         123           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         124           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         125           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         126           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         127           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         128           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         129           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         130           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         131           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         132           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         133           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         134           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         135           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         136           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         137           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         138           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         139           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         140           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         141           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         142           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         143           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         144           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         145           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         146           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         147           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         148           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         149           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         150           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         151           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         152           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         153           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         154           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         155           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         156           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         157           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         158           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         159           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         160           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         161           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         162           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         163           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         164           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         165           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         166           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         167           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         168           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         169           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         170           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         171           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         172           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         173           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         174           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         175           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         176           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         177           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         178           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         179           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         180           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         181           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         182           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         183           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         184           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         185           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         186           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         187           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         188           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         189           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         190           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         191           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         192           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         193           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         194           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         195           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         196           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         197           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         198           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         199           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         200           8   1.00000000000000     
 default_in k,i,tpop1(k,i)         201           8   1.00000000000000     
 nj_tab_tpop1         201         201         201         201         201
         201         201         201
 i_genray_in_transformation           1
 in subroutine read_all_namelists 1
 in read_all_namelists after open file=genray.dat kode          29
 kode=           0
 ======== USING genray.in ===========
 in read_all_namelists after read genr kode=           0
 print data from /genr/ obtained from input
  prepare_genray_input after read tokamak kode=           0
 Tokamak data
 deltripl,nloop,i_ripple  0.000000000000000E+000          24           1
 &GRILL
 I_N_POLOIDAL    =           1,
 N_THETA_POL     =  0.000000000000000E+000,
 KSI_NPERP       =  0.000000000000000E+000,
 I_RHO_CUTOFF    =           0,
 RHO_STEP_FIND_LHFW_CUTOFF       =  1.000000000000000E-003,
 RHO_INITIAL_FIND_LHFW_CUTOFF    =  0.999000000000000     ,
 NGRILLD =           0,
 NGRILL  =           1,
 IGRILLPW        =           3,
 IGRILLTW        =           2,
 RHOPSI0 =  0.980000000000000     , 9*0.000000000000000E+000  ,
 THGRILL =   45.0000000000000     , 9*0.000000000000000E+000  ,
 PHIGRILL        =   180.000000000000     , 9*0.000000000000000E+000  ,
 HEIGHT  =  0.210000000000000     , 9*0.000000000000000E+000  ,
 NTHIN   =           1, 9*0,
 ANMIN   =   3.00000000000000     , 9*0.000000000000000E+000  ,
 ANMAX   =  0.300000000000000     , 9*0.000000000000000E+000  ,
 NNKPAR  =           1, 9*0,
 POWERS  =   1000000.00000000     , 9*0.000000000000000E+000  ,
 ANTORMIN        =  0.100000000000000     , 9*0.000000000000000E+000  ,
 ANTORMAX        =   1.00000000000000     , 9*0.000000000000000E+000  ,
 NNKTOR  =           1, 9*0,
 ANPOLMIN        = -4.774650000000000E-002, 9*0.000000000000000E+000  ,
 ANPOLMAX        =  4.774650000000000E-002, 9*0.000000000000000E+000  ,
 NNKPOL  =           3, 9*0,
 ILAUNCH =           0,
 R0LAUNCH        =   1.60000000000000     ,
 Z0LAUNCH        =  0.000000000000000E+000,
 PHI0LAUNCH      =  0.000000000000000E+000,
 I_GRILL_POL_MESH        =           1,
 I_GRILL_NPAR_NTOR_NPOL_MESH     =           1
 /
 from grill i_n_poloidal,ngrill           1           1
 powtott=sum{input powers}=   1000000.00000000     
 in read_write_genray_input.f after read(numercl)
 &NUMERCL
 IRKMETH =           2,
 NDIM1   =           6,
 ISOLV   =           1,
 IDIF    =           2,
 NRELT   =        4001,
 PRMT1   =  0.000000000000000E+000,
 PRMT2   =   999900.000000000     ,
 PRMT3   =  1.000000000000000E-002,
 PRMT4   =  5.000000000000000E-003,
 PRMT6   =  5.000000000000000E-003,
 PRMT9   =  1.000000000000000E+015,
 ICORRECT        =           0,
 IOUT3D  = enable              ,
 MAXSTEPS_RK     =       10000,
 I_OUTPUT        =           1,
 I_UH_SWITCH     =           0,
 UH_SWITCH       =   1.50000000000000     ,
 PRMT6_UH_SWITCH =  1.000000000000000E-005,
 TOLL_HAMILT     =  1.000000000000000E-003,
 DL_STEP =  1.000000000000000E-003,
 DN_STEP =  1.000000000000000E-002,
 DER_R   =  1.000000000000000E-006,
 DER_N   =  1.000000000000000E-006,
 DER_F   =  1.000000000000000E-004,
 I_POWER_SWITCH_RESONANCE        =           0,
 PRMT6_POWER_SWITCH_RESONANCE    =  2.000000000000000E-003,
 N_POWER_SWITCH_RESONANCE        =           1,
 Y_POWER_SWITCH_RESONANCE        =  0.500000000000000     , 2*0.000000000000000E+000  ,
 DEL_Y_POWER_SWITCH_RESONANCE    =  1.000000000000000E-002,
 I_RESONANCE_CURVE_INTEGRATION_METHOD    =           4,
 EPSI    =  1.000000000000000E-005,
 EPS_DELTA_POW   =   10000000000.0000     
 /
 in read_all prmt=  0.000000000000000E+000   999900.000000000     
  1.000000000000000E-002  5.000000000000000E-003  0.000000000000000E+000
  5.000000000000000E-003  0.000000000000000E+000  0.000000000000000E+000
  1.000000000000000E+015
 &OUTPUT
 IWCNTR  =           0,
 IWOPEN  =           1,
 IWJ     =           1,
 ITOOLS  =           0,
 I_PLOT_B        =           0,
 I_PLOT_D        =           0,
 N_PLOT_DISP     =           0,
 R_PLOT_DISP     = 100*0.000000000000000E+000  ,
 ID_PLOT_DISP    =           4,
 Z_PLOT_DISP     = 100*0.000000000000000E+000  ,
 N_PARALLEL_PLOT_DISP    = 100*0.000000000000000E+000  ,
 MAX_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_R_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MAX_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 MIN_I_NPERP_PLOT_DISP   = 100*0.000000000000000E+000  ,
 S_POLOID_PLOT_DISP      = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP = poloidl_dist,
 I_PLOT_DISP_COLD        =           0,
 N_PLOT_DISP_COLD        =           0,
 S_POLOID_PLOT_DISP_COLD = 100*0.000000000000000E+000  ,
 R_PLOT_DISP_COLD        = 100*0.000000000000000E+000  ,
 POINT_PLOT_DISP_COLD    = poloidl_dist,
 I_PLOT_WAVE_NORMAL_COLD =           0,
 NUMBER_MAP_POINTS_REAL_NPERP    =          10,
 NUMBER_MAP_POINTS_IMAGE_NPERP   =          10,
 RATIO_MIN_R_NPERP       =  0.500000000000000     ,
 RATIO_MAX_R_NPERP       =   1.50000000000000     ,
 RATIO_MIN_I_NPERP       =  0.000000000000000E+000,
 RATIO_MAX_I_NPERP       =   2.50000000000000     ,
 N_CONTOUR_PLOT_DISP     =          20,
 R_FREQ  =   1.49000000000000     ,
 Z_FREQ  =  0.000000000000000E+000,
 ALPHA_FREQ      =   180.000000000000     ,
 BETA_FREQ       =   90.0000000000000     ,
 DIST_FREQ       =   1.28000000000000     ,
 MAX_PLOT_FREQ   =   200000000000.000     ,
 NSTEPS_FREQ     =         780,
 N_EC_HARMONICS_FREQ     =           6,
 NPAR_FREQ       =  0.000000000000000E+000
 /
 nbulk1=           3
 prepare_genray_input: partner=disabled                        
dens1=   1   1  0.6200E+20
dens1=   1 101  0.4650E+20
dens1=   2   1  0.6200E+20
dens1=   2 101  0.4650E+20
dens1=   3   1  0.0000E+00
dens1=   3 101  0.0000E+00
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= dentab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= dentab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= dentab
 end of read_uniform_column_profile, nametab=dentab
 ----------------------------------------------------
 read_all_namelists (dens reading) kode=           0
dens1=   1   1  0.4737E+20
dens1=   1 101  0.7103E+19
dens1=   2   1  0.3991E+20
dens1=   2 101  0.5970E+19
dens1=   3   1  0.1243E+19
dens1=   3 101  0.1887E+18
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= temtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= temtab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= temtab
 end of read_uniform_column_profile, nametab=temtab
 ----------------------------------------------------
 at temperature reading kode=           0
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= tpoptab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= tpoptab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist tpoptab was detected.
It can be that namelist tpoptab is absent in genray.in file
Check data in tpoptab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= tpoptab
 end of read_uniform_column_profile, nametab=tpoptab
 ----------------------------------------------------
 at tpop reading kode=          -1
 end of input file was detected at reading
 tpoptab or tpoptab_nonuniform_line
 data will be set in default_in
 k,i,tpop1(k,i)           1           1   1.00000000000000     
 k,i,tpop1(k,i)           2           1   1.00000000000000     
 k,i,tpop1(k,i)           3           1   1.00000000000000     
 k,i,tpop1(k,i)           4           1   1.00000000000000     
 k,i,tpop1(k,i)           5           1   1.00000000000000     
 k,i,tpop1(k,i)           6           1   1.00000000000000     
 k,i,tpop1(k,i)           7           1   1.00000000000000     
 k,i,tpop1(k,i)           8           1   1.00000000000000     
 k,i,tpop1(k,i)           9           1   1.00000000000000     
 k,i,tpop1(k,i)          10           1   1.00000000000000     
 k,i,tpop1(k,i)          11           1   1.00000000000000     
 k,i,tpop1(k,i)          12           1   1.00000000000000     
 k,i,tpop1(k,i)          13           1   1.00000000000000     
 k,i,tpop1(k,i)          14           1   1.00000000000000     
 k,i,tpop1(k,i)          15           1   1.00000000000000     
 k,i,tpop1(k,i)          16           1   1.00000000000000     
 k,i,tpop1(k,i)          17           1   1.00000000000000     
 k,i,tpop1(k,i)          18           1   1.00000000000000     
 k,i,tpop1(k,i)          19           1   1.00000000000000     
 k,i,tpop1(k,i)          20           1   1.00000000000000     
 k,i,tpop1(k,i)          21           1   1.00000000000000     
 k,i,tpop1(k,i)          22           1   1.00000000000000     
 k,i,tpop1(k,i)          23           1   1.00000000000000     
 k,i,tpop1(k,i)          24           1   1.00000000000000     
 k,i,tpop1(k,i)          25           1   1.00000000000000     
 k,i,tpop1(k,i)          26           1   1.00000000000000     
 k,i,tpop1(k,i)          27           1   1.00000000000000     
 k,i,tpop1(k,i)          28           1   1.00000000000000     
 k,i,tpop1(k,i)          29           1   1.00000000000000     
 k,i,tpop1(k,i)          30           1   1.00000000000000     
 k,i,tpop1(k,i)          31           1   1.00000000000000     
 k,i,tpop1(k,i)          32           1   1.00000000000000     
 k,i,tpop1(k,i)          33           1   1.00000000000000     
 k,i,tpop1(k,i)          34           1   1.00000000000000     
 k,i,tpop1(k,i)          35           1   1.00000000000000     
 k,i,tpop1(k,i)          36           1   1.00000000000000     
 k,i,tpop1(k,i)          37           1   1.00000000000000     
 k,i,tpop1(k,i)          38           1   1.00000000000000     
 k,i,tpop1(k,i)          39           1   1.00000000000000     
 k,i,tpop1(k,i)          40           1   1.00000000000000     
 k,i,tpop1(k,i)          41           1   1.00000000000000     
 k,i,tpop1(k,i)          42           1   1.00000000000000     
 k,i,tpop1(k,i)          43           1   1.00000000000000     
 k,i,tpop1(k,i)          44           1   1.00000000000000     
 k,i,tpop1(k,i)          45           1   1.00000000000000     
 k,i,tpop1(k,i)          46           1   1.00000000000000     
 k,i,tpop1(k,i)          47           1   1.00000000000000     
 k,i,tpop1(k,i)          48           1   1.00000000000000     
 k,i,tpop1(k,i)          49           1   1.00000000000000     
 k,i,tpop1(k,i)          50           1   1.00000000000000     
 k,i,tpop1(k,i)          51           1   1.00000000000000     
 k,i,tpop1(k,i)          52           1   1.00000000000000     
 k,i,tpop1(k,i)          53           1   1.00000000000000     
 k,i,tpop1(k,i)          54           1   1.00000000000000     
 k,i,tpop1(k,i)          55           1   1.00000000000000     
 k,i,tpop1(k,i)          56           1   1.00000000000000     
 k,i,tpop1(k,i)          57           1   1.00000000000000     
 k,i,tpop1(k,i)          58           1   1.00000000000000     
 k,i,tpop1(k,i)          59           1   1.00000000000000     
 k,i,tpop1(k,i)          60           1   1.00000000000000     
 k,i,tpop1(k,i)          61           1   1.00000000000000     
 k,i,tpop1(k,i)          62           1   1.00000000000000     
 k,i,tpop1(k,i)          63           1   1.00000000000000     
 k,i,tpop1(k,i)          64           1   1.00000000000000     
 k,i,tpop1(k,i)          65           1   1.00000000000000     
 k,i,tpop1(k,i)          66           1   1.00000000000000     
 k,i,tpop1(k,i)          67           1   1.00000000000000     
 k,i,tpop1(k,i)          68           1   1.00000000000000     
 k,i,tpop1(k,i)          69           1   1.00000000000000     
 k,i,tpop1(k,i)          70           1   1.00000000000000     
 k,i,tpop1(k,i)          71           1   1.00000000000000     
 k,i,tpop1(k,i)          72           1   1.00000000000000     
 k,i,tpop1(k,i)          73           1   1.00000000000000     
 k,i,tpop1(k,i)          74           1   1.00000000000000     
 k,i,tpop1(k,i)          75           1   1.00000000000000     
 k,i,tpop1(k,i)          76           1   1.00000000000000     
 k,i,tpop1(k,i)          77           1   1.00000000000000     
 k,i,tpop1(k,i)          78           1   1.00000000000000     
 k,i,tpop1(k,i)          79           1   1.00000000000000     
 k,i,tpop1(k,i)          80           1   1.00000000000000     
 k,i,tpop1(k,i)          81           1   1.00000000000000     
 k,i,tpop1(k,i)          82           1   1.00000000000000     
 k,i,tpop1(k,i)          83           1   1.00000000000000     
 k,i,tpop1(k,i)          84           1   1.00000000000000     
 k,i,tpop1(k,i)          85           1   1.00000000000000     
 k,i,tpop1(k,i)          86           1   1.00000000000000     
 k,i,tpop1(k,i)          87           1   1.00000000000000     
 k,i,tpop1(k,i)          88           1   1.00000000000000     
 k,i,tpop1(k,i)          89           1   1.00000000000000     
 k,i,tpop1(k,i)          90           1   1.00000000000000     
 k,i,tpop1(k,i)          91           1   1.00000000000000     
 k,i,tpop1(k,i)          92           1   1.00000000000000     
 k,i,tpop1(k,i)          93           1   1.00000000000000     
 k,i,tpop1(k,i)          94           1   1.00000000000000     
 k,i,tpop1(k,i)          95           1   1.00000000000000     
 k,i,tpop1(k,i)          96           1   1.00000000000000     
 k,i,tpop1(k,i)          97           1   1.00000000000000     
 k,i,tpop1(k,i)          98           1   1.00000000000000     
 k,i,tpop1(k,i)          99           1   1.00000000000000     
 k,i,tpop1(k,i)         100           1   1.00000000000000     
 k,i,tpop1(k,i)         101           1   1.00000000000000     
 k,i,tpop1(k,i)           1           2   1.00000000000000     
 k,i,tpop1(k,i)           2           2   1.00000000000000     
 k,i,tpop1(k,i)           3           2   1.00000000000000     
 k,i,tpop1(k,i)           4           2   1.00000000000000     
 k,i,tpop1(k,i)           5           2   1.00000000000000     
 k,i,tpop1(k,i)           6           2   1.00000000000000     
 k,i,tpop1(k,i)           7           2   1.00000000000000     
 k,i,tpop1(k,i)           8           2   1.00000000000000     
 k,i,tpop1(k,i)           9           2   1.00000000000000     
 k,i,tpop1(k,i)          10           2   1.00000000000000     
 k,i,tpop1(k,i)          11           2   1.00000000000000     
 k,i,tpop1(k,i)          12           2   1.00000000000000     
 k,i,tpop1(k,i)          13           2   1.00000000000000     
 k,i,tpop1(k,i)          14           2   1.00000000000000     
 k,i,tpop1(k,i)          15           2   1.00000000000000     
 k,i,tpop1(k,i)          16           2   1.00000000000000     
 k,i,tpop1(k,i)          17           2   1.00000000000000     
 k,i,tpop1(k,i)          18           2   1.00000000000000     
 k,i,tpop1(k,i)          19           2   1.00000000000000     
 k,i,tpop1(k,i)          20           2   1.00000000000000     
 k,i,tpop1(k,i)          21           2   1.00000000000000     
 k,i,tpop1(k,i)          22           2   1.00000000000000     
 k,i,tpop1(k,i)          23           2   1.00000000000000     
 k,i,tpop1(k,i)          24           2   1.00000000000000     
 k,i,tpop1(k,i)          25           2   1.00000000000000     
 k,i,tpop1(k,i)          26           2   1.00000000000000     
 k,i,tpop1(k,i)          27           2   1.00000000000000     
 k,i,tpop1(k,i)          28           2   1.00000000000000     
 k,i,tpop1(k,i)          29           2   1.00000000000000     
 k,i,tpop1(k,i)          30           2   1.00000000000000     
 k,i,tpop1(k,i)          31           2   1.00000000000000     
 k,i,tpop1(k,i)          32           2   1.00000000000000     
 k,i,tpop1(k,i)          33           2   1.00000000000000     
 k,i,tpop1(k,i)          34           2   1.00000000000000     
 k,i,tpop1(k,i)          35           2   1.00000000000000     
 k,i,tpop1(k,i)          36           2   1.00000000000000     
 k,i,tpop1(k,i)          37           2   1.00000000000000     
 k,i,tpop1(k,i)          38           2   1.00000000000000     
 k,i,tpop1(k,i)          39           2   1.00000000000000     
 k,i,tpop1(k,i)          40           2   1.00000000000000     
 k,i,tpop1(k,i)          41           2   1.00000000000000     
 k,i,tpop1(k,i)          42           2   1.00000000000000     
 k,i,tpop1(k,i)          43           2   1.00000000000000     
 k,i,tpop1(k,i)          44           2   1.00000000000000     
 k,i,tpop1(k,i)          45           2   1.00000000000000     
 k,i,tpop1(k,i)          46           2   1.00000000000000     
 k,i,tpop1(k,i)          47           2   1.00000000000000     
 k,i,tpop1(k,i)          48           2   1.00000000000000     
 k,i,tpop1(k,i)          49           2   1.00000000000000     
 k,i,tpop1(k,i)          50           2   1.00000000000000     
 k,i,tpop1(k,i)          51           2   1.00000000000000     
 k,i,tpop1(k,i)          52           2   1.00000000000000     
 k,i,tpop1(k,i)          53           2   1.00000000000000     
 k,i,tpop1(k,i)          54           2   1.00000000000000     
 k,i,tpop1(k,i)          55           2   1.00000000000000     
 k,i,tpop1(k,i)          56           2   1.00000000000000     
 k,i,tpop1(k,i)          57           2   1.00000000000000     
 k,i,tpop1(k,i)          58           2   1.00000000000000     
 k,i,tpop1(k,i)          59           2   1.00000000000000     
 k,i,tpop1(k,i)          60           2   1.00000000000000     
 k,i,tpop1(k,i)          61           2   1.00000000000000     
 k,i,tpop1(k,i)          62           2   1.00000000000000     
 k,i,tpop1(k,i)          63           2   1.00000000000000     
 k,i,tpop1(k,i)          64           2   1.00000000000000     
 k,i,tpop1(k,i)          65           2   1.00000000000000     
 k,i,tpop1(k,i)          66           2   1.00000000000000     
 k,i,tpop1(k,i)          67           2   1.00000000000000     
 k,i,tpop1(k,i)          68           2   1.00000000000000     
 k,i,tpop1(k,i)          69           2   1.00000000000000     
 k,i,tpop1(k,i)          70           2   1.00000000000000     
 k,i,tpop1(k,i)          71           2   1.00000000000000     
 k,i,tpop1(k,i)          72           2   1.00000000000000     
 k,i,tpop1(k,i)          73           2   1.00000000000000     
 k,i,tpop1(k,i)          74           2   1.00000000000000     
 k,i,tpop1(k,i)          75           2   1.00000000000000     
 k,i,tpop1(k,i)          76           2   1.00000000000000     
 k,i,tpop1(k,i)          77           2   1.00000000000000     
 k,i,tpop1(k,i)          78           2   1.00000000000000     
 k,i,tpop1(k,i)          79           2   1.00000000000000     
 k,i,tpop1(k,i)          80           2   1.00000000000000     
 k,i,tpop1(k,i)          81           2   1.00000000000000     
 k,i,tpop1(k,i)          82           2   1.00000000000000     
 k,i,tpop1(k,i)          83           2   1.00000000000000     
 k,i,tpop1(k,i)          84           2   1.00000000000000     
 k,i,tpop1(k,i)          85           2   1.00000000000000     
 k,i,tpop1(k,i)          86           2   1.00000000000000     
 k,i,tpop1(k,i)          87           2   1.00000000000000     
 k,i,tpop1(k,i)          88           2   1.00000000000000     
 k,i,tpop1(k,i)          89           2   1.00000000000000     
 k,i,tpop1(k,i)          90           2   1.00000000000000     
 k,i,tpop1(k,i)          91           2   1.00000000000000     
 k,i,tpop1(k,i)          92           2   1.00000000000000     
 k,i,tpop1(k,i)          93           2   1.00000000000000     
 k,i,tpop1(k,i)          94           2   1.00000000000000     
 k,i,tpop1(k,i)          95           2   1.00000000000000     
 k,i,tpop1(k,i)          96           2   1.00000000000000     
 k,i,tpop1(k,i)          97           2   1.00000000000000     
 k,i,tpop1(k,i)          98           2   1.00000000000000     
 k,i,tpop1(k,i)          99           2   1.00000000000000     
 k,i,tpop1(k,i)         100           2   1.00000000000000     
 k,i,tpop1(k,i)         101           2   1.00000000000000     
 k,i,tpop1(k,i)           1           3   1.00000000000000     
 k,i,tpop1(k,i)           2           3   1.00000000000000     
 k,i,tpop1(k,i)           3           3   1.00000000000000     
 k,i,tpop1(k,i)           4           3   1.00000000000000     
 k,i,tpop1(k,i)           5           3   1.00000000000000     
 k,i,tpop1(k,i)           6           3   1.00000000000000     
 k,i,tpop1(k,i)           7           3   1.00000000000000     
 k,i,tpop1(k,i)           8           3   1.00000000000000     
 k,i,tpop1(k,i)           9           3   1.00000000000000     
 k,i,tpop1(k,i)          10           3   1.00000000000000     
 k,i,tpop1(k,i)          11           3   1.00000000000000     
 k,i,tpop1(k,i)          12           3   1.00000000000000     
 k,i,tpop1(k,i)          13           3   1.00000000000000     
 k,i,tpop1(k,i)          14           3   1.00000000000000     
 k,i,tpop1(k,i)          15           3   1.00000000000000     
 k,i,tpop1(k,i)          16           3   1.00000000000000     
 k,i,tpop1(k,i)          17           3   1.00000000000000     
 k,i,tpop1(k,i)          18           3   1.00000000000000     
 k,i,tpop1(k,i)          19           3   1.00000000000000     
 k,i,tpop1(k,i)          20           3   1.00000000000000     
 k,i,tpop1(k,i)          21           3   1.00000000000000     
 k,i,tpop1(k,i)          22           3   1.00000000000000     
 k,i,tpop1(k,i)          23           3   1.00000000000000     
 k,i,tpop1(k,i)          24           3   1.00000000000000     
 k,i,tpop1(k,i)          25           3   1.00000000000000     
 k,i,tpop1(k,i)          26           3   1.00000000000000     
 k,i,tpop1(k,i)          27           3   1.00000000000000     
 k,i,tpop1(k,i)          28           3   1.00000000000000     
 k,i,tpop1(k,i)          29           3   1.00000000000000     
 k,i,tpop1(k,i)          30           3   1.00000000000000     
 k,i,tpop1(k,i)          31           3   1.00000000000000     
 k,i,tpop1(k,i)          32           3   1.00000000000000     
 k,i,tpop1(k,i)          33           3   1.00000000000000     
 k,i,tpop1(k,i)          34           3   1.00000000000000     
 k,i,tpop1(k,i)          35           3   1.00000000000000     
 k,i,tpop1(k,i)          36           3   1.00000000000000     
 k,i,tpop1(k,i)          37           3   1.00000000000000     
 k,i,tpop1(k,i)          38           3   1.00000000000000     
 k,i,tpop1(k,i)          39           3   1.00000000000000     
 k,i,tpop1(k,i)          40           3   1.00000000000000     
 k,i,tpop1(k,i)          41           3   1.00000000000000     
 k,i,tpop1(k,i)          42           3   1.00000000000000     
 k,i,tpop1(k,i)          43           3   1.00000000000000     
 k,i,tpop1(k,i)          44           3   1.00000000000000     
 k,i,tpop1(k,i)          45           3   1.00000000000000     
 k,i,tpop1(k,i)          46           3   1.00000000000000     
 k,i,tpop1(k,i)          47           3   1.00000000000000     
 k,i,tpop1(k,i)          48           3   1.00000000000000     
 k,i,tpop1(k,i)          49           3   1.00000000000000     
 k,i,tpop1(k,i)          50           3   1.00000000000000     
 k,i,tpop1(k,i)          51           3   1.00000000000000     
 k,i,tpop1(k,i)          52           3   1.00000000000000     
 k,i,tpop1(k,i)          53           3   1.00000000000000     
 k,i,tpop1(k,i)          54           3   1.00000000000000     
 k,i,tpop1(k,i)          55           3   1.00000000000000     
 k,i,tpop1(k,i)          56           3   1.00000000000000     
 k,i,tpop1(k,i)          57           3   1.00000000000000     
 k,i,tpop1(k,i)          58           3   1.00000000000000     
 k,i,tpop1(k,i)          59           3   1.00000000000000     
 k,i,tpop1(k,i)          60           3   1.00000000000000     
 k,i,tpop1(k,i)          61           3   1.00000000000000     
 k,i,tpop1(k,i)          62           3   1.00000000000000     
 k,i,tpop1(k,i)          63           3   1.00000000000000     
 k,i,tpop1(k,i)          64           3   1.00000000000000     
 k,i,tpop1(k,i)          65           3   1.00000000000000     
 k,i,tpop1(k,i)          66           3   1.00000000000000     
 k,i,tpop1(k,i)          67           3   1.00000000000000     
 k,i,tpop1(k,i)          68           3   1.00000000000000     
 k,i,tpop1(k,i)          69           3   1.00000000000000     
 k,i,tpop1(k,i)          70           3   1.00000000000000     
 k,i,tpop1(k,i)          71           3   1.00000000000000     
 k,i,tpop1(k,i)          72           3   1.00000000000000     
 k,i,tpop1(k,i)          73           3   1.00000000000000     
 k,i,tpop1(k,i)          74           3   1.00000000000000     
 k,i,tpop1(k,i)          75           3   1.00000000000000     
 k,i,tpop1(k,i)          76           3   1.00000000000000     
 k,i,tpop1(k,i)          77           3   1.00000000000000     
 k,i,tpop1(k,i)          78           3   1.00000000000000     
 k,i,tpop1(k,i)          79           3   1.00000000000000     
 k,i,tpop1(k,i)          80           3   1.00000000000000     
 k,i,tpop1(k,i)          81           3   1.00000000000000     
 k,i,tpop1(k,i)          82           3   1.00000000000000     
 k,i,tpop1(k,i)          83           3   1.00000000000000     
 k,i,tpop1(k,i)          84           3   1.00000000000000     
 k,i,tpop1(k,i)          85           3   1.00000000000000     
 k,i,tpop1(k,i)          86           3   1.00000000000000     
 k,i,tpop1(k,i)          87           3   1.00000000000000     
 k,i,tpop1(k,i)          88           3   1.00000000000000     
 k,i,tpop1(k,i)          89           3   1.00000000000000     
 k,i,tpop1(k,i)          90           3   1.00000000000000     
 k,i,tpop1(k,i)          91           3   1.00000000000000     
 k,i,tpop1(k,i)          92           3   1.00000000000000     
 k,i,tpop1(k,i)          93           3   1.00000000000000     
 k,i,tpop1(k,i)          94           3   1.00000000000000     
 k,i,tpop1(k,i)          95           3   1.00000000000000     
 k,i,tpop1(k,i)          96           3   1.00000000000000     
 k,i,tpop1(k,i)          97           3   1.00000000000000     
 k,i,tpop1(k,i)          98           3   1.00000000000000     
 k,i,tpop1(k,i)          99           3   1.00000000000000     
 k,i,tpop1(k,i)         100           3   1.00000000000000     
 k,i,tpop1(k,i)         101           3   1.00000000000000     
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= vflowtab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= vflowtab
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist vflowtab was detected.
It can be that namelist vflowtab is absent in genray.in file
Check data in vflowtab in the file genray.in
 **************************************************
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= vflowtab
 end of read_uniform_column_profile, nametab=vflowtab
 ----------------------------------------------------
 at vflow reading kode=          -1
 end of input file was detected at reading
 vflowtab or vflowtab_nonuniform_line
 data will be set in default_in
 ----------------------------------------------------
 in subroutine read_uniform_column_profile
 nametab= zeftab
 nbulk,ndens            3         101
 after bcast(prof2_uniform(1,1),1.d0,ndensa*nbulka)
 in read_uniform_column_profile  1 nametab= zeftab
 in read_uniform_column_profile after read(i_unit,..,nametab,)
 nametab= zeftab
 end of read_uniform_column_profile, nametab=zeftab
 ----------------------------------------------------
 &ZEFTAB
 ZEFF1   =   1.78746000000000     ,   1.78810000000000     ,   1.78924000000000     ,   1.79138000000000     ,
    1.79522000000000     ,   1.80125000000000     ,   1.80698000000000     ,   1.80623000000000     ,   1.79529000000000     ,
    1.78119000000000     ,   1.76794000000000     ,   1.75935000000000     ,   1.75267000000000     ,   1.74489000000000     ,
    1.73497000000000     ,   1.71961000000000     ,   1.70039000000000     ,   1.67911000000000     ,   1.65895000000000     ,
    1.64299000000000     ,   1.63076000000000     ,   1.62129000000000     ,   1.61470000000000     ,   1.61130000000000     ,
    1.60974000000000     ,   1.60917000000000     ,   1.60862000000000     ,   1.61040000000000     ,   1.61581000000000     ,
    1.62400000000000     ,   1.63343000000000     ,   1.64287000000000     ,   1.65109000000000     ,   1.65771000000000     ,
    1.66333000000000     ,   1.66881000000000     ,   1.67409000000000     ,   1.67868000000000     ,   1.68237000000000     ,
    1.68473000000000     ,   1.68560000000000     ,   1.68516000000000     ,   1.68521000000000     ,   1.68693000000000     ,
    1.68983000000000     ,   1.69331000000000     ,   1.69682000000000     ,   1.69980000000000     ,   1.70195000000000     ,
    1.70584000000000     ,   1.71317000000000     ,   1.72393000000000     ,   1.73813000000000     ,   1.75583000000000     ,
    1.77579000000000     ,   1.79504000000000     ,   1.81265000000000     ,   1.82781000000000     ,   1.83966000000000     ,
    1.84797000000000     ,   1.85341000000000     ,   1.85673000000000     ,   1.85651000000000     ,   1.85289000000000     ,
    1.84763000000000     ,   1.84254000000000     ,   1.83931000000000     ,   1.83887000000000     ,   1.84099000000000     ,
    1.84569000000000     ,   1.85255000000000     ,   1.86033000000000     ,   1.86669000000000     ,   1.86997000000000     ,
    1.86936000000000     ,   1.86839000000000     ,   1.87181000000000     ,   1.87730000000000     ,   1.88296000000000     ,
    1.88925000000000     ,   1.89234000000000     ,   1.89087000000000     ,   1.88643000000000     ,   1.88077000000000     ,
    1.87372000000000     ,   1.86679000000000     ,   1.86076000000000     ,   1.85538000000000     ,   1.84996000000000     ,
    1.84421000000000     ,   1.83825000000000     ,   1.83147000000000     ,   1.82403000000000     ,   1.81729000000000     ,
    1.81150000000000     ,   1.80739000000000     ,   1.80626000000000     ,   1.80663000000000     ,   1.80705000000000     ,
    1.80131000000000     ,   1.79706000000000     , 100*1.00000000000000        
 /
 after read zeff1   1.78746000000000        1.78810000000000     
   1.78924000000000        1.79138000000000        1.79522000000000     
   1.80125000000000        1.80698000000000        1.80623000000000     
   1.79529000000000        1.78119000000000        1.76794000000000     
   1.75935000000000        1.75267000000000        1.74489000000000     
   1.73497000000000        1.71961000000000        1.70039000000000     
   1.67911000000000        1.65895000000000        1.64299000000000     
   1.63076000000000        1.62129000000000        1.61470000000000     
   1.61130000000000        1.60974000000000        1.60917000000000     
   1.60862000000000        1.61040000000000        1.61581000000000     
   1.62400000000000        1.63343000000000        1.64287000000000     
   1.65109000000000        1.65771000000000        1.66333000000000     
   1.66881000000000        1.67409000000000        1.67868000000000     
   1.68237000000000        1.68473000000000        1.68560000000000     
   1.68516000000000        1.68521000000000        1.68693000000000     
   1.68983000000000        1.69331000000000        1.69682000000000     
   1.69980000000000        1.70195000000000        1.70584000000000     
   1.71317000000000        1.72393000000000        1.73813000000000     
   1.75583000000000        1.77579000000000        1.79504000000000     
   1.81265000000000        1.82781000000000        1.83966000000000     
   1.84797000000000        1.85341000000000        1.85673000000000     
   1.85651000000000        1.85289000000000        1.84763000000000     
   1.84254000000000        1.83931000000000        1.83887000000000     
   1.84099000000000        1.84569000000000        1.85255000000000     
   1.86033000000000        1.86669000000000        1.86997000000000     
   1.86936000000000        1.86839000000000        1.87181000000000     
   1.87730000000000        1.88296000000000        1.88925000000000     
   1.89234000000000        1.89087000000000        1.88643000000000     
   1.88077000000000        1.87372000000000        1.86679000000000     
   1.86076000000000        1.85538000000000        1.84996000000000     
   1.84421000000000        1.83825000000000        1.83147000000000     
   1.82403000000000        1.81729000000000        1.81150000000000     
   1.80739000000000        1.80626000000000        1.80663000000000     
   1.80705000000000        1.80131000000000        1.79706000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000        1.00000000000000        1.00000000000000     
   1.00000000000000     
 at zeff reading kode=           0
 in read_all_namelists after
   read_uniform_column_profile 
   or read_nonuniform_line_profile
 nj_tab_zeff1         201         201         201         201         201
         201         201         201
 before read_diskf
 after read_diskf
 before emission
 after emission
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist emission was detected.
It can be that namelist emission is absent in genray.in file
Check data in emission in the file genray.in
 **************************************************
 before ox
 after ox
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist ox was detected.
It can be that namelist ox is absent in genray.in file
Check data in ox in the file genray.in
 **************************************************
 before read adj_nml
 after  read adj_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist adj_nml was detected.
It can be that namelist adj_nml is absent in genray.in file
Check data in adj_nml in the file genray.in
 **************************************************
 in read_write_genray_input.f i_adj=           0
 Resetting i_adj to 0 for ieffic=           2
 before edge_prof_nml
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist edge_prof_nml was detected.
It can be that namelist edge_prof_nml is absent in genray.in file
Check data in edge_prof_nml in the file genray.in
 **************************************************
 after  edge_prof_nml
 &EDGE_PROF_NML
 I_EDGE_DENS_ANAL        =           0,
 I_EDGE_DENS_RZ_MESH     =           0,
 N_POL_EDGE_DENS =         100,
 SIGMEDGN        =  2.000000000000000E-002,
 SIGMEDGT        =  2.000000000000000E-002,
 THETA_POL_EDGE_DENS_AR_DEGREE   =  0.000000000000000E+000,   3.63636363636364     ,   7.27272727272727     ,   10.9090909090909     
 ,   14.5454545454545     ,   18.1818181818182     ,   21.8181818181818     ,   25.4545454545455     ,   29.0909090909091     ,
    32.7272727272727     ,   36.3636363636364     ,   40.0000000000000     ,   43.6363636363636     ,   47.2727272727273     ,
    50.9090909090909     ,   54.5454545454545     ,   58.1818181818182     ,   61.8181818181818     ,   65.4545454545455     ,
    69.0909090909091     ,   72.7272727272727     ,   76.3636363636364     ,   80.0000000000000     ,   83.6363636363636     ,
    87.2727272727273     ,   90.9090909090909     ,   94.5454545454546     ,   98.1818181818182     ,   101.818181818182     ,
    105.454545454545     ,   109.090909090909     ,   112.727272727273     ,   116.363636363636     ,   120.000000000000     ,
    123.636363636364     ,   127.272727272727     ,   130.909090909091     ,   134.545454545455     ,   138.181818181818     ,
    141.818181818182     ,   145.454545454545     ,   149.090909090909     ,   152.727272727273     ,   156.363636363636     ,
    160.000000000000     ,   163.636363636364     ,   167.272727272727     ,   170.909090909091     ,   174.545454545455     ,
    178.181818181818     ,   181.818181818182     ,   185.454545454545     ,   189.090909090909     ,   192.727272727273     ,
    196.363636363636     ,   200.000000000000     ,   203.636363636364     ,   207.272727272727     ,   210.909090909091     ,
    214.545454545455     ,   218.181818181818     ,   221.818181818182     ,   225.454545454545     ,   229.090909090909     ,
    232.727272727273     ,   236.363636363636     ,   240.000000000000     ,   243.636363636364     ,   247.272727272727     ,
    250.909090909091     ,   254.545454545455     ,   258.181818181818     ,   261.818181818182     ,   265.454545454545     ,
    269.090909090909     ,   272.727272727273     ,   276.363636363636     ,   280.000000000000     ,   283.636363636364     ,
    287.272727272727     ,   290.909090909091     ,   294.545454545455     ,   298.181818181818     ,   301.818181818182     ,
    305.454545454545     ,   309.090909090909     ,   312.727272727273     ,   316.363636363636     ,   320.000000000000     ,
    323.636363636364     ,   327.272727272727     ,   330.909090909091     ,   334.545454545455     ,   338.181818181818     ,
    341.818181818182     ,   345.454545454545     ,   349.090909090909     ,   352.727272727273     ,   356.363636363636     ,
    360.000000000000     ,
 SIGMEDGN_AR     = 100*2.000000000000000E-002  ,
 DENS_MIN_EDGE   =   10000000000000.0     ,
 TEMP_MIN_EDGE   =  1.000000000000000E-003,
 THETA_POL_EDGE_1_DEGREE =   90.0000000000000     ,
 THETA_POL_EDGE_2_DEGREE =   270.000000000000     ,
 SIGMA_THETA_POL_EDGE_1_DEGREE   =   90.0000000000000     ,
 SIGMA_THETA_POL_EDGE_2_DEGREE   =   90.0000000000000     ,
 SIGMA_EDGEN_0   =  2.000000000000000E-002,
 SIGMA_EDGEN_1   =  2.000000000000000E-002,
 SIGMA_EDGEN_2   =  2.000000000000000E-002,
 SIGMA_WALL_N    =  1.000000000000000E-003,
 SIGMA_LIM_TOROIDAL_DEGREE       =  1.000000000000000E-003,
 NXEQD_ADD       =        1000,
 NYEQD_ADD       =        1000
 /
 
 **************************************************
check_read has found the negative value of iostat
The end of input in the given namelist lsc_approach_nml was detected.
It can be that namelist lsc_approach_nml is absent in genray.in file
Check data in lsc_approach_nml in the file genray.in
 **************************************************
 &LSC_APPROACH_NML
 EDCTSC_MIN      =  1.000000000000000E-005,
 I_LSC_APPROACH  =           0,
 V_PAR_LSC_DEV_VTE_MAX   =   10.0000000000000     ,
 NV_LSC_QL_LH    =         100,
 N_PSI_TSC       =         200,
 ICOUNT_ITER_MAX =          20,
 EPS_DIFF_D_QL   =  1.000000000000000E-006,
 N_POWER_STEPS   =           1,
 N_DIM_RADII_F_PLOTS     =           2,
 N_RADII_F_PLOTS_AR      =         100,         133, 199*0
 /
 in prepare_genray_input.f end reading genray.in file
 after read_all_namelists
 after ps_rho_rezone: ierr=           0
 before write_all_namelists
 in subroutine  write_uniform_column_profile
 nametab=dentab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= dentab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=temtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= temtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=tpoptab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= tpoptab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=vflowtab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= vflowtab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 in subroutine  write_uniform_column_profile
 nametab=zeftab
 nbulk,ndens           3         201
 in write_uniform_column_profile, nametab= zeftab
 in write_uniform_column_profile
 after write(i_unit,..,nametab,)
 transcribe:  max line length =         132
 transcribe:  complete
 
 comma_check: n_extra_commas=           1
 after write_all_namelists and comma_check
 
 prepare_genray_input: Normal end
 
 zcmd= cp genray.in genray.in_1
  
 zcmd= cp genray.in_1 genray.in
  
 zcmd= genray_transp > /dev/null
 genray_transp-RUN successful
 zcmd= process_genray_output 'LH' '-1' > process_genray_output.log
  
 process_genray_output-successful
  Generic LHH post-processing: ps2trcom_lhh... 
  
  antenna # iant    =            1
  powrlha_use(iant) =    3153.57978983595     
  ps_ts2 prof e sum =    3100.42200736223     
  ps_ts2 prof i sum =   3.480764317645565E-011
  trcom  prof e sum =    3100.42200736068     
  trcom  prof i sum =   3.480764317573225E-011
  ps_ts2 cur sum    =   -247.895084422832     
  trcom  cur sum    =   -247.895084422670     
  
  Total LH heating on electrons:    3100.42200736068     
  Total LH heating on ions:        3.480764317573225E-011
  Total Current Drive:             -247.895084422670     
 GENRAYLHH Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4050
 TA= 4.30000E+00 CPU TIME= 1.62308E-01 SECONDS.  DT= 1.02443E-03
  
 TEC1=    4.29999999999993     
 TEC2=    4.30499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3518788888889     
  %check_save_state: izleft hours =    68.6397222222222     
 --> plasma_hash("gframe"): TA= 4.300000E+00 NSTEP=  4050 Hash code:   57918880
 ->PRGCHK: bdy curvature ratio at t= 4.3050E+00 seconds is:  5.6994E-02
% MHDEQ: TG1=     4.300000 ; TG2=     4.305000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7753E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6994E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.300000 TO TG2=    4.305000 @ NSTEP     4050
   GFRAME TG2 MOMENTS CHECKSUM:  2.4553055028205D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  4.3050E+00  4.3100E+00 total power(Watts):  2.3203E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.30500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.390291E+02    0.296914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.370174E+02    0.298867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137169E+03   -0.384461E+02    0.282162E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.407400E+02    0.285582E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.406630E+02    0.304868E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.383067E+02    0.313304E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.363753E+02    0.325023E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.350449E+02    0.313551E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.348765E+02    0.297118E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.357663E+02    0.280888E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.375956E+02    0.268241E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.397600E+02    0.263825E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.417142E+02    0.268741E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.430068E+02    0.281087E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.431912E+02    0.297939E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.422613E+02    0.314446E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.403651E+02    0.326836E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136993E+03   -0.382904E+02    0.330186E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137375E+03   -0.362939E+02    0.353912E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138496E+03   -0.332627E+02    0.339700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138727E+03   -0.319871E+02    0.313399E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138755E+03   -0.324371E+02    0.284033E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.347241E+02    0.256783E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.381535E+02    0.240554E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.418790E+02    0.239657E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.451004E+02    0.253175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.468409E+02    0.278369E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.463692E+02    0.309039E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.436582E+02    0.337833E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.399851E+02    0.354113E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.382069E+02    0.436984E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.361941E+02    0.437852E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.375485E+02    0.421121E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.398311E+02    0.426205E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.398241E+02    0.446613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.374538E+02    0.453899E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.356045E+02    0.464583E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137340E+03   -0.343951E+02    0.450906E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.340617E+02    0.434132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.350747E+02    0.416823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.367221E+02    0.405768E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.388902E+02    0.402385E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.408351E+02    0.408590E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.423315E+02    0.421780E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.423690E+02    0.440789E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.414032E+02    0.458011E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.395910E+02    0.469106E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.375083E+02    0.471277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.355671E+02    0.494012E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.326606E+02    0.476351E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.311560E+02    0.449814E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138504E+03   -0.315607E+02    0.419445E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138110E+03   -0.336876E+02    0.393737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.371161E+02    0.378575E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.409356E+02    0.378697E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.441362E+02    0.394825E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134070E+03   -0.460714E+02    0.422349E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.455291E+02    0.455949E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.428659E+02    0.483377E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.392621E+02    0.497040E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.384143E+02    0.342251E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.363089E+02    0.344631E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.378417E+02    0.326981E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.401254E+02    0.330788E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.401452E+02    0.350152E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.377880E+02    0.358479E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.358546E+02    0.370230E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.345341E+02    0.358084E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.343742E+02    0.341045E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.353667E+02    0.323851E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.370996E+02    0.312125E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.391578E+02    0.308682E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.412085E+02    0.313166E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.424994E+02    0.325833E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.426741E+02    0.343327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.417362E+02    0.360387E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.398350E+02    0.372747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136935E+03   -0.377628E+02    0.375838E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.357576E+02    0.399313E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.329304E+02    0.383252E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138685E+03   -0.314850E+02    0.357501E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138672E+03   -0.319468E+02    0.327344E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.340504E+02    0.301898E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.375641E+02    0.285314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.412787E+02    0.284751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.444888E+02    0.298724E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.463344E+02    0.323758E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.458435E+02    0.355734E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.431160E+02    0.384680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.394401E+02    0.400241E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.391091E+02    0.238309E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137565E+03   -0.370975E+02    0.240519E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137369E+03   -0.385217E+02    0.223948E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.408144E+02    0.226948E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.407458E+02    0.245906E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.383948E+02    0.254674E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.363693E+02    0.267402E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.351340E+02    0.255557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.349596E+02    0.239259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.360318E+02    0.221547E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.377622E+02    0.209872E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.399280E+02    0.205369E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.418864E+02    0.209855E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.430774E+02    0.222308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.432685E+02    0.238683E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136459E+03   -0.422381E+02    0.255864E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.404588E+02    0.267753E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137294E+03   -0.382845E+02    0.272106E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.363035E+02    0.295369E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.333619E+02    0.281739E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138839E+03   -0.320695E+02    0.255838E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138939E+03   -0.325084E+02    0.226695E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138540E+03   -0.346955E+02    0.200881E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.381120E+02    0.184803E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.420363E+02    0.181909E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.451513E+02    0.195391E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.467824E+02    0.219715E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.463300E+02    0.249568E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.436419E+02    0.278429E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.399902E+02    0.294776E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    670751.253399922     
  ps_ts2 prof sum =   670367.982877858     
  trcom prof sum =    670367.982877858     
  ps_ts2 cur sum  =   12150.2615581186     
  trcom cur sum  =    12150.2615581186     
  
  antenna # iant =            3
  powecha_use(iant) =    519374.551439809     
  ps_ts2 prof sum =   519070.390410609     
  trcom prof sum =    519070.390410609     
  ps_ts2 cur sum  =   6541.09433661485     
  trcom cur sum  =    6541.09433661486     
  
  antenna # iant =            4
  powecha_use(iant) =    574879.965026933     
  ps_ts2 prof sum =   574546.027871770     
  trcom prof sum =    574546.027871770     
  ps_ts2 cur sum  =   9381.47293666664     
  trcom cur sum  =    9381.47293666662     
  
  antenna # iant =            5
  powecha_use(iant) =    555249.664335127     
  ps_ts2 prof sum =   554944.802730218     
  trcom prof sum =    554944.802730218     
  ps_ts2 cur sum  =   11206.4722923759     
  trcom cur sum  =    11206.4722923759     
  
  Total ECH heating:      2318929.20389045     
  Total Current Drive:    39279.3011237760     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4054
 TA= 4.30500E+00 CPU TIME= 1.59465E-01 SECONDS.  DT= 1.36797E-03
  
 TEC1=    4.30499999999993     
 TEC2=    4.30999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3665680555550     
  %check_save_state: izleft hours =    68.6250000000000     
 --> plasma_hash("gframe"): TA= 4.305000E+00 NSTEP=  4054 Hash code:  110005018
 ->PRGCHK: bdy curvature ratio at t= 4.3100E+00 seconds is:  5.7064E-02
% MHDEQ: TG1=     4.305000 ; TG2=     4.310000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7734E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7064E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.305000 TO TG2=    4.310000 @ NSTEP     4054
   GFRAME TG2 MOMENTS CHECKSUM:  2.4549614547482D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.06537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.98173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.33170E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.07918E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.92455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.75465E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.26735E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.30856E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.31796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.60391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.51823E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.81617E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.17323E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.27618E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.59272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.00860E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.39916E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.38411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.70434E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.95815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.95815E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.3100E+00  4.3150E+00 total power(Watts):  2.5112E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.31000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.381501E+02    0.381703E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.361426E+02    0.383112E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.375845E+02    0.366123E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.398679E+02    0.370411E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.397706E+02    0.390526E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.375161E+02    0.397880E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.355754E+02    0.409405E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137854E+03   -0.342619E+02    0.396811E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.342066E+02    0.379167E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.351089E+02    0.362543E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.367496E+02    0.351305E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.389099E+02    0.347370E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.408563E+02    0.353014E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.421348E+02    0.366370E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.424129E+02    0.383626E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.414648E+02    0.400615E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.395556E+02    0.412698E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.374804E+02    0.415503E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.355597E+02    0.438909E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.325517E+02    0.422647E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138465E+03   -0.312133E+02    0.395751E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138620E+03   -0.315980E+02    0.366152E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138298E+03   -0.337075E+02    0.340176E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.372250E+02    0.323697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.409365E+02    0.323545E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.441389E+02    0.338474E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.459704E+02    0.365087E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134231E+03   -0.455795E+02    0.396935E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.428305E+02    0.425796E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.392482E+02    0.440696E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.390361E+02    0.296915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.370243E+02    0.298867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.384537E+02    0.282173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.407473E+02    0.285591E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.406702E+02    0.304863E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.383134E+02    0.313284E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.363812E+02    0.325021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.352447E+02    0.312114E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.350749E+02    0.295628E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.359653E+02    0.279386E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.377024E+02    0.267493E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.397667E+02    0.263848E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.418298E+02    0.268019E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.430145E+02    0.281113E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.431990E+02    0.297944E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.422687E+02    0.314434E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.404797E+02    0.326186E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.382970E+02    0.330186E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.362998E+02    0.353988E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.333620E+02    0.339058E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138707E+03   -0.319928E+02    0.313382E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138734E+03   -0.324435E+02    0.284039E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.346369E+02    0.257599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.381602E+02    0.240552E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.418863E+02    0.239657E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.451080E+02    0.253199E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.469663E+02    0.277699E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.463771E+02    0.309033E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.436652E+02    0.337867E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.399915E+02    0.354193E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.382123E+02    0.437102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.361981E+02    0.437981E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.376578E+02    0.420738E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.399452E+02    0.425859E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.398299E+02    0.446751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.375629E+02    0.453680E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.356093E+02    0.464717E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.344000E+02    0.451047E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137347E+03   -0.342603E+02    0.433357E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.350849E+02    0.416864E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136892E+03   -0.368309E+02    0.405337E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.388960E+02    0.402474E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.409516E+02    0.408193E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.422242E+02    0.422301E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.424880E+02    0.440544E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.415207E+02    0.457829E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.397045E+02    0.468928E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.375135E+02    0.471392E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.355718E+02    0.494099E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.325689E+02    0.476782E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.312505E+02    0.449546E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.316567E+02    0.419020E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.338851E+02    0.392737E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.372240E+02    0.378135E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.409418E+02    0.378828E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.443753E+02    0.393968E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.460775E+02    0.422456E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133878E+03   -0.456537E+02    0.455800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.431010E+02    0.482955E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.392674E+02    0.497124E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.385246E+02    0.341656E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.365153E+02    0.343390E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.379509E+02    0.326314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.402396E+02    0.330148E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.401514E+02    0.350228E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.377941E+02    0.358572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.358603E+02    0.370341E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.347335E+02    0.356924E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.345723E+02    0.339749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.352753E+02    0.324525E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.371061E+02    0.312113E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.392695E+02    0.307975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.412203E+02    0.313131E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.425067E+02    0.325824E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.426811E+02    0.343370E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.417421E+02    0.360507E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.399493E+02    0.372312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.377687E+02    0.375958E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.358632E+02    0.398869E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.328421E+02    0.383927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138662E+03   -0.314903E+02    0.357579E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138652E+03   -0.319525E+02    0.327334E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138365E+03   -0.340568E+02    0.301886E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.375716E+02    0.285323E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.412860E+02    0.284762E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.444966E+02    0.298727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.463401E+02    0.323771E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.458502E+02    0.355853E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.431229E+02    0.384802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.395536E+02    0.399829E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.391160E+02    0.238299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.371044E+02    0.240520E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.386273E+02    0.223100E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.408222E+02    0.226917E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.407533E+02    0.245910E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.384011E+02    0.254684E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.364736E+02    0.266642E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.351405E+02    0.255561E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.351518E+02    0.237592E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138086E+03   -0.359442E+02    0.222357E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137744E+03   -0.376723E+02    0.210672E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.399355E+02    0.205307E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.418943E+02    0.209804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.431931E+02    0.221475E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.432761E+02    0.238684E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.423539E+02    0.255125E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.404660E+02    0.267780E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.382899E+02    0.272137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137609E+03   -0.363109E+02    0.295367E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.333680E+02    0.281753E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.320758E+02    0.255849E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138702E+03   -0.326032E+02    0.225803E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138304E+03   -0.347929E+02    0.199932E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.383116E+02    0.182956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.420432E+02    0.181805E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.452689E+02    0.194508E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134733E+03   -0.470187E+02    0.218147E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.462145E+02    0.250363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.436496E+02    0.278450E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.399974E+02    0.294778E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    193584.335426190     
  ps_ts2 prof sum =   193470.295570357     
  trcom prof sum =    193470.295570357     
  ps_ts2 cur sum  =   2844.39754760476     
  trcom cur sum  =    2844.39754760476     
  
  antenna # iant =            2
  powecha_use(iant) =    669577.714517243     
  ps_ts2 prof sum =   669188.058883748     
  trcom prof sum =    669188.058883748     
  ps_ts2 cur sum  =   12096.4572940058     
  trcom cur sum  =    12096.4572940058     
  
  antenna # iant =            3
  powecha_use(iant) =    519694.655984696     
  ps_ts2 prof sum =   519422.984015656     
  trcom prof sum =    519422.984015657     
  ps_ts2 cur sum  =   6533.49930821676     
  trcom cur sum  =    6533.49930821677     
  
  antenna # iant =            4
  powecha_use(iant) =    573597.071496083     
  ps_ts2 prof sum =   573251.242196877     
  trcom prof sum =    573251.242196876     
  ps_ts2 cur sum  =   9338.03278489850     
  trcom cur sum  =    9338.03278489849     
  
  antenna # iant =            5
  powecha_use(iant) =    554700.641154272     
  ps_ts2 prof sum =   554380.772443420     
  trcom prof sum =    554380.772410574     
  ps_ts2 cur sum  =   11162.8603343506     
  trcom cur sum  =    11162.8603343506     
  
  Total ECH heating:      2509713.35307721     
  Total Current Drive:    41975.2472690764     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4057
 TA= 4.31000E+00 CPU TIME= 1.59926E-01 SECONDS.  DT= 2.40259E-03
  
 TEC1=    4.30999999999993     
 TEC2=    4.31499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3859897222223     
  %check_save_state: izleft hours =    68.6055555555556     
 --> plasma_hash("gframe"): TA= 4.310000E+00 NSTEP=  4057 Hash code:  104242316
 ->PRGCHK: bdy curvature ratio at t= 4.3150E+00 seconds is:  5.7038E-02
% MHDEQ: TG1=     4.310000 ; TG2=     4.315000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0800E-03 SECONDS
   DATA R*BT AT EDGE:  2.7716E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7038E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.310000 TO TG2=    4.315000 @ NSTEP     4057
   GFRAME TG2 MOMENTS CHECKSUM:  2.4546174066758D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3150E+00  4.3200E+00 total power(Watts):  2.9573E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.31500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.382590E+02    0.381297E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.362492E+02    0.382677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.375900E+02    0.366251E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.398731E+02    0.370558E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.398836E+02    0.390134E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.375219E+02    0.397983E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.354804E+02    0.409977E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.344602E+02    0.395846E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.341147E+02    0.379865E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.351177E+02    0.362650E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.368483E+02    0.350827E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.389156E+02    0.347466E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.409716E+02    0.352529E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.422523E+02    0.365954E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.424189E+02    0.383764E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.414700E+02    0.400722E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.396683E+02    0.412316E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136689E+03   -0.374850E+02    0.415580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.355630E+02    0.439061E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.325560E+02    0.422728E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138438E+03   -0.312186E+02    0.395837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138370E+03   -0.316930E+02    0.365655E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.338076E+02    0.339562E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.372309E+02    0.323716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.410513E+02    0.322914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.442603E+02    0.337942E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.460947E+02    0.364708E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.455849E+02    0.397067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.430639E+02    0.425067E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.392536E+02    0.440833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.391469E+02    0.296208E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.371306E+02    0.298146E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.385629E+02    0.281452E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.408613E+02    0.284888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.407845E+02    0.304181E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.384231E+02    0.312601E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.364870E+02    0.324363E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.351546E+02    0.312821E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137995E+03   -0.349896E+02    0.296354E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137863E+03   -0.358755E+02    0.280159E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.377077E+02    0.267511E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.398772E+02    0.263100E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.418372E+02    0.268043E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.431329E+02    0.280412E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.433180E+02    0.297268E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.423864E+02    0.313789E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.404860E+02    0.326213E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.383032E+02    0.330226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.364039E+02    0.353479E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.333674E+02    0.339104E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.320885E+02    0.312657E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138493E+03   -0.325397E+02    0.283277E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.346447E+02    0.257592E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.381674E+02    0.240532E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.419997E+02    0.238853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.452291E+02    0.252465E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.469740E+02    0.277734E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.465020E+02    0.308407E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.437857E+02    0.337328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.401050E+02    0.353708E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.382165E+02    0.437242E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.362020E+02    0.438129E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.376625E+02    0.420829E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.399501E+02    0.425960E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.399427E+02    0.446543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.375668E+02    0.453843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.355126E+02    0.465193E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.345015E+02    0.450810E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.342642E+02    0.433488E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.351795E+02    0.416499E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.368345E+02    0.405428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.390074E+02    0.402076E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.409566E+02    0.408289E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.424551E+02    0.421542E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.424916E+02    0.440729E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.415250E+02    0.457998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.397086E+02    0.469058E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.375171E+02    0.471512E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136746E+03   -0.355758E+02    0.494184E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.325741E+02    0.476858E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.312538E+02    0.449690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138229E+03   -0.316609E+02    0.419092E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137836E+03   -0.337930E+02    0.393385E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.372291E+02    0.378262E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.410572E+02    0.378430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.442689E+02    0.394576E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133804E+03   -0.462021E+02    0.422158E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133851E+03   -0.456581E+02    0.455990E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134778E+03   -0.429907E+02    0.483324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.393796E+02    0.496980E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136823E+03   -0.385306E+02    0.341728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.365220E+02    0.343455E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.379570E+02    0.326340E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.402458E+02    0.330187E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.401570E+02    0.350330E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.379028E+02    0.358091E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.359652E+02    0.369884E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137820E+03   -0.346419E+02    0.357650E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.344820E+02    0.340461E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.354760E+02    0.323171E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.372134E+02    0.311421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.392761E+02    0.307983E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.413361E+02    0.312471E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.426247E+02    0.325227E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.428000E+02    0.342851E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.418591E+02    0.360057E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.399540E+02    0.372461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.378774E+02    0.375529E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.358682E+02    0.398963E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137767E+03   -0.330345E+02    0.382899E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138414E+03   -0.315850E+02    0.357042E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.320492E+02    0.326643E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138124E+03   -0.341576E+02    0.301148E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.376790E+02    0.284595E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.414011E+02    0.284065E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.446183E+02    0.298065E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.464671E+02    0.323180E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.459741E+02    0.355433E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.432426E+02    0.384434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.395586E+02    0.399936E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.392250E+02    0.237473E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.370138E+02    0.241307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.386347E+02    0.223049E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.409332E+02    0.226084E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.408658E+02    0.245123E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.385090E+02    0.253902E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.364797E+02    0.266658E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.353360E+02    0.253951E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138171E+03   -0.350653E+02    0.238396E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.361386E+02    0.220627E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.378724E+02    0.208913E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.400425E+02    0.204396E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.420069E+02    0.208914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136088E+03   -0.432009E+02    0.221432E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.433921E+02    0.237893E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.423613E+02    0.255120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.405790E+02    0.267047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.383993E+02    0.271394E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.364163E+02    0.294639E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138062E+03   -0.335562E+02    0.280226E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138578E+03   -0.321689E+02    0.255030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138684E+03   -0.326095E+02    0.225758E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.347993E+02    0.199853E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.383187E+02    0.182829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.421543E+02    0.180811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.452770E+02    0.194390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.469119E+02    0.218871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.464555E+02    0.248870E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.437679E+02    0.277764E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136543E+03   -0.401102E+02    0.294076E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    634176.766889447     
  ps_ts2 prof sum =   633795.160411068     
  trcom prof sum =    633795.160411069     
  ps_ts2 cur sum  =   9294.35619688484     
  trcom cur sum  =    9294.35619688484     
  
  antenna # iant =            2
  powecha_use(iant) =    670300.505237398     
  ps_ts2 prof sum =   669897.112879276     
  trcom prof sum =    669897.112879275     
  ps_ts2 cur sum  =   12081.8744249208     
  trcom cur sum  =    12081.8744249208     
  
  antenna # iant =            3
  powecha_use(iant) =    519681.943322301     
  ps_ts2 prof sum =   519354.959458384     
  trcom prof sum =    519354.959458385     
  ps_ts2 cur sum  =   6518.66156519787     
  trcom cur sum  =    6518.66156519788     
  
  antenna # iant =            4
  powecha_use(iant) =    577509.608858955     
  ps_ts2 prof sum =   577186.672941035     
  trcom prof sum =    577186.672941034     
  ps_ts2 cur sum  =   9378.38633738734     
  trcom cur sum  =    9378.38633738733     
  
  antenna # iant =            5
  powecha_use(iant) =    555630.886475188     
  ps_ts2 prof sum =   555342.848240037     
  trcom prof sum =    555342.848240037     
  ps_ts2 cur sum  =   11158.5455948560     
  trcom cur sum  =    11158.5455948560     
  
  Total ECH heating:      2955576.75392980     
  Total Current Drive:    48431.8241192469     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4059
 TA= 4.31500E+00 CPU TIME= 1.60941E-01 SECONDS.  DT= 3.24676E-03
  
 TEC1=    4.31499999999993     
 TEC2=    4.31999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.3993591666665     
  %check_save_state: izleft hours =    68.5922222222222     
 --> plasma_hash("gframe"): TA= 4.315000E+00 NSTEP=  4059 Hash code:   64610379
 ->PRGCHK: bdy curvature ratio at t= 4.3200E+00 seconds is:  5.7015E-02
% MHDEQ: TG1=     4.315000 ; TG2=     4.320000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7697E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.7015E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.315000 TO TG2=    4.320000 @ NSTEP     4059
   GFRAME TG2 MOMENTS CHECKSUM:  2.4542733586035D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.89358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.84277E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.38859E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.40063E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.96680E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.87666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.30798E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.23133E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.31725E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.90883E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.58513E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  2.37910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.65486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.47231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.53810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.24882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.78066E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.59039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.60371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.23391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.23391E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3200E+00  4.3250E+00 total power(Watts):  2.9798E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.32000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.382632E+02    0.381379E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.362533E+02    0.382755E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.376966E+02    0.365740E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.399854E+02    0.370070E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.398882E+02    0.390205E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.376287E+02    0.397524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.356876E+02    0.409000E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.343678E+02    0.396421E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.343108E+02    0.378800E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.352120E+02    0.362138E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.368579E+02    0.350819E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.390253E+02    0.346851E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.409758E+02    0.352567E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.422572E+02    0.366029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.425364E+02    0.383329E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.415860E+02    0.400285E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.396731E+02    0.412349E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.375932E+02    0.415144E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.354692E+02    0.439548E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.326536E+02    0.422292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138188E+03   -0.313129E+02    0.395333E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.316964E+02    0.365718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.338120E+02    0.339536E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.373363E+02    0.322980E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.410560E+02    0.322851E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.442662E+02    0.337918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.462181E+02    0.364248E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.457084E+02    0.396656E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.429546E+02    0.425543E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.392584E+02    0.440929E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.73 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.391513E+02    0.296138E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.371352E+02    0.298073E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.385668E+02    0.281394E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.408656E+02    0.284825E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.407893E+02    0.304097E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.385305E+02    0.311840E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.364912E+02    0.324299E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.353520E+02    0.311337E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.351779E+02    0.294858E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.360738E+02    0.278581E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137052E+03   -0.378127E+02    0.266690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.399859E+02    0.262277E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.419491E+02    0.267258E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.432511E+02    0.279622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.434348E+02    0.296500E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135837E+03   -0.423913E+02    0.313711E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.405984E+02    0.325501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136712E+03   -0.384111E+02    0.329517E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.364091E+02    0.353509E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.335592E+02    0.337745E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138445E+03   -0.320928E+02    0.312587E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138472E+03   -0.325414E+02    0.283226E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.347425E+02    0.256729E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137037E+03   -0.382706E+02    0.239651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.421101E+02    0.237997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.454601E+02    0.250917E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134268E+03   -0.470964E+02    0.276969E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.463897E+02    0.308970E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.437904E+02    0.337307E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.401092E+02    0.353749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.383251E+02    0.436935E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.363074E+02    0.437799E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.376670E+02    0.420861E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.399571E+02    0.426015E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.399466E+02    0.446658E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.376757E+02    0.453582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.357175E+02    0.464588E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.345055E+02    0.450914E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.341717E+02    0.433985E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.351873E+02    0.416518E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.369411E+02    0.404965E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.390120E+02    0.402116E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.410718E+02    0.407854E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.423470E+02    0.422016E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.427243E+02    0.440050E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.416417E+02    0.457769E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.398220E+02    0.468829E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.376260E+02    0.471277E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.356844E+02    0.493971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.326726E+02    0.476585E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.312580E+02    0.449784E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138206E+03   -0.316651E+02    0.419114E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137813E+03   -0.337977E+02    0.393435E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.373356E+02    0.377793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.410615E+02    0.378521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.443809E+02    0.394183E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.462074E+02    0.422211E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133607E+03   -0.457823E+02    0.455797E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.432256E+02    0.482852E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.393845E+02    0.497039E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.386397E+02    0.341079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.366259E+02    0.342813E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.380643E+02    0.325613E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.403578E+02    0.329493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.402697E+02    0.349743E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.379071E+02    0.358139E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.359688E+02    0.369970E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.348394E+02    0.356455E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.346779E+02    0.339132E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.353825E+02    0.323796E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.372176E+02    0.311342E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.393855E+02    0.307211E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.413407E+02    0.312392E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.426296E+02    0.325161E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.428047E+02    0.342850E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.418659E+02    0.360119E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.400667E+02    0.371977E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.378817E+02    0.375618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.359724E+02    0.398490E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.329453E+02    0.383538E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138392E+03   -0.315891E+02    0.357075E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.320528E+02    0.326589E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.341612E+02    0.301081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137047E+03   -0.376831E+02    0.284535E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.414055E+02    0.284002E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.448521E+02    0.296626E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.463542E+02    0.323746E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.459792E+02    0.355483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.432470E+02    0.384528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.396708E+02    0.399483E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.392284E+02    0.237395E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.372128E+02    0.239610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.387378E+02    0.222132E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.409366E+02    0.225989E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.408693E+02    0.245062E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.385115E+02    0.253853E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.365802E+02    0.265826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137991E+03   -0.352449E+02    0.254698E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.352560E+02    0.236670E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137833E+03   -0.360475E+02    0.221371E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.377786E+02    0.209635E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.400457E+02    0.204268E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.420097E+02    0.208797E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135859E+03   -0.433123E+02    0.220527E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.435051E+02    0.237042E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.424736E+02    0.254316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.405832E+02    0.266993E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.385047E+02    0.270573E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.364200E+02    0.294558E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138261E+03   -0.334684E+02    0.280943E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138558E+03   -0.321721E+02    0.254977E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.327014E+02    0.224794E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138058E+03   -0.348927E+02    0.198845E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.384172E+02    0.181795E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.422597E+02    0.179795E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.453896E+02    0.193434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.471437E+02    0.217214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.465746E+02    0.248067E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.437740E+02    0.277694E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.401150E+02    0.294002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657541.038941793     
  ps_ts2 prof sum =   657141.778630653     
  trcom prof sum =    657141.778630653     
  ps_ts2 cur sum  =   9603.98512942171     
  trcom cur sum  =    9603.98512942171     
  
  antenna # iant =            2
  powecha_use(iant) =    668848.348511194     
  ps_ts2 prof sum =   668486.462263630     
  trcom prof sum =    668486.462263630     
  ps_ts2 cur sum  =   12008.6735330946     
  trcom cur sum  =    12008.6735330946     
  
  antenna # iant =            3
  powecha_use(iant) =    521591.682927197     
  ps_ts2 prof sum =   521278.466571691     
  trcom prof sum =    521278.466571692     
  ps_ts2 cur sum  =   6523.58441550772     
  trcom cur sum  =    6523.58441550773     
  
  antenna # iant =            4
  powecha_use(iant) =    575378.801333369     
  ps_ts2 prof sum =   575031.537121941     
  trcom prof sum =    575031.537121941     
  ps_ts2 cur sum  =   9308.92071166759     
  trcom cur sum  =    9308.92071166757     
  
  antenna # iant =            5
  powecha_use(iant) =    556473.477886995     
  ps_ts2 prof sum =   556156.301685306     
  trcom prof sum =    556156.301685306     
  ps_ts2 cur sum  =   11127.5940456993     
  trcom cur sum  =    11127.5940456993     
  
  Total ECH heating:      2978094.54627322     
  Total Current Drive:    48572.7578353910     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4061
 TA= 4.32000E+00 CPU TIME= 1.61673E-01 SECONDS.  DT= 2.19154E-03
  
 TEC1=    4.31999999999993     
 TEC2=    4.32499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4145180555554     
  %check_save_state: izleft hours =    68.5769444444445     
 --> plasma_hash("gframe"): TA= 4.320000E+00 NSTEP=  4061 Hash code:   51336149
 ->PRGCHK: bdy curvature ratio at t= 4.3250E+00 seconds is:  5.6996E-02
% MHDEQ: TG1=     4.320000 ; TG2=     4.325000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6996E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.320000 TO TG2=    4.325000 @ NSTEP     4061
   GFRAME TG2 MOMENTS CHECKSUM:  2.4539293105312D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3250E+00  4.3300E+00 total power(Watts):  2.3841E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.32500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.383738E+02    0.380969E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.363587E+02    0.382333E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.377024E+02    0.365877E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.399909E+02    0.370216E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.400013E+02    0.389822E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.376336E+02    0.397625E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.355845E+02    0.409604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.345661E+02    0.395458E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.342200E+02    0.379506E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.352209E+02    0.362247E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.369646E+02    0.350291E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.390310E+02    0.346940E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.410908E+02    0.352082E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.423747E+02    0.365621E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.425416E+02    0.383490E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.415914E+02    0.400389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.397861E+02    0.411963E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.375980E+02    0.415222E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.356725E+02    0.438852E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.326578E+02    0.422366E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.313171E+02    0.395421E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.317914E+02    0.365225E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.340063E+02    0.338259E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.373431E+02    0.322986E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.411711E+02    0.322220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.443870E+02    0.337372E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.462238E+02    0.364422E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.457139E+02    0.396784E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.431879E+02    0.424802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.393701E+02    0.440670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.392621E+02    0.295440E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.372413E+02    0.297363E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.386760E+02    0.280681E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.409803E+02    0.284132E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.409044E+02    0.303421E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.385374E+02    0.311843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.365969E+02    0.323635E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.353577E+02    0.311342E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.350916E+02    0.295578E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.359873E+02    0.279344E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.378195E+02    0.266728E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.399934E+02    0.262329E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.419569E+02    0.267293E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.432503E+02    0.279707E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.434424E+02    0.296528E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.425090E+02    0.313058E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136140E+03   -0.406048E+02    0.325528E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.385193E+02    0.328901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.365147E+02    0.352994E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137966E+03   -0.334706E+02    0.338451E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138202E+03   -0.321882E+02    0.311856E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138230E+03   -0.326376E+02    0.282476E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.347478E+02    0.256769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.383760E+02    0.238875E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.421181E+02    0.238023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.453537E+02    0.251717E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134036E+03   -0.472216E+02    0.276318E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134153E+03   -0.466326E+02    0.307692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.439115E+02    0.336749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136004E+03   -0.402227E+02    0.353254E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.383274E+02    0.437058E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.363129E+02    0.437902E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.377757E+02    0.420489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.400617E+02    0.425690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.400595E+02    0.446446E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.376795E+02    0.453745E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.357210E+02    0.464727E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.344117E+02    0.451452E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.343686E+02    0.433230E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.352905E+02    0.416117E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.369460E+02    0.405045E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.391235E+02    0.401714E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.410771E+02    0.407940E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.425782E+02    0.421246E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.426157E+02    0.440565E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.416439E+02    0.457954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.398260E+02    0.468971E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.376300E+02    0.471408E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.356800E+02    0.494056E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.326764E+02    0.476685E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.313522E+02    0.449519E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.317605E+02    0.418701E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.339933E+02    0.392460E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.373399E+02    0.377944E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.411766E+02    0.378147E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.446238E+02    0.393325E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133539E+03   -0.463322E+02    0.421908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133580E+03   -0.457869E+02    0.455988E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134505E+03   -0.431153E+02    0.483243E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.393885E+02    0.497142E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.386455E+02    0.341144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.366306E+02    0.342887E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136750E+03   -0.380704E+02    0.325633E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.403641E+02    0.329527E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.403833E+02    0.349238E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.380164E+02    0.357655E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.360730E+02    0.369524E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.348443E+02    0.356566E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.346842E+02    0.339174E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.355833E+02    0.322443E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.373241E+02    0.310657E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.393924E+02    0.307221E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.414564E+02    0.311737E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.427479E+02    0.324551E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.429234E+02    0.342323E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135491E+03   -0.419742E+02    0.359717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.400719E+02    0.372137E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.379905E+02    0.375202E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.359773E+02    0.398583E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.329499E+02    0.383665E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138143E+03   -0.316838E+02    0.356542E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138368E+03   -0.320580E+02    0.326601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137869E+03   -0.342600E+02    0.300361E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.377902E+02    0.283820E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.415213E+02    0.283310E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.447449E+02    0.297327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.465973E+02    0.322536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133999E+03   -0.461032E+02    0.355072E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.433670E+02    0.384165E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.396760E+02    0.399583E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.393403E+02    0.236600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.371222E+02    0.240438E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.387450E+02    0.222122E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.410487E+02    0.225179E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.409818E+02    0.244305E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.386205E+02    0.253110E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.365870E+02    0.265863E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.354402E+02    0.253132E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.351690E+02    0.237509E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.362434E+02    0.219672E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.379804E+02    0.207915E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.401546E+02    0.203392E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.421232E+02    0.207942E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.433189E+02    0.220528E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135682E+03   -0.435135E+02    0.237058E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.424809E+02    0.254351E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.406959E+02    0.266282E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.385118E+02    0.270616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.365252E+02    0.293851E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.334745E+02    0.280970E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138536E+03   -0.321784E+02    0.254998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.327015E+02    0.224853E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138041E+03   -0.348994E+02    0.198790E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.383267E+02    0.182579E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.422676E+02    0.179706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.453983E+02    0.193365E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.470383E+02    0.217975E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134727E+03   -0.464678E+02    0.248862E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.438933E+02    0.277021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.402282E+02    0.293309E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    69134.2510498844     
  ps_ts2 prof sum =   69094.3315159034     
  trcom prof sum =    69094.3315159035     
  ps_ts2 cur sum  =   1007.69620832181     
  trcom cur sum  =    1007.69620832181     
  
  antenna # iant =            2
  powecha_use(iant) =    666364.964163154     
  ps_ts2 prof sum =   665978.531185819     
  trcom prof sum =    665978.531185819     
  ps_ts2 cur sum  =   11934.1992400666     
  trcom cur sum  =    11934.1992400666     
  
  antenna # iant =            3
  powecha_use(iant) =    522387.510677285     
  ps_ts2 prof sum =   522078.717000537     
  trcom prof sum =    522078.717000537     
  ps_ts2 cur sum  =   6521.92967752512     
  trcom cur sum  =    6521.92967752513     
  
  antenna # iant =            4
  powecha_use(iant) =    570421.372953617     
  ps_ts2 prof sum =   570099.736777631     
  trcom prof sum =    570099.736777630     
  ps_ts2 cur sum  =   9207.97603572659     
  trcom cur sum  =    9207.97603572657     
  
  antenna # iant =            5
  powecha_use(iant) =    555783.059571824     
  ps_ts2 prof sum =   555441.458721095     
  trcom prof sum =    555441.458721095     
  ps_ts2 cur sum  =   11086.0276763652     
  trcom cur sum  =    11086.0276763652     
  
  Total ECH heating:      2382692.77520098     
  Total Current Drive:    39757.8288380054     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4064
 TA= 4.32500E+00 CPU TIME= 1.59221E-01 SECONDS.  DT= 8.62800E-05
  
 TEC1=    4.32499999999993     
 TEC2=    4.32999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4277449999997     
  %check_save_state: izleft hours =    68.5638888888889     
 --> plasma_hash("gframe"): TA= 4.325000E+00 NSTEP=  4064 Hash code:  119435567
 ->PRGCHK: bdy curvature ratio at t= 4.3300E+00 seconds is:  5.6981E-02
% MHDEQ: TG1=     4.325000 ; TG2=     4.330000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1110E-03 SECONDS
   DATA R*BT AT EDGE:  2.7659E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6981E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.325000 TO TG2=    4.330000 @ NSTEP     4064
   GFRAME TG2 MOMENTS CHECKSUM:  2.4535852624589D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.72733E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.70830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.44363E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.74399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.00768E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.41674E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -3.05932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.34730E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.15660E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.31656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.20390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.64988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.95613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.70982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.66210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.48526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.48127E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.14984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.79001E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.50632E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.80335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.80335E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3300E+00  4.3350E+00 total power(Watts):  2.3998E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.33000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.383815E+02    0.381123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.363660E+02    0.382484E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.378131E+02    0.365437E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.401065E+02    0.369816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.400094E+02    0.389959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.377448E+02    0.397221E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.357955E+02    0.408675E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.345732E+02    0.395567E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.344195E+02    0.378509E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.351302E+02    0.362980E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.369727E+02    0.350371E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.391451E+02    0.346395E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.410992E+02    0.352193E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.423830E+02    0.365786E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.425503E+02    0.383653E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.415996E+02    0.400501E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135808E+03   -0.397940E+02    0.412049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.377090E+02    0.414834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.356796E+02    0.438972E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.326643E+02    0.422438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.313237E+02    0.395517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.317983E+02    0.365347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.339203E+02    0.338944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.374523E+02    0.322309E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.411804E+02    0.322211E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.443962E+02    0.337421E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.462329E+02    0.364595E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.458411E+02    0.396440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134752E+03   -0.430819E+02    0.425328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.393774E+02    0.440813E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.392710E+02    0.295427E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.372505E+02    0.297336E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.386854E+02    0.280673E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.409890E+02    0.284129E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.409135E+02    0.303399E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.385457E+02    0.311829E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.366050E+02    0.323631E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.352698E+02    0.312017E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.351008E+02    0.295554E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.361830E+02    0.277880E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.379287E+02    0.265963E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.400027E+02    0.262331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.420747E+02    0.266555E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.432661E+02    0.279683E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.434521E+02    0.296513E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.425183E+02    0.313045E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.407217E+02    0.324869E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.385295E+02    0.328894E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.365225E+02    0.353089E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137946E+03   -0.334791E+02    0.338472E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.321956E+02    0.311830E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.326463E+02    0.282455E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.349445E+02    0.255161E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.383852E+02    0.238865E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.421281E+02    0.238011E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.453652E+02    0.251713E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.472325E+02    0.276329E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.466429E+02    0.307681E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.439216E+02    0.336792E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.402307E+02    0.353372E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.384426E+02    0.436771E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.364210E+02    0.437619E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.377831E+02    0.420568E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.400758E+02    0.425775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.400674E+02    0.446604E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.377905E+02    0.453538E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.358279E+02    0.464517E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.346134E+02    0.450827E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.342780E+02    0.433778E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.352975E+02    0.416186E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.369535E+02    0.405130E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.391312E+02    0.401814E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.410854E+02    0.408030E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134949E+03   -0.424733E+02    0.421774E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.428494E+02    0.439988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.416537E+02    0.458110E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.398337E+02    0.469099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.377414E+02    0.471202E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.357920E+02    0.493879E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.328694E+02    0.476142E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.313584E+02    0.449655E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.317670E+02    0.418762E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.339048E+02    0.393111E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.373473E+02    0.378097E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.411841E+02    0.378318E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.446325E+02    0.393467E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133504E+03   -0.463470E+02    0.421991E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133337E+03   -0.459140E+02    0.455846E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.433527E+02    0.482822E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.395036E+02    0.496997E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.387581E+02    0.340560E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.367408E+02    0.342286E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.381818E+02    0.324962E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.404802E+02    0.328888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.403919E+02    0.349328E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.380242E+02    0.357777E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.360811E+02    0.369666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.347552E+02    0.357286E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137639E+03   -0.345960E+02    0.339860E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.354943E+02    0.323110E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.373331E+02    0.310623E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.395061E+02    0.306510E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.414656E+02    0.311719E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.427577E+02    0.324546E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.429324E+02    0.342384E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.419889E+02    0.359827E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.401871E+02    0.371740E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.379982E+02    0.375356E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.359844E+02    0.398685E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.331439E+02    0.382665E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.316907E+02    0.356639E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138125E+03   -0.321553E+02    0.325897E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137845E+03   -0.342701E+02    0.300321E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.377996E+02    0.283809E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.415298E+02    0.283318E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.447554E+02    0.297310E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.466076E+02    0.322541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133976E+03   -0.461126E+02    0.355206E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.433756E+02    0.384333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.396840E+02    0.399689E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.393418E+02    0.236630E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.373245E+02    0.238807E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.387542E+02    0.222085E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.410583E+02    0.225144E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.409914E+02    0.244302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136751E+03   -0.386291E+02    0.253111E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.364985E+02    0.266647E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.353548E+02    0.253934E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.351778E+02    0.237490E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.362528E+02    0.219625E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.379899E+02    0.207840E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.401640E+02    0.203313E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.421329E+02    0.207873E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.434373E+02    0.219690E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.435238E+02    0.237047E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.425997E+02    0.253595E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.407056E+02    0.266289E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.385208E+02    0.270618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.365342E+02    0.293822E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.335751E+02    0.280187E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.322750E+02    0.254178E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.327131E+02    0.224763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.349072E+02    0.198700E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.385292E+02    0.180688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.422821E+02    0.179522E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.455188E+02    0.192441E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.472777E+02    0.216379E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.467084E+02    0.247389E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.439034E+02    0.277026E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.402367E+02    0.293304E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    76574.1532484279     
  ps_ts2 prof sum =   76528.1451853630     
  trcom prof sum =    76528.1451853630     
  ps_ts2 cur sum  =   1113.75546784323     
  trcom cur sum  =    1113.75546784323     
  
  antenna # iant =            2
  powecha_use(iant) =    670758.918230180     
  ps_ts2 prof sum =   670353.941658618     
  trcom prof sum =    670353.941658617     
  ps_ts2 cur sum  =   11991.3233125518     
  trcom cur sum  =    11991.3233125518     
  
  antenna # iant =            3
  powecha_use(iant) =    520587.224467288     
  ps_ts2 prof sum =   520291.515993297     
  trcom prof sum =    520291.515993297     
  ps_ts2 cur sum  =   6488.65503010174     
  trcom cur sum  =    6488.65503010175     
  
  antenna # iant =            4
  powecha_use(iant) =    575497.140793033     
  ps_ts2 prof sum =   575148.659158144     
  trcom prof sum =    575148.659158144     
  ps_ts2 cur sum  =   9271.64343284297     
  trcom cur sum  =    9271.64343284296     
  
  antenna # iant =            5
  powecha_use(iant) =    556411.009590165     
  ps_ts2 prof sum =   556086.066757315     
  trcom prof sum =    556086.066757315     
  ps_ts2 cur sum  =   11076.6550159414     
  trcom cur sum  =    11076.6550159414     
  
  Total ECH heating:      2398408.32875274     
  Total Current Drive:    39942.0322592811     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4077
 TA= 4.33000E+00 CPU TIME= 1.46889E-01 SECONDS.  DT= 4.03700E-04
  
 TEC1=    4.32999999999993     
 TEC2=    4.33499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4425827777777     
  %check_save_state: izleft hours =    68.5488888888889     
 --> plasma_hash("gframe"): TA= 4.330000E+00 NSTEP=  4077 Hash code:   88446668
 ->PRGCHK: bdy curvature ratio at t= 4.3350E+00 seconds is:  5.6969E-02
% MHDEQ: TG1=     4.330000 ; TG2=     4.335000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5120E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6969E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.330000 TO TG2=    4.335000 @ NSTEP     4077
   GFRAME TG2 MOMENTS CHECKSUM:  2.4532412143866D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.3350E+00  4.3400E+00 total power(Watts):  2.9430E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.33500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.383849E+02    0.381257E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.363703E+02    0.382597E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.378174E+02    0.365567E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.401114E+02    0.369947E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.401221E+02    0.389545E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.377496E+02    0.397293E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.357999E+02    0.408725E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.344807E+02    0.396164E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.344237E+02    0.378620E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.353305E+02    0.361876E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.370779E+02    0.349824E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.391498E+02    0.346445E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.411045E+02    0.352268E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.425004E+02    0.365351E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.426680E+02    0.383263E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.417157E+02    0.400091E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.399067E+02    0.411630E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.377138E+02    0.414877E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.357836E+02    0.438690E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.327618E+02    0.422021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.314176E+02    0.395043E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138049E+03   -0.318026E+02    0.365451E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.341140E+02    0.337630E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.374576E+02    0.322273E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.412943E+02    0.321532E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.445168E+02    0.336838E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.463566E+02    0.364194E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133676E+03   -0.458463E+02    0.396534E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134291E+03   -0.433151E+02    0.424575E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.394892E+02    0.440565E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.392771E+02    0.295383E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.372556E+02    0.297296E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.386905E+02    0.280663E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.409951E+02    0.284108E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.410263E+02    0.302669E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.386545E+02    0.311094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.365107E+02    0.324272E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137152E+03   -0.354682E+02    0.310555E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.352976E+02    0.294043E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.361917E+02    0.277830E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.379344E+02    0.265952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.401129E+02    0.261558E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.420805E+02    0.266556E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.433832E+02    0.278950E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.435704E+02    0.295778E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.426361E+02    0.312331E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.407269E+02    0.324855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.385343E+02    0.328882E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.365275E+02    0.353168E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.335771E+02    0.337817E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.322064E+02    0.311736E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.326514E+02    0.282445E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.348544E+02    0.255964E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.383922E+02    0.238835E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.422410E+02    0.237203E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.454844E+02    0.250975E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.471215E+02    0.277022E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.467658E+02    0.307002E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.440402E+02    0.336203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.403436E+02    0.352856E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.384478E+02    0.436888E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.364252E+02    0.437749E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.378915E+02    0.420176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.401890E+02    0.425420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.401804E+02    0.446394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.377947E+02    0.453685E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.358323E+02    0.464630E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.346171E+02    0.450971E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.344758E+02    0.433011E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.353017E+02    0.416232E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.370601E+02    0.404691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.391360E+02    0.401878E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.412006E+02    0.407617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134925E+03   -0.424783E+02    0.421834E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134650E+03   -0.427405E+02    0.440517E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.417702E+02    0.457930E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135256E+03   -0.399468E+02    0.468905E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.377462E+02    0.471304E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.357962E+02    0.493959E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.327798E+02    0.476540E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.313616E+02    0.449793E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.318621E+02    0.418321E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.341001E+02    0.392115E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.374558E+02    0.377651E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.411897E+02    0.378445E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134411E+03   -0.445215E+02    0.394054E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133284E+03   -0.464612E+02    0.421693E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133310E+03   -0.459188E+02    0.456026E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.432474E+02    0.483177E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.395083E+02    0.497082E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.387629E+02    0.340587E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.367442E+02    0.342324E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.381911E+02    0.324904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.404855E+02    0.328877E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.403963E+02    0.349398E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.381320E+02    0.357279E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.359860E+02    0.370368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.349534E+02    0.356136E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.347925E+02    0.338564E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.356940E+02    0.321709E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.374390E+02    0.309886E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.395117E+02    0.306463E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.415802E+02    0.311005E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.428751E+02    0.323879E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.430556E+02    0.341796E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.419938E+02    0.359941E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.401927E+02    0.371872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.380016E+02    0.375498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.360889E+02    0.398236E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.330546E+02    0.383331E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.316948E+02    0.356715E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138106E+03   -0.321604E+02    0.325861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.344636E+02    0.298806E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.378046E+02    0.283793E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.416441E+02    0.282577E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.448759E+02    0.296597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133829E+03   -0.467316E+02    0.321895E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133738E+03   -0.462360E+02    0.354756E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.434948E+02    0.383952E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.397963E+02    0.399265E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.394527E+02    0.235772E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.373315E+02    0.238781E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.388593E+02    0.221214E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.411669E+02    0.224302E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.409974E+02    0.244286E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.387360E+02    0.252316E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.367028E+02    0.265060E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.355477E+02    0.252320E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.352764E+02    0.236633E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.361633E+02    0.220421E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.380927E+02    0.206925E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.402709E+02    0.202395E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.422432E+02    0.206979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.434435E+02    0.219642E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.436392E+02    0.236252E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.426058E+02    0.253597E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.408170E+02    0.265532E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.386284E+02    0.269854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.364405E+02    0.294517E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137980E+03   -0.335805E+02    0.280170E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.322797E+02    0.254164E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138173E+03   -0.328062E+02    0.223858E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.350033E+02    0.197728E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.385356E+02    0.180559E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.423832E+02    0.178590E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.455239E+02    0.192340E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.471723E+02    0.217088E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.465998E+02    0.248115E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.440216E+02    0.276304E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.403488E+02    0.292556E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    615850.469501398     
  ps_ts2 prof sum =   615511.850187981     
  trcom prof sum =    615511.850187981     
  ps_ts2 cur sum  =   8930.83186440319     
  trcom cur sum  =    8930.83186440318     
  
  antenna # iant =            2
  powecha_use(iant) =    670265.348801193     
  ps_ts2 prof sum =   669849.947638259     
  trcom prof sum =    669849.947638259     
  ps_ts2 cur sum  =   11946.0745032127     
  trcom cur sum  =    11946.0745032127     
  
  antenna # iant =            3
  powecha_use(iant) =    522449.083388953     
  ps_ts2 prof sum =   522141.237973618     
  trcom prof sum =    522141.237973618     
  ps_ts2 cur sum  =   6495.00656136302     
  trcom cur sum  =    6495.00656136303     
  
  antenna # iant =            4
  powecha_use(iant) =    578231.406832568     
  ps_ts2 prof sum =   577902.490573421     
  trcom prof sum =    577902.490573421     
  ps_ts2 cur sum  =   9287.54723966145     
  trcom cur sum  =    9287.54723966144     
  
  antenna # iant =            5
  powecha_use(iant) =    556219.637129960     
  ps_ts2 prof sum =   555892.551519132     
  trcom prof sum =    555892.551519132     
  ps_ts2 cur sum  =   11039.5395610589     
  trcom cur sum  =    11039.5395610589     
  
  Total ECH heating:      2941298.07789241     
  Total Current Drive:    47698.9997296992     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4084
 TA= 4.33500E+00 CPU TIME= 1.60264E-01 SECONDS.  DT= 5.68528E-04
  
 TEC1=    4.33499999999993     
 TEC2=    4.33999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4594655555557     
  %check_save_state: izleft hours =    68.5322222222222     
 --> plasma_hash("gframe"): TA= 4.335000E+00 NSTEP=  4084 Hash code:   51012893
 ->PRGCHK: bdy curvature ratio at t= 4.3400E+00 seconds is:  5.6961E-02
% MHDEQ: TG1=     4.335000 ; TG2=     4.340000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  1.2605E-02 SECONDS
   DATA R*BT AT EDGE:  2.7622E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6961E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.335000 TO TG2=    4.340000 @ NSTEP     4084
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528971663143D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.55573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.56949E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.50045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.06620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.04988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43661E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.18342E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.38789E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.31585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.50848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.71671E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8=  1.51954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.69718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.85801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.43070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.72122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.53092E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.99606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.40580E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.47246E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.47246E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3400E+00  4.3450E+00 total power(Watts):  2.9688E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.34000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.384959E+02    0.380709E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.364745E+02    0.382055E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.379243E+02    0.364995E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.402229E+02    0.369407E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.401265E+02    0.389533E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.378572E+02    0.396754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.359036E+02    0.408199E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.346782E+02    0.395083E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.343314E+02    0.379198E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137137E+03   -0.352364E+02    0.362487E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.370814E+02    0.349807E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.392587E+02    0.345804E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.412173E+02    0.351663E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.425045E+02    0.365368E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.428978E+02    0.382237E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.417207E+02    0.400053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.399112E+02    0.411598E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.378216E+02    0.414383E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.357873E+02    0.438772E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.327654E+02    0.422014E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.314212E+02    0.395016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137802E+03   -0.318964E+02    0.364849E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137506E+03   -0.340225E+02    0.338242E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.375623E+02    0.321510E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.412988E+02    0.321433E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.447507E+02    0.335566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133456E+03   -0.464795E+02    0.363676E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133438E+03   -0.459696E+02    0.396037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.432058E+02    0.424994E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.394925E+02    0.440662E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.393845E+02    0.294565E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.373587E+02    0.296480E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.387961E+02    0.279833E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.411052E+02    0.283303E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.410299E+02    0.302568E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.386580E+02    0.310993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.367132E+02    0.322834E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.353741E+02    0.311175E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.352042E+02    0.294690E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.362920E+02    0.276993E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.380371E+02    0.265107E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.401155E+02    0.261477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.421915E+02    0.265728E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.434974E+02    0.278141E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.436860E+02    0.294992E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.426397E+02    0.312229E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.408390E+02    0.324108E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.386415E+02    0.328152E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.366305E+02    0.352546E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.335803E+02    0.337761E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.322928E+02    0.310975E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.327445E+02    0.281588E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.350441E+02    0.254275E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.384957E+02    0.237919E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.423504E+02    0.236313E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.457139E+02    0.249394E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.473596E+02    0.275538E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.468888E+02    0.306235E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.440443E+02    0.336144E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.403475E+02    0.352843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.385574E+02    0.436548E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.365306E+02    0.437406E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.378960E+02    0.420161E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.401935E+02    0.425429E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.401851E+02    0.446495E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.377992E+02    0.453781E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.359367E+02    0.464360E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.347187E+02    0.450681E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.344800E+02    0.433056E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.354044E+02    0.415734E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.370644E+02    0.404648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.392468E+02    0.401347E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.412054E+02    0.407578E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134683E+03   -0.425960E+02    0.421402E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.429722E+02    0.439847E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.417752E+02    0.458031E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.399521E+02    0.468970E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135610E+03   -0.378546E+02    0.471050E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.358010E+02    0.493995E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.327842E+02    0.476573E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.314564E+02    0.449478E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.318662E+02    0.418307E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.340087E+02    0.392631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.374594E+02    0.377668E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.413045E+02    0.377917E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133957E+03   -0.447587E+02    0.393065E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133253E+03   -0.464703E+02    0.421679E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133067E+03   -0.460431E+02    0.455804E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133780E+03   -0.434719E+02    0.482718E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.396213E+02    0.496886E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.388704E+02    0.339914E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.368480E+02    0.341645E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.382893E+02    0.324210E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.405971E+02    0.328154E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.405078E+02    0.348777E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.381354E+02    0.357283E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.361886E+02    0.369224E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.348597E+02    0.356757E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.346997E+02    0.339169E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.355997E+02    0.322306E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.374425E+02    0.309788E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.396201E+02    0.305669E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.415848E+02    0.310895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135203E+03   -0.428787E+02    0.323797E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.430504E+02    0.341799E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.421086E+02    0.359381E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.403044E+02    0.371338E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.381089E+02    0.374958E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.360957E+02    0.398185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.332449E+02    0.382212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137851E+03   -0.317878E+02    0.356079E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137864E+03   -0.322538E+02    0.325083E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.343721E+02    0.299449E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.379083E+02    0.282967E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.416477E+02    0.282474E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.451085E+02    0.295126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133598E+03   -0.468537E+02    0.321185E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133716E+03   -0.462402E+02    0.354760E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.434993E+02    0.383957E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.398007E+02    0.399232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.394550E+02    0.235672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.374314E+02    0.237872E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.388606E+02    0.221099E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136028E+03   -0.411691E+02    0.224183E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.411045E+02    0.243406E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.387386E+02    0.252227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.366003E+02    0.265817E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.354558E+02    0.253036E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.354649E+02    0.234874E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.363543E+02    0.218607E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.380938E+02    0.206780E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.402717E+02    0.202231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.422446E+02    0.206835E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.435538E+02    0.218712E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.437510E+02    0.235370E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.427170E+02    0.252751E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.408196E+02    0.265452E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.386307E+02    0.269775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.366405E+02    0.292965E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.336754E+02    0.279315E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.323694E+02    0.253263E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.328083E+02    0.223748E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137777E+03   -0.350037E+02    0.197567E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.386334E+02    0.179463E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.424913E+02    0.177480E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.456351E+02    0.191313E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.474004E+02    0.215411E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.468322E+02    0.246552E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.440250E+02    0.276211E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.403521E+02    0.292449E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    645712.141593304     
  ps_ts2 prof sum =   645337.420692569     
  trcom prof sum =    645337.420656388     
  ps_ts2 cur sum  =   9328.36275341871     
  trcom cur sum  =    9328.36275341872     
  
  antenna # iant =            2
  powecha_use(iant) =    671120.977891996     
  ps_ts2 prof sum =   670736.394394499     
  trcom prof sum =    670736.394394498     
  ps_ts2 cur sum  =   11910.7776198192     
  trcom cur sum  =    11910.7776198192     
  
  antenna # iant =            3
  powecha_use(iant) =    524750.616049631     
  ps_ts2 prof sum =   524446.607621594     
  trcom prof sum =    524446.607621594     
  ps_ts2 cur sum  =   6501.26128823429     
  trcom cur sum  =    6501.26128823429     
  
  antenna # iant =            4
  powecha_use(iant) =    571932.878154896     
  ps_ts2 prof sum =   571594.823447002     
  trcom prof sum =    571594.823447002     
  ps_ts2 cur sum  =   9149.16247625482     
  trcom cur sum  =    9149.16247625481     
  
  antenna # iant =            5
  powecha_use(iant) =    555313.461401553     
  ps_ts2 prof sum =   554994.759594542     
  trcom prof sum =    554994.759594542     
  ps_ts2 cur sum  =   10975.5108443436     
  trcom cur sum  =    10975.5108443436     
  
  Total ECH heating:      2967110.00571402     
  Total Current Drive:    47865.0749820706     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4090
 TA= 4.34000E+00 CPU TIME= 1.45487E-01 SECONDS.  DT= 4.17591E-04
  
 TEC1=    4.33999999999993     
 TEC2=    4.34499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4738361111110     
  %check_save_state: izleft hours =    68.5177777777778     
 --> plasma_hash("gframe"): TA= 4.340000E+00 NSTEP=  4090 Hash code:   85503256
 ->PRGCHK: bdy curvature ratio at t= 4.3450E+00 seconds is:  5.6956E-02
% MHDEQ: TG1=     4.340000 ; TG2=     4.345000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7603E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6956E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.340000 TO TG2=    4.345000 @ NSTEP     4090
   GFRAME TG2 MOMENTS CHECKSUM:  2.4525531182419D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3450E+00  4.3500E+00 total power(Watts):  2.9942E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.34500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.384995E+02    0.380676E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.364793E+02    0.382009E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.379291E+02    0.364977E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.402278E+02    0.369389E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.402395E+02    0.388959E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.378619E+02    0.396688E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.359083E+02    0.408145E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.345859E+02    0.395542E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.345272E+02    0.378032E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.354362E+02    0.361272E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.371874E+02    0.349174E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.392629E+02    0.345805E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.413319E+02    0.351055E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.426216E+02    0.364800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134763E+03   -0.427904E+02    0.382712E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.418371E+02    0.399499E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135299E+03   -0.400241E+02    0.411088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.378264E+02    0.414345E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.358907E+02    0.438439E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.328630E+02    0.421536E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.315163E+02    0.394397E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.319006E+02    0.364831E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.342154E+02    0.336906E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.375667E+02    0.321493E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.414122E+02    0.320757E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.446409E+02    0.336163E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133433E+03   -0.464850E+02    0.363669E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133417E+03   -0.459752E+02    0.395972E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134027E+03   -0.434392E+02    0.424168E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.396046E+02    0.440350E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.393886E+02    0.294520E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.373627E+02    0.296437E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.389019E+02    0.279032E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.412165E+02    0.282509E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.411420E+02    0.301841E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.387663E+02    0.310275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.366180E+02    0.323490E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.355718E+02    0.309734E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.353993E+02    0.293175E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.362949E+02    0.276924E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.380412E+02    0.265022E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.402232E+02    0.260633E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.421954E+02    0.265647E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.435019E+02    0.278077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.436908E+02    0.294943E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.427549E+02    0.311548E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.408437E+02    0.324091E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.386463E+02    0.328132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.366352E+02    0.352528E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.336781E+02    0.337082E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.322973E+02    0.310939E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.327484E+02    0.281522E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.349540E+02    0.254993E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.384971E+02    0.237836E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.423537E+02    0.236218E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.456044E+02    0.250048E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133535E+03   -0.474814E+02    0.274769E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133651E+03   -0.468937E+02    0.306207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134572E+03   -0.441634E+02    0.335519E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.404599E+02    0.352240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.385620E+02    0.436613E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.365348E+02    0.437470E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.380047E+02    0.419691E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.403071E+02    0.425008E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.401901E+02    0.446589E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.379078E+02    0.453516E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.359410E+02    0.464429E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.347233E+02    0.450766E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.345824E+02    0.432659E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.354090E+02    0.415708E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.371712E+02    0.404095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.392520E+02    0.401279E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.413204E+02    0.407059E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.426013E+02    0.421389E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.428642E+02    0.440297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.418923E+02    0.457790E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.400659E+02    0.468722E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.378597E+02    0.471104E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.359062E+02    0.493759E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.328827E+02    0.476284E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.314605E+02    0.449556E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.319614E+02    0.417800E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.342041E+02    0.391494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.375669E+02    0.377078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.413091E+02    0.377892E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.448805E+02    0.392513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133014E+03   -0.465953E+02    0.421263E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133042E+03   -0.460485E+02    0.455923E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133964E+03   -0.433688E+02    0.482998E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.396269E+02    0.496914E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.388753E+02    0.339891E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.368523E+02    0.341628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.382975E+02    0.324173E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.406016E+02    0.328141E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.405130E+02    0.348760E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.382436E+02    0.356671E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.361933E+02    0.369204E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.350576E+02    0.355511E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.348961E+02    0.337845E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.357989E+02    0.320915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.375471E+02    0.309067E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.396248E+02    0.305639E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.416979E+02    0.310195E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.429951E+02    0.323139E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.431710E+02    0.341169E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.421135E+02    0.359377E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.403094E+02    0.371315E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.381153E+02    0.374912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.361979E+02    0.397615E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.331559E+02    0.382731E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.317924E+02    0.356066E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137842E+03   -0.322577E+02    0.325065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.345640E+02    0.297947E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.379123E+02    0.282908E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.417628E+02    0.281673E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.449990E+02    0.295761E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.468592E+02    0.321164E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133480E+03   -0.463635E+02    0.354196E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.436189E+02    0.383404E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.399133E+02    0.398670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.395599E+02    0.234770E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.373366E+02    0.238593E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.389629E+02    0.220163E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.412764E+02    0.223263E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.412135E+02    0.242536E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.388432E+02    0.251359E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.368036E+02    0.264142E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.356484E+02    0.251342E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.353733E+02    0.235623E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137311E+03   -0.362621E+02    0.219344E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.381934E+02    0.205790E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.403814E+02    0.201199E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.423521E+02    0.205866E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.436650E+02    0.217783E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.437545E+02    0.235264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.427208E+02    0.252664E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.409288E+02    0.264622E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.387360E+02    0.268940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.367427E+02    0.292189E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.336793E+02    0.279250E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.323723E+02    0.253191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.328985E+02    0.222783E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.350976E+02    0.196522E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.385379E+02    0.180144E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.424932E+02    0.177262E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.457477E+02    0.190309E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133772E+03   -0.475180E+02    0.214506E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.467210E+02    0.247200E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.441412E+02    0.275424E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.404623E+02    0.291695E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    674114.124162035     
  ps_ts2 prof sum =   673749.216077614     
  trcom prof sum =    673749.216077615     
  ps_ts2 cur sum  =   9704.27813562686     
  trcom cur sum  =    9704.27813562686     
  
  antenna # iant =            2
  powecha_use(iant) =    669747.023367365     
  ps_ts2 prof sum =   669336.837615521     
  trcom prof sum =    669336.837615521     
  ps_ts2 cur sum  =   11842.6994077672     
  trcom cur sum  =    11842.6994077672     
  
  antenna # iant =            3
  powecha_use(iant) =    524021.252809773     
  ps_ts2 prof sum =   523721.519929325     
  trcom prof sum =    523721.519929326     
  ps_ts2 cur sum  =   6470.55915732831     
  trcom cur sum  =    6470.55915732832     
  
  antenna # iant =            4
  powecha_use(iant) =    572608.760193056     
  ps_ts2 prof sum =   572286.842101115     
  trcom prof sum =    572286.842101114     
  ps_ts2 cur sum  =   9125.16222234773     
  trcom cur sum  =    9125.16222234772     
  
  antenna # iant =            5
  powecha_use(iant) =    553724.410464917     
  ps_ts2 prof sum =   553396.300675606     
  trcom prof sum =    553396.300675606     
  ps_ts2 cur sum  =   10903.6788427546     
  trcom cur sum  =    10903.6788427546     
  
  Total ECH heating:      2992490.71639918     
  Total Current Drive:    48046.3777658247     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4097
 TA= 4.34500E+00 CPU TIME= 1.67679E-01 SECONDS.  DT= 3.73043E-04
  
 TEC1=    4.34499999999993     
 TEC2=    4.34999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.4890008333332     
  %check_save_state: izleft hours =    68.5025000000000     
 --> plasma_hash("gframe"): TA= 4.345000E+00 NSTEP=  4097 Hash code:   69936468
 ->PRGCHK: bdy curvature ratio at t= 4.3500E+00 seconds is:  5.6954E-02
% MHDEQ: TG1=     4.345000 ; TG2=     4.350000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.6290E-03 SECONDS
   DATA R*BT AT EDGE:  2.7584E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6954E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.345000 TO TG2=    4.350000 @ NSTEP     4097
   GFRAME TG2 MOMENTS CHECKSUM:  2.4522090701696D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.37820E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.42589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.55924E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.36498E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.09354E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45717E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4= -6.54620E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.42988E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.99964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.31511E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.82358E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.78585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -5.56901E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  3.17399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.06069E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.37427E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.96945E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.92516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.20923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.30181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.11443E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.11443E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3500E+00  4.3550E+00 total power(Watts):  3.0021E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.35000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.386089E+02    0.380111E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.365843E+02    0.381430E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.380369E+02    0.364409E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.403405E+02    0.368836E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.402449E+02    0.388910E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.379703E+02    0.396124E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.358133E+02    0.408590E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.347840E+02    0.394435E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.344368E+02    0.378571E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.353431E+02    0.361878E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.371920E+02    0.349193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.393736E+02    0.345195E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.413410E+02    0.351069E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.426270E+02    0.364815E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.429086E+02    0.382167E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.418480E+02    0.399420E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.400290E+02    0.411057E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.378311E+02    0.414326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.358961E+02    0.438523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.328671E+02    0.421549E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.315206E+02    0.394341E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.319952E+02    0.364221E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.341253E+02    0.337582E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.376729E+02    0.320832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135366E+03   -0.414169E+02    0.320783E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133978E+03   -0.448760E+02    0.334983E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133192E+03   -0.466112E+02    0.363148E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133180E+03   -0.460990E+02    0.395446E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134222E+03   -0.433300E+02    0.424612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.396094E+02    0.440462E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.394976E+02    0.293805E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.374676E+02    0.295711E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.389069E+02    0.279013E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.412216E+02    0.282502E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.411473E+02    0.301843E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.387754E+02    0.310260E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.368220E+02    0.322157E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.354807E+02    0.310443E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.353080E+02    0.293902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.363963E+02    0.276143E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.381452E+02    0.264229E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.403318E+02    0.259841E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.423089E+02    0.264876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.436176E+02    0.277349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.438083E+02    0.294255E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.427603E+02    0.311559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.409562E+02    0.323466E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.387548E+02    0.327494E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.367399E+02    0.351937E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.336823E+02    0.337098E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.323919E+02    0.310216E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.328426E+02    0.280725E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.351455E+02    0.253352E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.386005E+02    0.236992E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.424663E+02    0.235389E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134117E+03   -0.458363E+02    0.248524E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133514E+03   -0.474874E+02    0.274748E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.470165E+02    0.305591E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.443969E+02    0.334333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.404649E+02    0.352264E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.386718E+02    0.436297E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.365393E+02    0.437573E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.380092E+02    0.419703E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.403119E+02    0.425037E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.403033E+02    0.446344E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135623E+03   -0.379124E+02    0.453628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.359455E+02    0.464515E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.346311E+02    0.451257E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.345865E+02    0.432731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.355120E+02    0.415223E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.371760E+02    0.404044E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.393633E+02    0.400735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.413259E+02    0.407015E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.427193E+02    0.420974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.431001E+02    0.439645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134544E+03   -0.418973E+02    0.457906E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.400709E+02    0.468799E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135547E+03   -0.378715E+02    0.471136E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.359109E+02    0.493802E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.328872E+02    0.476327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.315549E+02    0.449262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.319653E+02    0.417795E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.341131E+02    0.391977E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.375716E+02    0.377062E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.414248E+02    0.377337E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133914E+03   -0.447700E+02    0.392947E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132776E+03   -0.467201E+02    0.420874E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132799E+03   -0.461726E+02    0.455738E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.436035E+02    0.482529E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.397390E+02    0.496736E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.41 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.389845E+02    0.339286E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.369572E+02    0.341015E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.384057E+02    0.323521E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.407140E+02    0.327516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.406258E+02    0.348184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.382485E+02    0.356689E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.362974E+02    0.368624E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.349655E+02    0.356139E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.348044E+02    0.338519E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.358036E+02    0.320934E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.375529E+02    0.309069E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.397339E+02    0.304962E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.417030E+02    0.310211E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.430004E+02    0.323165E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134825E+03   -0.431767E+02    0.341190E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.422299E+02    0.358824E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.404224E+02    0.370758E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.382233E+02    0.374350E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.362027E+02    0.397560E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.333471E+02    0.381571E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.318864E+02    0.355446E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.323517E+02    0.324391E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.344742E+02    0.298681E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.380173E+02    0.282152E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.417597E+02    0.281716E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.452329E+02    0.294411E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133341E+03   -0.469827E+02    0.320578E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133456E+03   -0.463691E+02    0.354226E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.438527E+02    0.382351E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135423E+03   -0.399184E+02    0.398615E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.395647E+02    0.234729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.375355E+02    0.236923E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.389724E+02    0.220060E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.412808E+02    0.223212E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.412173E+02    0.242503E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.388479E+02    0.251318E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.367104E+02    0.264887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.355580E+02    0.252118E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.355649E+02    0.233908E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.364550E+02    0.217584E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.381003E+02    0.206561E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.403779E+02    0.201159E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135549E+03   -0.423567E+02    0.205782E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.436698E+02    0.217721E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.438693E+02    0.234442E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.428336E+02    0.251872E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.409338E+02    0.264586E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.387405E+02    0.268910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.367473E+02    0.292180E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.337755E+02    0.278452E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.324641E+02    0.252327E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.329024E+02    0.222727E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.351018E+02    0.196409E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.387362E+02    0.178228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.426010E+02    0.176248E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.457524E+02    0.190184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.474087E+02    0.215210E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133790E+03   -0.469565E+02    0.245683E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.441460E+02    0.275411E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.404668E+02    0.291698E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.28 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673998.795928116     
  ps_ts2 prof sum =   673581.868601695     
  trcom prof sum =    673581.868601696     
  ps_ts2 cur sum  =   9670.54498036197     
  trcom cur sum  =    9670.54498036197     
  
  antenna # iant =            2
  powecha_use(iant) =    671960.005292262     
  ps_ts2 prof sum =   671587.177783308     
  trcom prof sum =    671587.177783307     
  ps_ts2 cur sum  =   11842.8521073298     
  trcom cur sum  =    11842.8521073298     
  
  antenna # iant =            3
  powecha_use(iant) =    522049.172626299     
  ps_ts2 prof sum =   521726.165529428     
  trcom prof sum =    521726.165529428     
  ps_ts2 cur sum  =   6425.30517393188     
  trcom cur sum  =    6425.30517393189     
  
  antenna # iant =            4
  powecha_use(iant) =    577752.853776716     
  ps_ts2 prof sum =   577429.174779032     
  trcom prof sum =    577429.174779032     
  ps_ts2 cur sum  =   9177.04419219616     
  trcom cur sum  =    9177.04419219616     
  
  antenna # iant =            5
  powecha_use(iant) =    556345.686009138     
  ps_ts2 prof sum =   556002.427691961     
  trcom prof sum =    556002.427691961     
  ps_ts2 cur sum  =   10921.7025202743     
  trcom cur sum  =    10921.7025202743     
  
  Total ECH heating:      3000326.81438542     
  Total Current Drive:    48037.4489740941     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4104
 TA= 4.35000E+00 CPU TIME= 1.63309E-01 SECONDS.  DT= 9.99989E-04
  
 TEC1=    4.34999999999993     
 TEC2=    4.35499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5045788888888     
  %check_save_state: izleft hours =    68.4869444444444     
 --> plasma_hash("gframe"): TA= 4.350000E+00 NSTEP=  4104 Hash code:   64742774
 ->PRGCHK: bdy curvature ratio at t= 4.3550E+00 seconds is:  5.6957E-02
% MHDEQ: TG1=     4.350000 ; TG2=     4.355000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1540E-03 SECONDS
   DATA R*BT AT EDGE:  2.7565E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6957E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.350000 TO TG2=    4.355000 @ NSTEP     4104
   GFRAME TG2 MOMENTS CHECKSUM:  2.4518650220973D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.3550E+00  4.3600E+00 total power(Watts):  2.9876E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.35500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.386158E+02    0.380085E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.365909E+02    0.381401E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.380436E+02    0.364421E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.403475E+02    0.368840E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.403598E+02    0.388345E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.379769E+02    0.396072E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.360184E+02    0.407581E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.347902E+02    0.394377E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.346348E+02    0.377424E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.355446E+02    0.360691E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.371985E+02    0.349217E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.393799E+02    0.345239E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.413395E+02    0.351132E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.427461E+02    0.364272E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.429161E+02    0.382134E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134670E+03   -0.419571E+02    0.398931E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.401493E+02    0.410554E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.379409E+02    0.413858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.359018E+02    0.438654E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.330592E+02    0.420638E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137578E+03   -0.315252E+02    0.394296E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.320011E+02    0.364229E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.341314E+02    0.337602E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.376779E+02    0.320861E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135128E+03   -0.415326E+02    0.320148E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134169E+03   -0.447687E+02    0.335626E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133173E+03   -0.466167E+02    0.363178E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133159E+03   -0.461068E+02    0.395400E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133762E+03   -0.435649E+02    0.423842E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.397231E+02    0.440214E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.395041E+02    0.293792E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.374742E+02    0.295692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.389136E+02    0.278958E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.412287E+02    0.282447E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.412618E+02    0.301144E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.388770E+02    0.309637E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.368285E+02    0.322169E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.356800E+02    0.309037E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.355059E+02    0.292398E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.364026E+02    0.276083E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.381514E+02    0.264149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.403390E+02    0.259751E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135276E+03   -0.423159E+02    0.264794E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.436255E+02    0.277289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.438154E+02    0.294250E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.428780E+02    0.310916E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.409633E+02    0.323487E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.387615E+02    0.327519E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.367465E+02    0.351952E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.338753E+02    0.335793E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.323978E+02    0.310213E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.328485E+02    0.280670E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.350579E+02    0.254063E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.386077E+02    0.236880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135279E+03   -0.424718E+02    0.235277E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.457303E+02    0.249164E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.476125E+02    0.273994E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133395E+03   -0.470245E+02    0.305588E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134311E+03   -0.442904E+02    0.334979E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.405796E+02    0.351702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.386779E+02    0.436415E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.366473E+02    0.437276E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.381193E+02    0.419269E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.404268E+02    0.424657E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134945E+03   -0.403099E+02    0.446489E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.380224E+02    0.453409E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.360513E+02    0.464282E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.348304E+02    0.450631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.344955E+02    0.433250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.355179E+02    0.415219E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.372844E+02    0.403508E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.393701E+02    0.400686E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.414432E+02    0.406506E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134397E+03   -0.427261E+02    0.421004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.429839E+02    0.440149E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134298E+03   -0.420157E+02    0.457714E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.401852E+02    0.468605E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.379728E+02    0.470940E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.360176E+02    0.493592E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.330804E+02    0.475751E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.315600E+02    0.449390E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.319708E+02    0.417802E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.341193E+02    0.391923E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.376807E+02    0.376488E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.414322E+02    0.377315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133461E+03   -0.450100E+02    0.391929E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132753E+03   -0.467273E+02    0.420908E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132773E+03   -0.461795E+02    0.455904E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133694E+03   -0.434960E+02    0.482860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.397462E+02    0.496797E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.389913E+02    0.339319E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.369637E+02    0.341039E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.384121E+02    0.323548E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.407208E+02    0.327546E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.406331E+02    0.348210E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.383582E+02    0.356123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.363037E+02    0.368627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.351652E+02    0.354928E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.350026E+02    0.337235E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.359075E+02    0.320259E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.376602E+02    0.308374E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.397408E+02    0.304960E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.418185E+02    0.309558E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.431193E+02    0.322548E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.432964E+02    0.340629E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.422373E+02    0.358850E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.404289E+02    0.370763E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.382305E+02    0.374337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.363088E+02    0.396997E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.332600E+02    0.382097E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.318922E+02    0.355459E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.323576E+02    0.324403E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.344804E+02    0.298663E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.380239E+02    0.282105E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.418795E+02    0.280919E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.451259E+02    0.295086E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133318E+03   -0.469906E+02    0.320604E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133220E+03   -0.464950E+02    0.353706E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.437521E+02    0.382805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.400328E+02    0.398070E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.396725E+02    0.233813E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.375478E+02    0.236778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.390696E+02    0.219167E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.413911E+02    0.222276E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.413288E+02    0.241611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.389553E+02    0.250438E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.369113E+02    0.263258E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.355640E+02    0.252022E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.354786E+02    0.234630E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.363658E+02    0.218319E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.383005E+02    0.204711E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.404866E+02    0.200149E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.424678E+02    0.204802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134889E+03   -0.437844E+02    0.216786E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.438754E+02    0.234332E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.428405E+02    0.251776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.410463E+02    0.263752E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.388487E+02    0.268077E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.366553E+02    0.292881E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.337815E+02    0.278394E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.324698E+02    0.252235E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.329952E+02    0.221746E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.351975E+02    0.195371E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.387410E+02    0.178019E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.426061E+02    0.176023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134382E+03   -0.458684E+02    0.189175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133530E+03   -0.476441E+02    0.213507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.468488E+02    0.246316E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.442658E+02    0.274630E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.405780E+02    0.290972E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664344.915188413     
  ps_ts2 prof sum =   663977.400131172     
  trcom prof sum =    663977.400131172     
  ps_ts2 cur sum  =   9505.65913383284     
  trcom cur sum  =    9505.65913383284     
  
  antenna # iant =            2
  powecha_use(iant) =    669145.841572478     
  ps_ts2 prof sum =   668763.926934634     
  trcom prof sum =    668763.926934633     
  ps_ts2 cur sum  =   11759.3418233879     
  trcom cur sum  =    11759.3418233879     
  
  antenna # iant =            3
  powecha_use(iant) =    524193.760745607     
  ps_ts2 prof sum =   523878.450739342     
  trcom prof sum =    523878.450739343     
  ps_ts2 cur sum  =   6434.01253596436     
  trcom cur sum  =    6434.01253596436     
  
  antenna # iant =            4
  powecha_use(iant) =    575555.147642447     
  ps_ts2 prof sum =   575229.420996047     
  trcom prof sum =    575229.420996046     
  ps_ts2 cur sum  =   9116.79277716028     
  trcom cur sum  =    9116.79277716027     
  
  antenna # iant =            5
  powecha_use(iant) =    554340.308570685     
  ps_ts2 prof sum =   554018.445167119     
  trcom prof sum =    554018.445167119     
  ps_ts2 cur sum  =   10851.9310248881     
  trcom cur sum  =    10851.9310248881     
  
  Total ECH heating:      2985867.64396831     
  Total Current Drive:    47667.7372952334     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4108
 TA= 4.35500E+00 CPU TIME= 1.59541E-01 SECONDS.  DT= 1.48443E-03
  
 TEC1=    4.35499999999993     
 TEC2=    4.35999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5183713888889     
  %check_save_state: izleft hours =    68.4730555555556     
 --> plasma_hash("gframe"): TA= 4.355000E+00 NSTEP=  4108 Hash code:   11723527
 ->PRGCHK: bdy curvature ratio at t= 4.3600E+00 seconds is:  5.6936E-02
% MHDEQ: TG1=     4.355000 ; TG2=     4.360000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1720E-03 SECONDS
   DATA R*BT AT EDGE:  2.7583E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6936E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.355000 TO TG2=    4.360000 @ NSTEP     4108
   GFRAME TG2 MOMENTS CHECKSUM:  2.4521217338883D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.51565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.47039E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.61799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -4.57655E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.12290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.45401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       4= -3.74029E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.44825E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.99999E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.35705E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.81506E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.82111E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9=  1.55051E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  1.95131E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -3.04038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.37351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -4.58061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  3.02148E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.23599E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.37068E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.24658E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.24658E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.3600E+00  4.3650E+00 total power(Watts):  2.9932E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.36000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.386209E+02    0.380426E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.365959E+02    0.381740E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.380491E+02    0.364693E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135335E+03   -0.403531E+02    0.369140E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.402571E+02    0.389238E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.379820E+02    0.396436E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.358246E+02    0.408868E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.347953E+02    0.394733E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.344476E+02    0.378871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.354526E+02    0.361553E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.372043E+02    0.349437E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.393864E+02    0.345441E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.413503E+02    0.351347E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.426401E+02    0.365121E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.430342E+02    0.381991E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134918E+03   -0.418548E+02    0.399770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.400410E+02    0.411348E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.378426E+02    0.414602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.359068E+02    0.438750E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.328781E+02    0.421779E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.315299E+02    0.394640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.320061E+02    0.364485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.341366E+02    0.337792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.376858E+02    0.321019E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.414310E+02    0.320976E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.448905E+02    0.335216E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133214E+03   -0.466230E+02    0.363475E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133198E+03   -0.461124E+02    0.395800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.433424E+02    0.424890E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.396220E+02    0.440681E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       9.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.395118E+02    0.293988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136368E+03   -0.374810E+02    0.295888E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.389209E+02    0.279192E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.412361E+02    0.282680E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.411614E+02    0.302024E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136123E+03   -0.387846E+02    0.310461E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.368346E+02    0.322343E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.354932E+02    0.310611E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137225E+03   -0.353210E+02    0.294062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.362155E+02    0.277834E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.381591E+02    0.264383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.402423E+02    0.260750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.423239E+02    0.265040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.436332E+02    0.277523E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.438231E+02    0.294447E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.427746E+02    0.311747E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.409702E+02    0.323662E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.387682E+02    0.327691E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.367523E+02    0.352185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137432E+03   -0.336934E+02    0.337303E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.324034E+02    0.310384E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137708E+03   -0.328552E+02    0.280887E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.351592E+02    0.253478E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.386165E+02    0.237083E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.424820E+02    0.235477E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134141E+03   -0.458525E+02    0.248658E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133536E+03   -0.475033E+02    0.274940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133438E+03   -0.470322E+02    0.305790E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134140E+03   -0.444114E+02    0.334561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.404780E+02    0.352533E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      10.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.386832E+02    0.436535E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.365503E+02    0.437791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.380208E+02    0.419959E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.403238E+02    0.425293E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.403150E+02    0.446580E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.379238E+02    0.453866E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.359558E+02    0.464760E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.346407E+02    0.451482E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.345973E+02    0.432958E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.355234E+02    0.415473E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.371875E+02    0.404339E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.393749E+02    0.401052E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.414456E+02    0.406863E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134437E+03   -0.427316E+02    0.421252E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133937E+03   -0.431086E+02    0.439898E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.419089E+02    0.458157E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.400820E+02    0.469058E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.379794E+02    0.471103E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.359211E+02    0.494030E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.328970E+02    0.476554E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.315647E+02    0.449477E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.319757E+02    0.418037E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.341240E+02    0.392280E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.375834E+02    0.377369E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.414371E+02    0.377669E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133931E+03   -0.447830E+02    0.393295E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132795E+03   -0.467334E+02    0.421167E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132818E+03   -0.461851E+02    0.456013E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.436151E+02    0.482789E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134805E+03   -0.397496E+02    0.496984E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.389972E+02    0.339527E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.369698E+02    0.341237E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.384187E+02    0.323711E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.407278E+02    0.327719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.406388E+02    0.348440E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.382610E+02    0.356959E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.363094E+02    0.368919E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.349772E+02    0.356395E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.348158E+02    0.338731E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.358169E+02    0.321108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.375662E+02    0.309238E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.397474E+02    0.305134E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.417168E+02    0.310406E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.430149E+02    0.323364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.431901E+02    0.341441E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.422431E+02    0.359112E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.404348E+02    0.371070E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.382361E+02    0.374649E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.362137E+02    0.397868E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.331712E+02    0.382991E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.318972E+02    0.355692E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.322736E+02    0.325256E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.344874E+02    0.298841E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.380313E+02    0.282326E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.417804E+02    0.281864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134136E+03   -0.452480E+02    0.294615E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133362E+03   -0.469979E+02    0.320795E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133475E+03   -0.463833E+02    0.354528E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.436375E+02    0.383714E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.399304E+02    0.398932E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.395791E+02    0.234812E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.375501E+02    0.237019E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.389815E+02    0.220154E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.412968E+02    0.223267E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.412329E+02    0.242598E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.388621E+02    0.251453E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.367236E+02    0.265045E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.355716E+02    0.252238E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.353913E+02    0.235657E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.364689E+02    0.217644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.382122E+02    0.205735E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.403999E+02    0.201123E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.423725E+02    0.205804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.436858E+02    0.217777E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.438855E+02    0.234534E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.428490E+02    0.252004E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.409486E+02    0.264747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.387548E+02    0.269071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.367614E+02    0.292347E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.338792E+02    0.277848E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.324770E+02    0.252442E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.329148E+02    0.222794E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.351154E+02    0.196415E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.387512E+02    0.178165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.426174E+02    0.176171E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.457691E+02    0.190152E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133989E+03   -0.474256E+02    0.215264E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.469730E+02    0.245809E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.441618E+02    0.275591E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.404815E+02    0.291873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669116.487278954     
  ps_ts2 prof sum =   668721.999737807     
  trcom prof sum =    668721.999737807     
  ps_ts2 cur sum  =   9590.59044773998     
  trcom cur sum  =    9590.59044773999     
  
  antenna # iant =            2
  powecha_use(iant) =    667810.608344035     
  ps_ts2 prof sum =   667427.496142826     
  trcom prof sum =    667427.496142825     
  ps_ts2 cur sum  =   11760.2854787650     
  trcom cur sum  =    11760.2854787650     
  
  antenna # iant =            3
  powecha_use(iant) =    525438.663896298     
  ps_ts2 prof sum =   525118.940913770     
  trcom prof sum =    525118.940913770     
  ps_ts2 cur sum  =   6458.64297528978     
  trcom cur sum  =    6458.64297528979     
  
  antenna # iant =            4
  powecha_use(iant) =    576163.210029068     
  ps_ts2 prof sum =   575811.157171381     
  trcom prof sum =    575811.157171380     
  ps_ts2 cur sum  =   9144.43952879842     
  trcom cur sum  =    9144.43952879841     
  
  antenna # iant =            5
  powecha_use(iant) =    554659.847278696     
  ps_ts2 prof sum =   554332.007647873     
  trcom prof sum =    554332.007647873     
  ps_ts2 cur sum  =   10879.9377307032     
  trcom cur sum  =    10879.9377307032     
  
  Total ECH heating:      2991411.60161366     
  Total Current Drive:    47833.8961612963     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4111
 TA= 4.36000E+00 CPU TIME= 1.68109E-01 SECONDS.  DT= 2.07505E-03
  
 TEC1=    4.35999999999993     
 TEC2=    4.36499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5385049999998     
  %check_save_state: izleft hours =    68.4530555555556     
 --> plasma_hash("gframe"): TA= 4.360000E+00 NSTEP=  4111 Hash code:  119870846
 ->PRGCHK: bdy curvature ratio at t= 4.3650E+00 seconds is:  5.6918E-02
% MHDEQ: TG1=     4.360000 ; TG2=     4.365000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7601E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6918E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.360000 TO TG2=    4.365000 @ NSTEP     4111
   GFRAME TG2 MOMENTS CHECKSUM:  2.4523784456794D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3650E+00  4.3700E+00 total power(Watts):  2.9990E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.36500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.385246E+02    0.381249E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.365988E+02    0.382046E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.379490E+02    0.365528E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.402448E+02    0.369979E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.402599E+02    0.389580E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.378814E+02    0.397273E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.359271E+02    0.408666E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.346048E+02    0.396102E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.344505E+02    0.379155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.354556E+02    0.361795E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.372076E+02    0.349655E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.392846E+02    0.346277E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.413534E+02    0.351577E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.426433E+02    0.365387E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.428117E+02    0.383349E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.418578E+02    0.400109E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.400441E+02    0.411635E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.378457E+02    0.414859E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.359103E+02    0.438818E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.328845E+02    0.421953E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.315326E+02    0.394955E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.319189E+02    0.365337E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.342348E+02    0.337329E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.375884E+02    0.321880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.414349E+02    0.321170E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.446645E+02    0.336634E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133467E+03   -0.465081E+02    0.364290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133450E+03   -0.459974E+02    0.396631E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.433464E+02    0.425078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.396249E+02    0.440756E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.395164E+02    0.294194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.374861E+02    0.296083E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.389264E+02    0.279408E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.412412E+02    0.282906E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.411659E+02    0.302222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.387889E+02    0.310650E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.368384E+02    0.322526E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.355941E+02    0.310086E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.353252E+02    0.294276E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.363174E+02    0.277298E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.380641E+02    0.265373E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.402476E+02    0.260974E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.422214E+02    0.266011E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.435275E+02    0.278471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.437160E+02    0.295347E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.427788E+02    0.311948E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.408663E+02    0.324504E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.386685E+02    0.328534E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.367557E+02    0.352403E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.336970E+02    0.337495E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.323195E+02    0.311262E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.327687E+02    0.281883E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.349763E+02    0.255284E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.386225E+02    0.237261E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.423799E+02    0.236455E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.456321E+02    0.250347E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.475090E+02    0.275184E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.467968E+02    0.307305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.441869E+02    0.335986E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.404811E+02    0.352760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.385816E+02    0.437020E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.365540E+02    0.437868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.380241E+02    0.420171E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.403273E+02    0.425473E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.403183E+02    0.446634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.379269E+02    0.453932E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.359592E+02    0.464853E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.347413E+02    0.451160E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.346001E+02    0.433064E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.353293E+02    0.416655E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.371905E+02    0.404647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.393783E+02    0.401374E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.413412E+02    0.407632E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.427352E+02    0.421474E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.428854E+02    0.440718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.419123E+02    0.458233E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.400850E+02    0.469172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.378782E+02    0.471542E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.359236E+02    0.494178E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.328997E+02    0.476694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.314774E+02    0.449931E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.319790E+02    0.418252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.342223E+02    0.392069E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.375859E+02    0.377666E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.414402E+02    0.377966E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.449023E+02    0.393175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133051E+03   -0.466177E+02    0.421799E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132863E+03   -0.461892E+02    0.456068E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134008E+03   -0.433860E+02    0.483469E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.396456E+02    0.497348E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.388965E+02    0.340357E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.368728E+02    0.342079E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.383201E+02    0.324558E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.406244E+02    0.328556E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.406424E+02    0.348657E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.382639E+02    0.357198E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.363124E+02    0.369181E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.350744E+02    0.356017E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.349158E+02    0.338263E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.358203E+02    0.321292E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.375701E+02    0.309428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.396481E+02    0.306011E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.417218E+02    0.310584E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.430189E+02    0.323561E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.431960E+02    0.341649E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.422468E+02    0.359358E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.403301E+02    0.371902E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.381349E+02    0.375498E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.362166E+02    0.398192E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.331738E+02    0.383291E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.318106E+02    0.356536E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.322774E+02    0.325427E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.345856E+02    0.298307E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.380369E+02    0.282539E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.417848E+02    0.282091E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.450243E+02    0.296179E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.468840E+02    0.321612E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133515E+03   -0.463868E+02    0.354780E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.436405E+02    0.384042E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.399335E+02    0.399266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.395852E+02    0.234988E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.375571E+02    0.237192E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.389878E+02    0.220309E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.413028E+02    0.223438E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.412390E+02    0.242789E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.388673E+02    0.251649E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.368261E+02    0.264483E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.356711E+02    0.251628E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137446E+03   -0.353970E+02    0.235829E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.364745E+02    0.217797E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.382190E+02    0.205891E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.404016E+02    0.201318E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.423797E+02    0.205966E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.436928E+02    0.217943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135228E+03   -0.437813E+02    0.235501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.428548E+02    0.252217E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.409535E+02    0.264975E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.387596E+02    0.269306E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.367662E+02    0.292554E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.337000E+02    0.279611E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138055E+03   -0.323939E+02    0.253454E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.329208E+02    0.222949E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.351205E+02    0.196577E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.387585E+02    0.178326E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.425169E+02    0.177225E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.457775E+02    0.190324E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133824E+03   -0.475473E+02    0.214655E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133855E+03   -0.469795E+02    0.246010E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.441671E+02    0.275825E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.404864E+02    0.292079E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.50 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672736.985231527     
  ps_ts2 prof sum =   672330.025720252     
  trcom prof sum =    672330.025720252     
  ps_ts2 cur sum  =   9649.84623147582     
  trcom cur sum  =    9649.84623147582     
  
  antenna # iant =            2
  powecha_use(iant) =    669894.129753594     
  ps_ts2 prof sum =   669473.253755233     
  trcom prof sum =    669473.253755233     
  ps_ts2 cur sum  =   11809.1143338412     
  trcom cur sum  =    11809.1143338412     
  
  antenna # iant =            3
  powecha_use(iant) =    523625.965903221     
  ps_ts2 prof sum =   523312.846285111     
  trcom prof sum =    523312.846285112     
  ps_ts2 cur sum  =   6441.84678338828     
  trcom cur sum  =    6441.84678338829     
  
  antenna # iant =            4
  powecha_use(iant) =    578477.510988913     
  ps_ts2 prof sum =   578146.501688456     
  trcom prof sum =    578146.501688456     
  ps_ts2 cur sum  =   9188.90637783451     
  trcom cur sum  =    9188.90637783450     
  
  antenna # iant =            5
  powecha_use(iant) =    554253.972620740     
  ps_ts2 prof sum =   553960.892898555     
  trcom prof sum =    553960.892898555     
  ps_ts2 cur sum  =   10887.8810663104     
  trcom cur sum  =    10887.8810663104     
  
  Total ECH heating:      2997223.52034761     
  Total Current Drive:    47977.5947928502     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4114
 TA= 4.36500E+00 CPU TIME= 1.59563E-01 SECONDS.  DT= 4.13927E-04
  
 TEC1=    4.36499999999993     
 TEC2=    4.36999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5558530555550     
  %check_save_state: izleft hours =    68.4355555555556     
 --> plasma_hash("gframe"): TA= 4.365000E+00 NSTEP=  4114 Hash code:  116258782
 ->PRGCHK: bdy curvature ratio at t= 4.3700E+00 seconds is:  5.6902E-02
% MHDEQ: TG1=     4.365000 ; TG2=     4.370000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1360E-03 SECONDS
   DATA R*BT AT EDGE:  2.7619E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6902E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.365000 TO TG2=    4.370000 @ NSTEP     4114
   GFRAME TG2 MOMENTS CHECKSUM:  2.4526351586163D+04
 %MFRCHK - LABEL "RMC12", #       1= -7.94718E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.69060E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.67655E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -5.64082E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.13880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -2.00866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.44450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.07527E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.43875E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.50404E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.82462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -2.51269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -2.83840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.81166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.42480E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -3.59728E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.83903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.08841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.60095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  7.04450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  7.04450E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3700E+00  4.3750E+00 total power(Watts):  2.9935E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.37000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.385247E+02    0.381385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.365037E+02    0.382712E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.379542E+02    0.365647E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.402541E+02    0.370078E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.401570E+02    0.390243E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.378862E+02    0.397463E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.359316E+02    0.408884E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.347061E+02    0.395755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.345517E+02    0.378696E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.354603E+02    0.361913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.371124E+02    0.350454E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.392901E+02    0.346491E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.412500E+02    0.352350E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.425369E+02    0.366065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.428172E+02    0.383477E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134994E+03   -0.418627E+02    0.400316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.399407E+02    0.412323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.378501E+02    0.415081E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.358151E+02    0.439339E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.329788E+02    0.421697E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137912E+03   -0.314468E+02    0.395665E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.319240E+02    0.365450E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.340513E+02    0.338882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.375940E+02    0.322191E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.413320E+02    0.322147E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134289E+03   -0.447857E+02    0.336309E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133510E+03   -0.465145E+02    0.364413E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.460026E+02    0.396840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134540E+03   -0.432369E+02    0.425700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.396288E+02    0.440882E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.394180E+02    0.295215E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.373915E+02    0.297109E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.388301E+02    0.280405E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.411402E+02    0.283907E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.410603E+02    0.303265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.387944E+02    0.310977E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.367443E+02    0.323507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.355994E+02    0.310404E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.354268E+02    0.293830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.363227E+02    0.277538E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.380700E+02    0.265585E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.402540E+02    0.261173E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.422278E+02    0.266234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.435337E+02    0.278741E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.437220E+02    0.295673E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.426741E+02    0.312938E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.408720E+02    0.324821E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.386741E+02    0.328834E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.366608E+02    0.353191E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.337959E+02    0.337081E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.323229E+02    0.311588E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.327740E+02    0.282131E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137576E+03   -0.349823E+02    0.255459E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.385282E+02    0.238230E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.423871E+02    0.236622E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.456343E+02    0.250560E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.472808E+02    0.276842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133726E+03   -0.469258E+02    0.306983E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.443106E+02    0.335652E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.403793E+02    0.353527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.385858E+02    0.437161E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.365582E+02    0.437990E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.379245E+02    0.420832E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.403319E+02    0.425676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.402138E+02    0.447094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.379311E+02    0.454025E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.359632E+02    0.464968E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.347456E+02    0.451248E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.344104E+02    0.434062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.354323E+02    0.416398E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.371951E+02    0.404862E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.392765E+02    0.402070E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135101E+03   -0.413462E+02    0.407850E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.426268E+02    0.422120E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.428896E+02    0.440855E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.419167E+02    0.458329E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.400886E+02    0.469308E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.378826E+02    0.471670E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.359271E+02    0.494334E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.329971E+02    0.476526E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.314815E+02    0.450015E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.318917E+02    0.418934E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.340356E+02    0.393297E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.375917E+02    0.377774E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.413354E+02    0.378620E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.446749E+02    0.394319E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133078E+03   -0.466300E+02    0.422017E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.460748E+02    0.456493E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134045E+03   -0.433928E+02    0.483628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.396493E+02    0.497511E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.389022E+02    0.340605E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.368821E+02    0.342301E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.383256E+02    0.324873E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.406302E+02    0.328859E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.405402E+02    0.349459E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.381662E+02    0.357936E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.362175E+02    0.369858E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.350829E+02    0.356152E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.347286E+02    0.339821E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.356305E+02    0.322963E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.374748E+02    0.310443E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.396535E+02    0.306341E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.416186E+02    0.311590E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.429129E+02    0.324527E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.432007E+02    0.341890E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.421416E+02    0.360073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.403369E+02    0.372005E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.381401E+02    0.375603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.362213E+02    0.398383E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.331782E+02    0.383405E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137896E+03   -0.318156E+02    0.356682E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.322824E+02    0.325722E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.344022E+02    0.300069E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.379419E+02    0.283549E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.417908E+02    0.282369E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.450307E+02    0.296506E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.468903E+02    0.321953E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133556E+03   -0.463935E+02    0.354943E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134318E+03   -0.437603E+02    0.383669E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.399384E+02    0.399466E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.394904E+02    0.235956E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.374646E+02    0.238162E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.389951E+02    0.220473E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.413105E+02    0.223605E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.411397E+02    0.243751E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.387731E+02    0.252613E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.368321E+02    0.264693E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.354885E+02    0.253406E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.354969E+02    0.235152E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.362918E+02    0.219659E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.382271E+02    0.206062E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.404092E+02    0.201495E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.423878E+02    0.206140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.435926E+02    0.218914E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.437887E+02    0.235670E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.427532E+02    0.253155E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.408545E+02    0.265939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.387664E+02    0.269525E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.366731E+02    0.293580E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.337054E+02    0.279853E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138094E+03   -0.323999E+02    0.253618E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.329274E+02    0.223105E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.351279E+02    0.196749E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.386695E+02    0.179388E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.425306E+02    0.177377E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.456760E+02    0.191333E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.473272E+02    0.216388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.467568E+02    0.247668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.441735E+02    0.276088E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135849E+03   -0.404922E+02    0.292385E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666490.280897509     
  ps_ts2 prof sum =   666112.902317330     
  trcom prof sum =    666112.902279340     
  ps_ts2 cur sum  =   9572.36044744079     
  trcom cur sum  =    9572.36044744080     
  
  antenna # iant =            2
  powecha_use(iant) =    674808.357467262     
  ps_ts2 prof sum =   674427.755132438     
  trcom prof sum =    674427.755132437     
  ps_ts2 cur sum  =   11909.2743376916     
  trcom cur sum  =    11909.2743376916     
  
  antenna # iant =            3
  powecha_use(iant) =    524194.399975342     
  ps_ts2 prof sum =   523877.670322402     
  trcom prof sum =    523877.670322403     
  ps_ts2 cur sum  =   6457.01551342571     
  trcom cur sum  =    6457.01551342572     
  
  antenna # iant =            4
  powecha_use(iant) =    573445.470422071     
  ps_ts2 prof sum =   573099.006935617     
  trcom prof sum =    573099.006935617     
  ps_ts2 cur sum  =   9120.03513209621     
  trcom cur sum  =    9120.03513209620     
  
  antenna # iant =            5
  powecha_use(iant) =    554529.612804565     
  ps_ts2 prof sum =   554209.701507522     
  trcom prof sum =    554209.701507522     
  ps_ts2 cur sum  =   10908.7875962741     
  trcom cur sum  =    10908.7875962741     
  
  Total ECH heating:      2991727.03617732     
  Total Current Drive:    47967.4730269283     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4121
 TA= 4.37000E+00 CPU TIME= 1.59605E-01 SECONDS.  DT= 4.24604E-04
  
 TEC1=    4.36999999999993     
 TEC2=    4.37499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5700227777772     
  %check_save_state: izleft hours =    68.4216666666667     
 --> plasma_hash("gframe"): TA= 4.370000E+00 NSTEP=  4121 Hash code:   12785221
 ->PRGCHK: bdy curvature ratio at t= 4.3750E+00 seconds is:  5.6888E-02
% MHDEQ: TG1=     4.370000 ; TG2=     4.375000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7637E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6888E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.370000 TO TG2=    4.375000 @ NSTEP     4121
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528918715532D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.3750E+00  4.3800E+00 total power(Watts):  2.9753E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.37500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.385288E+02    0.381509E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.365075E+02    0.382834E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.379584E+02    0.365778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.402583E+02    0.370209E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.401609E+02    0.390396E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.378897E+02    0.397647E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.357376E+02    0.410058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.347095E+02    0.395929E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.343631E+02    0.379942E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.352655E+02    0.363270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.371165E+02    0.350665E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.392946E+02    0.346710E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.412545E+02    0.352555E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.425413E+02    0.366206E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.429336E+02    0.383100E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.417550E+02    0.400998E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.399443E+02    0.412535E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.377500E+02    0.415757E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.358183E+02    0.439459E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.327950E+02    0.422823E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.314501E+02    0.395831E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.319275E+02    0.365579E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.340556E+02    0.339146E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.375987E+02    0.322510E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.413368E+02    0.322478E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.445619E+02    0.337805E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133551E+03   -0.465194E+02    0.364565E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133533E+03   -0.460067E+02    0.397025E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.432404E+02    0.425902E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.395261E+02    0.441363E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.394230E+02    0.295540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.373961E+02    0.297435E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.388352E+02    0.280688E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.411453E+02    0.284209E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.410690E+02    0.303582E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.386957E+02    0.311995E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.367490E+02    0.323821E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.354101E+02    0.312140E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.352384E+02    0.295618E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.363285E+02    0.277803E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.380711E+02    0.265851E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.401554E+02    0.262159E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.422336E+02    0.266477E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.435434E+02    0.279015E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.437269E+02    0.296016E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.426790E+02    0.313284E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.408767E+02    0.325146E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.386783E+02    0.329147E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.366651E+02    0.353379E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137761E+03   -0.336132E+02    0.338663E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.323276E+02    0.311898E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138033E+03   -0.327784E+02    0.282401E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.350825E+02    0.254845E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.385347E+02    0.238400E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.423945E+02    0.236793E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.457597E+02    0.250001E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.474039E+02    0.276453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133761E+03   -0.469308E+02    0.307349E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.440834E+02    0.337178E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.403837E+02    0.353725E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.385933E+02    0.437293E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.365609E+02    0.438124E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.379279E+02    0.421038E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.402272E+02    0.426293E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.402175E+02    0.447185E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.378301E+02    0.454466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.357658E+02    0.465753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.345535E+02    0.452096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.345115E+02    0.433770E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.354357E+02    0.416606E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.370961E+02    0.405558E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.392802E+02    0.402270E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135360E+03   -0.412391E+02    0.408536E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.426303E+02    0.422329E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.430070E+02    0.440602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.418122E+02    0.458756E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.399885E+02    0.469728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.378854E+02    0.471807E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.358289E+02    0.494743E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.328119E+02    0.477302E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.314846E+02    0.450097E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.318950E+02    0.419127E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.340389E+02    0.393458E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.374927E+02    0.378449E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.413399E+02    0.378729E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.447893E+02    0.394036E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133133E+03   -0.466267E+02    0.422248E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133169E+03   -0.460788E+02    0.456570E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133868E+03   -0.435107E+02    0.483524E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.396521E+02    0.497662E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.389066E+02    0.340865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.368827E+02    0.342568E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.383299E+02    0.325188E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.406346E+02    0.329175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.405448E+02    0.349672E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.381708E+02    0.358100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.362221E+02    0.369982E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.348932E+02    0.357544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.347331E+02    0.340076E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.357323E+02    0.322601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.374792E+02    0.310778E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.396581E+02    0.306684E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.416231E+02    0.311936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.429175E+02    0.324863E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.430927E+02    0.342758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.421489E+02    0.360225E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.403398E+02    0.372134E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.381445E+02    0.375720E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.361248E+02    0.399079E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.332763E+02    0.382958E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.318206E+02    0.356841E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.322865E+02    0.326024E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.344070E+02    0.300386E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.379468E+02    0.283841E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.416878E+02    0.283387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.451500E+02    0.296183E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133686E+03   -0.468952E+02    0.322307E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133809E+03   -0.462800E+02    0.355689E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.435353E+02    0.384829E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.398343E+02    0.400151E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.394970E+02    0.236129E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.374709E+02    0.238341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.390026E+02    0.220646E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.412132E+02    0.224587E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.411465E+02    0.243927E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.387811E+02    0.252799E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137302E+03   -0.366426E+02    0.266469E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.354940E+02    0.253589E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.355032E+02    0.235322E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.363932E+02    0.218972E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137105E+03   -0.380376E+02    0.207938E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.403154E+02    0.202511E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.422900E+02    0.207140E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.436001E+02    0.219088E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.437960E+02    0.235846E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.427594E+02    0.253366E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.408609E+02    0.266182E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.386699E+02    0.270530E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.366776E+02    0.293893E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137825E+03   -0.337107E+02    0.280107E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138131E+03   -0.324053E+02    0.253801E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.328458E+02    0.224129E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.352273E+02    0.196032E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136725E+03   -0.386779E+02    0.179550E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.425392E+02    0.177537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134967E+03   -0.456847E+02    0.191507E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.473355E+02    0.216559E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.468792E+02    0.247134E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.440667E+02    0.277093E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.403908E+02    0.293425E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658037.450586446     
  ps_ts2 prof sum =   657629.943699284     
  trcom prof sum =    657629.943699284     
  ps_ts2 cur sum  =   9460.28309010645     
  trcom cur sum  =    9460.28309010645     
  
  antenna # iant =            2
  powecha_use(iant) =    670927.237957127     
  ps_ts2 prof sum =   670554.136569916     
  trcom prof sum =    670554.136569915     
  ps_ts2 cur sum  =   11851.6346630635     
  trcom cur sum  =    11851.6346630634     
  
  antenna # iant =            3
  powecha_use(iant) =    525446.031987958     
  ps_ts2 prof sum =   525122.140798386     
  trcom prof sum =    525122.140798387     
  ps_ts2 cur sum  =   6478.53495174254     
  trcom cur sum  =    6478.53495174254     
  
  antenna # iant =            4
  powecha_use(iant) =    567288.219641757     
  ps_ts2 prof sum =   566972.118152795     
  trcom prof sum =    566972.118152794     
  ps_ts2 cur sum  =   9029.40861289215     
  trcom cur sum  =    9029.40861289214     
  
  antenna # iant =            5
  powecha_use(iant) =    553565.118300730     
  ps_ts2 prof sum =   553252.330771437     
  trcom prof sum =    553252.330771437     
  ps_ts2 cur sum  =   10907.5306441881     
  trcom cur sum  =    10907.5306441881     
  
  Total ECH heating:      2973530.66999182     
  Total Current Drive:    47727.3919619927     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4128
 TA= 4.37500E+00 CPU TIME= 1.59710E-01 SECONDS.  DT= 2.74341E-04
  
 TEC1=    4.37499999999993     
 TEC2=    4.37999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5854997222220     
  %check_save_state: izleft hours =    68.4061111111111     
 --> plasma_hash("gframe"): TA= 4.375000E+00 NSTEP=  4128 Hash code:   81887766
 ->PRGCHK: bdy curvature ratio at t= 4.3800E+00 seconds is:  5.6877E-02
% MHDEQ: TG1=     4.375000 ; TG2=     4.380000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7655E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6877E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.375000 TO TG2=    4.380000 @ NSTEP     4128
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531485844901D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.40906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -2.92630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.73923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -6.77994E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.15582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40157E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.62172E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.44048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.15585E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.52619E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -3.17114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.82836E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       8= -4.88387E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.49448E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.56687E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.47969E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.54479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.64374E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.93045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.84741E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.60372E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.60372E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.3800E+00  4.3850E+00 total power(Watts):  2.9800E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.38000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.385336E+02    0.381652E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.365124E+02    0.382976E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.378607E+02    0.366500E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.401559E+02    0.370906E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.401657E+02    0.390566E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.377963E+02    0.398328E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.358394E+02    0.409806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.345197E+02    0.397164E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.343675E+02    0.380077E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.353722E+02    0.362802E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.371228E+02    0.350854E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.391946E+02    0.347546E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.412601E+02    0.352740E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.425473E+02    0.366350E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.427138E+02    0.384271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.417596E+02    0.401213E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.399485E+02    0.412776E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.377540E+02    0.415989E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.358213E+02    0.439598E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.327987E+02    0.423031E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.314500E+02    0.396037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.318416E+02    0.366325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.341555E+02    0.338725E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.375028E+02    0.323457E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.413423E+02    0.322771E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.445663E+02    0.338076E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.464066E+02    0.365254E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133789E+03   -0.458932E+02    0.397707E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.433592E+02    0.425715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.395294E+02    0.441517E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.394289E+02    0.295812E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136945E+03   -0.373018E+02    0.298421E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.388412E+02    0.280920E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.411515E+02    0.284455E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.410750E+02    0.303871E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.387014E+02    0.312282E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.365550E+02    0.325439E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.355123E+02    0.311716E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.353416E+02    0.295127E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.362371E+02    0.278776E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.379821E+02    0.266763E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.401622E+02    0.262329E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.421320E+02    0.267407E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.434343E+02    0.279990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.436211E+02    0.296985E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.426846E+02    0.313585E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.407747E+02    0.326072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.385806E+02    0.330060E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.365751E+02    0.354141E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.336179E+02    0.338901E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.322427E+02    0.312889E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.326945E+02    0.283379E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137872E+03   -0.349011E+02    0.256593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.385418E+02    0.238527E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.422949E+02    0.237706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.455404E+02    0.251629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.474111E+02    0.276693E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.468192E+02    0.308314E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.440894E+02    0.337440E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.403894E+02    0.353910E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.384881E+02    0.437849E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.364632E+02    0.438683E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.379323E+02    0.421261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.402309E+02    0.426510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.402215E+02    0.447296E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.378340E+02    0.454572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.358697E+02    0.465543E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.345573E+02    0.452195E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.345155E+02    0.433936E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.352426E+02    0.417768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.370975E+02    0.405795E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.392845E+02    0.402489E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.412433E+02    0.408775E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.427480E+02    0.422142E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.427842E+02    0.441491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.418119E+02    0.458873E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.399869E+02    0.469872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.377846E+02    0.472258E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.358330E+02    0.494898E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.328151E+02    0.477450E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.314882E+02    0.450197E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.318987E+02    0.419347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.341390E+02    0.393098E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.374981E+02    0.378579E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.413446E+02    0.378884E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.448007E+02    0.394204E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.465116E+02    0.422900E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133214E+03   -0.460834E+02    0.456680E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134353E+03   -0.432846E+02    0.484212E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.395474E+02    0.498060E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.388077E+02    0.341728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.367883E+02    0.343415E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.382326E+02    0.326124E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.405331E+02    0.330086E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.404430E+02    0.350472E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.381761E+02    0.358266E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.362267E+02    0.370120E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.349953E+02    0.357099E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.348344E+02    0.339662E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.357379E+02    0.322874E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.374848E+02    0.311063E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.395593E+02    0.307657E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.416290E+02    0.312232E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.429234E+02    0.325151E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.430984E+02    0.343002E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.421515E+02    0.360397E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.402371E+02    0.372825E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.380456E+02    0.376410E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.361291E+02    0.399284E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.330898E+02    0.384240E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.317345E+02    0.357636E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.322012E+02    0.326976E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.345075E+02    0.299916E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.378519E+02    0.284817E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.416941E+02    0.283632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.449276E+02    0.297825E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133941E+03   -0.467803E+02    0.323239E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133850E+03   -0.462863E+02    0.355874E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.435410E+02    0.384973E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.398388E+02    0.400361E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.395046E+02    0.236255E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.372819E+02    0.240095E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.389101E+02    0.221601E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.412251E+02    0.224683E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.411539E+02    0.244061E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.387871E+02    0.252946E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.367465E+02    0.265869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.355958E+02    0.252923E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137780E+03   -0.353227E+02    0.237107E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.364006E+02    0.219099E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.381427E+02    0.207220E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.403234E+02    0.202649E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.423027E+02    0.207248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.436084E+02    0.219219E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.436941E+02    0.236752E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.426579E+02    0.254274E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.408675E+02    0.266368E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.386763E+02    0.270725E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.366833E+02    0.294155E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138081E+03   -0.336242E+02    0.281091E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.323239E+02    0.254761E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138294E+03   -0.328525E+02    0.224252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137914E+03   -0.350563E+02    0.197896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.386862E+02    0.179697E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.424433E+02    0.178541E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.456936E+02    0.191658E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.474591E+02    0.215922E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.466555E+02    0.248759E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.440733E+02    0.277323E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.403969E+02    0.293697E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662413.120233018     
  ps_ts2 prof sum =   662033.975438497     
  trcom prof sum =    662033.975438498     
  ps_ts2 cur sum  =   9536.81418273012     
  trcom cur sum  =    9536.81418273012     
  
  antenna # iant =            2
  powecha_use(iant) =    672125.181265231     
  ps_ts2 prof sum =   671718.741902971     
  trcom prof sum =    671718.741902970     
  ps_ts2 cur sum  =   11892.4587567520     
  trcom cur sum  =    11892.4587567519     
  
  antenna # iant =            3
  powecha_use(iant) =    520100.578099492     
  ps_ts2 prof sum =   519797.067577999     
  trcom prof sum =    519797.067578000     
  ps_ts2 cur sum  =   6421.90056523344     
  trcom cur sum  =    6421.90056523345     
  
  antenna # iant =            4
  powecha_use(iant) =    572231.093145260     
  ps_ts2 prof sum =   571909.469399125     
  trcom prof sum =    571909.469399125     
  ps_ts2 cur sum  =   9121.58754714970     
  trcom cur sum  =    9121.58754714968     
  
  antenna # iant =            5
  powecha_use(iant) =    553146.322704692     
  ps_ts2 prof sum =   552837.874977342     
  trcom prof sum =    552837.874977342     
  ps_ts2 cur sum  =   10921.9153325826     
  trcom cur sum  =    10921.9153325826     
  
  Total ECH heating:      2978297.12929593     
  Total Current Drive:    47894.6763844478     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4136
 TA= 4.38000E+00 CPU TIME= 1.59671E-01 SECONDS.  DT= 1.08091E-03
  
 TEC1=    4.37999999999993     
 TEC2=    4.38499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.5996638888885     
  %check_save_state: izleft hours =    68.3919444444444     
 --> plasma_hash("gframe"): TA= 4.380000E+00 NSTEP=  4136 Hash code:   13502204
 ->PRGCHK: bdy curvature ratio at t= 4.3850E+00 seconds is:  5.6867E-02
% MHDEQ: TG1=     4.380000 ; TG2=     4.385000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0370E-03 SECONDS
   DATA R*BT AT EDGE:  2.7673E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6867E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.380000 TO TG2=    4.385000 @ NSTEP     4136
   GFRAME TG2 MOMENTS CHECKSUM:  2.4534052974270D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3850E+00  4.3900E+00 total power(Watts):  2.9872E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.38500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.384327E+02    0.382320E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.364150E+02    0.383661E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.378649E+02    0.366633E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.401599E+02    0.371034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.401693E+02    0.390722E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.377939E+02    0.398523E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.358424E+02    0.410014E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.345226E+02    0.397328E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.344677E+02    0.379637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.353762E+02    0.362939E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.370246E+02    0.351648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.391991E+02    0.347735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.411548E+02    0.353510E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.424385E+02    0.367046E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.427175E+02    0.384409E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.417629E+02    0.401413E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.399521E+02    0.412986E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.377570E+02    0.416203E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.356256E+02    0.440530E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.328017E+02    0.423221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138025E+03   -0.314571E+02    0.396168E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138186E+03   -0.318457E+02    0.366447E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.339702E+02    0.340255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.375069E+02    0.323717E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.412379E+02    0.323685E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.446860E+02    0.337715E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133848E+03   -0.464112E+02    0.365394E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133830E+03   -0.458969E+02    0.397904E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.431335E+02    0.426750E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.395331E+02    0.441634E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.393289E+02    0.296792E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.373060E+02    0.298688E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.387432E+02    0.281893E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.410488E+02    0.285420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.409715E+02    0.304838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.387056E+02    0.312558E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.366585E+02    0.325031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.355164E+02    0.311982E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.353459E+02    0.295386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.362417E+02    0.278999E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.379868E+02    0.266957E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.401674E+02    0.262522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.421370E+02    0.267610E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.434390E+02    0.280233E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.436255E+02    0.297270E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.425778E+02    0.314530E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.407789E+02    0.326336E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.385846E+02    0.330315E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.365743E+02    0.354331E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.337162E+02    0.338462E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.322466E+02    0.313155E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.326986E+02    0.283605E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.349067E+02    0.256757E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.384473E+02    0.239489E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.423008E+02    0.237864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.455460E+02    0.251808E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.472986E+02    0.277641E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134046E+03   -0.468239E+02    0.308609E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134757E+03   -0.442082E+02    0.337070E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.402855E+02    0.354670E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.384914E+02    0.437982E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.364676E+02    0.438793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.379355E+02    0.421465E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.402341E+02    0.426704E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.401158E+02    0.447774E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.378373E+02    0.454655E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.358727E+02    0.465637E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.346580E+02    0.451897E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.343243E+02    0.434937E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.353437E+02    0.417510E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.371037E+02    0.405980E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.391812E+02    0.403172E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.412465E+02    0.408989E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.425248E+02    0.423200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.427881E+02    0.441617E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134999E+03   -0.418152E+02    0.458955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.399900E+02    0.469980E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.377876E+02    0.472371E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.358358E+02    0.495036E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.329180E+02    0.477227E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.313992E+02    0.450690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138044E+03   -0.318100E+02    0.420021E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.339508E+02    0.394320E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.375018E+02    0.378706E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.412391E+02    0.379538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.445712E+02    0.395346E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133431E+03   -0.465151E+02    0.423119E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133475E+03   -0.459677E+02    0.457084E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.432878E+02    0.484346E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.395503E+02    0.498200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.388069E+02    0.341970E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.367919E+02    0.343626E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.382371E+02    0.326379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.405372E+02    0.330341E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.404472E+02    0.350660E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.381806E+02    0.358417E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.361311E+02    0.370823E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.349992E+02    0.357253E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.348394E+02    0.339877E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137587E+03   -0.355468E+02    0.324484E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.373885E+02    0.312023E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.395634E+02    0.307937E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.415252E+02    0.313177E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.428159E+02    0.326064E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.431028E+02    0.343222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.420444E+02    0.361117E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.402411E+02    0.372953E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.380492E+02    0.376537E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.361323E+02    0.399465E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.330971E+02    0.384349E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.317385E+02    0.357786E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138231E+03   -0.322050E+02    0.327222E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137956E+03   -0.343227E+02    0.301637E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.378563E+02    0.285059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.416986E+02    0.283879E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.449321E+02    0.298104E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.467880E+02    0.323504E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.460541E+02    0.357155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.436594E+02    0.384605E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.398421E+02    0.400552E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.394084E+02    0.237213E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.373854E+02    0.239428E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.389161E+02    0.221760E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.412272E+02    0.224871E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.410542E+02    0.245004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.387918E+02    0.253112E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.367512E+02    0.266058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137866E+03   -0.354115E+02    0.254691E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.353281E+02    0.237255E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137726E+03   -0.362166E+02    0.220953E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.381492E+02    0.207387E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.403300E+02    0.202825E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.423049E+02    0.207451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.435064E+02    0.220180E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.437001E+02    0.236910E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.426642E+02    0.254433E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.407666E+02    0.267317E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.386790E+02    0.270948E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.364854E+02    0.295904E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138118E+03   -0.336283E+02    0.281311E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.323263E+02    0.254933E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.328577E+02    0.224404E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.350581E+02    0.198117E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.385954E+02    0.180757E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.424497E+02    0.178729E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.455909E+02    0.192659E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134618E+03   -0.472367E+02    0.217640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.466622E+02    0.248929E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.440782E+02    0.277557E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.402953E+02    0.294667E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    661991.373384858     
  ps_ts2 prof sum =   661604.200895115     
  trcom prof sum =    661604.200895115     
  ps_ts2 cur sum  =   9537.56435516968     
  trcom cur sum  =    9537.56435516967     
  
  antenna # iant =            2
  powecha_use(iant) =    674087.896982620     
  ps_ts2 prof sum =   673721.747099522     
  trcom prof sum =    673721.747099521     
  ps_ts2 cur sum  =   11940.6281913427     
  trcom cur sum  =    11940.6281913427     
  
  antenna # iant =            3
  powecha_use(iant) =    521549.462081525     
  ps_ts2 prof sum =   521233.190489194     
  trcom prof sum =    521233.190489194     
  ps_ts2 cur sum  =   6444.25912983902     
  trcom cur sum  =    6444.25912983903     
  
  antenna # iant =            4
  powecha_use(iant) =    575582.481596307     
  ps_ts2 prof sum =   575246.344685281     
  trcom prof sum =    575246.344685280     
  ps_ts2 cur sum  =   9182.89773981410     
  trcom cur sum  =    9182.89773981408     
  
  antenna # iant =            5
  powecha_use(iant) =    554036.496609917     
  ps_ts2 prof sum =   553696.425008412     
  trcom prof sum =    553696.425008412     
  ps_ts2 cur sum  =   10956.7445145997     
  trcom cur sum  =    10956.7445145997     
  
  Total ECH heating:      2985501.90817752     
  Total Current Drive:    48062.0939307652     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4140
 TA= 4.38500E+00 CPU TIME= 1.60296E-01 SECONDS.  DT= 1.09877E-03
  
 TEC1=    4.38499999999993     
 TEC2=    4.38999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6136824999994     
  %check_save_state: izleft hours =    68.3777777777778     
 --> plasma_hash("gframe"): TA= 4.385000E+00 NSTEP=  4140 Hash code:   20751523
 ->PRGCHK: bdy curvature ratio at t= 4.3900E+00 seconds is:  5.6860E-02
% MHDEQ: TG1=     4.385000 ; TG2=     4.390000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7691E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6860E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.385000 TO TG2=    4.390000 @ NSTEP     4140
   GFRAME TG2 MOMENTS CHECKSUM:  2.4536620103640D+04
 %MFRCHK - LABEL "RMC12", #       1= -8.81954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.13577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.79493E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -7.79230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.17094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37748E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.94399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.43691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.22746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.60391E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.87529E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.83169E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.27847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.35006E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.34931E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.52848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.60943E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.47019E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.79007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.06645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.89753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.89753E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3900E+00  4.3950E+00 total power(Watts):  2.9881E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.39000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.384372E+02    0.382449E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.364194E+02    0.383783E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.378701E+02    0.366750E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.401649E+02    0.371155E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.400614E+02    0.391394E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.377981E+02    0.398705E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.358461E+02    0.410210E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.346240E+02    0.396973E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.342847E+02    0.380857E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137561E+03   -0.351848E+02    0.364269E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.370296E+02    0.351809E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.392041E+02    0.347906E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.411600E+02    0.353668E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.424439E+02    0.367180E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.426091E+02    0.385054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.416556E+02    0.402078E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.398479E+02    0.413652E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.377609E+02    0.416400E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.357295E+02    0.440250E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.327118E+02    0.423870E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.313710E+02    0.396870E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.318502E+02    0.366568E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.339748E+02    0.340448E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.375120E+02    0.323941E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.412434E+02    0.323908E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.444610E+02    0.339125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.461788E+02    0.366602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133872E+03   -0.459015E+02    0.398084E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.431376E+02    0.426948E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.394330E+02    0.442134E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.393341E+02    0.297001E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.373112E+02    0.298899E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.387487E+02    0.282058E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.410545E+02    0.285603E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.409769E+02    0.305065E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.386073E+02    0.313470E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.366637E+02    0.325241E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.353275E+02    0.313608E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137876E+03   -0.351581E+02    0.297058E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.362470E+02    0.279152E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.379927E+02    0.267070E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.400691E+02    0.263383E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.421434E+02    0.267726E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.433336E+02    0.281114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.435182E+02    0.298169E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.425832E+02    0.314765E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.407836E+02    0.326563E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.385898E+02    0.330527E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.365793E+02    0.354482E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138091E+03   -0.335332E+02    0.339973E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.322515E+02    0.313364E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138364E+03   -0.327036E+02    0.283763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.350066E+02    0.256037E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.384539E+02    0.239557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.422003E+02    0.238722E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.454393E+02    0.252625E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.473050E+02    0.277804E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134297E+03   -0.467118E+02    0.309495E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.439845E+02    0.338503E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.402912E+02    0.354824E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.384954E+02    0.438122E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.364715E+02    0.438924E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.378352E+02    0.422108E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.401292E+02    0.427318E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.401197E+02    0.447872E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136133E+03   -0.378348E+02    0.454747E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.358736E+02    0.465746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.346610E+02    0.451985E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.343285E+02    0.435081E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.353477E+02    0.417707E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.370053E+02    0.406661E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.391853E+02    0.403359E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.411404E+02    0.409650E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.425288E+02    0.423405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134630E+03   -0.429062E+02    0.441372E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.417070E+02    0.459368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.398857E+02    0.470373E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.377913E+02    0.472471E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.358394E+02    0.495157E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.329155E+02    0.477370E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.313998E+02    0.450770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.318136E+02    0.420209E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.339548E+02    0.394467E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.374034E+02    0.379378E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.412497E+02    0.379641E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134390E+03   -0.446923E+02    0.395032E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133688E+03   -0.463997E+02    0.423732E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.459723E+02    0.457161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134220E+03   -0.434068E+02    0.484203E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.395540E+02    0.498320E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.388171E+02    0.342133E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.367968E+02    0.343811E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.382417E+02    0.326600E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.405369E+02    0.330592E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.404518E+02    0.350831E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.380814E+02    0.359154E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.361356E+02    0.370941E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.348099E+02    0.358615E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.346508E+02    0.341373E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.356493E+02    0.324028E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.373936E+02    0.312249E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.395687E+02    0.308164E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.415299E+02    0.313412E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.428213E+02    0.326279E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.429949E+02    0.344022E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135619E+03   -0.420496E+02    0.361259E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.402459E+02    0.373077E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.380539E+02    0.376659E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.360362E+02    0.400143E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137624E+03   -0.331946E+02    0.383918E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138269E+03   -0.317433E+02    0.357922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138267E+03   -0.322097E+02    0.327431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.343275E+02    0.301853E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.378619E+02    0.285230E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.415962E+02    0.284776E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.448232E+02    0.299001E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.466753E+02    0.324358E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134146E+03   -0.461781E+02    0.356747E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.434351E+02    0.385757E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.397384E+02    0.401221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.394151E+02    0.237284E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.373920E+02    0.239504E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.388232E+02    0.222688E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.411295E+02    0.225771E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.410603E+02    0.245077E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.386964E+02    0.253978E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137637E+03   -0.365613E+02    0.267719E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.354155E+02    0.254777E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137645E+03   -0.354280E+02    0.236501E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.363179E+02    0.220203E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.380574E+02    0.208375E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.402346E+02    0.203811E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.422070E+02    0.208407E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.435135E+02    0.220281E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.437071E+02    0.236983E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.426708E+02    0.254523E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.407720E+02    0.267435E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.385847E+02    0.271820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.365940E+02    0.295344E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138156E+03   -0.336339E+02    0.281469E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.323342E+02    0.254995E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138590E+03   -0.327755E+02    0.225358E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138216E+03   -0.349729E+02    0.199147E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.386021E+02    0.180937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.424567E+02    0.178918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.455984E+02    0.192820E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.473590E+02    0.216968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.467847E+02    0.248279E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.439719E+02    0.278429E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.403007E+02    0.294873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667543.053476253     
  ps_ts2 prof sum =   667123.638056572     
  trcom prof sum =    667123.638056573     
  ps_ts2 cur sum  =   9629.75822990228     
  trcom cur sum  =    9629.75822990228     
  
  antenna # iant =            2
  powecha_use(iant) =    672215.223420574     
  ps_ts2 prof sum =   671814.399183831     
  trcom prof sum =    671814.399183830     
  ps_ts2 cur sum  =   11932.0265506752     
  trcom cur sum  =    11932.0265506752     
  
  antenna # iant =            3
  powecha_use(iant) =    522866.018025979     
  ps_ts2 prof sum =   522570.741548132     
  trcom prof sum =    522570.741548132     
  ps_ts2 cur sum  =   6467.58402533597     
  trcom cur sum  =    6467.58402533598     
  
  antenna # iant =            4
  powecha_use(iant) =    571335.989031090     
  ps_ts2 prof sum =   571006.725937331     
  trcom prof sum =    571006.725903306     
  ps_ts2 cur sum  =   9129.58267841065     
  trcom cur sum  =    9129.58267841063     
  
  antenna # iant =            5
  powecha_use(iant) =    554179.373323387     
  ps_ts2 prof sum =   553869.869954037     
  trcom prof sum =    553869.869954037     
  ps_ts2 cur sum  =   10985.7593780690     
  trcom cur sum  =    10985.7593780690     
  
  Total ECH heating:      2986385.37464588     
  Total Current Drive:    48144.7108623930     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4144
 TA= 4.39000E+00 CPU TIME= 1.48595E-01 SECONDS.  DT= 1.01369E-03
  
 TEC1=    4.38999999999993     
 TEC2=    4.39499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6286755555554     
  %check_save_state: izleft hours =    68.3627777777778     
 --> plasma_hash("gframe"): TA= 4.390000E+00 NSTEP=  4144 Hash code:   79975547
 ->PRGCHK: bdy curvature ratio at t= 4.3950E+00 seconds is:  5.6856E-02
% MHDEQ: TG1=     4.390000 ; TG2=     4.395000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7709E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6856E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.390000 TO TG2=    4.395000 @ NSTEP     4144
   GFRAME TG2 MOMENTS CHECKSUM:  2.4539187233009D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.3950E+00  4.4000E+00 total power(Watts):  3.0033E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.39500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.384412E+02    0.382543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.364239E+02    0.383872E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.377713E+02    0.367421E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.400614E+02    0.371801E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.400696E+02    0.391491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.376982E+02    0.399343E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.357500E+02    0.410870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.344335E+02    0.398148E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.342831E+02    0.380977E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.352873E+02    0.363761E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.370341E+02    0.351935E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.390981E+02    0.348681E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.411653E+02    0.353787E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.424487E+02    0.367267E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.426135E+02    0.385156E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.416598E+02    0.402226E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.398516E+02    0.413832E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.376610E+02    0.417040E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.357335E+02    0.440366E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137950E+03   -0.327154E+02    0.424041E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.313749E+02    0.396997E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.318541E+02    0.366662E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.340736E+02    0.339944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.374149E+02    0.324779E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.412479E+02    0.324079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.444652E+02    0.339292E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.463027E+02    0.366157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.457873E+02    0.398694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.432564E+02    0.426715E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.394338E+02    0.442258E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.393383E+02    0.297165E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.371109E+02    0.300521E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136839E+03   -0.387517E+02    0.282192E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.410589E+02    0.285739E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.409809E+02    0.305242E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.386116E+02    0.313645E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.366681E+02    0.325411E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.354286E+02    0.313080E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.351622E+02    0.297217E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.360566E+02    0.280788E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.378966E+02    0.267920E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.400785E+02    0.263429E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.420395E+02    0.268551E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.433382E+02    0.281229E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.435233E+02    0.298328E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.425832E+02    0.314975E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.406806E+02    0.327372E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.384900E+02    0.331348E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.365837E+02    0.354601E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.335373E+02    0.340123E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138585E+03   -0.321648E+02    0.314257E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.327076E+02    0.283889E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.348231E+02    0.257698E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.384584E+02    0.239615E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.422000E+02    0.238814E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.454439E+02    0.252685E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134237E+03   -0.473099E+02    0.277924E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.467165E+02    0.309679E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.439892E+02    0.338659E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.402953E+02    0.354938E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.383938E+02    0.438659E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.363741E+02    0.439460E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.378392E+02    0.422286E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.401332E+02    0.427491E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.401246E+02    0.447954E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.377398E+02    0.455181E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.357802E+02    0.466147E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.344700E+02    0.452809E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.344299E+02    0.434789E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.351535E+02    0.418821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.370090E+02    0.406832E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.391890E+02    0.403520E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.411442E+02    0.409824E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135363E+03   -0.424247E+02    0.424004E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.426823E+02    0.442243E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.417113E+02    0.459437E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.398888E+02    0.470473E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.376908E+02    0.472871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.357427E+02    0.495527E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137718E+03   -0.327312E+02    0.478097E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.314077E+02    0.450833E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.318171E+02    0.420387E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.340548E+02    0.394058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.374076E+02    0.379473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.412481E+02    0.379756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134433E+03   -0.446968E+02    0.395161E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133731E+03   -0.464041E+02    0.423922E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.459770E+02    0.457228E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.431808E+02    0.484837E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.395580E+02    0.498431E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.387171E+02    0.342904E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137173E+03   -0.367008E+02    0.344585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.381432E+02    0.327432E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.404393E+02    0.331363E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.403485E+02    0.351555E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.380860E+02    0.359257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.361456E+02    0.370998E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.349112E+02    0.358109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.347514E+02    0.340871E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137442E+03   -0.356538E+02    0.324191E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.373978E+02    0.312429E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.394675E+02    0.309029E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.415343E+02    0.313590E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.428260E+02    0.326451E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.429998E+02    0.344167E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.420544E+02    0.361358E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.401423E+02    0.373717E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.380583E+02    0.376748E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.360401E+02    0.400286E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138114E+03   -0.330114E+02    0.385128E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138533E+03   -0.316572E+02    0.358656E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138528E+03   -0.321237E+02    0.328282E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.344254E+02    0.301290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.377644E+02    0.286103E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.416006E+02    0.284910E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135249E+03   -0.448275E+02    0.299177E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.466803E+02    0.324531E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134188E+03   -0.461830E+02    0.356863E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.434396E+02    0.385862E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.397422E+02    0.401367E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.394197E+02    0.237346E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.373967E+02    0.239556E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.388275E+02    0.222757E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.411342E+02    0.225836E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.410655E+02    0.245127E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.387007E+02    0.254034E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.366631E+02    0.267021E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.355156E+02    0.254023E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138120E+03   -0.352452E+02    0.238210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.363224E+02    0.220282E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.380633E+02    0.208471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.402411E+02    0.203919E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.422119E+02    0.208502E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.435185E+02    0.220356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.436023E+02    0.237811E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.425658E+02    0.255342E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.407766E+02    0.267517E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.385893E+02    0.271911E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.365982E+02    0.295501E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138415E+03   -0.335457E+02    0.282358E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.322495E+02    0.255876E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138631E+03   -0.327797E+02    0.225432E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.349773E+02    0.199266E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.386067E+02    0.181087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.423573E+02    0.179930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.456036E+02    0.192949E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.473644E+02    0.217045E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.465588E+02    0.249801E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.439767E+02    0.278541E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.403051E+02    0.295029E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.78 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685103.618584244     
  ps_ts2 prof sum =   684712.018388020     
  trcom prof sum =    684712.018388020     
  ps_ts2 cur sum  =   9893.03266138460     
  trcom cur sum  =    9893.03266138460     
  
  antenna # iant =            2
  powecha_use(iant) =    670908.091916128     
  ps_ts2 prof sum =   670495.862784021     
  trcom prof sum =    670495.862784020     
  ps_ts2 cur sum  =   11921.5543540396     
  trcom cur sum  =    11921.5543540396     
  
  antenna # iant =            3
  powecha_use(iant) =    518713.172399719     
  ps_ts2 prof sum =   518396.381111630     
  trcom prof sum =    518396.381111631     
  ps_ts2 cur sum  =   6419.31869535866     
  trcom cur sum  =    6419.31869535867     
  
  antenna # iant =            4
  powecha_use(iant) =    573523.237092828     
  ps_ts2 prof sum =   573201.833667896     
  trcom prof sum =    573201.833667895     
  ps_ts2 cur sum  =   9174.77611374988     
  trcom cur sum  =    9174.77611374987     
  
  antenna # iant =            5
  powecha_use(iant) =    555038.914574667     
  ps_ts2 prof sum =   554739.519486233     
  trcom prof sum =    554739.519486233     
  ps_ts2 cur sum  =   11014.8930996612     
  trcom cur sum  =    11014.8930996612     
  
  Total ECH heating:      3001545.61543780     
  Total Current Drive:    48423.5749241940     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4148
 TA= 4.39500E+00 CPU TIME= 1.69980E-01 SECONDS.  DT= 1.41915E-03
  
 TEC1=    4.39499999999993     
 TEC2=    4.39999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6433055555553     
  %check_save_state: izleft hours =    68.3483333333333     
 --> plasma_hash("gframe"): TA= 4.395000E+00 NSTEP=  4148 Hash code:    2939658
 ->PRGCHK: bdy curvature ratio at t= 4.4000E+00 seconds is:  5.6853E-02
% MHDEQ: TG1=     4.395000 ; TG2=     4.400000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4170E-03 SECONDS
   DATA R*BT AT EDGE:  2.7727E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6853E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.395000 TO TG2=    4.400000 @ NSTEP     4148
   GFRAME TG2 MOMENTS CHECKSUM:  2.4541754362378D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.30248E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.38221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.86046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.98334E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18874E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.34913E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.67615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.43270E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.31171E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.69534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.52722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.83561E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.73185E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.82737E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.09335E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.58587E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  2.65435E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.26601E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.62491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.32415E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.79666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.79666E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4000E+00  4.4050E+00 total power(Watts):  3.0190E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.40000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.383411E+02    0.383186E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.363276E+02    0.384527E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.377762E+02    0.367523E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.400664E+02    0.371901E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.400741E+02    0.391611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.377027E+02    0.399486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.357541E+02    0.411047E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.344377E+02    0.398285E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.343851E+02    0.380507E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.352922E+02    0.363862E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.369378E+02    0.352668E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.391082E+02    0.348788E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.410603E+02    0.354499E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.423415E+02    0.367925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.426186E+02    0.385265E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.416642E+02    0.402379E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.398559E+02    0.414025E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.376623E+02    0.417238E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.357377E+02    0.440493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137989E+03   -0.327194E+02    0.424221E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138369E+03   -0.313790E+02    0.397119E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.317679E+02    0.367371E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.338889E+02    0.341394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.374199E+02    0.324923E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.411442E+02    0.324875E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.445861E+02    0.338836E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134191E+03   -0.463083E+02    0.366261E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134173E+03   -0.457923E+02    0.398839E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.430317E+02    0.427721E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.394383E+02    0.442388E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.392392E+02    0.297987E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.372200E+02    0.299898E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137093E+03   -0.386552E+02    0.283017E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.409571E+02    0.286550E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.408783E+02    0.306059E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.386167E+02    0.313786E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.365732E+02    0.326226E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.354338E+02    0.313220E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.352633E+02    0.296597E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137608E+03   -0.361592E+02    0.280111E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.379015E+02    0.267983E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.400791E+02    0.263515E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.420442E+02    0.268621E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.433439E+02    0.281311E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.435289E+02    0.298449E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.424822E+02    0.315740E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.406858E+02    0.327519E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.384950E+02    0.331490E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.364881E+02    0.355328E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.335376E+02    0.340290E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138623E+03   -0.321694E+02    0.314395E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138663E+03   -0.326217E+02    0.284749E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138253E+03   -0.348270E+02    0.257769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.383636E+02    0.240505E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.422104E+02    0.238855E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.455633E+02    0.252007E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.471982E+02    0.278695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134381E+03   -0.467227E+02    0.309805E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.441092E+02    0.338199E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.401925E+02    0.355651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.383982E+02    0.438802E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136832E+03   -0.363780E+02    0.439598E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.378435E+02    0.422475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.401374E+02    0.427676E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.400199E+02    0.448437E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.377450E+02    0.455257E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.357842E+02    0.466237E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.345723E+02    0.452523E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.344338E+02    0.434936E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.352566E+02    0.418536E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.370133E+02    0.406998E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.390867E+02    0.404161E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.411485E+02    0.410010E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.424240E+02    0.424203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.426869E+02    0.442380E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.417157E+02    0.459527E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.398931E+02    0.470568E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.376950E+02    0.472972E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.357467E+02    0.495653E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.327349E+02    0.478212E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138297E+03   -0.313211E+02    0.451332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.318210E+02    0.420564E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.340538E+02    0.394198E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136865E+03   -0.374123E+02    0.379573E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.411427E+02    0.380392E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.444676E+02    0.396267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133773E+03   -0.464090E+02    0.424126E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.458620E+02    0.457649E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.431850E+02    0.484957E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.394539E+02    0.498794E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.387224E+02    0.343043E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.367064E+02    0.344717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.381485E+02    0.327577E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.404440E+02    0.331516E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.403536E+02    0.351683E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.379915E+02    0.359945E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.360451E+02    0.371701E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137539E+03   -0.349159E+02    0.358220E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.347563E+02    0.341010E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.354625E+02    0.325702E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.373017E+02    0.313258E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.394727E+02    0.309163E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.414302E+02    0.314408E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.427196E+02    0.327230E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.428922E+02    0.344908E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.419480E+02    0.362037E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.401474E+02    0.373817E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.379591E+02    0.377405E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.360444E+02    0.400431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.330167E+02    0.385228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138572E+03   -0.316615E+02    0.358768E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.321283E+02    0.328424E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.342411E+02    0.302871E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.377698E+02    0.286207E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.416061E+02    0.284999E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.449480E+02    0.298620E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.466860E+02    0.324681E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.460701E+02    0.357534E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.435593E+02    0.385461E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.397447E+02    0.401526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.393229E+02    0.238234E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.373041E+02    0.240454E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.388328E+02    0.222850E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.411396E+02    0.225929E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.409651E+02    0.245981E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.386041E+02    0.254888E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.366683E+02    0.267084E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.353306E+02    0.255701E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138165E+03   -0.352485E+02    0.238311E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.361397E+02    0.222073E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.380688E+02    0.208580E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.402460E+02    0.204031E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.422167E+02    0.208620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.434152E+02    0.221255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.436076E+02    0.237894E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136207E+03   -0.425714E+02    0.255406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.406761E+02    0.268333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.385946E+02    0.271981E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.365036E+02    0.296344E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138456E+03   -0.335503E+02    0.282446E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138769E+03   -0.322541E+02    0.255949E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.327842E+02    0.225529E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138295E+03   -0.349822E+02    0.199388E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137349E+03   -0.385133E+02    0.182123E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.423638E+02    0.180075E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.454926E+02    0.193940E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.471407E+02    0.218699E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.466805E+02    0.249129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.438701E+02    0.279339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.402040E+02    0.295848E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.25 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    701810.585921708     
  ps_ts2 prof sum =   701415.647129798     
  trcom prof sum =    701415.647129798     
  ps_ts2 cur sum  =   10147.3732938453     
  trcom cur sum  =    10147.3732938453     
  
  antenna # iant =            2
  powecha_use(iant) =    675417.484256192     
  ps_ts2 prof sum =   675056.089231967     
  trcom prof sum =    675056.089231967     
  ps_ts2 cur sum  =   12016.3076980369     
  trcom cur sum  =    12016.3076980369     
  
  antenna # iant =            3
  powecha_use(iant) =    518048.952735286     
  ps_ts2 prof sum =   517756.445107621     
  trcom prof sum =    517756.445107621     
  ps_ts2 cur sum  =   6417.01626213961     
  trcom cur sum  =    6417.01626213961     
  
  antenna # iant =            4
  powecha_use(iant) =    569022.932541057     
  ps_ts2 prof sum =   568696.833890667     
  trcom prof sum =    568696.833890667     
  ps_ts2 cur sum  =   9114.19118564869     
  trcom cur sum  =    9114.19118564868     
  
  antenna # iant =            5
  powecha_use(iant) =    554668.808972955     
  ps_ts2 prof sum =   554342.937959162     
  trcom prof sum =    554342.937959162     
  ps_ts2 cur sum  =   11020.9213887337     
  trcom cur sum  =    11020.9213887337     
  
  Total ECH heating:      3017267.95331921     
  Total Current Drive:    48715.8098284042     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4151
 TA= 4.40000E+00 CPU TIME= 1.46486E-01 SECONDS.  DT= 2.25865E-03
  
 TEC1=    4.39999999999993     
 TEC2=    4.40499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6579291666665     
  %check_save_state: izleft hours =    68.3336111111111     
 --> plasma_hash("gframe"): TA= 4.400000E+00 NSTEP=  4151 Hash code:   72192842
 ->PRGCHK: bdy curvature ratio at t= 4.4050E+00 seconds is:  5.6852E-02
% MHDEQ: TG1=     4.400000 ; TG2=     4.405000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.4210E-03 SECONDS
   DATA R*BT AT EDGE:  2.7745E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6852E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.400000 TO TG2=    4.405000 @ NSTEP     4151
   GFRAME TG2 MOMENTS CHECKSUM:  2.4544321491747D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4050E+00  4.4100E+00 total power(Watts):  3.0225E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.40500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136768E+03   -0.383456E+02    0.383295E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.363320E+02    0.384636E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.377811E+02    0.367640E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.400712E+02    0.372020E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.399702E+02    0.392241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.377069E+02    0.399624E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.357583E+02    0.411217E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.345390E+02    0.397892E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.343884E+02    0.380619E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137903E+03   -0.351005E+02    0.365177E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.369423E+02    0.352799E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.391131E+02    0.348926E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.410653E+02    0.354630E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.423464E+02    0.368039E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.425101E+02    0.385892E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.415569E+02    0.403008E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.397517E+02    0.414663E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.376695E+02    0.417409E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.356413E+02    0.441038E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138254E+03   -0.326288E+02    0.424854E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138635E+03   -0.312930E+02    0.397784E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.317726E+02    0.367474E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.338903E+02    0.341549E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.374246E+02    0.325059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.411492E+02    0.325013E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.443608E+02    0.340181E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.461947E+02    0.366913E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134646E+03   -0.455594E+02    0.399913E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.430385E+02    0.427891E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.393346E+02    0.442909E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.392447E+02    0.298075E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.372254E+02    0.299985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.386609E+02    0.283085E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.409630E+02    0.286621E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.408838E+02    0.306159E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.385183E+02    0.314592E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137424E+03   -0.365778E+02    0.326364E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138093E+03   -0.352444E+02    0.314734E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.350759E+02    0.298144E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137649E+03   -0.361643E+02    0.280181E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.379080E+02    0.268076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.399815E+02    0.264377E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.420504E+02    0.268709E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136112E+03   -0.432386E+02    0.282094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.434222E+02    0.299218E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.424874E+02    0.315865E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.405829E+02    0.328300E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.385003E+02    0.331629E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.364926E+02    0.355455E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138428E+03   -0.334519E+02    0.341063E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138662E+03   -0.321735E+02    0.314512E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138703E+03   -0.326271E+02    0.284823E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.349270E+02    0.257089E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.383695E+02    0.240676E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.421088E+02    0.239809E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.453419E+02    0.253628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.472049E+02    0.278762E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.466104E+02    0.310566E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.438854E+02    0.339558E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.401973E+02    0.355781E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.384024E+02    0.438942E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.363821E+02    0.439733E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.377428E+02    0.423104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.400324E+02    0.428279E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.400271E+02    0.448542E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.377501E+02    0.455331E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.357883E+02    0.466322E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.345764E+02    0.452614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137753E+03   -0.342423E+02    0.435953E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137293E+03   -0.352603E+02    0.418716E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.369146E+02    0.407650E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.390910E+02    0.404314E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.410419E+02    0.410645E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.424282E+02    0.424386E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135416E+03   -0.425773E+02    0.442892E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135616E+03   -0.416076E+02    0.459945E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.397883E+02    0.470968E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.376991E+02    0.473064E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.357509E+02    0.495766E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.328325E+02    0.478007E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138337E+03   -0.313245E+02    0.451424E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138425E+03   -0.317332E+02    0.421216E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.338709E+02    0.395367E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.373140E+02    0.380232E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.411474E+02    0.380502E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.445896E+02    0.395912E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134031E+03   -0.462934E+02    0.424725E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133873E+03   -0.458674E+02    0.457727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134574E+03   -0.433048E+02    0.484803E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.394581E+02    0.498913E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.387275E+02    0.343184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.367107E+02    0.344858E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.381533E+02    0.327710E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.403418E+02    0.332287E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.403585E+02    0.351814E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.379922E+02    0.360085E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.360498E+02    0.371810E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138023E+03   -0.347259E+02    0.359562E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138123E+03   -0.345683E+02    0.342449E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.355657E+02    0.325148E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.373070E+02    0.313373E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.394781E+02    0.309269E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.414356E+02    0.314524E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.427249E+02    0.327365E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.428973E+02    0.345053E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.419530E+02    0.362157E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.401521E+02    0.373926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136876E+03   -0.379638E+02    0.377509E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.359482E+02    0.401082E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.330198E+02    0.385344E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138608E+03   -0.316667E+02    0.358883E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138604E+03   -0.321329E+02    0.328553E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138329E+03   -0.342459E+02    0.302959E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.377752E+02    0.286275E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.415037E+02    0.285787E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.447278E+02    0.300051E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.465733E+02    0.325434E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.460755E+02    0.357666E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.433347E+02    0.386595E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.396430E+02    0.402156E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.61 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.393293E+02    0.238405E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.373096E+02    0.240618E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.387380E+02    0.223862E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.410414E+02    0.226913E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.409709E+02    0.246140E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137272E+03   -0.386101E+02    0.255022E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.364780E+02    0.268733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.353360E+02    0.255836E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.353496E+02    0.237635E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.362391E+02    0.221407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.379763E+02    0.209597E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.401500E+02    0.205038E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.421173E+02    0.209606E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.434211E+02    0.221436E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.435037E+02    0.238844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.425775E+02    0.255536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.406874E+02    0.268394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.384980E+02    0.272820E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137582E+03   -0.365090E+02    0.296427E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138496E+03   -0.335557E+02    0.282518E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138807E+03   -0.322590E+02    0.256082E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138924E+03   -0.327011E+02    0.226562E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.348954E+02    0.200425E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.385204E+02    0.182272E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.423705E+02    0.180232E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.455056E+02    0.194058E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.472614E+02    0.218110E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.466865E+02    0.249269E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.438763E+02    0.279409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.402097E+02    0.295929E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    701738.624372000     
  ps_ts2 prof sum =   701314.501490319     
  trcom prof sum =    701314.501490319     
  ps_ts2 cur sum  =   10155.0922613837     
  trcom cur sum  =    10155.0922613837     
  
  antenna # iant =            2
  powecha_use(iant) =    674407.968845840     
  ps_ts2 prof sum =   674009.090943044     
  trcom prof sum =    674009.090943043     
  ps_ts2 cur sum  =   12012.1423809345     
  trcom cur sum  =    12012.1423809345     
  
  antenna # iant =            3
  powecha_use(iant) =    520000.188441001     
  ps_ts2 prof sum =   519697.182955571     
  trcom prof sum =    519697.182955571     
  ps_ts2 cur sum  =   6446.54001403165     
  trcom cur sum  =    6446.54001403165     
  
  antenna # iant =            4
  powecha_use(iant) =    571562.028632349     
  ps_ts2 prof sum =   571226.090934821     
  trcom prof sum =    571226.090934821     
  ps_ts2 cur sum  =   9163.85774451615     
  trcom cur sum  =    9163.85774451614     
  
  antenna # iant =            5
  powecha_use(iant) =    554797.088263535     
  ps_ts2 prof sum =   554488.541626131     
  trcom prof sum =    554488.541626131     
  ps_ts2 cur sum  =   11042.3637873009     
  trcom cur sum  =    11042.3637873009     
  
  Total ECH heating:      3020735.40794989     
  Total Current Drive:    48819.9961881669     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4153
 TA= 4.40500E+00 CPU TIME= 1.68137E-01 SECONDS.  DT= 3.42669E-03
  
 TEC1=    4.40499999999993     
 TEC2=    4.40999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6722155555553     
  %check_save_state: izleft hours =    68.3194444444444     
 --> plasma_hash("gframe"): TA= 4.405000E+00 NSTEP=  4153 Hash code:  104418569
 ->PRGCHK: bdy curvature ratio at t= 4.4100E+00 seconds is:  5.6842E-02
% MHDEQ: TG1=     4.405000 ; TG2=     4.410000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7746E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6842E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.405000 TO TG2=    4.410000 @ NSTEP     4153
   GFRAME TG2 MOMENTS CHECKSUM:  2.4538509689360D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.53187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.47846E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.87608E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.59590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.19512E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.43662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35136E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.68491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.33873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.78923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.90981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.08043E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.97351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.61213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -5.16061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.17225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.50112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.36774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.34177E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.34177E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4100E+00  4.4150E+00 total power(Watts):  3.0116E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.41000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.383617E+02    0.383155E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137207E+03   -0.363473E+02    0.384497E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.377963E+02    0.367475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.400879E+02    0.371853E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.399868E+02    0.392104E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.377228E+02    0.399481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.357734E+02    0.411056E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.345537E+02    0.397750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.344030E+02    0.380477E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.351153E+02    0.365007E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.369581E+02    0.352595E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.391295E+02    0.348714E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.410825E+02    0.354440E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.423638E+02    0.367874E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.425274E+02    0.385755E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.415741E+02    0.402859E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.397683E+02    0.414496E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.375842E+02    0.417690E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.356563E+02    0.440879E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.326430E+02    0.424689E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138619E+03   -0.313072E+02    0.397639E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138553E+03   -0.317860E+02    0.367313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.339073E+02    0.341317E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.374404E+02    0.324823E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.411664E+02    0.324770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.443793E+02    0.339948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.462134E+02    0.366744E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134633E+03   -0.455781E+02    0.399770E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.430540E+02    0.427727E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.393512E+02    0.442751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.392612E+02    0.297823E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.372403E+02    0.299754E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.386768E+02    0.282830E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.409798E+02    0.286366E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.409008E+02    0.305912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.385345E+02    0.314349E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.365937E+02    0.326123E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138080E+03   -0.352596E+02    0.314502E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.350905E+02    0.297911E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138072E+03   -0.359842E+02    0.281446E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.379229E+02    0.267794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.399963E+02    0.264082E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.420675E+02    0.268426E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.432562E+02    0.281830E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.434398E+02    0.298972E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.425052E+02    0.315625E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.405999E+02    0.328072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.385162E+02    0.331400E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.365081E+02    0.355254E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138413E+03   -0.334669E+02    0.340842E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138649E+03   -0.321876E+02    0.314274E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.326407E+02    0.284577E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138064E+03   -0.349408E+02    0.256799E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.383851E+02    0.240348E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.421263E+02    0.239486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.453602E+02    0.253307E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.472238E+02    0.278490E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134625E+03   -0.466297E+02    0.310305E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.439039E+02    0.339321E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.402144E+02    0.355580E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.384183E+02    0.438784E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.363975E+02    0.439573E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.377587E+02    0.422931E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136176E+03   -0.400491E+02    0.428111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.400342E+02    0.448422E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.377661E+02    0.455193E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.358038E+02    0.466184E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.345910E+02    0.452482E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.342568E+02    0.435797E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.352751E+02    0.418546E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.369304E+02    0.407492E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.391073E+02    0.404162E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.410590E+02    0.410483E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135444E+03   -0.424456E+02    0.424222E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.425950E+02    0.442731E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.416250E+02    0.459803E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.398057E+02    0.470815E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.377153E+02    0.472915E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.357666E+02    0.495591E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.328470E+02    0.477852E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138321E+03   -0.313383E+02    0.451292E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138409E+03   -0.317466E+02    0.421050E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.338860E+02    0.395224E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.373298E+02    0.380087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.411644E+02    0.380355E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.446074E+02    0.395772E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134019E+03   -0.463125E+02    0.424539E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.458863E+02    0.457575E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.433233E+02    0.484628E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.394755E+02    0.498730E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.387439E+02    0.342963E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.367264E+02    0.344640E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.381694E+02    0.327476E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.403584E+02    0.332057E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.403753E+02    0.351613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.380082E+02    0.359902E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.360651E+02    0.371654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.347413E+02    0.359383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.345828E+02    0.342232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137727E+03   -0.355804E+02    0.324918E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137343E+03   -0.373227E+02    0.313135E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.394949E+02    0.309027E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.414529E+02    0.314278E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.427428E+02    0.327122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.429154E+02    0.344825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.419704E+02    0.361975E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.401688E+02    0.373772E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136861E+03   -0.379797E+02    0.377362E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137297E+03   -0.359633E+02    0.400938E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.331278E+02    0.384645E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.316795E+02    0.358709E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138591E+03   -0.321468E+02    0.328327E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.342605E+02    0.302727E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.377911E+02    0.286028E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.415207E+02    0.285527E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.447362E+02    0.299842E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.465925E+02    0.325185E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134475E+03   -0.460944E+02    0.357469E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.433526E+02    0.386452E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.396639E+02    0.401995E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.393444E+02    0.238080E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.373246E+02    0.240299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.387540E+02    0.223545E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.410573E+02    0.226594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.409875E+02    0.245817E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.386260E+02    0.254716E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137967E+03   -0.364930E+02    0.268459E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.353512E+02    0.255535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138398E+03   -0.351782E+02    0.238964E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.362528E+02    0.221091E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.379912E+02    0.209304E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.401658E+02    0.204745E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.421340E+02    0.209303E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.434391E+02    0.221104E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.435212E+02    0.238509E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.425945E+02    0.255226E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.406952E+02    0.268156E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.385138E+02    0.272548E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.365244E+02    0.296186E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138483E+03   -0.335693E+02    0.282263E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138796E+03   -0.322725E+02    0.255788E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138913E+03   -0.327143E+02    0.226256E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.349093E+02    0.200154E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137366E+03   -0.385383E+02    0.181989E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.422818E+02    0.180836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.455214E+02    0.193791E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.472804E+02    0.217773E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.467052E+02    0.248936E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.438941E+02    0.279141E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.402262E+02    0.295683E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    698290.560559141     
  ps_ts2 prof sum =   697875.241247539     
  trcom prof sum =    697875.241247539     
  ps_ts2 cur sum  =   10108.2683490394     
  trcom cur sum  =    10108.2683490394     
  
  antenna # iant =            2
  powecha_use(iant) =    670993.027977944     
  ps_ts2 prof sum =   670585.609330948     
  trcom prof sum =    670585.609330947     
  ps_ts2 cur sum  =   11957.4620318849     
  trcom cur sum  =    11957.4620318849     
  
  antenna # iant =            3
  powecha_use(iant) =    518005.431217709     
  ps_ts2 prof sum =   517712.321071824     
  trcom prof sum =    517712.321071824     
  ps_ts2 cur sum  =   6424.18843492862     
  trcom cur sum  =    6424.18843492863     
  
  antenna # iant =            4
  powecha_use(iant) =    569802.201689259     
  ps_ts2 prof sum =   569482.024023219     
  trcom prof sum =    569482.024023218     
  ps_ts2 cur sum  =   9139.43972680647     
  trcom cur sum  =    9139.43972680646     
  
  antenna # iant =            5
  powecha_use(iant) =    554462.644594070     
  ps_ts2 prof sum =   554138.202169679     
  trcom prof sum =    554138.202169679     
  ps_ts2 cur sum  =   11040.2788030713     
  trcom cur sum  =    11040.2788030713     
  
  Total ECH heating:      3009793.39784321     
  Total Current Drive:    48669.6373457307     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4155
 TA= 4.41000E+00 CPU TIME= 1.47464E-01 SECONDS.  DT= 1.96664E-03
  
 TEC1=    4.40999999999993     
 TEC2=    4.41499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.6851524999997     
  %check_save_state: izleft hours =    68.3063888888889     
 --> plasma_hash("gframe"): TA= 4.410000E+00 NSTEP=  4155 Hash code:   83714239
 ->PRGCHK: bdy curvature ratio at t= 4.4150E+00 seconds is:  5.6832E-02
% MHDEQ: TG1=     4.410000 ; TG2=     4.415000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.6080E-03 SECONDS
   DATA R*BT AT EDGE:  2.7747E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6832E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.410000 TO TG2=    4.415000 @ NSTEP     4155
   GFRAME TG2 MOMENTS CHECKSUM:  2.4532697886972D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4150E+00  4.4200E+00 total power(Watts):  3.0222E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.41500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.383777E+02    0.382998E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.363627E+02    0.384343E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.378121E+02    0.367300E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.401044E+02    0.371688E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.400034E+02    0.391947E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.377386E+02    0.399318E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.355885E+02    0.411851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.345684E+02    0.397592E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138069E+03   -0.342242E+02    0.381452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137874E+03   -0.351300E+02    0.364831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137246E+03   -0.369738E+02    0.352396E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.391458E+02    0.348497E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.410995E+02    0.354233E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135833E+03   -0.423812E+02    0.367695E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.425449E+02    0.385595E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.415913E+02    0.402691E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.397852E+02    0.414305E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.376957E+02    0.417078E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137127E+03   -0.356715E+02    0.440729E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.326571E+02    0.424516E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138603E+03   -0.313195E+02    0.397493E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138537E+03   -0.317996E+02    0.367143E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138225E+03   -0.339218E+02    0.341101E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137365E+03   -0.373548E+02    0.325255E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.411834E+02    0.324537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.443975E+02    0.339714E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.462321E+02    0.366561E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134405E+03   -0.457157E+02    0.399135E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.430719E+02    0.427540E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.393680E+02    0.442586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.392772E+02    0.297583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.372554E+02    0.299513E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.386922E+02    0.282585E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.409956E+02    0.286127E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.409176E+02    0.305671E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.385505E+02    0.314114E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.366091E+02    0.325892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.352737E+02    0.314277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.351045E+02    0.297697E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138059E+03   -0.359989E+02    0.281200E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.379383E+02    0.267525E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.400124E+02    0.263798E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.420839E+02    0.268151E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.432735E+02    0.281574E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.434573E+02    0.298726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.425225E+02    0.315380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.406166E+02    0.327835E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.385322E+02    0.331167E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.365241E+02    0.355066E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138401E+03   -0.334805E+02    0.340629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138634E+03   -0.322009E+02    0.314061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.326542E+02    0.284338E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138053E+03   -0.349547E+02    0.256502E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.384005E+02    0.240018E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.421470E+02    0.239121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.453781E+02    0.252986E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.472425E+02    0.278224E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134614E+03   -0.466485E+02    0.310052E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.439219E+02    0.339088E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.402310E+02    0.355383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.384347E+02    0.438618E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.364130E+02    0.439420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136735E+03   -0.377747E+02    0.422753E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.400660E+02    0.427928E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.400581E+02    0.448248E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.377817E+02    0.455063E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.358192E+02    0.466041E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.346058E+02    0.452335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137723E+03   -0.342715E+02    0.435637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.352904E+02    0.418369E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.369461E+02    0.407317E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.391276E+02    0.403984E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.410762E+02    0.410303E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135431E+03   -0.424633E+02    0.424036E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.426129E+02    0.442567E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.416432E+02    0.459649E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.398225E+02    0.470663E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.377315E+02    0.472761E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.357826E+02    0.495414E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.326734E+02    0.478327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138305E+03   -0.313515E+02    0.451151E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.317604E+02    0.420877E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138008E+03   -0.339002E+02    0.395071E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.373454E+02    0.379930E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.411812E+02    0.380195E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134707E+03   -0.446262E+02    0.395609E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.463315E+02    0.424344E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133847E+03   -0.459050E+02    0.457427E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.433419E+02    0.484449E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.394928E+02    0.498547E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136787E+03   -0.387599E+02    0.342743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.365403E+02    0.345693E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.380820E+02    0.327904E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.403755E+02    0.331816E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.403921E+02    0.351403E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136984E+03   -0.380254E+02    0.359705E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.360803E+02    0.371486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.347556E+02    0.359199E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138095E+03   -0.345973E+02    0.342019E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.355959E+02    0.324679E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137330E+03   -0.373382E+02    0.312901E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.395112E+02    0.308789E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.414698E+02    0.314039E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.427604E+02    0.326881E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.429329E+02    0.344598E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.419883E+02    0.361783E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.400771E+02    0.374160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.379956E+02    0.377200E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.359786E+02    0.400774E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.331418E+02    0.384487E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138580E+03   -0.316924E+02    0.358525E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.321605E+02    0.328103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.342747E+02    0.302494E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.378060E+02    0.285784E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.415367E+02    0.285289E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.447605E+02    0.299561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134539E+03   -0.466115E+02    0.324934E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134463E+03   -0.461131E+02    0.357266E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.433702E+02    0.386282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.396713E+02    0.401858E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.393605E+02    0.237747E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.373382E+02    0.239979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.387681E+02    0.223222E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.410734E+02    0.226260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.410041E+02    0.245491E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.386415E+02    0.254410E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.365077E+02    0.268185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.353647E+02    0.255240E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.353783E+02    0.237000E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.362649E+02    0.220812E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.380061E+02    0.209001E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.401814E+02    0.204453E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.421494E+02    0.208997E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.434574E+02    0.220767E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.436487E+02    0.237390E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.426115E+02    0.254915E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.407145E+02    0.267859E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.385293E+02    0.272286E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.365392E+02    0.295955E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138470E+03   -0.335831E+02    0.282024E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138784E+03   -0.322848E+02    0.255491E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138903E+03   -0.327287E+02    0.225946E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.349233E+02    0.199878E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.385506E+02    0.181755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.422981E+02    0.180573E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.455398E+02    0.193501E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.472987E+02    0.217437E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134814E+03   -0.467236E+02    0.248604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.439116E+02    0.278880E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.402426E+02    0.295442E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.78 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    702825.716251457     
  ps_ts2 prof sum =   702388.427114439     
  trcom prof sum =    702388.427114439     
  ps_ts2 cur sum  =   10176.5347157156     
  trcom cur sum  =    10176.5347157156     
  
  antenna # iant =            2
  powecha_use(iant) =    672381.651259885     
  ps_ts2 prof sum =   671977.407478812     
  trcom prof sum =    671977.407478811     
  ps_ts2 cur sum  =   11984.7073865584     
  trcom cur sum  =    11984.7073865584     
  
  antenna # iant =            3
  powecha_use(iant) =    517885.323047194     
  ps_ts2 prof sum =   517586.435779758     
  trcom prof sum =    517586.435779758     
  ps_ts2 cur sum  =   6424.02071488524     
  trcom cur sum  =    6424.02071488525     
  
  antenna # iant =            4
  powecha_use(iant) =    575036.782474801     
  ps_ts2 prof sum =   574695.359066824     
  trcom prof sum =    574695.359066823     
  ps_ts2 cur sum  =   9225.35669493379     
  trcom cur sum  =    9225.35669493378     
  
  antenna # iant =            5
  powecha_use(iant) =    554091.582610098     
  ps_ts2 prof sum =   553788.146817537     
  trcom prof sum =    553788.146817537     
  ps_ts2 cur sum  =   11036.2217955821     
  trcom cur sum  =    11036.2217955821     
  
  Total ECH heating:      3020435.77625737     
  Total Current Drive:    48846.8413076752     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4158
 TA= 4.41500E+00 CPU TIME= 1.60319E-01 SECONDS.  DT= 7.18822E-04
  
 TEC1=    4.41499999999993     
 TEC2=    4.41999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7021897222221     
  %check_save_state: izleft hours =    68.2894444444444     
 --> plasma_hash("gframe"): TA= 4.415000E+00 NSTEP=  4158 Hash code:   66979760
 ->PRGCHK: bdy curvature ratio at t= 4.4200E+00 seconds is:  5.6822E-02
% MHDEQ: TG1=     4.415000 ; TG2=     4.420000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7749E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6822E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.415000 TO TG2=    4.420000 @ NSTEP     4158
   GFRAME TG2 MOMENTS CHECKSUM:  2.4526885908784D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.55227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.41855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.82645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.80429E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18888E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.45642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35366E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.50688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.24582E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.62647E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.80266E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.18952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96858E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.61117E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.49704E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.17453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.34103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.11240E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.93257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.93257E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4200E+00  4.4250E+00 total power(Watts):  3.0204E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.42000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.383933E+02    0.382826E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.363778E+02    0.384169E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.378276E+02    0.367109E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.401204E+02    0.371503E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136335E+03   -0.400195E+02    0.391764E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.377542E+02    0.399140E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.356033E+02    0.411654E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.345826E+02    0.397418E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.342386E+02    0.381281E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137859E+03   -0.351445E+02    0.364632E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.369887E+02    0.352181E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.391584E+02    0.348282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.411159E+02    0.354004E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.423981E+02    0.367501E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.425619E+02    0.385415E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.416082E+02    0.402505E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.398015E+02    0.414104E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.376126E+02    0.417321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.356865E+02    0.440575E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.326709E+02    0.424330E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138587E+03   -0.313326E+02    0.397325E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.318122E+02    0.366965E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.339356E+02    0.340858E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.373698E+02    0.324983E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.411999E+02    0.324251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.444150E+02    0.339451E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.462503E+02    0.366360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134392E+03   -0.457340E+02    0.398944E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.430895E+02    0.427334E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.393842E+02    0.442421E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.392924E+02    0.297290E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.372681E+02    0.299238E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137102E+03   -0.387063E+02    0.282305E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.410117E+02    0.285831E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.409339E+02    0.305375E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137072E+03   -0.385659E+02    0.313826E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.366239E+02    0.325622E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138054E+03   -0.352880E+02    0.313997E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.351191E+02    0.297392E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.360134E+02    0.280926E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.379530E+02    0.267256E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.400329E+02    0.263512E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.421002E+02    0.267870E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.432904E+02    0.281287E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.434744E+02    0.298421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.425360E+02    0.315102E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.406326E+02    0.327559E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.385479E+02    0.330901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.365386E+02    0.354857E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138387E+03   -0.334942E+02    0.340387E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138622E+03   -0.322141E+02    0.313787E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138664E+03   -0.326674E+02    0.284066E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.349682E+02    0.256237E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137274E+03   -0.384135E+02    0.239770E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.421584E+02    0.238885E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.453950E+02    0.252712E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.472606E+02    0.277916E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134604E+03   -0.466666E+02    0.309749E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.439391E+02    0.338823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.402470E+02    0.355163E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.53 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.384506E+02    0.438451E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.364283E+02    0.439256E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.377903E+02    0.422556E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.400826E+02    0.427732E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.400748E+02    0.448087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.376927E+02    0.455276E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.356327E+02    0.466577E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.346205E+02    0.452195E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.343877E+02    0.435021E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.353051E+02    0.418176E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137032E+03   -0.369613E+02    0.407128E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.391347E+02    0.403831E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.410930E+02    0.410095E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.424806E+02    0.423832E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.426303E+02    0.442395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.416599E+02    0.459510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.398394E+02    0.470504E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.377476E+02    0.472604E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.355964E+02    0.495758E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.326874E+02    0.478166E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.313649E+02    0.451019E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.317738E+02    0.420688E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137992E+03   -0.339138E+02    0.394896E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.373616E+02    0.379748E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.411977E+02    0.380018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.446440E+02    0.395420E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.463503E+02    0.424129E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.459239E+02    0.457272E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134975E+03   -0.431291E+02    0.484794E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.395098E+02    0.498360E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.387752E+02    0.342504E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.365546E+02    0.345465E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137180E+03   -0.380974E+02    0.327634E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.403914E+02    0.331551E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136376E+03   -0.404084E+02    0.351174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.380390E+02    0.359509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137318E+03   -0.360950E+02    0.371306E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.347699E+02    0.358998E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.346113E+02    0.341776E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.356103E+02    0.324409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.373531E+02    0.312615E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.395269E+02    0.308495E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.414862E+02    0.313744E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.427772E+02    0.326607E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.429500E+02    0.344343E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.420046E+02    0.361578E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.400931E+02    0.373975E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136833E+03   -0.380119E+02    0.377019E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.359934E+02    0.400597E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.331556E+02    0.384321E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138565E+03   -0.317056E+02    0.358326E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138564E+03   -0.321737E+02    0.327844E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138290E+03   -0.342886E+02    0.302210E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.378210E+02    0.285496E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.415530E+02    0.284994E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.447781E+02    0.299253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.466298E+02    0.324640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.461312E+02    0.357044E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.433873E+02    0.386119E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.396925E+02    0.401662E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.393740E+02    0.237496E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137525E+03   -0.373523E+02    0.239721E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.388844E+02    0.222134E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.410878E+02    0.226007E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.410195E+02    0.245224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.386562E+02    0.254142E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137942E+03   -0.365220E+02    0.267920E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138212E+03   -0.353778E+02    0.254982E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.353917E+02    0.236745E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137853E+03   -0.362811E+02    0.220526E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137737E+03   -0.379214E+02    0.209604E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.401959E+02    0.204191E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.421657E+02    0.208737E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136119E+03   -0.434707E+02    0.220521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.436649E+02    0.237122E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.426274E+02    0.254643E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.407302E+02    0.267586E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.385444E+02    0.272016E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137545E+03   -0.365538E+02    0.295667E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138457E+03   -0.335970E+02    0.281754E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138771E+03   -0.322977E+02    0.255236E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138888E+03   -0.327395E+02    0.225690E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138509E+03   -0.349354E+02    0.199631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.385639E+02    0.181501E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136377E+03   -0.424176E+02    0.179468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.455551E+02    0.193253E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.473157E+02    0.217165E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134803E+03   -0.467410E+02    0.248327E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.439278E+02    0.278586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.402582E+02    0.295146E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    700513.472549869     
  ps_ts2 prof sum =   700078.100927346     
  trcom prof sum =    700078.100927347     
  ps_ts2 cur sum  =   10142.2050201126     
  trcom cur sum  =    10142.2050201126     
  
  antenna # iant =            2
  powecha_use(iant) =    671523.887696791     
  ps_ts2 prof sum =   671117.265851687     
  trcom prof sum =    671117.265851687     
  ps_ts2 cur sum  =   11966.4144073385     
  trcom cur sum  =    11966.4144073385     
  
  antenna # iant =            3
  powecha_use(iant) =    518377.362470281     
  ps_ts2 prof sum =   518052.848702549     
  trcom prof sum =    518052.848702550     
  ps_ts2 cur sum  =   6431.57580154547     
  trcom cur sum  =    6431.57580154548     
  
  antenna # iant =            4
  powecha_use(iant) =    575670.307072028     
  ps_ts2 prof sum =   575330.216405200     
  trcom prof sum =    575330.216405199     
  ps_ts2 cur sum  =   9233.27933567029     
  trcom cur sum  =    9233.27933567028     
  
  antenna # iant =            5
  powecha_use(iant) =    554341.401795495     
  ps_ts2 prof sum =   554030.856845786     
  trcom prof sum =    554030.856845786     
  ps_ts2 cur sum  =   11039.5136962237     
  trcom cur sum  =    11039.5136962237     
  
  Total ECH heating:      3018609.28873257     
  Total Current Drive:    48812.9882608906     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4163
 TA= 4.42000E+00 CPU TIME= 1.62643E-01 SECONDS.  DT= 1.06943E-03
  
 TEC1=    4.41999999999993     
 TEC2=    4.42499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7162922222221     
  %check_save_state: izleft hours =    68.2752777777778     
 --> plasma_hash("gframe"): TA= 4.420000E+00 NSTEP=  4163 Hash code:   26754901
 ->PRGCHK: bdy curvature ratio at t= 4.4250E+00 seconds is:  5.6812E-02
% MHDEQ: TG1=     4.420000 ; TG2=     4.425000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1320E-03 SECONDS
   DATA R*BT AT EDGE:  2.7750E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6812E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.420000 TO TG2=    4.425000 @ NSTEP     4163
   GFRAME TG2 MOMENTS CHECKSUM:  2.4521073930596D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4250E+00  4.4300E+00 total power(Watts):  3.0117E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.42500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.384102E+02    0.382708E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.363937E+02    0.384054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.378443E+02    0.366974E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.400302E+02    0.371933E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.400426E+02    0.391637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.377705E+02    0.399011E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137548E+03   -0.356189E+02    0.411513E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.345980E+02    0.397297E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.342538E+02    0.381164E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.352584E+02    0.363899E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.370050E+02    0.352009E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.390732E+02    0.348702E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.411339E+02    0.353835E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135805E+03   -0.424164E+02    0.367369E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.425804E+02    0.385297E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.416262E+02    0.402374E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.398186E+02    0.413956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.376287E+02    0.417173E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.357020E+02    0.440448E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.326850E+02    0.424190E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138570E+03   -0.313466E+02    0.397201E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138505E+03   -0.318267E+02    0.366831E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.339511E+02    0.340653E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.373869E+02    0.324742E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.412187E+02    0.324005E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.444346E+02    0.339232E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.462699E+02    0.366228E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134375E+03   -0.457546E+02    0.398811E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.431077E+02    0.427187E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.394011E+02    0.442292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.393098E+02    0.297025E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.372879E+02    0.298950E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.387254E+02    0.282031E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.410308E+02    0.285555E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.409525E+02    0.305106E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.385832E+02    0.313569E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.366407E+02    0.325384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138042E+03   -0.353033E+02    0.313744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.351356E+02    0.297124E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138034E+03   -0.360302E+02    0.280666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137258E+03   -0.379701E+02    0.267017E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.400460E+02    0.263281E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.421194E+02    0.267617E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.433097E+02    0.281006E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.434993E+02    0.298119E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.425583E+02    0.314829E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.406510E+02    0.327314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.385651E+02    0.330679E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.365549E+02    0.354692E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138373E+03   -0.335095E+02    0.340180E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138609E+03   -0.322293E+02    0.313533E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.326819E+02    0.283814E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.349858E+02    0.255999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.384313E+02    0.239533E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.421766E+02    0.238658E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.454150E+02    0.252480E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.472819E+02    0.277634E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134595E+03   -0.466875E+02    0.309471E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.439587E+02    0.338603E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.402647E+02    0.355006E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.383607E+02    0.438728E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.363422E+02    0.439534E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.378066E+02    0.422404E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.400998E+02    0.427577E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.400919E+02    0.447966E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.377129E+02    0.455168E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.356487E+02    0.466448E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137664E+03   -0.344382E+02    0.452867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.343947E+02    0.434906E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.353207E+02    0.418025E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137016E+03   -0.369774E+02    0.406989E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.391567E+02    0.403673E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.411104E+02    0.409960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.424982E+02    0.423673E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.426485E+02    0.442258E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.416777E+02    0.459389E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.398566E+02    0.470367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.376591E+02    0.472779E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.357131E+02    0.495335E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137968E+03   -0.327020E+02    0.478021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.313823E+02    0.450906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138363E+03   -0.317878E+02    0.420536E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.339299E+02    0.394779E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.373767E+02    0.379639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.412154E+02    0.379904E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.446630E+02    0.395298E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133981E+03   -0.463698E+02    0.423960E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133820E+03   -0.459433E+02    0.457147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134961E+03   -0.431478E+02    0.484625E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.395273E+02    0.498185E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.34 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.386878E+02    0.342923E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.366719E+02    0.344630E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.381146E+02    0.327401E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.404108E+02    0.331318E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.404261E+02    0.350996E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.380559E+02    0.359350E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.361100E+02    0.371185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137964E+03   -0.347851E+02    0.358844E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.346271E+02    0.341572E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.356269E+02    0.324172E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137307E+03   -0.373698E+02    0.312358E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.395448E+02    0.308228E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.415049E+02    0.313486E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.427962E+02    0.326356E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.429688E+02    0.344155E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.420228E+02    0.361431E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.401105E+02    0.373855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.380273E+02    0.376905E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.360091E+02    0.400469E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.329821E+02    0.385333E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138550E+03   -0.317200E+02    0.358172E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138772E+03   -0.320965E+02    0.328307E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.343048E+02    0.301944E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.378386E+02    0.285228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.415723E+02    0.284715E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.447983E+02    0.298970E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.466503E+02    0.324390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.461510E+02    0.356886E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.434059E+02    0.386003E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136399E+03   -0.397095E+02    0.401530E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.393918E+02    0.237265E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.373695E+02    0.239489E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.388013E+02    0.222741E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.411061E+02    0.225783E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.410424E+02    0.244963E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.386739E+02    0.253905E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.365386E+02    0.267680E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.353948E+02    0.254750E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.352188E+02    0.238190E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.362970E+02    0.220308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.380365E+02    0.208533E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.402133E+02    0.203977E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.421840E+02    0.208516E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.434900E+02    0.220295E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.435736E+02    0.237679E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.426478E+02    0.254400E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.407489E+02    0.267333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.385622E+02    0.271758E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.365708E+02    0.295393E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138444E+03   -0.336116E+02    0.281502E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138757E+03   -0.323131E+02    0.255002E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138874E+03   -0.327547E+02    0.225476E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138495E+03   -0.349513E+02    0.199404E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137332E+03   -0.385809E+02    0.181281E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136574E+03   -0.423320E+02    0.180106E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135589E+03   -0.455756E+02    0.193030E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.473362E+02    0.216943E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134792E+03   -0.467618E+02    0.248082E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.439481E+02    0.278305E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.402767E+02    0.294873E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694659.791131437     
  ps_ts2 prof sum =   694240.990817419     
  trcom prof sum =    694240.990817418     
  ps_ts2 cur sum  =   10062.4249794650     
  trcom cur sum  =    10062.4249794650     
  
  antenna # iant =            2
  powecha_use(iant) =    669844.654479746     
  ps_ts2 prof sum =   669451.685156634     
  trcom prof sum =    669451.685156633     
  ps_ts2 cur sum  =   11952.6485846058     
  trcom cur sum  =    11952.6485846058     
  
  antenna # iant =            3
  powecha_use(iant) =    520181.743478993     
  ps_ts2 prof sum =   519851.884827579     
  trcom prof sum =    519851.884827579     
  ps_ts2 cur sum  =   6455.92122289434     
  trcom cur sum  =    6455.92122289434     
  
  antenna # iant =            4
  powecha_use(iant) =    571945.365707274     
  ps_ts2 prof sum =   571598.139834542     
  trcom prof sum =    571598.139834541     
  ps_ts2 cur sum  =   9181.96545394672     
  trcom cur sum  =    9181.96545394672     
  
  antenna # iant =            5
  powecha_use(iant) =    555095.407359028     
  ps_ts2 prof sum =   554779.740232749     
  trcom prof sum =    554779.740232749     
  ps_ts2 cur sum  =   11068.9570899731     
  trcom cur sum  =    11068.9570899731     
  
  Total ECH heating:      3009922.44086892     
  Total Current Drive:    48721.9173308850     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4167
 TA= 4.42500E+00 CPU TIME= 1.86829E-01 SECONDS.  DT= 1.15351E-03
  
 TEC1=    4.42499999999993     
 TEC2=    4.42999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7335291666666     
  %check_save_state: izleft hours =    68.2580555555556     
 --> plasma_hash("gframe"): TA= 4.425000E+00 NSTEP=  4167 Hash code:   92364308
 ->PRGCHK: bdy curvature ratio at t= 4.4300E+00 seconds is:  5.6801E-02
% MHDEQ: TG1=     4.425000 ; TG2=     4.430000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.7600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7751E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6801E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.425000 TO TG2=    4.430000 @ NSTEP     4167
   GFRAME TG2 MOMENTS CHECKSUM:  2.4515261952407D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.56884E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.36991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.78615E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.97351E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18381E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30031E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.47250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35553E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.36231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.17037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.49430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.71565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.27810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.61038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.40257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.17638E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.21104E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.90505E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.10421E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.10421E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4300E+00  4.4350E+00 total power(Watts):  3.0053E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.43000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.384277E+02    0.382580E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.364102E+02    0.383928E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.377576E+02    0.367417E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.400485E+02    0.371793E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.400510E+02    0.391543E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136933E+03   -0.376835E+02    0.399375E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.357351E+02    0.410869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.344189E+02    0.398204E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.342739E+02    0.381018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.352746E+02    0.363745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.370219E+02    0.351833E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.390908E+02    0.348516E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.411525E+02    0.353666E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.424357E+02    0.367224E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.425989E+02    0.385180E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.416446E+02    0.402225E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.398362E+02    0.413804E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.376457E+02    0.417012E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.357181E+02    0.440314E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.327003E+02    0.424032E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138554E+03   -0.313612E+02    0.397063E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.318418E+02    0.366685E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137962E+03   -0.340622E+02    0.339790E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.374044E+02    0.324507E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.412375E+02    0.323766E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135362E+03   -0.444547E+02    0.339018E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.462903E+02    0.366084E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.457734E+02    0.398670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.432417E+02    0.426610E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.394233E+02    0.442162E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.393284E+02    0.296755E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.371044E+02    0.300129E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.387442E+02    0.281759E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.410500E+02    0.285282E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.409717E+02    0.304840E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.386011E+02    0.313319E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.366578E+02    0.325150E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.354181E+02    0.312786E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138151E+03   -0.351525E+02    0.296867E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138022E+03   -0.360467E+02    0.280415E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.378875E+02    0.267530E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.400647E+02    0.263051E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.420303E+02    0.268105E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.433294E+02    0.280748E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.435100E+02    0.297891E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.425780E+02    0.314573E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.406663E+02    0.327105E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.384787E+02    0.331109E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.365714E+02    0.354524E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.335253E+02    0.339975E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138818E+03   -0.321541E+02    0.314005E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138638E+03   -0.326977E+02    0.283556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138013E+03   -0.350022E+02    0.255767E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.384491E+02    0.239306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.421960E+02    0.238434E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.454370E+02    0.252221E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.473041E+02    0.277361E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.467089E+02    0.309199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.439785E+02    0.338395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.402829E+02    0.354833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.383779E+02    0.438592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.363584E+02    0.439402E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.378235E+02    0.422242E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.401177E+02    0.427420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.401097E+02    0.447850E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.377215E+02    0.455074E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.357659E+02    0.465990E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.344537E+02    0.452761E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.344141E+02    0.434756E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137668E+03   -0.351382E+02    0.418803E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.369942E+02    0.406833E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.391743E+02    0.403522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.411288E+02    0.409798E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.424036E+02    0.423940E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.426672E+02    0.442127E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135545E+03   -0.416960E+02    0.459281E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.398743E+02    0.470246E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.376759E+02    0.472658E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.357289E+02    0.495193E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137952E+03   -0.327169E+02    0.477892E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138263E+03   -0.313898E+02    0.450815E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138348E+03   -0.318030E+02    0.420380E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.340405E+02    0.394120E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.373937E+02    0.379512E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.412388E+02    0.379760E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.446827E+02    0.395162E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133969E+03   -0.463902E+02    0.423792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.459630E+02    0.457048E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.431668E+02    0.484483E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.395451E+02    0.498033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.387051E+02    0.342726E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.366887E+02    0.344436E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137156E+03   -0.381320E+02    0.327166E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.404278E+02    0.331106E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.403360E+02    0.351421E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.380732E+02    0.359192E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137288E+03   -0.361275E+02    0.371044E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.348989E+02    0.358067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.347399E+02    0.340716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.356437E+02    0.323937E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.373874E+02    0.312104E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.394575E+02    0.308662E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.415242E+02    0.313228E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.428155E+02    0.326137E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.429883E+02    0.343955E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.420417E+02    0.361277E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.401294E+02    0.373714E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.380446E+02    0.376777E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137236E+03   -0.360255E+02    0.400324E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.329975E+02    0.385207E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138759E+03   -0.316440E+02    0.358640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138758E+03   -0.321116E+02    0.328083E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138047E+03   -0.344161E+02    0.300949E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.378540E+02    0.284977E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.415917E+02    0.284446E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.448191E+02    0.298695E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.466715E+02    0.324148E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134426E+03   -0.461715E+02    0.356722E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.434251E+02    0.385875E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.397273E+02    0.401383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.394103E+02    0.237028E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.373880E+02    0.239262E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.388190E+02    0.222517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.411251E+02    0.225549E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.410567E+02    0.244765E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.386931E+02    0.253668E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137701E+03   -0.366543E+02    0.266653E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.355080E+02    0.253704E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.352357E+02    0.237964E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.363144E+02    0.220077E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.380546E+02    0.208297E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136968E+03   -0.402323E+02    0.203750E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136521E+03   -0.422031E+02    0.208299E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.435099E+02    0.220070E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.435936E+02    0.237450E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.425586E+02    0.254909E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.407681E+02    0.267080E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137209E+03   -0.385802E+02    0.271504E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.365942E+02    0.295090E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138650E+03   -0.335352E+02    0.282020E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138743E+03   -0.323299E+02    0.254774E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138860E+03   -0.327700E+02    0.225253E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138482E+03   -0.349678E+02    0.199182E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.385989E+02    0.181070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.423510E+02    0.179901E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.455968E+02    0.192806E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.473578E+02    0.216716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.465516E+02    0.249329E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.439681E+02    0.278046E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.402951E+02    0.294608E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    690871.307905874     
  ps_ts2 prof sum =   690482.769872789     
  trcom prof sum =    690482.769872788     
  ps_ts2 cur sum  =   10012.8704119333     
  trcom cur sum  =    10012.8704119333     
  
  antenna # iant =            2
  powecha_use(iant) =    668339.516156904     
  ps_ts2 prof sum =   667943.237220220     
  trcom prof sum =    667943.237220220     
  ps_ts2 cur sum  =   11938.9989543100     
  trcom cur sum  =    11938.9989543100     
  
  antenna # iant =            3
  powecha_use(iant) =    517280.146058627     
  ps_ts2 prof sum =   516967.840136753     
  trcom prof sum =    516967.840136753     
  ps_ts2 cur sum  =   6424.30126027554     
  trcom cur sum  =    6424.30126027555     
  
  antenna # iant =            4
  powecha_use(iant) =    574110.827077560     
  ps_ts2 prof sum =   573793.779184263     
  trcom prof sum =    573793.779184262     
  ps_ts2 cur sum  =   9223.55693441400     
  trcom cur sum  =    9223.55693441399     
  
  antenna # iant =            5
  powecha_use(iant) =    554671.208348006     
  ps_ts2 prof sum =   554375.438851946     
  trcom prof sum =    554375.438851946     
  ps_ts2 cur sum  =   11077.3806101191     
  trcom cur sum  =    11077.3806101191     
  
  Total ECH heating:      3003563.06526597     
  Total Current Drive:    48677.1081710520     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4171
 TA= 4.43000E+00 CPU TIME= 1.65870E-01 SECONDS.  DT= 7.52785E-04
  
 TEC1=    4.42999999999993     
 TEC2=    4.43499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7474052777777     
  %check_save_state: izleft hours =    68.2441666666667     
 --> plasma_hash("gframe"): TA= 4.430000E+00 NSTEP=  4171 Hash code:   40823598
 ->PRGCHK: bdy curvature ratio at t= 4.4350E+00 seconds is:  5.6792E-02
% MHDEQ: TG1=     4.430000 ; TG2=     4.435000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7753E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6792E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.430000 TO TG2=    4.435000 @ NSTEP     4171
   GFRAME TG2 MOMENTS CHECKSUM:  2.4509449974219D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4350E+00  4.4400E+00 total power(Watts):  3.0072E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.43500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.383400E+02    0.382995E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.363259E+02    0.384350E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.377752E+02    0.367265E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.400662E+02    0.371654E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.400735E+02    0.391397E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.377009E+02    0.399235E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.357520E+02    0.410714E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137938E+03   -0.344351E+02    0.398067E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.342818E+02    0.380928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137592E+03   -0.352913E+02    0.363590E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.370390E+02    0.351638E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.391091E+02    0.348305E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136387E+03   -0.410615E+02    0.354067E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.424583E+02    0.367065E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.426183E+02    0.385052E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.416636E+02    0.402079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.398545E+02    0.413648E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.376631E+02    0.416858E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.357346E+02    0.440197E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.327160E+02    0.423880E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138538E+03   -0.313761E+02    0.396927E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.317659E+02    0.367144E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.340786E+02    0.339557E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.374215E+02    0.324243E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.411474E+02    0.324141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.445910E+02    0.338163E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134371E+03   -0.463113E+02    0.365929E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.457941E+02    0.398524E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.432612E+02    0.426458E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.394322E+02    0.442064E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137077E+03   -0.392429E+02    0.297167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.372229E+02    0.299111E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.386588E+02    0.282207E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.409619E+02    0.285699E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.409908E+02    0.304534E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.386195E+02    0.313021E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137569E+03   -0.365747E+02    0.325563E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137800E+03   -0.354352E+02    0.312495E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137922E+03   -0.352658E+02    0.295827E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.361615E+02    0.279353E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.379049E+02    0.267254E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136915E+03   -0.400836E+02    0.262763E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.420500E+02    0.267813E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.433498E+02    0.280437E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.435350E+02    0.297551E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.425981E+02    0.314274E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.406886E+02    0.326815E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.384970E+02    0.330842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.364875E+02    0.354952E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138347E+03   -0.335416E+02    0.339742E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138806E+03   -0.321700E+02    0.313724E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138846E+03   -0.326228E+02    0.284037E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.348303E+02    0.257127E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137451E+03   -0.383669E+02    0.239858E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.422153E+02    0.238154E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.454579E+02    0.251941E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.470898E+02    0.278436E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134578E+03   -0.467307E+02    0.308888E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.441138E+02    0.337533E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.403017E+02    0.354639E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.383953E+02    0.438465E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.363751E+02    0.439282E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.378410E+02    0.422088E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.401360E+02    0.427271E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.401278E+02    0.447745E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.377433E+02    0.454960E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.357823E+02    0.465876E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.344709E+02    0.452642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137436E+03   -0.344301E+02    0.434627E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.351544E+02    0.418650E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.370113E+02    0.406681E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.390852E+02    0.403865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.411476E+02    0.409648E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.424230E+02    0.423776E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.426864E+02    0.442004E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.417151E+02    0.459182E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.398925E+02    0.470135E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.376931E+02    0.472541E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136878E+03   -0.357455E+02    0.495055E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.327322E+02    0.477769E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.314078E+02    0.450703E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138332E+03   -0.318180E+02    0.420229E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.340568E+02    0.393982E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137036E+03   -0.374114E+02    0.379380E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.411374E+02    0.380196E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.444687E+02    0.395991E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.464110E+02    0.423633E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.458633E+02    0.457273E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.431864E+02    0.484345E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.394544E+02    0.498134E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.387217E+02    0.342508E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137392E+03   -0.367063E+02    0.344213E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.381503E+02    0.326903E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.404469E+02    0.330837E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136554E+03   -0.403548E+02    0.351219E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.380910E+02    0.359020E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.359433E+02    0.372071E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137713E+03   -0.349154E+02    0.357886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137821E+03   -0.347565E+02    0.340489E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.356599E+02    0.323668E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137284E+03   -0.374044E+02    0.311818E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.394763E+02    0.308367E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136492E+03   -0.414368E+02    0.313586E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.427234E+02    0.326493E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.430083E+02    0.343719E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.419492E+02    0.361680E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.401479E+02    0.373576E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.379581E+02    0.377199E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.360423E+02    0.400179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.330131E+02    0.385080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138744E+03   -0.316592E+02    0.358466E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138746E+03   -0.321275E+02    0.327830E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.344324E+02    0.300660E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.377734E+02    0.285406E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.416115E+02    0.284134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135487E+03   -0.448403E+02    0.298373E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.466932E+02    0.323860E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134414E+03   -0.461925E+02    0.356535E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.434448E+02    0.385749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136370E+03   -0.397456E+02    0.401240E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.394292E+02    0.236768E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.372082E+02    0.240641E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.388363E+02    0.222252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.411445E+02    0.225288E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.410751E+02    0.244502E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.387107E+02    0.253403E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.366711E+02    0.266379E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.355247E+02    0.253437E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.352518E+02    0.237706E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138243E+03   -0.361398E+02    0.221523E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.380717E+02    0.208035E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.402502E+02    0.203476E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.422222E+02    0.208022E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.434210E+02    0.220602E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.436132E+02    0.237183E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.425780E+02    0.254642E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.407872E+02    0.266793E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.385956E+02    0.271227E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.366031E+02    0.294846E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138639E+03   -0.335519E+02    0.281728E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138959E+03   -0.322532E+02    0.255369E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138847E+03   -0.327849E+02    0.224995E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.349843E+02    0.198924E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.384215E+02    0.182568E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.423696E+02    0.179629E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.455054E+02    0.193353E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.471479E+02    0.218007E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.465731E+02    0.249042E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.439887E+02    0.277735E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.403143E+02    0.294298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    688401.588599767     
  ps_ts2 prof sum =   688016.834571773     
  trcom prof sum =    688016.834571773     
  ps_ts2 cur sum  =   9985.60679148832     
  trcom cur sum  =    9985.60679148832     
  
  antenna # iant =            2
  powecha_use(iant) =    672135.077303377     
  ps_ts2 prof sum =   671741.749476456     
  trcom prof sum =    671741.749434172     
  ps_ts2 cur sum  =   12020.4133010157     
  trcom cur sum  =    12020.4133010157     
  
  antenna # iant =            3
  powecha_use(iant) =    518635.243289880     
  ps_ts2 prof sum =   518317.078758686     
  trcom prof sum =    518317.078758687     
  ps_ts2 cur sum  =   6445.36132001732     
  trcom cur sum  =    6445.36132001733     
  
  antenna # iant =            4
  powecha_use(iant) =    573232.425251662     
  ps_ts2 prof sum =   572902.248501915     
  trcom prof sum =    572902.248501914     
  ps_ts2 cur sum  =   9218.83442388877     
  trcom cur sum  =    9218.83442388876     
  
  antenna # iant =            5
  powecha_use(iant) =    554824.279813604     
  ps_ts2 prof sum =   554486.401168520     
  trcom prof sum =    554486.401168520     
  ps_ts2 cur sum  =   11090.1685888630     
  trcom cur sum  =    11090.1685888630     
  
  Total ECH heating:      3005464.31243507     
  Total Current Drive:    48760.3844252730     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4176
 TA= 4.43500E+00 CPU TIME= 1.59348E-01 SECONDS.  DT= 8.24653E-04
  
 TEC1=    4.43499999999993     
 TEC2=    4.43999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7589627777777     
  %check_save_state: izleft hours =    68.2325000000000     
 --> plasma_hash("gframe"): TA= 4.435000E+00 NSTEP=  4176 Hash code:   16467043
 ->PRGCHK: bdy curvature ratio at t= 4.4400E+00 seconds is:  5.6782E-02
% MHDEQ: TG1=     4.435000 ; TG2=     4.440000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7754E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6782E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.435000 TO TG2=    4.440000 @ NSTEP     4176
   GFRAME TG2 MOMENTS CHECKSUM:  2.4503637996031D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.58709E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.31629E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.74174E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.17822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.28515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.49022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35758E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.20299E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.08722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.34865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.61976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.37573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.96017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.60951E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.99797E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.17842E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.06778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.67655E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.52765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.52765E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4400E+00  4.4450E+00 total power(Watts):  2.9963E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.44000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.383525E+02    0.382776E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137558E+03   -0.362362E+02    0.384689E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.377867E+02    0.367026E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.400783E+02    0.371425E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.400857E+02    0.391175E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136903E+03   -0.377129E+02    0.399008E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137280E+03   -0.357636E+02    0.410477E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.344459E+02    0.397850E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.342958E+02    0.380703E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.353019E+02    0.363354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.370501E+02    0.351361E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.391206E+02    0.348012E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.411837E+02    0.353191E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.424618E+02    0.366845E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.426316E+02    0.384826E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.416768E+02    0.401835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.398673E+02    0.413394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136795E+03   -0.376753E+02    0.416613E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.357458E+02    0.440014E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.327265E+02    0.423659E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138522E+03   -0.313863E+02    0.396713E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138683E+03   -0.317752E+02    0.366930E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137936E+03   -0.340887E+02    0.339251E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.374326E+02    0.323899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.412686E+02    0.323131E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.444883E+02    0.338428E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.463254E+02    0.365664E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.458084E+02    0.398273E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.432752E+02    0.426213E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.394493E+02    0.441862E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.393584E+02    0.296068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.372331E+02    0.298736E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.387726E+02    0.281094E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.410803E+02    0.284595E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.410025E+02    0.304147E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.386305E+02    0.312651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137776E+03   -0.364849E+02    0.325901E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.354448E+02    0.312142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.351793E+02    0.296206E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.360739E+02    0.279760E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.379148E+02    0.266917E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.400939E+02    0.262429E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.420609E+02    0.267459E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.433615E+02    0.280050E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.435472E+02    0.297146E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.426105E+02    0.313879E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.407005E+02    0.326461E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.385083E+02    0.330503E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.363976E+02    0.355303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.335516E+02    0.339438E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138794E+03   -0.321795E+02    0.313375E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138614E+03   -0.327223E+02    0.282910E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138420E+03   -0.348382E+02    0.256821E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.384767E+02    0.238750E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.422252E+02    0.237858E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.454690E+02    0.251609E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.473388E+02    0.276636E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134569E+03   -0.467440E+02    0.308479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.440118E+02    0.337797E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.403135E+02    0.354369E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.384078E+02    0.438262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.363871E+02    0.439089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.378532E+02    0.421850E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.401489E+02    0.427035E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.401410E+02    0.447564E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.377553E+02    0.454803E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.357945E+02    0.465712E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.344818E+02    0.452499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.344414E+02    0.434428E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.351658E+02    0.418416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.370233E+02    0.406448E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136601E+03   -0.390976E+02    0.403628E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.411606E+02    0.409396E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.424367E+02    0.423531E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.427001E+02    0.441803E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.417289E+02    0.459007E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.399060E+02    0.469954E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.377061E+02    0.472363E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.357577E+02    0.494882E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137920E+03   -0.327436E+02    0.477598E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138222E+03   -0.314183E+02    0.450548E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.318281E+02    0.420005E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.340674E+02    0.393773E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.374228E+02    0.379165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.412655E+02    0.379418E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.444825E+02    0.395752E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133943E+03   -0.464258E+02    0.423379E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133994E+03   -0.458784E+02    0.457091E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.432012E+02    0.484150E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.394681E+02    0.497949E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.387345E+02    0.342188E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.367171E+02    0.343914E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.381617E+02    0.326554E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.404587E+02    0.330493E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.403663E+02    0.350939E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.381024E+02    0.358770E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.359544E+02    0.371846E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.349255E+02    0.357641E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.347665E+02    0.340183E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.356705E+02    0.323329E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137273E+03   -0.374154E+02    0.311452E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.394875E+02    0.307990E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.415558E+02    0.312544E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.428481E+02    0.325486E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.430209E+02    0.343397E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.419616E+02    0.361423E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.401590E+02    0.373356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.379697E+02    0.376983E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.360538E+02    0.399953E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.330231E+02    0.384876E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138729E+03   -0.316687E+02    0.358222E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138733E+03   -0.321366E+02    0.327509E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.344423E+02    0.300291E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137422E+03   -0.377835E+02    0.285040E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.416223E+02    0.283755E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.448530E+02    0.297961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.467121E+02    0.323452E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.462063E+02    0.356244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.434582E+02    0.385521E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.397582E+02    0.401005E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.27 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.394384E+02    0.236474E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.372169E+02    0.240356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.388450E+02    0.221971E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.411537E+02    0.225000E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.410861E+02    0.244184E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137190E+03   -0.387207E+02    0.253092E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.366807E+02    0.266049E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137943E+03   -0.355330E+02    0.253141E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138326E+03   -0.352601E+02    0.237424E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.363389E+02    0.219540E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.380802E+02    0.207760E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.402592E+02    0.203201E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.422365E+02    0.207709E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.435397E+02    0.219507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.436236E+02    0.236871E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.425877E+02    0.254320E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.407979E+02    0.266447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.386088E+02    0.270866E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.366163E+02    0.294449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138627E+03   -0.335607E+02    0.281381E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138934E+03   -0.322639E+02    0.255054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138831E+03   -0.327925E+02    0.224726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.349914E+02    0.198662E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.384293E+02    0.182328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136534E+03   -0.423792E+02    0.179386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.456259E+02    0.192267E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.473890E+02    0.216140E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.465877E+02    0.248700E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.440005E+02    0.277352E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.403256E+02    0.293911E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    685864.093799545     
  ps_ts2 prof sum =   685465.676961234     
  trcom prof sum =    685465.676961234     
  ps_ts2 cur sum  =   9932.56218585224     
  trcom cur sum  =    9932.56218585223     
  
  antenna # iant =            2
  powecha_use(iant) =    667868.898970628     
  ps_ts2 prof sum =   667444.922341613     
  trcom prof sum =    667444.922305690     
  ps_ts2 cur sum  =   11929.7028678211     
  trcom cur sum  =    11929.7028678211     
  
  antenna # iant =            3
  powecha_use(iant) =    518875.172032332     
  ps_ts2 prof sum =   518561.179130050     
  trcom prof sum =    518561.179130051     
  ps_ts2 cur sum  =   6437.53304293380     
  trcom cur sum  =    6437.53304293381     
  
  antenna # iant =            4
  powecha_use(iant) =    570075.946433763     
  ps_ts2 prof sum =   569746.222057402     
  trcom prof sum =    569746.222057402     
  ps_ts2 cur sum  =   9155.05248672480     
  trcom cur sum  =    9155.05248672478     
  
  antenna # iant =            5
  powecha_use(iant) =    553628.215570164     
  ps_ts2 prof sum =   553305.818857498     
  trcom prof sum =    553305.818826887     
  ps_ts2 cur sum  =   11053.4569348815     
  trcom cur sum  =    11053.4569348815     
  
  Total ECH heating:      2994523.81928126     
  Total Current Drive:    48508.3075182134     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4181
 TA= 4.44000E+00 CPU TIME= 1.65131E-01 SECONDS.  DT= 3.06703E-04
  
 TEC1=    4.43999999999993     
 TEC2=    4.44499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7750972222220     
  %check_save_state: izleft hours =    68.2163888888889     
 --> plasma_hash("gframe"): TA= 4.440000E+00 NSTEP=  4181 Hash code:   64519242
 ->PRGCHK: bdy curvature ratio at t= 4.4450E+00 seconds is:  5.6762E-02
% MHDEQ: TG1=     4.440000 ; TG2=     4.445000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1530E-03 SECONDS
   DATA R*BT AT EDGE:  2.7755E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6762E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.440000 TO TG2=    4.445000 @ NSTEP     4181
   GFRAME TG2 MOMENTS CHECKSUM:  2.4497826017843D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4450E+00  4.4500E+00 total power(Watts):  2.9999E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.44500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.383681E+02    0.382623E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.363527E+02    0.383983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.378027E+02    0.366844E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.400950E+02    0.371253E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.401024E+02    0.391021E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.377288E+02    0.398843E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.357787E+02    0.410303E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.344617E+02    0.397678E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.344074E+02    0.379980E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.353171E+02    0.363157E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.370670E+02    0.351112E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.391375E+02    0.347746E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.410909E+02    0.353554E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.423724E+02    0.367200E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.426494E+02    0.384661E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.416942E+02    0.401668E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.398842E+02    0.413222E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.376913E+02    0.416440E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137034E+03   -0.357606E+02    0.439896E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138132E+03   -0.327405E+02    0.423500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138511E+03   -0.313974E+02    0.396570E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138669E+03   -0.317892E+02    0.366740E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.339124E+02    0.340298E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137296E+03   -0.374486E+02    0.323567E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.411768E+02    0.323443E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.446228E+02    0.337518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134346E+03   -0.463446E+02    0.365470E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.458274E+02    0.398109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.430625E+02    0.426884E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.394648E+02    0.441747E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.392702E+02    0.296404E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.372487E+02    0.298374E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.386855E+02    0.281469E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.409897E+02    0.284933E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.409111E+02    0.304465E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.386465E+02    0.312304E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.366006E+02    0.324898E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137778E+03   -0.354600E+02    0.311794E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.352907E+02    0.295090E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137773E+03   -0.361868E+02    0.278629E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.379356E+02    0.266524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.401099E+02    0.262065E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.420780E+02    0.267084E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.433794E+02    0.279651E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.435656E+02    0.296748E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.425166E+02    0.314188E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.407181E+02    0.326122E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137064E+03   -0.385248E+02    0.330188E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.365190E+02    0.354435E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138322E+03   -0.335654E+02    0.339159E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138783E+03   -0.321929E+02    0.313041E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138824E+03   -0.326456E+02    0.283339E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138410E+03   -0.348521E+02    0.256496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.383914E+02    0.239234E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.422412E+02    0.237517E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.454861E+02    0.251245E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134884E+03   -0.471218E+02    0.277619E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.467636E+02    0.308089E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.441454E+02    0.336877E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.402221E+02    0.354741E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.384237E+02    0.438141E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.364016E+02    0.438979E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.378693E+02    0.421685E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.401655E+02    0.426875E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.400477E+02    0.447838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.377709E+02    0.454711E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.358090E+02    0.465613E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.345945E+02    0.452021E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.344560E+02    0.434295E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.352843E+02    0.417755E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.370389E+02    0.406272E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.391141E+02    0.403454E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135930E+03   -0.411778E+02    0.409222E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.424544E+02    0.423349E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135305E+03   -0.427175E+02    0.441681E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.417458E+02    0.458913E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.399223E+02    0.469855E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.377218E+02    0.472260E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.357725E+02    0.494770E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137907E+03   -0.327560E+02    0.477495E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138435E+03   -0.313403E+02    0.450851E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138301E+03   -0.318416E+02    0.419841E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.340822E+02    0.393609E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.374387E+02    0.379005E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.411720E+02    0.379793E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.445011E+02    0.395585E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.464448E+02    0.423206E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133980E+03   -0.458969E+02    0.456995E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.432183E+02    0.484055E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.394841E+02    0.497842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.387512E+02    0.341910E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.367330E+02    0.343649E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137124E+03   -0.381779E+02    0.326229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.404761E+02    0.330170E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.403836E+02    0.350691E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.381187E+02    0.358553E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.360700E+02    0.371095E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.349409E+02    0.357422E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.347817E+02    0.339902E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.356866E+02    0.322996E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.374314E+02    0.311098E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.395039E+02    0.307622E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.414638E+02    0.312856E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.427540E+02    0.325790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.430391E+02    0.343115E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.419792E+02    0.361217E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.401760E+02    0.373185E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.379858E+02    0.376821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.360692E+02    0.399787E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138296E+03   -0.330355E+02    0.384732E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138715E+03   -0.316828E+02    0.358008E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138722E+03   -0.321512E+02    0.327196E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.344570E+02    0.299931E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.377993E+02    0.284662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136420E+03   -0.416397E+02    0.283365E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.448718E+02    0.297563E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.467213E+02    0.323141E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.459876E+02    0.357145E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.435914E+02    0.384849E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.397748E+02    0.400833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.394540E+02    0.236138E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.373303E+02    0.239205E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.388595E+02    0.221643E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.411645E+02    0.224695E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.409949E+02    0.244637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.387355E+02    0.252738E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.366962E+02    0.265688E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.355477E+02    0.252803E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138315E+03   -0.352740E+02    0.237102E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138217E+03   -0.361615E+02    0.220931E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.380937E+02    0.207436E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.402730E+02    0.202879E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.422403E+02    0.207446E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.434461E+02    0.219982E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.436400E+02    0.236526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.426046E+02    0.253961E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136651E+03   -0.408144E+02    0.266076E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.386246E+02    0.270496E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137926E+03   -0.364331E+02    0.295553E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138617E+03   -0.335747E+02    0.281022E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138923E+03   -0.322769E+02    0.254726E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138820E+03   -0.328055E+02    0.224413E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138453E+03   -0.349999E+02    0.198377E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.385399E+02    0.181141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.423931E+02    0.179079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.455302E+02    0.192764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135125E+03   -0.471752E+02    0.217360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.466028E+02    0.248341E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.440227E+02    0.276925E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.403426E+02    0.293521E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.66 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    684822.029333335     
  ps_ts2 prof sum =   684434.023961653     
  trcom prof sum =    684434.023961653     
  ps_ts2 cur sum  =   9921.10308798224     
  trcom cur sum  =    9921.10308798223     
  
  antenna # iant =            2
  powecha_use(iant) =    668695.581044474     
  ps_ts2 prof sum =   668300.619744554     
  trcom prof sum =    668300.619744553     
  ps_ts2 cur sum  =   11951.1934332106     
  trcom cur sum  =    11951.1934332106     
  
  antenna # iant =            3
  powecha_use(iant) =    518122.881443388     
  ps_ts2 prof sum =   517827.749055685     
  trcom prof sum =    517827.749055685     
  ps_ts2 cur sum  =   6429.78326528918     
  trcom cur sum  =    6429.78326528919     
  
  antenna # iant =            4
  powecha_use(iant) =    574437.114312914     
  ps_ts2 prof sum =   574126.532806433     
  trcom prof sum =    574126.532806433     
  ps_ts2 cur sum  =   9229.90479230929     
  trcom cur sum  =    9229.90479230928     
  
  antenna # iant =            5
  powecha_use(iant) =    553835.543607862     
  ps_ts2 prof sum =   553512.455313795     
  trcom prof sum =    553512.455284292     
  ps_ts2 cur sum  =   11058.4142698942     
  trcom cur sum  =    11058.4142698942     
  
  Total ECH heating:      2998201.38085262     
  Total Current Drive:    48590.3988486856     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4189
 TA= 4.44500E+00 CPU TIME= 1.68644E-01 SECONDS.  DT= 4.71146E-04
  
 TEC1=    4.44499999999993     
 TEC2=    4.44999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.7908269444445     
  %check_save_state: izleft hours =    68.2008333333333     
 --> plasma_hash("gframe"): TA= 4.445000E+00 NSTEP=  4189 Hash code:  119007174
 ->PRGCHK: bdy curvature ratio at t= 4.4500E+00 seconds is:  5.6734E-02
% MHDEQ: TG1=     4.445000 ; TG2=     4.450000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7757E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6734E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.445000 TO TG2=    4.450000 @ NSTEP     4189
   GFRAME TG2 MOMENTS CHECKSUM:  2.4492014054248D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.60515E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.26326E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.69781E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.17269E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.27016E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.50775E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.35962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.04534E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.00497E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.20456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.52491E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.47230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.95581E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.60866E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.58696E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.18044E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.92606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.45050E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.43609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.43609E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  4.4500E+00  4.4550E+00 total power(Watts):  2.9955E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.45000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.383825E+02    0.382476E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137306E+03   -0.363667E+02    0.383835E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.378172E+02    0.366674E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136447E+03   -0.401103E+02    0.371089E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.400089E+02    0.391383E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.377432E+02    0.398674E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.357927E+02    0.410126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137892E+03   -0.344745E+02    0.397522E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137736E+03   -0.344212E+02    0.379830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.353315E+02    0.362984E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.369790E+02    0.351520E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.391526E+02    0.347514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.411069E+02    0.353334E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.423884E+02    0.367030E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.426653E+02    0.384512E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.417102E+02    0.401493E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.397907E+02    0.413501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.377057E+02    0.416257E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.355729E+02    0.440592E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138116E+03   -0.327531E+02    0.423333E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138490E+03   -0.314123E+02    0.396393E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138653E+03   -0.318013E+02    0.366580E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138355E+03   -0.339256E+02    0.340045E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.374630E+02    0.323268E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.411927E+02    0.323143E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.446400E+02    0.337238E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.463617E+02    0.365298E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.458448E+02    0.397933E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.430789E+02    0.426707E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.394799E+02    0.441613E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.392857E+02    0.296072E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.372636E+02    0.298036E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.387005E+02    0.281140E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.410060E+02    0.284596E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.409270E+02    0.304134E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.386620E+02    0.311979E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.366149E+02    0.324606E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.354745E+02    0.311478E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137893E+03   -0.353041E+02    0.294769E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.362006E+02    0.278304E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.379448E+02    0.266254E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.401252E+02    0.261767E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.420939E+02    0.266774E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.434025E+02    0.279284E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.435823E+02    0.296412E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.425332E+02    0.313870E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136511E+03   -0.407337E+02    0.325832E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.385398E+02    0.329902E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.365248E+02    0.354273E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.336730E+02    0.338237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138772E+03   -0.322052E+02    0.312740E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138813E+03   -0.326598E+02    0.283021E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138397E+03   -0.348653E+02    0.256223E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137415E+03   -0.384053E+02    0.238968E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.422568E+02    0.237246E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.455030E+02    0.250953E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.472580E+02    0.276568E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.467818E+02    0.307736E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.441623E+02    0.336600E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.402378E+02    0.354526E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.384384E+02    0.437992E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.364156E+02    0.438837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.378840E+02    0.421507E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.401809E+02    0.426703E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.400627E+02    0.447722E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.377854E+02    0.454594E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.358229E+02    0.465490E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.346079E+02    0.451905E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137841E+03   -0.342737E+02    0.435018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.352897E+02    0.417610E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.370533E+02    0.406098E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136573E+03   -0.391292E+02    0.403282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.411936E+02    0.409043E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.424706E+02    0.423170E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.427333E+02    0.441552E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.417618E+02    0.458795E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.399376E+02    0.469728E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136498E+03   -0.377365E+02    0.472132E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.357865E+02    0.494632E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.327703E+02    0.477359E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138418E+03   -0.313522E+02    0.450745E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.318540E+02    0.419668E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138122E+03   -0.339027E+02    0.394526E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.374531E+02    0.378853E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.411876E+02    0.379640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.445210E+02    0.395411E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.464624E+02    0.423018E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.459141E+02    0.456877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134890E+03   -0.432350E+02    0.483908E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.394995E+02    0.497702E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.387665E+02    0.341651E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.367475E+02    0.343400E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.381930E+02    0.325933E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.404917E+02    0.329883E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.403990E+02    0.350467E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.380291E+02    0.358963E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.360841E+02    0.370931E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.349545E+02    0.357234E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137784E+03   -0.347950E+02    0.339648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.355024E+02    0.324094E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137471E+03   -0.373446E+02    0.311481E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.395194E+02    0.307293E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.414798E+02    0.312531E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.427703E+02    0.325487E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.429423E+02    0.343468E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.419954E+02    0.361025E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136398E+03   -0.401913E+02    0.373023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136962E+03   -0.380004E+02    0.376666E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.360831E+02    0.399616E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138275E+03   -0.330505E+02    0.384577E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138700E+03   -0.316953E+02    0.357822E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138716E+03   -0.321618E+02    0.326931E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138442E+03   -0.342801E+02    0.301093E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.378141E+02    0.284333E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.416559E+02    0.283020E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135253E+03   -0.450045E+02    0.296527E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.467445E+02    0.322800E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.461239E+02    0.356378E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.436079E+02    0.384691E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.397902E+02    0.400661E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.393658E+02    0.236691E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137665E+03   -0.373442E+02    0.238940E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.388737E+02    0.221384E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.411835E+02    0.224415E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.410102E+02    0.244364E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.386485E+02    0.253258E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.367109E+02    0.265387E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.353693E+02    0.254162E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138302E+03   -0.352869E+02    0.236850E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138204E+03   -0.361742E+02    0.220678E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.381073E+02    0.207171E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.401854E+02    0.203468E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136474E+03   -0.422613E+02    0.207150E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.434616E+02    0.219718E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.436559E+02    0.236262E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.426212E+02    0.253673E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.407232E+02    0.266523E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.386393E+02    0.270180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137699E+03   -0.365467E+02    0.294485E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138606E+03   -0.335891E+02    0.280705E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138910E+03   -0.322892E+02    0.254461E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138800E+03   -0.328194E+02    0.224138E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138429E+03   -0.350162E+02    0.198091E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.385534E+02    0.180899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.424078E+02    0.178838E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.455463E+02    0.192503E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.471919E+02    0.217095E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.467362E+02    0.247308E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.440356E+02    0.276613E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.402517E+02    0.293902E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677382.643416344     
  ps_ts2 prof sum =   676983.643868771     
  trcom prof sum =    676983.643868771     
  ps_ts2 cur sum  =   9810.04013662003     
  trcom cur sum  =    9810.04013662002     
  
  antenna # iant =            2
  powecha_use(iant) =    668585.542343233     
  ps_ts2 prof sum =   668224.311796085     
  trcom prof sum =    668224.311796085     
  ps_ts2 cur sum  =   11955.6972695641     
  trcom cur sum  =    11955.6972695641     
  
  antenna # iant =            3
  powecha_use(iant) =    516403.580730398     
  ps_ts2 prof sum =   516096.024059924     
  trcom prof sum =    516096.024059924     
  ps_ts2 cur sum  =   6403.08702336885     
  trcom cur sum  =    6403.08702336885     
  
  antenna # iant =            4
  powecha_use(iant) =    579522.445538115     
  ps_ts2 prof sum =   579190.457944086     
  trcom prof sum =    579190.457944085     
  ps_ts2 cur sum  =   9313.43712041546     
  trcom cur sum  =    9313.43712041545     
  
  antenna # iant =            5
  powecha_use(iant) =    553562.877934669     
  ps_ts2 prof sum =   553240.564969479     
  trcom prof sum =    553240.564969479     
  ps_ts2 cur sum  =   11059.7681495316     
  trcom cur sum  =    11059.7681495316     
  
  Total ECH heating:      2993735.00263834     
  Total Current Drive:    48542.0296995000     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4195
 TA= 4.45000E+00 CPU TIME= 1.59356E-01 SECONDS.  DT= 1.41661E-03
  
 TEC1=    4.44999999999993     
 TEC2=    4.45499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    11.8058905555552     
  %check_save_state: izleft hours =    68.1855555555556     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  4.4500000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.626E+03 MB.

 --> plasma_hash("gframe"): TA= 4.450000E+00 NSTEP=  4195 Hash code:   63219498
 ->PRGCHK: bdy curvature ratio at t= 4.4550E+00 seconds is:  5.6706E-02
% MHDEQ: TG1=     4.450000 ; TG2=     4.455000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7758E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6706E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.450000 TO TG2=    4.455000 @ NSTEP     4195
   GFRAME TG2 MOMENTS CHECKSUM:  2.4486202090652D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4550E+00  4.4600E+00 total power(Watts):  2.9847E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.45500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.383995E+02    0.382320E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.363826E+02    0.383687E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.378336E+02    0.366498E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.401276E+02    0.370922E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136452E+03   -0.400263E+02    0.391223E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136860E+03   -0.377598E+02    0.398509E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.358110E+02    0.409939E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.345874E+02    0.396833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.344345E+02    0.379689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137978E+03   -0.351486E+02    0.364014E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.369945E+02    0.351300E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.391694E+02    0.347273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.411245E+02    0.353114E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.424066E+02    0.366850E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.425700E+02    0.384880E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.416160E+02    0.401803E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136391E+03   -0.398076E+02    0.413331E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.377221E+02    0.416090E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.356896E+02    0.440059E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137875E+03   -0.328621E+02    0.422698E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138702E+03   -0.313355E+02    0.396779E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138638E+03   -0.318153E+02    0.366407E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138343E+03   -0.339406E+02    0.339773E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.374792E+02    0.322945E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.412106E+02    0.322811E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.444240E+02    0.338183E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.463815E+02    0.365113E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134300E+03   -0.458644E+02    0.397762E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.430974E+02    0.426547E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.393890E+02    0.441889E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.20 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.393028E+02    0.295714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.372798E+02    0.297682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.387169E+02    0.280790E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.410235E+02    0.284243E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.409488E+02    0.303746E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.385748E+02    0.312334E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.366308E+02    0.324289E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138196E+03   -0.352949E+02    0.312568E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137882E+03   -0.353199E+02    0.294422E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.362219E+02    0.277938E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.379611E+02    0.265934E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.400367E+02    0.262229E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.421111E+02    0.266440E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.434106E+02    0.278986E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.436006E+02    0.296042E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.425510E+02    0.313515E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.407515E+02    0.325506E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.385578E+02    0.329587E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.365446E+02    0.354034E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138519E+03   -0.334989E+02    0.339298E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138761E+03   -0.322195E+02    0.312410E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138803E+03   -0.326739E+02    0.282694E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138385E+03   -0.348798E+02    0.255943E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.384208E+02    0.238705E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.422746E+02    0.236974E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.456345E+02    0.249909E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134660E+03   -0.472775E+02    0.276197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.465647E+02    0.308673E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.439510E+02    0.337540E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.402550E+02    0.354307E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.384541E+02    0.437882E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.364313E+02    0.438720E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.377952E+02    0.421796E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.400910E+02    0.426973E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136110E+03   -0.400790E+02    0.447622E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.378015E+02    0.454503E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136954E+03   -0.358383E+02    0.465394E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.346228E+02    0.451814E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.342883E+02    0.434885E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137370E+03   -0.353092E+02    0.417429E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.370695E+02    0.405927E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.391462E+02    0.403113E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.412114E+02    0.408864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.424888E+02    0.423003E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.428660E+02    0.441056E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135471E+03   -0.417793E+02    0.458704E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.398448E+02    0.469947E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.377525E+02    0.472030E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.358018E+02    0.494523E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.328793E+02    0.476927E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138402E+03   -0.313658E+02    0.450653E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138498E+03   -0.317760E+02    0.419992E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.339175E+02    0.394371E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.374694E+02    0.378704E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.412051E+02    0.379488E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.446476E+02    0.394796E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133906E+03   -0.464820E+02    0.422847E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133953E+03   -0.459333E+02    0.456786E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.433691E+02    0.483526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.395160E+02    0.497592E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.387831E+02    0.341388E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137344E+03   -0.367633E+02    0.343139E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137103E+03   -0.382090E+02    0.325617E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.405093E+02    0.329565E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.404166E+02    0.350233E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.380460E+02    0.358763E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.360999E+02    0.370766E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138101E+03   -0.347745E+02    0.358272E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.346165E+02    0.340695E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.355188E+02    0.323772E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.373610E+02    0.311140E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.395368E+02    0.306932E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.414974E+02    0.312179E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.427889E+02    0.325154E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.429608E+02    0.343198E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.420129E+02    0.360828E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.402086E+02    0.372861E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.380168E+02    0.376511E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.359981E+02    0.399966E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138260E+03   -0.330646E+02    0.384430E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138686E+03   -0.317092E+02    0.357623E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138699E+03   -0.321779E+02    0.326616E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138433E+03   -0.342956E+02    0.300745E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.378301E+02    0.283982E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.415648E+02    0.283405E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.450237E+02    0.296155E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.465267E+02    0.323700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.461436E+02    0.356160E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.433961E+02    0.385569E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.398074E+02    0.400494E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      11.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.393837E+02    0.236416E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.373592E+02    0.238684E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137254E+03   -0.388890E+02    0.221126E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.410950E+02    0.224962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.410277E+02    0.244090E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.386637E+02    0.252978E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.365294E+02    0.266652E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138341E+03   -0.353841E+02    0.253886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.353956E+02    0.235754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137977E+03   -0.362844E+02    0.219560E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137861E+03   -0.379250E+02    0.208637E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.402003E+02    0.203214E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.421715E+02    0.207719E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.434785E+02    0.219457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.436733E+02    0.235988E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.426376E+02    0.253380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.407402E+02    0.266204E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.385528E+02    0.270627E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.365628E+02    0.294138E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138596E+03   -0.336035E+02    0.280380E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138897E+03   -0.323026E+02    0.254192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138793E+03   -0.328307E+02    0.223905E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.351219E+02    0.196951E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.385680E+02    0.180663E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.424242E+02    0.178607E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.455638E+02    0.192241E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134896E+03   -0.473256E+02    0.216047E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.467544E+02    0.247014E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.439412E+02    0.276988E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.402692E+02    0.293549E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670599.874131652     
  ps_ts2 prof sum =   670213.828976691     
  trcom prof sum =    670213.828976691     
  ps_ts2 cur sum  =   9715.25903131125     
  trcom cur sum  =    9715.25903131124     
  
  antenna # iant =            2
  powecha_use(iant) =    668665.123972374     
  ps_ts2 prof sum =   668278.457931695     
  trcom prof sum =    668278.457931694     
  ps_ts2 cur sum  =   11964.6625484680     
  trcom cur sum  =    11964.6625484680     
  
  antenna # iant =            3
  powecha_use(iant) =    517722.359400423     
  ps_ts2 prof sum =   517441.478046033     
  trcom prof sum =    517441.478046033     
  ps_ts2 cur sum  =   6419.25360611048     
  trcom cur sum  =    6419.25360611049     
  
  antenna # iant =            4
  powecha_use(iant) =    574367.668024188     
  ps_ts2 prof sum =   574014.278320112     
  trcom prof sum =    574014.278320111     
  ps_ts2 cur sum  =   9235.92480633597     
  trcom cur sum  =    9235.92480633596     
  
  antenna # iant =            5
  powecha_use(iant) =    553358.448948940     
  ps_ts2 prof sum =   553058.419426785     
  trcom prof sum =    553058.419426785     
  ps_ts2 cur sum  =   11058.9890962905     
  trcom cur sum  =    11058.9890962905     
  
  Total ECH heating:      2983006.46270132     
  Total Current Drive:    48394.0890885162     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4198
 TA= 4.45500E+00 CPU TIME= 1.62089E-01 SECONDS.  DT= 2.26577E-03
  
 TEC1=    4.45499999999993     
 TEC2=    4.45999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.8242833333334     
  %check_save_state: izleft hours =    68.1672222222222     
 --> plasma_hash("gframe"): TA= 4.455000E+00 NSTEP=  4198 Hash code:   18879228
 ->PRGCHK: bdy curvature ratio at t= 4.4600E+00 seconds is:  5.6651E-02
% MHDEQ: TG1=     4.455000 ; TG2=     4.460000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7733E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6651E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.455000 TO TG2=    4.460000 @ NSTEP     4198
   GFRAME TG2 MOMENTS CHECKSUM:  2.4482302862679D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.65805E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.43923E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.06871E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.14144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.21839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.35462E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.43855E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -6.06302E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.77716E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.91329E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.61722E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.47233E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.80103E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.55139E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.58695E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.99119E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.62500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.45975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.19298E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.19298E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4600E+00  4.4650E+00 total power(Watts):  2.9803E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.46000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.385053E+02    0.381643E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.364847E+02    0.383004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.378345E+02    0.366350E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.401285E+02    0.370772E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.401360E+02    0.390569E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.377607E+02    0.398374E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.358065E+02    0.409829E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.344905E+02    0.397229E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137932E+03   -0.343397E+02    0.380120E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.353465E+02    0.362651E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.370976E+02    0.350484E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.391700E+02    0.347076E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.412353E+02    0.352324E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135713E+03   -0.425203E+02    0.366130E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.426847E+02    0.384219E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.417293E+02    0.401173E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.399179E+02    0.412718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.377231E+02    0.415950E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.357913E+02    0.439531E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.327682E+02    0.423046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138462E+03   -0.314268E+02    0.396115E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138626E+03   -0.318160E+02    0.366266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.341318E+02    0.338235E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.374799E+02    0.322696E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.413207E+02    0.321894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135303E+03   -0.445440E+02    0.337314E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.463824E+02    0.364942E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134287E+03   -0.458656E+02    0.397611E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.432138E+02    0.425981E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.394986E+02    0.441378E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.394079E+02    0.294714E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.373808E+02    0.296682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.388199E+02    0.279767E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.411313E+02    0.283228E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.410520E+02    0.302804E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.386792E+02    0.311377E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137299E+03   -0.367323E+02    0.323366E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137750E+03   -0.354900E+02    0.310890E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138092E+03   -0.352231E+02    0.294905E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.361168E+02    0.278499E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.379605E+02    0.265679E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.401412E+02    0.261199E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.421108E+02    0.266179E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.434144E+02    0.278668E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.436010E+02    0.295749E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.426636E+02    0.312567E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.407519E+02    0.325257E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136826E+03   -0.386580E+02    0.328717E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.366462E+02    0.353242E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138288E+03   -0.335937E+02    0.338423E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138753E+03   -0.322200E+02    0.312164E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138575E+03   -0.327640E+02    0.281663E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.348788E+02    0.255712E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.385200E+02    0.237672E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.422731E+02    0.236756E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.455202E+02    0.250402E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.473961E+02    0.275188E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134541E+03   -0.468028E+02    0.307065E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.440670E+02    0.336680E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136341E+03   -0.403642E+02    0.353525E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.384565E+02    0.437759E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136932E+03   -0.364320E+02    0.438610E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.379012E+02    0.421205E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.401959E+02    0.426418E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.401903E+02    0.447129E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.378027E+02    0.454384E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.358395E+02    0.465277E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.345254E+02    0.452093E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.344851E+02    0.433898E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137581E+03   -0.352106E+02    0.417771E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.370705E+02    0.405787E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.392546E+02    0.402478E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.412128E+02    0.408717E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.426038E+02    0.422436E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135263E+03   -0.427531E+02    0.441304E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.417839E+02    0.458574E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.399613E+02    0.469492E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.377538E+02    0.471910E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.358044E+02    0.494410E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.327856E+02    0.477138E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.314582E+02    0.450144E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138258E+03   -0.318691E+02    0.419370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.341113E+02    0.393166E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136964E+03   -0.374701E+02    0.378569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.413172E+02    0.378806E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134587E+03   -0.447728E+02    0.394136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133893E+03   -0.464835E+02    0.422693E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133722E+03   -0.460552E+02    0.456331E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.432550E+02    0.483661E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.396266E+02    0.497219E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.387839E+02    0.341167E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137334E+03   -0.367639E+02    0.342943E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.382095E+02    0.325374E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136527E+03   -0.405099E+02    0.329325E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.405261E+02    0.349425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.381510E+02    0.357993E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.362010E+02    0.370041E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.349703E+02    0.356867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137763E+03   -0.348117E+02    0.339173E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.357156E+02    0.322156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137237E+03   -0.374632E+02    0.310173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.395371E+02    0.306664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.416075E+02    0.311230E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.429025E+02    0.324245E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.430749E+02    0.342364E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.421262E+02    0.360078E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.402096E+02    0.372717E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.381221E+02    0.375812E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.360998E+02    0.399315E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138247E+03   -0.330652E+02    0.384305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138675E+03   -0.317096E+02    0.357459E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138690E+03   -0.321782E+02    0.326394E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.344857E+02    0.299008E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.379316E+02    0.282958E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.416739E+02    0.282387E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.449088E+02    0.296545E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.467656E+02    0.322178E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.462636E+02    0.355405E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.435123E+02    0.384913E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.398085E+02    0.400353E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.394787E+02    0.235422E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.372587E+02    0.239292E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.388869E+02    0.220929E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.411982E+02    0.223939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.411328E+02    0.243066E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.387648E+02    0.251945E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137636E+03   -0.367260E+02    0.264826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.355747E+02    0.252028E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138278E+03   -0.352996E+02    0.236389E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.363780E+02    0.218518E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.381205E+02    0.206727E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136895E+03   -0.403005E+02    0.202179E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.422753E+02    0.206695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136026E+03   -0.435861E+02    0.218438E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.436718E+02    0.235763E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.426367E+02    0.253133E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.408465E+02    0.265176E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.386551E+02    0.269591E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.366622E+02    0.293127E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138587E+03   -0.336033E+02    0.280125E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138887E+03   -0.323016E+02    0.253973E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138782E+03   -0.328285E+02    0.223720E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138403E+03   -0.350276E+02    0.197673E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.384679E+02    0.181401E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.424231E+02    0.178441E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.456721E+02    0.191251E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.474397E+02    0.215042E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.466373E+02    0.247509E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.440542E+02    0.275967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.403762E+02    0.292538E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669408.820106394     
  ps_ts2 prof sum =   669009.570432153     
  trcom prof sum =    669009.570432153     
  ps_ts2 cur sum  =   9683.86856515365     
  trcom cur sum  =    9683.86856515365     
  
  antenna # iant =            2
  powecha_use(iant) =    669373.155487549     
  ps_ts2 prof sum =   668971.837223491     
  trcom prof sum =    668971.837223490     
  ps_ts2 cur sum  =   11957.9404377749     
  trcom cur sum  =    11957.9404377749     
  
  antenna # iant =            3
  powecha_use(iant) =    517586.892877206     
  ps_ts2 prof sum =   517273.428910218     
  trcom prof sum =    517273.428910218     
  ps_ts2 cur sum  =   6408.58781990514     
  trcom cur sum  =    6408.58781990515     
  
  antenna # iant =            4
  powecha_use(iant) =    570337.479501449     
  ps_ts2 prof sum =   570021.086518883     
  trcom prof sum =    570021.086518883     
  ps_ts2 cur sum  =   9158.02190398395     
  trcom cur sum  =    9158.02190398394     
  
  antenna # iant =            5
  powecha_use(iant) =    553578.741329578     
  ps_ts2 prof sum =   553254.467565144     
  trcom prof sum =    553254.467565144     
  ps_ts2 cur sum  =   11041.8729912412     
  trcom cur sum  =    11041.8729912412     
  
  Total ECH heating:      2978530.39064989     
  Total Current Drive:    48250.2917180589     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4200
 TA= 4.46000E+00 CPU TIME= 1.58532E-01 SECONDS.  DT= 3.41778E-03
  
 TEC1=    4.45999999999993     
 TEC2=    4.46499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.8397522222222     
  %check_save_state: izleft hours =    68.1519444444444     
 --> plasma_hash("gframe"): TA= 4.460000E+00 NSTEP=  4200 Hash code:   25169453
 ->PRGCHK: bdy curvature ratio at t= 4.4650E+00 seconds is:  5.6600E-02
% MHDEQ: TG1=     4.460000 ; TG2=     4.465000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6600E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.460000 TO TG2=    4.465000 @ NSTEP     4200
   GFRAME TG2 MOMENTS CHECKSUM:  2.4478403634706D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4650E+00  4.4700E+00 total power(Watts):  2.9835E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.46500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.385056E+02    0.381501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.364847E+02    0.382865E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.379382E+02    0.365603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.402369E+02    0.370053E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.402451E+02    0.389903E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.378652E+02    0.397714E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.359100E+02    0.409177E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137404E+03   -0.346854E+02    0.396034E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.345335E+02    0.378841E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.354450E+02    0.361884E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.370967E+02    0.350297E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.392755E+02    0.346246E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.412351E+02    0.352122E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.425201E+02    0.365957E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.427984E+02    0.383546E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135552E+03   -0.418418E+02    0.400532E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.400272E+02    0.412099E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.378281E+02    0.415332E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.356911E+02    0.439814E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137849E+03   -0.328627E+02    0.422435E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.315176E+02    0.395434E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138390E+03   -0.319066E+02    0.365501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138102E+03   -0.340366E+02    0.338698E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.375812E+02    0.321773E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.413203E+02    0.321632E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.447756E+02    0.335840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.465019E+02    0.364214E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.459854E+02    0.396973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.432144E+02    0.425823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.396076E+02    0.440845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.394069E+02    0.294432E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.373798E+02    0.296409E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137012E+03   -0.388186E+02    0.279488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.411301E+02    0.282939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.410529E+02    0.302508E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.387823E+02    0.310419E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.367315E+02    0.323126E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137523E+03   -0.355872E+02    0.309912E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.354156E+02    0.293139E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137519E+03   -0.363125E+02    0.276673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137175E+03   -0.380599E+02    0.264638E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.402446E+02    0.260165E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.422183E+02    0.265141E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.435253E+02    0.277643E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.437131E+02    0.294753E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.426629E+02    0.312291E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.408602E+02    0.324342E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.386611E+02    0.328450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.366457E+02    0.353057E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137834E+03   -0.337819E+02    0.336876E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.323099E+02    0.311188E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138566E+03   -0.327627E+02    0.281405E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138148E+03   -0.349712E+02    0.254675E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.385175E+02    0.237455E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.423786E+02    0.235725E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.456325E+02    0.249389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.475133E+02    0.274164E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.469208E+02    0.306109E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.442982E+02    0.335196E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.403640E+02    0.353328E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.385590E+02    0.437207E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.365356E+02    0.438052E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.380066E+02    0.420602E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.403094E+02    0.425831E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.401910E+02    0.446995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.379087E+02    0.453886E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.359414E+02    0.464803E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.347230E+02    0.451194E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137573E+03   -0.343866E+02    0.434208E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.354101E+02    0.416674E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136682E+03   -0.371739E+02    0.405142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.392548E+02    0.402326E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.413246E+02    0.408090E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.426043E+02    0.422278E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135031E+03   -0.428685E+02    0.440776E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135229E+03   -0.418911E+02    0.458131E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.400659E+02    0.469056E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.378599E+02    0.471459E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.359025E+02    0.494002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.328811E+02    0.476693E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138147E+03   -0.314586E+02    0.450024E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.318693E+02    0.419231E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.340148E+02    0.393561E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.375732E+02    0.377866E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.413172E+02    0.378654E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.446557E+02    0.394463E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.466048E+02    0.422118E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133709E+03   -0.460561E+02    0.456185E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134629E+03   -0.433721E+02    0.483258E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.396279E+02    0.497085E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.388884E+02    0.340314E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137098E+03   -0.368661E+02    0.342083E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.383125E+02    0.324462E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.406178E+02    0.328431E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.405257E+02    0.349222E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.382552E+02    0.357209E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.362004E+02    0.369897E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137414E+03   -0.350676E+02    0.356068E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137532E+03   -0.349077E+02    0.338300E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.358134E+02    0.321221E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.375639E+02    0.309202E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.396420E+02    0.305688E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.416069E+02    0.310960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135830E+03   -0.429016E+02    0.323991E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.431881E+02    0.341526E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.421261E+02    0.359894E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.403204E+02    0.371990E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.381220E+02    0.375664E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.362008E+02    0.398656E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138010E+03   -0.331601E+02    0.383603E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138440E+03   -0.318001E+02    0.356654E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.322684E+02    0.325466E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.343896E+02    0.299482E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.379305E+02    0.282678E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.417817E+02    0.281363E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.450233E+02    0.295552E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134241E+03   -0.468844E+02    0.321264E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134133E+03   -0.463826E+02    0.354637E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.437429E+02    0.383729E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.399172E+02    0.399705E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137003E+03   -0.394798E+02    0.235180E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.374540E+02    0.237420E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137019E+03   -0.389849E+02    0.219875E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.413004E+02    0.222897E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.411305E+02    0.242835E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.388649E+02    0.250908E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.368229E+02    0.263782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.354763E+02    0.252626E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.354864E+02    0.234492E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.362804E+02    0.219158E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.382161E+02    0.205658E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.402975E+02    0.201957E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.423784E+02    0.205639E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136015E+03   -0.435827E+02    0.218213E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.437798E+02    0.234739E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.427442E+02    0.252110E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.408446E+02    0.264907E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.387561E+02    0.268551E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.366609E+02    0.292859E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138360E+03   -0.336943E+02    0.279087E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138659E+03   -0.323884E+02    0.252921E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138555E+03   -0.329154E+02    0.222640E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138178E+03   -0.351172E+02    0.196576E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.386602E+02    0.179439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.425178E+02    0.177437E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.456683E+02    0.191030E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134867E+03   -0.473242E+02    0.215574E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.467513E+02    0.246496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.441659E+02    0.274940E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.404823E+02    0.291527E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    671187.308622242     
  ps_ts2 prof sum =   670803.715456215     
  trcom prof sum =    670803.715456215     
  ps_ts2 cur sum  =   9693.28521121150     
  trcom cur sum  =    9693.28521121149     
  
  antenna # iant =            2
  powecha_use(iant) =    669386.241004013     
  ps_ts2 prof sum =   669015.645683787     
  trcom prof sum =    669015.645646337     
  ps_ts2 cur sum  =   11935.1373515353     
  trcom cur sum  =    11935.1373515353     
  
  antenna # iant =            3
  powecha_use(iant) =    516208.964838648     
  ps_ts2 prof sum =   515883.135243322     
  trcom prof sum =    515883.135243323     
  ps_ts2 cur sum  =   6380.58081661355     
  trcom cur sum  =    6380.58081661356     
  
  antenna # iant =            4
  powecha_use(iant) =    574065.655538289     
  ps_ts2 prof sum =   573753.383606278     
  trcom prof sum =    573753.383606277     
  ps_ts2 cur sum  =   9200.90943170664     
  trcom cur sum  =    9200.90943170663     
  
  antenna # iant =            5
  powecha_use(iant) =    552613.241128656     
  ps_ts2 prof sum =   552296.253578149     
  trcom prof sum =    552296.253546997     
  ps_ts2 cur sum  =   10999.6301418483     
  trcom cur sum  =    10999.6301418483     
  
  Total ECH heating:      2981752.13349915     
  Total Current Drive:    48209.5429529153     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4202
 TA= 4.46500E+00 CPU TIME= 1.60773E-01 SECONDS.  DT= 1.97777E-03
  
 TEC1=    4.46499999999993     
 TEC2=    4.46999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.8570227777777     
  %check_save_state: izleft hours =    68.1344444444444     
 --> plasma_hash("gframe"): TA= 4.465000E+00 NSTEP=  4202 Hash code:    5294081
 ->PRGCHK: bdy curvature ratio at t= 4.4700E+00 seconds is:  5.6553E-02
% MHDEQ: TG1=     4.465000 ; TG2=     4.470000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1150E-03 SECONDS
   DATA R*BT AT EDGE:  2.7683E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6553E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.465000 TO TG2=    4.470000 @ NSTEP     4202
   GFRAME TG2 MOMENTS CHECKSUM:  2.4474504406733D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.74137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.82072E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.81024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.08747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.04904E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.58583E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.83981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.42245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.49570E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.76917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.38332E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.51253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.44396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -2.04369E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.63165E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.18673E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.68572E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.70567E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.70567E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.4700E+00  4.4750E+00 total power(Watts):  2.9834E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.47000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.386094E+02    0.380795E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.365843E+02    0.382158E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.380404E+02    0.364835E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.403490E+02    0.369295E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.402436E+02    0.389742E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.379683E+02    0.397045E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.360096E+02    0.408529E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.347819E+02    0.395354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.344349E+02    0.379263E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137500E+03   -0.353445E+02    0.362315E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136887E+03   -0.371967E+02    0.349463E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.393797E+02    0.345397E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.413433E+02    0.351307E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.426312E+02    0.365203E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.429105E+02    0.382859E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.419528E+02    0.399878E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.400260E+02    0.411934E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.379317E+02    0.414697E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.358917E+02    0.438838E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137837E+03   -0.328617E+02    0.422287E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138211E+03   -0.315163E+02    0.395290E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138154E+03   -0.319962E+02    0.364721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137871E+03   -0.341298E+02    0.337803E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.376808E+02    0.320826E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.414275E+02    0.320677E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.448895E+02    0.334965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.466196E+02    0.363468E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133831E+03   -0.461033E+02    0.396323E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.433287E+02    0.425235E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.396067E+02    0.440695E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.395090E+02    0.293391E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.374783E+02    0.295367E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.389187E+02    0.278419E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.412349E+02    0.281877E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.411586E+02    0.301497E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.387799E+02    0.310123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.368295E+02    0.322174E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137732E+03   -0.354868E+02    0.310354E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137858E+03   -0.353165E+02    0.293589E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.364075E+02    0.275595E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.381574E+02    0.263561E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.403458E+02    0.259092E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.423237E+02    0.264068E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.436340E+02    0.276576E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.438233E+02    0.293716E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135739E+03   -0.427727E+02    0.311305E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.409666E+02    0.323404E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.387634E+02    0.327522E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.367447E+02    0.352237E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.336864E+02    0.337313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138293E+03   -0.323981E+02    0.310189E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.328513E+02    0.280326E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.351569E+02    0.252769E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.386195E+02    0.236340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.424807E+02    0.234665E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.457424E+02    0.248330E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.473913E+02    0.274516E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.470372E+02    0.305110E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.444053E+02    0.334336E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.404706E+02    0.352516E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136001E+03   -0.386676E+02    0.436653E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.366369E+02    0.437489E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.380055E+02    0.420442E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.403084E+02    0.425668E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.403005E+02    0.446465E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.380133E+02    0.453373E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.360420E+02    0.464312E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.348208E+02    0.450664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.344836E+02    0.433627E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.355087E+02    0.416040E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.371727E+02    0.404984E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.393609E+02    0.401669E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.414347E+02    0.407451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.427173E+02    0.421678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.429824E+02    0.440234E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.420072E+02    0.457606E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.401700E+02    0.468590E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.379648E+02    0.470991E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.360064E+02    0.493604E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137603E+03   -0.328808E+02    0.476553E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137904E+03   -0.315493E+02    0.449488E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138006E+03   -0.319604E+02    0.418598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.341098E+02    0.392882E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.375716E+02    0.377708E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.414259E+02    0.377951E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.447716E+02    0.393804E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133424E+03   -0.467308E+02    0.421517E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133478E+03   -0.461758E+02    0.455693E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134396E+03   -0.434879E+02    0.482824E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.397369E+02    0.496688E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.389916E+02    0.339438E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.369611E+02    0.341230E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.384199E+02    0.323478E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.407239E+02    0.327505E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.406326E+02    0.348390E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136625E+03   -0.382533E+02    0.357016E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.362992E+02    0.369146E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.349721E+02    0.356487E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137742E+03   -0.348086E+02    0.338733E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.357127E+02    0.321650E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137002E+03   -0.375614E+02    0.308912E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.397451E+02    0.304687E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.417140E+02    0.309973E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135607E+03   -0.430119E+02    0.323052E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.431859E+02    0.341285E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.422362E+02    0.359116E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.404211E+02    0.371285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.382248E+02    0.374942E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136901E+03   -0.361995E+02    0.398499E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.333474E+02    0.382323E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.318891E+02    0.355837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.323575E+02    0.324513E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.344821E+02    0.298453E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.380289E+02    0.281614E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.417785E+02    0.281030E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.451358E+02    0.294518E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.470011E+02    0.320322E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.462614E+02    0.354975E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.438567E+02    0.383041E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.400246E+02    0.399042E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.395775E+02    0.234111E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.375481E+02    0.236343E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.390804E+02    0.218799E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.412950E+02    0.222645E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.412320E+02    0.241766E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.388606E+02    0.250634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.367212E+02    0.264279E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.355682E+02    0.251545E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137610E+03   -0.355765E+02    0.233419E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.364656E+02    0.217212E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.381111E+02    0.206300E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.403937E+02    0.200892E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.423721E+02    0.205412E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.436861E+02    0.217157E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.438852E+02    0.233684E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.428494E+02    0.251044E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.409474E+02    0.263834E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.387525E+02    0.268248E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.367576E+02    0.291807E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138134E+03   -0.337847E+02    0.278006E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138432E+03   -0.324741E+02    0.251830E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138545E+03   -0.329104E+02    0.222422E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138166E+03   -0.351110E+02    0.196382E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.387516E+02    0.178379E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.426202E+02    0.176361E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.457726E+02    0.189987E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.474262E+02    0.214573E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.469794E+02    0.244684E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.443886E+02    0.273141E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.404793E+02    0.291206E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670656.767736118     
  ps_ts2 prof sum =   670261.153216075     
  trcom prof sum =    670261.153216075     
  ps_ts2 cur sum  =   9665.14723308500     
  trcom cur sum  =    9665.14723308500     
  
  antenna # iant =            2
  powecha_use(iant) =    672168.433136021     
  ps_ts2 prof sum =   671772.596157898     
  trcom prof sum =    671772.596157898     
  ps_ts2 cur sum  =   11958.7470767346     
  trcom cur sum  =    11958.7470767345     
  
  antenna # iant =            3
  powecha_use(iant) =    516145.417873762     
  ps_ts2 prof sum =   515836.255219043     
  trcom prof sum =    515836.255219044     
  ps_ts2 cur sum  =   6366.64324694267     
  trcom cur sum  =    6366.64324694268     
  
  antenna # iant =            4
  powecha_use(iant) =    572303.907008955     
  ps_ts2 prof sum =   571961.916089040     
  trcom prof sum =    571961.916089039     
  ps_ts2 cur sum  =   9153.93137476428     
  trcom cur sum  =    9153.93137476427     
  
  antenna # iant =            5
  powecha_use(iant) =    552107.049343386     
  ps_ts2 prof sum =   551776.375754622     
  trcom prof sum =    551776.375754622     
  ps_ts2 cur sum  =   10960.1015276682     
  trcom cur sum  =    10960.1015276682     
  
  Total ECH heating:      2981608.29643668     
  Total Current Drive:    48104.5704591947     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4205
 TA= 4.47000E+00 CPU TIME= 1.60297E-01 SECONDS.  DT= 6.87524E-04
  
 TEC1=    4.46999999999993     
 TEC2=    4.47499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.8717441666665     
  %check_save_state: izleft hours =    68.1197222222222     
 --> plasma_hash("gframe"): TA= 4.470000E+00 NSTEP=  4205 Hash code:   34200137
 ->PRGCHK: bdy curvature ratio at t= 4.4750E+00 seconds is:  5.6510E-02
% MHDEQ: TG1=     4.470000 ; TG2=     4.475000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7658E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6510E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.470000 TO TG2=    4.475000 @ NSTEP     4205
   GFRAME TG2 MOMENTS CHECKSUM:  2.4470605178760D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4750E+00  4.4800E+00 total power(Watts):  2.9787E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.47500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.387131E+02    0.380105E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.366839E+02    0.381471E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136520E+03   -0.380386E+02    0.364675E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.403415E+02    0.369154E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.403510E+02    0.389079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.379668E+02    0.396901E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.360083E+02    0.408384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.346827E+02    0.395748E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137447E+03   -0.345302E+02    0.378560E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.355406E+02    0.360935E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.372968E+02    0.348647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.393783E+02    0.345193E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.414516E+02    0.350511E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.427426E+02    0.364466E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.429090E+02    0.382707E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135308E+03   -0.419515E+02    0.399730E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.401336E+02    0.411312E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.379305E+02    0.414547E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.359915E+02    0.438279E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137597E+03   -0.329551E+02    0.421673E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.316060E+02    0.394605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138142E+03   -0.319945E+02    0.364575E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.343186E+02    0.336254E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.376786E+02    0.320569E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.415349E+02    0.319750E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.450034E+02    0.334099E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133634E+03   -0.467374E+02    0.362734E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133603E+03   -0.462212E+02    0.395685E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.434428E+02    0.424654E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.397142E+02    0.440152E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.396118E+02    0.292364E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.375766E+02    0.294351E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.390192E+02    0.277382E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.413401E+02    0.280842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.412647E+02    0.300502E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.388819E+02    0.309142E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.369279E+02    0.321242E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.355822E+02    0.309373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.354108E+02    0.292564E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.363065E+02    0.276103E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.382552E+02    0.262519E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.403424E+02    0.258833E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.424295E+02    0.263040E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.437431E+02    0.275547E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.439343E+02    0.292704E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.428822E+02    0.310342E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.410732E+02    0.322483E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.388660E+02    0.326614E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.368436E+02    0.351431E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.337788E+02    0.336429E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138282E+03   -0.323980E+02    0.309925E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138112E+03   -0.329398E+02    0.279278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.352482E+02    0.251716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136720E+03   -0.387102E+02    0.235345E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.424765E+02    0.234437E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.459676E+02    0.246549E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134002E+03   -0.476257E+02    0.272777E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.471468E+02    0.304174E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.442925E+02    0.334693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135873E+03   -0.405772E+02    0.351723E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.386677E+02    0.436493E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136445E+03   -0.366359E+02    0.437344E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.381093E+02    0.419836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.404169E+02    0.425080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.404095E+02    0.445940E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.380125E+02    0.453227E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.360414E+02    0.464169E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.347214E+02    0.450912E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.346785E+02    0.432615E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.354079E+02    0.416370E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.372744E+02    0.404342E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.394670E+02    0.401025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.414334E+02    0.407297E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.428303E+02    0.421086E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134785E+03   -0.429814E+02    0.440078E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.420064E+02    0.457451E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.401750E+02    0.468434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.379638E+02    0.470846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.360071E+02    0.493452E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.329753E+02    0.476091E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137662E+03   -0.316400E+02    0.448952E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.320515E+02    0.417979E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.343014E+02    0.391664E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.376736E+02    0.377006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.415357E+02    0.377262E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.450048E+02    0.392672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133208E+03   -0.468439E+02    0.420941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133248E+03   -0.462954E+02    0.455195E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133942E+03   -0.437196E+02    0.482126E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.398458E+02    0.496289E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.389896E+02    0.339219E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.369615E+02    0.341004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.384123E+02    0.323268E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.407217E+02    0.327256E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.407394E+02    0.347578E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.383554E+02    0.356231E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.363980E+02    0.368411E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.351609E+02    0.355096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.350007E+02    0.337191E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137147E+03   -0.359073E+02    0.320015E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.376608E+02    0.307928E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.398486E+02    0.303698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.418216E+02    0.309001E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.431224E+02    0.322127E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.433000E+02    0.340431E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.423463E+02    0.358356E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.404235E+02    0.371113E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.383278E+02    0.374234E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.362990E+02    0.397842E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.332508E+02    0.382766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.318872E+02    0.355679E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.323554E+02    0.324281E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137743E+03   -0.345748E+02    0.297436E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.381278E+02    0.280578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.418846E+02    0.279997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.453642E+02    0.292816E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133801E+03   -0.471181E+02    0.319403E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.464977E+02    0.353642E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.437397E+02    0.383408E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.400231E+02    0.398894E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136556E+03   -0.396761E+02    0.233072E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.376428E+02    0.235305E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.390759E+02    0.218582E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.413958E+02    0.221611E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136150E+03   -0.413344E+02    0.240735E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.389591E+02    0.249599E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.368116E+02    0.263278E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.357561E+02    0.249675E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.354782E+02    0.234046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.365577E+02    0.216145E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.383032E+02    0.204366E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.404913E+02    0.199823E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.424737E+02    0.204354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135573E+03   -0.437908E+02    0.216119E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.439915E+02    0.232659E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.429553E+02    0.250016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.410509E+02    0.262798E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.388521E+02    0.267206E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137006E+03   -0.368546E+02    0.290780E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.339680E+02    0.276169E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.324708E+02    0.251615E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.329950E+02    0.221345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137941E+03   -0.351985E+02    0.195288E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.388443E+02    0.177304E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.426145E+02    0.176173E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.458782E+02    0.188948E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134228E+03   -0.476556E+02    0.212726E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134276E+03   -0.470909E+02    0.243673E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135334E+03   -0.442724E+02    0.273573E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.405836E+02    0.290184E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    671365.830629097     
  ps_ts2 prof sum =   670962.167718118     
  trcom prof sum =    670962.167718118     
  ps_ts2 cur sum  =   9653.59747315805     
  trcom cur sum  =    9653.59747315804     
  
  antenna # iant =            2
  powecha_use(iant) =    668840.786605513     
  ps_ts2 prof sum =   668448.993163906     
  trcom prof sum =    668448.993163905     
  ps_ts2 cur sum  =   11876.2719630107     
  trcom cur sum  =    11876.2719630107     
  
  antenna # iant =            3
  powecha_use(iant) =    517638.487822774     
  ps_ts2 prof sum =   517325.760726620     
  trcom prof sum =    517325.760726621     
  ps_ts2 cur sum  =   6371.24918786718     
  trcom cur sum  =    6371.24918786719     
  
  antenna # iant =            4
  powecha_use(iant) =    569313.342044021     
  ps_ts2 prof sum =   568979.695435815     
  trcom prof sum =    568979.695435815     
  ps_ts2 cur sum  =   9087.72555742675     
  trcom cur sum  =    9087.72555742674     
  
  antenna # iant =            5
  powecha_use(iant) =    551548.596566655     
  ps_ts2 prof sum =   551244.328564442     
  trcom prof sum =    551244.328564442     
  ps_ts2 cur sum  =   10924.9113882736     
  trcom cur sum  =    10924.9113882736     
  
  Total ECH heating:      2976960.94560890     
  Total Current Drive:    47913.7555697362     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4210
 TA= 4.47500E+00 CPU TIME= 1.59565E-01 SECONDS.  DT= 1.29499E-03
  
 TEC1=    4.47499999999993     
 TEC2=    4.47999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.8862894444444     
  %check_save_state: izleft hours =    68.1052777777778     
 --> plasma_hash("gframe"): TA= 4.475000E+00 NSTEP=  4210 Hash code:   95360414
 ->PRGCHK: bdy curvature ratio at t= 4.4800E+00 seconds is:  5.6470E-02
% MHDEQ: TG1=     4.475000 ; TG2=     4.480000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2820E-03 SECONDS
   DATA R*BT AT EDGE:  2.7633E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6470E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.475000 TO TG2=    4.480000 @ NSTEP     4210
   GFRAME TG2 MOMENTS CHECKSUM:  2.4466705950787D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.83384E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.24407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.02757E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.70993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.74929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.67007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.36361E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.03229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.23014E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.28453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.19236E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.32474E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       8= -1.44081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.23265E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.82982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  4.93649E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.28484E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.28484E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4800E+00  4.4850E+00 total power(Watts):  2.9936E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.48000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.387181E+02    0.379947E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.366847E+02    0.381331E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.381427E+02    0.363940E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.404444E+02    0.368454E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.404609E+02    0.388414E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.380720E+02    0.396246E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.361094E+02    0.407753E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.348788E+02    0.394545E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.347249E+02    0.377280E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.356394E+02    0.360171E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.372972E+02    0.348474E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.394847E+02    0.344387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.414517E+02    0.350340E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.428560E+02    0.363743E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.430233E+02    0.382044E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.420645E+02    0.399091E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.402434E+02    0.410701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.380358E+02    0.413942E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.358914E+02    0.438577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.329611E+02    0.421525E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.316064E+02    0.394475E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137906E+03   -0.320860E+02    0.363816E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.342231E+02    0.336740E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.377808E+02    0.319669E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.416446E+02    0.318857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.448875E+02    0.334510E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133622E+03   -0.467379E+02    0.362566E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133591E+03   -0.462221E+02    0.395528E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134194E+03   -0.436745E+02    0.423671E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.398235E+02    0.439628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.396116E+02    0.292115E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.375762E+02    0.294110E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.390190E+02    0.277129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.414477E+02    0.279845E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135747E+03   -0.413731E+02    0.299547E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.389868E+02    0.308207E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.369278E+02    0.321031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.357773E+02    0.307707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.356038E+02    0.290819E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.365022E+02    0.274312E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.382544E+02    0.262289E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.404468E+02    0.257824E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.424293E+02    0.262795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.437427E+02    0.275284E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.439342E+02    0.292440E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.429941E+02    0.309416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.410732E+02    0.322264E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.388660E+02    0.326405E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.368447E+02    0.351259E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.339679E+02    0.334898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.324842E+02    0.309010E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.329392E+02    0.279047E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137686E+03   -0.351523E+02    0.252335E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136708E+03   -0.387090E+02    0.235154E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.425831E+02    0.233437E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.458518E+02    0.247082E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133786E+03   -0.477440E+02    0.271778E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133877E+03   -0.471536E+02    0.303871E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134764E+03   -0.444080E+02    0.333855E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.406860E+02    0.350950E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.387749E+02    0.435955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.367389E+02    0.436804E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.382151E+02    0.419244E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.405274E+02    0.424511E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.405203E+02    0.445439E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.381187E+02    0.452733E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.361436E+02    0.463705E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.349193E+02    0.450018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137083E+03   -0.345811E+02    0.432928E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.356078E+02    0.415283E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.373782E+02    0.403704E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.394677E+02    0.400881E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.415455E+02    0.406677E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.428312E+02    0.420942E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.430972E+02    0.439564E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.421206E+02    0.456981E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.402858E+02    0.467992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.380701E+02    0.470405E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.361095E+02    0.493075E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136890E+03   -0.331654E+02    0.475336E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.316406E+02    0.448840E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137754E+03   -0.320521E+02    0.417851E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.342053E+02    0.392071E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.377772E+02    0.376308E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.415358E+02    0.377118E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133889E+03   -0.451230E+02    0.392027E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133209E+03   -0.468387E+02    0.420799E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133018E+03   -0.464170E+02    0.454731E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134149E+03   -0.436047E+02    0.482279E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.398472E+02    0.496173E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.390951E+02    0.338388E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.370629E+02    0.340175E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.385106E+02    0.322415E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.408302E+02    0.326387E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.407394E+02    0.347401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.384603E+02    0.355472E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136710E+03   -0.363982E+02    0.368269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.352591E+02    0.354313E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.350978E+02    0.336339E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.360057E+02    0.319109E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.377624E+02    0.306985E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.398483E+02    0.303457E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.419321E+02    0.308070E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.432352E+02    0.321247E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135040E+03   -0.434081E+02    0.339635E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.423462E+02    0.358201E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.405326E+02    0.370410E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.383279E+02    0.374084E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.364007E+02    0.397185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.333455E+02    0.382068E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.319781E+02    0.354890E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.324465E+02    0.323377E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.345745E+02    0.297204E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.381276E+02    0.280329E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.419933E+02    0.279009E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134784E+03   -0.452486E+02    0.293242E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.471183E+02    0.319162E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.466174E+02    0.352893E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.438556E+02    0.382747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.401324E+02    0.398251E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.397773E+02    0.232061E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.376413E+02    0.235118E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.391747E+02    0.217559E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.414994E+02    0.220601E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.414392E+02    0.239737E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.390601E+02    0.248589E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136952E+03   -0.370114E+02    0.261432E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.356591E+02    0.250297E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.356657E+02    0.232175E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.364599E+02    0.216832E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136740E+03   -0.384004E+02    0.203325E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.405950E+02    0.198772E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.425776E+02    0.203344E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.438983E+02    0.215116E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.439896E+02    0.232461E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.429541E+02    0.249790E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.411570E+02    0.261784E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.389541E+02    0.266193E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.367546E+02    0.291286E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137897E+03   -0.338727E+02    0.276732E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.325587E+02    0.250584E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138090E+03   -0.330824E+02    0.220296E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.352886E+02    0.194234E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.388420E+02    0.177157E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.427166E+02    0.175155E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.459871E+02    0.187951E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134009E+03   -0.477692E+02    0.211740E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.472061E+02    0.242696E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.443850E+02    0.272578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.406902E+02    0.289205E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678533.069699661     
  ps_ts2 prof sum =   678128.759888271     
  trcom prof sum =    678128.759888271     
  ps_ts2 cur sum  =   9741.67429499461     
  trcom cur sum  =    9741.67429499462     
  
  antenna # iant =            2
  powecha_use(iant) =    671777.899879620     
  ps_ts2 prof sum =   671388.194282827     
  trcom prof sum =    671388.194282826     
  ps_ts2 cur sum  =   11907.6919108378     
  trcom cur sum  =    11907.6919108378     
  
  antenna # iant =            3
  powecha_use(iant) =    515440.729377156     
  ps_ts2 prof sum =   515133.448986997     
  trcom prof sum =    515133.448986997     
  ps_ts2 cur sum  =   6333.74011221007     
  trcom cur sum  =    6333.74011221008     
  
  antenna # iant =            4
  powecha_use(iant) =    573810.629515667     
  ps_ts2 prof sum =   573481.806260572     
  trcom prof sum =    573481.806260572     
  ps_ts2 cur sum  =   9144.39829962854     
  trcom cur sum  =    9144.39829962853     
  
  antenna # iant =            5
  powecha_use(iant) =    554070.084255946     
  ps_ts2 prof sum =   553763.902140795     
  trcom prof sum =    553763.902140795     
  ps_ts2 cur sum  =   10953.6227244866     
  trcom cur sum  =    10953.6227244866     
  
  Total ECH heating:      2991896.11155946     
  Total Current Drive:    48081.1273421576     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4214
 TA= 4.48000E+00 CPU TIME= 1.59440E-01 SECONDS.  DT= 7.85542E-05
  
 TEC1=    4.47999999999993     
 TEC2=    4.48499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9009033333330     
  %check_save_state: izleft hours =    68.0905555555556     
 --> plasma_hash("gframe"): TA= 4.480000E+00 NSTEP=  4214 Hash code:   83312711
 ->PRGCHK: bdy curvature ratio at t= 4.4850E+00 seconds is:  5.6434E-02
% MHDEQ: TG1=     4.480000 ; TG2=     4.485000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0780E-03 SECONDS
   DATA R*BT AT EDGE:  2.7608E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6434E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.480000 TO TG2=    4.485000 @ NSTEP     4214
   GFRAME TG2 MOMENTS CHECKSUM:  2.4462806722814D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4850E+00  4.4900E+00 total power(Watts):  2.9950E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.48500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135888E+03   -0.388176E+02    0.379236E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136330E+03   -0.367856E+02    0.380595E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.382465E+02    0.363176E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.405594E+02    0.367690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.404608E+02    0.388224E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.381765E+02    0.395555E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.360087E+02    0.408089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.349763E+02    0.393841E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.346275E+02    0.377675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.356391E+02    0.360002E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.373988E+02    0.347687E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.395905E+02    0.343600E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.415617E+02    0.349567E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.428558E+02    0.363556E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.431371E+02    0.381320E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.421768E+02    0.398416E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.402432E+02    0.410540E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.381404E+02    0.413320E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.360929E+02    0.437619E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.330503E+02    0.420938E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.316967E+02    0.393757E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.321773E+02    0.363028E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.343182E+02    0.335915E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.378834E+02    0.318827E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.416439E+02    0.318700E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134185E+03   -0.451193E+02    0.333113E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133397E+03   -0.468576E+02    0.361822E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133365E+03   -0.463416E+02    0.394851E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134398E+03   -0.435591E+02    0.423943E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.398234E+02    0.439505E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.397156E+02    0.291184E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.376770E+02    0.293180E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.391214E+02    0.276145E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135781E+03   -0.414468E+02    0.279625E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.413730E+02    0.299356E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136296E+03   -0.389861E+02    0.308036E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.370285E+02    0.320186E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137265E+03   -0.356787E+02    0.308269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.355060E+02    0.291378E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.365993E+02    0.273314E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.383545E+02    0.261274E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.405510E+02    0.256806E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.425374E+02    0.261795E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.438541E+02    0.274319E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.440465E+02    0.291525E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.429934E+02    0.309246E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.411813E+02    0.321447E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.389700E+02    0.325591E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.369455E+02    0.350475E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137570E+03   -0.338728E+02    0.335428E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.325780E+02    0.308092E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137873E+03   -0.330275E+02    0.278054E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.353404E+02    0.250483E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.388083E+02    0.234121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.426896E+02    0.232417E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.459648E+02    0.246085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.478617E+02    0.270810E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133656E+03   -0.472719E+02    0.303014E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.446380E+02    0.332449E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.406862E+02    0.350774E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.388812E+02    0.435417E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.368410E+02    0.436267E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.382149E+02    0.419101E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.405273E+02    0.424371E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.405203E+02    0.445311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.382240E+02    0.452236E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.362449E+02    0.463238E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.348207E+02    0.450286E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.347769E+02    0.431935E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.357073E+02    0.414661E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.373779E+02    0.403539E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.395749E+02    0.400203E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.416569E+02    0.406032E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.429453E+02    0.420361E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.432120E+02    0.439048E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.422335E+02    0.456510E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.402858E+02    0.467858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.381755E+02    0.469961E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.360085E+02    0.493228E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137106E+03   -0.330706E+02    0.475548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.317322E+02    0.448317E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.321441E+02    0.417227E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136912E+03   -0.343982E+02    0.390807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.377770E+02    0.376124E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.416471E+02    0.376383E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134092E+03   -0.450055E+02    0.392315E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132967E+03   -0.469661E+02    0.420219E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133005E+03   -0.464172E+02    0.454596E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.437232E+02    0.481872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134970E+03   -0.399567E+02    0.495803E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.392006E+02    0.337588E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.371637E+02    0.339377E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.386193E+02    0.321551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135613E+03   -0.409380E+02    0.325578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.408478E+02    0.346629E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.384591E+02    0.355308E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.364985E+02    0.367507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.351613E+02    0.354775E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.350001E+02    0.336858E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.360048E+02    0.318961E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.377616E+02    0.306820E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.399542E+02    0.302567E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.419313E+02    0.307893E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.432349E+02    0.321091E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.435242E+02    0.338847E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.424581E+02    0.357442E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.406414E+02    0.369660E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.384323E+02    0.373351E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.364021E+02    0.397002E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.333456E+02    0.381888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.320685E+02    0.354096E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.324459E+02    0.323239E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.346687E+02    0.296270E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.382283E+02    0.279352E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.421019E+02    0.278031E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134562E+03   -0.453633E+02    0.292341E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133568E+03   -0.472370E+02    0.318366E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133448E+03   -0.467364E+02    0.352140E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134184E+03   -0.440863E+02    0.381505E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.402408E+02    0.397565E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.397755E+02    0.231858E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.377385E+02    0.234085E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.391786E+02    0.217318E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.416029E+02    0.219575E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.414369E+02    0.239522E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.390578E+02    0.248368E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137158E+03   -0.369113E+02    0.262007E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.357533E+02    0.249269E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.357587E+02    0.231135E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.366494E+02    0.214921E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.383980E+02    0.203143E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.405863E+02    0.198629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.426818E+02    0.202313E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.438961E+02    0.214913E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.440989E+02    0.231443E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.430623E+02    0.248785E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.411557E+02    0.261549E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.389529E+02    0.265964E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.369527E+02    0.289593E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.339646E+02    0.275730E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137965E+03   -0.326462E+02    0.249546E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138079E+03   -0.330801E+02    0.220121E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.352862E+02    0.194060E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.389375E+02    0.176107E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.428188E+02    0.174136E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.459845E+02    0.187763E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133791E+03   -0.478825E+02    0.210737E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134255E+03   -0.470883E+02    0.243207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134894E+03   -0.444977E+02    0.271605E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.406893E+02    0.289002E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time      12.30 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678165.870650043     
  ps_ts2 prof sum =   677759.646944764     
  trcom prof sum =    677759.646944764     
  ps_ts2 cur sum  =   9721.72065663454     
  trcom cur sum  =    9721.72065663453     
  
  antenna # iant =            2
  powecha_use(iant) =    671642.178297271     
  ps_ts2 prof sum =   671244.791259761     
  trcom prof sum =    671244.791259760     
  ps_ts2 cur sum  =   11886.9797817270     
  trcom cur sum  =    11886.9797817270     
  
  antenna # iant =            3
  powecha_use(iant) =    515479.199109844     
  ps_ts2 prof sum =   515157.524066905     
  trcom prof sum =    515157.524066906     
  ps_ts2 cur sum  =   6324.53879938986     
  trcom cur sum  =    6324.53879938986     
  
  antenna # iant =            4
  powecha_use(iant) =    575815.192608884     
  ps_ts2 prof sum =   575471.156717288     
  trcom prof sum =    575471.156717288     
  ps_ts2 cur sum  =   9161.20089438533     
  trcom cur sum  =    9161.20089438532     
  
  antenna # iant =            5
  powecha_use(iant) =    553912.247361368     
  ps_ts2 prof sum =   553586.007487488     
  trcom prof sum =    553586.007487488     
  ps_ts2 cur sum  =   10934.7764164501     
  trcom cur sum  =    10934.7764164501     
  
  Total ECH heating:      2993219.12647621     
  Total Current Drive:    48029.2165485868     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4227
 TA= 4.48500E+00 CPU TIME= 1.59578E-01 SECONDS.  DT= 9.27204E-04
  
 TEC1=    4.48499999999993     
 TEC2=    4.48999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9264363888883     
  %check_save_state: izleft hours =    68.0650000000000     
 --> plasma_hash("gframe"): TA= 4.485000E+00 NSTEP=  4227 Hash code:   33061106
 ->PRGCHK: bdy curvature ratio at t= 4.4900E+00 seconds is:  5.6402E-02
% MHDEQ: TG1=     4.485000 ; TG2=     4.490000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3620E-03 SECONDS
   DATA R*BT AT EDGE:  2.7583E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6402E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.485000 TO TG2=    4.490000 @ NSTEP     4227
   GFRAME TG2 MOMENTS CHECKSUM:  2.4458907494841D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.92256E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.65030E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.97010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.38454E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.90613E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.42628E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  4.66018E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.58762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.62399E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.18975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.60492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.21034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  4.49706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.43178E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.27775E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.17712E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.00005E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.00005E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.4900E+00  4.4950E+00 total power(Watts):  2.9858E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.49000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.389240E+02    0.378507E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136318E+03   -0.367851E+02    0.380427E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.382455E+02    0.363019E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.405588E+02    0.367521E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.405692E+02    0.387520E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.381759E+02    0.395383E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.362092E+02    0.406952E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.348779E+02    0.394205E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.348211E+02    0.376364E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.357371E+02    0.359244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136181E+03   -0.375001E+02    0.346934E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.395897E+02    0.343466E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.416714E+02    0.348815E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.429683E+02    0.362821E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.431367E+02    0.381132E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.421763E+02    0.398241E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.403516E+02    0.409924E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.381398E+02    0.413180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.361933E+02    0.437095E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.331393E+02    0.420357E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137485E+03   -0.317877E+02    0.393050E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.321766E+02    0.362886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.345084E+02    0.334460E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.378823E+02    0.318713E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.417529E+02    0.317911E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133959E+03   -0.452346E+02    0.332362E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133172E+03   -0.469768E+02    0.361095E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133138E+03   -0.464607E+02    0.394187E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.436740E+02    0.423389E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.399308E+02    0.438998E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.398200E+02    0.290309E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.377767E+02    0.292299E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.392239E+02    0.275229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.415539E+02    0.278711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.414805E+02    0.298504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.390892E+02    0.307208E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.371280E+02    0.319385E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.358736E+02    0.306706E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136946E+03   -0.356990E+02    0.289733E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.364997E+02    0.273931E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.383530E+02    0.261110E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.405492E+02    0.256643E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.426452E+02    0.260859E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.439654E+02    0.273398E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134766E+03   -0.441585E+02    0.290662E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.431040E+02    0.308445E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.411806E+02    0.321323E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.390740E+02    0.324801E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.369446E+02    0.350346E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137336E+03   -0.339665E+02    0.334641E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137809E+03   -0.325761E+02    0.307976E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137862E+03   -0.330262E+02    0.277900E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.352441E+02    0.251159E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.389082E+02    0.233145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.426875E+02    0.232278E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.461931E+02    0.244388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133348E+03   -0.479790E+02    0.269913E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.473896E+02    0.302207E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.447523E+02    0.331692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.407937E+02    0.350030E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.388807E+02    0.435303E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135958E+03   -0.368405E+02    0.436152E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.383194E+02    0.418517E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.406365E+02    0.423809E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.406298E+02    0.444819E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.382235E+02    0.452124E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.362445E+02    0.463124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.350173E+02    0.449394E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.348753E+02    0.431376E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.357067E+02    0.414529E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.374805E+02    0.402879E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.396820E+02    0.399547E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.416592E+02    0.405863E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.430590E+02    0.419793E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133870E+03   -0.434408E+02    0.438163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134496E+03   -0.422333E+02    0.456380E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134901E+03   -0.403951E+02    0.467421E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.381752E+02    0.469846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.362109E+02    0.492593E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136864E+03   -0.331651E+02    0.475117E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.317317E+02    0.448208E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137502E+03   -0.321434E+02    0.417106E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.344943E+02    0.390097E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.378799E+02    0.375394E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.417574E+02    0.375655E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133650E+03   -0.452400E+02    0.391146E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132739E+03   -0.470866E+02    0.419661E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132775E+03   -0.465378E+02    0.454106E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133471E+03   -0.439492E+02    0.481221E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.400658E+02    0.495452E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.391993E+02    0.337469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.371634E+02    0.339245E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.386183E+02    0.321430E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.409374E+02    0.325454E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.409559E+02    0.345880E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.385628E+02    0.354554E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.363973E+02    0.367935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.353562E+02    0.353383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.351933E+02    0.335408E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136674E+03   -0.361032E+02    0.318144E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.378628E+02    0.305988E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.400538E+02    0.301761E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135324E+03   -0.420401E+02    0.307079E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.433466E+02    0.320313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.435233E+02    0.338718E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.425695E+02    0.356700E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.406407E+02    0.369496E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.384319E+02    0.373178E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.364971E+02    0.396348E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.334390E+02    0.381152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.320683E+02    0.353956E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137739E+03   -0.325363E+02    0.322420E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.348581E+02    0.294634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.383292E+02    0.278439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.420954E+02    0.277894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134128E+03   -0.455933E+02    0.290794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133343E+03   -0.473552E+02    0.317602E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133435E+03   -0.467357E+02    0.351980E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134387E+03   -0.439705E+02    0.381840E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.402403E+02    0.397400E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.398757E+02    0.230888E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.378363E+02    0.233101E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.392715E+02    0.216384E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.416013E+02    0.219428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.415413E+02    0.238577E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.391584E+02    0.247415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.371073E+02    0.260252E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.359434E+02    0.247476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137350E+03   -0.356622E+02    0.231843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.367434E+02    0.213916E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136503E+03   -0.384948E+02    0.202135E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.406898E+02    0.197602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.426800E+02    0.202160E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.440034E+02    0.213934E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.442074E+02    0.230508E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.431703E+02    0.247851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.412614E+02    0.260611E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.390546E+02    0.265018E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.370516E+02    0.288695E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.339633E+02    0.275575E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.326446E+02    0.249402E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.331673E+02    0.219093E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137477E+03   -0.353768E+02    0.193021E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136739E+03   -0.388369E+02    0.176854E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135565E+03   -0.428166E+02    0.173990E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.460941E+02    0.186779E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.477649E+02    0.211371E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.473198E+02    0.241523E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.447230E+02    0.269949E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135742E+03   -0.407954E+02    0.288118E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675005.406939973     
  ps_ts2 prof sum =   674623.147350709     
  trcom prof sum =    674623.147315008     
  ps_ts2 cur sum  =   9660.51695017106     
  trcom cur sum  =    9660.51695017106     
  
  antenna # iant =            2
  powecha_use(iant) =    670440.338763278     
  ps_ts2 prof sum =   670054.210031568     
  trcom prof sum =    670054.210031567     
  ps_ts2 cur sum  =   11842.0853934414     
  trcom cur sum  =    11842.0853934414     
  
  antenna # iant =            3
  powecha_use(iant) =    516966.997414655     
  ps_ts2 prof sum =   516680.539501629     
  trcom prof sum =    516680.539501629     
  ps_ts2 cur sum  =   6332.33597214543     
  trcom cur sum  =    6332.33597214543     
  
  antenna # iant =            4
  powecha_use(iant) =    569745.677015300     
  ps_ts2 prof sum =   569412.467974565     
  trcom prof sum =    569412.467974564     
  ps_ts2 cur sum  =   9049.80944493559     
  trcom cur sum  =    9049.80944493558     
  
  antenna # iant =            5
  powecha_use(iant) =    553597.799408337     
  ps_ts2 prof sum =   553287.030365895     
  trcom prof sum =    553287.030365895     
  ps_ts2 cur sum  =   10903.1779892835     
  trcom cur sum  =    10903.1779892835     
  
  Total ECH heating:      2984057.39518866     
  Total Current Drive:    47787.9257499770     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4231
 TA= 4.49000E+00 CPU TIME= 1.68158E-01 SECONDS.  DT= 1.83130E-03
  
 TEC1=    4.48999999999993     
 TEC2=    4.49499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9383822222221     
  %check_save_state: izleft hours =    68.0530555555556     
 --> plasma_hash("gframe"): TA= 4.490000E+00 NSTEP=  4231 Hash code:   83527478
 ->PRGCHK: bdy curvature ratio at t= 4.4950E+00 seconds is:  5.6374E-02
% MHDEQ: TG1=     4.490000 ; TG2=     4.495000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7558E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6374E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.490000 TO TG2=    4.495000 @ NSTEP     4231
   GFRAME TG2 MOMENTS CHECKSUM:  2.4455008266868D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.4950E+00  4.5000E+00 total power(Watts):  2.9795E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.49500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135641E+03   -0.389238E+02    0.378347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.368864E+02    0.379710E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.383494E+02    0.362284E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.406676E+02    0.366800E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.406784E+02    0.386824E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.382804E+02    0.394707E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.363096E+02    0.406326E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.350735E+02    0.392989E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.349185E+02    0.375632E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.356378E+02    0.359721E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.374995E+02    0.346812E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.396955E+02    0.342722E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.416756E+02    0.348675E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.430811E+02    0.362103E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.432505E+02    0.380433E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134605E+03   -0.422885E+02    0.397591E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.404604E+02    0.409314E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.382442E+02    0.412584E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.361917E+02    0.436999E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.331433E+02    0.420234E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.317865E+02    0.392903E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137421E+03   -0.322676E+02    0.362125E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.344130E+02    0.335026E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.379880E+02    0.317905E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.418621E+02    0.317138E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.451180E+02    0.332854E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133150E+03   -0.469811E+02    0.360927E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132911E+03   -0.465803E+02    0.393533E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133719E+03   -0.439046E+02    0.422422E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134924E+03   -0.400389E+02    0.438497E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.398194E+02    0.290163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.377767E+02    0.292162E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.392234E+02    0.275063E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.416635E+02    0.277790E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.415886E+02    0.297667E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.391942E+02    0.306385E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.371275E+02    0.319288E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.359715E+02    0.305863E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136717E+03   -0.357952E+02    0.288830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.366961E+02    0.272201E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.384543E+02    0.260143E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.406546E+02    0.255683E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.426447E+02    0.260678E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.439649E+02    0.273229E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.441581E+02    0.290521E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.432159E+02    0.307642E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.412890E+02    0.320556E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.390735E+02    0.324702E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136202E+03   -0.370452E+02    0.349589E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.339664E+02    0.334543E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.326665E+02    0.307130E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.331167E+02    0.276953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.353382E+02    0.250178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.389073E+02    0.232985E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.427959E+02    0.231298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133928E+03   -0.463075E+02    0.243440E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133336E+03   -0.479787E+02    0.269732E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133209E+03   -0.475081E+02    0.301415E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134298E+03   -0.446366E+02    0.332207E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.407935E+02    0.349900E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.389871E+02    0.434782E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.369426E+02    0.435627E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135629E+03   -0.383192E+02    0.418391E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.407461E+02    0.423257E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.406297E+02    0.444708E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.383284E+02    0.451639E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.363452E+02    0.462672E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.351157E+02    0.448897E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.347769E+02    0.431708E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.358062E+02    0.413927E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135718E+03   -0.375835E+02    0.402236E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.396819E+02    0.399389E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.417647E+02    0.405265E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.432874E+02    0.418800E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.433259E+02    0.438434E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.423464E+02    0.455925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.405058E+02    0.466975E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.382804E+02    0.469418E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.363121E+02    0.492229E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.331649E+02    0.475023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.318230E+02    0.447697E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.322354E+02    0.416501E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.343976E+02    0.390488E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.379834E+02    0.374670E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134983E+03   -0.417576E+02    0.375495E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133422E+03   -0.453575E+02    0.390480E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132726E+03   -0.470866E+02    0.419527E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132545E+03   -0.466583E+02    0.453660E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133668E+03   -0.438371E+02    0.481386E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.400657E+02    0.495358E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135729E+03   -0.393044E+02    0.336721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.372638E+02    0.338493E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135931E+03   -0.387219E+02    0.320655E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.410451E+02    0.324699E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.409556E+02    0.345750E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.385625E+02    0.354422E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.365981E+02    0.366615E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.352577E+02    0.353886E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.350964E+02    0.335970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.360040E+02    0.318745E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.378624E+02    0.305869E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.400586E+02    0.301601E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.421494E+02    0.306281E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.434589E+02    0.319553E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.436366E+02    0.337977E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.425693E+02    0.356557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135196E+03   -0.407498E+02    0.368769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.385364E+02    0.372450E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.365006E+02    0.396177E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.336284E+02    0.379855E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137473E+03   -0.321589E+02    0.353192E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.326278E+02    0.321612E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.347628E+02    0.295261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.383284E+02    0.278271E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.422090E+02    0.276958E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.457084E+02    0.289950E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133119E+03   -0.474741E+02    0.316857E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133209E+03   -0.468549E+02    0.351265E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.440859E+02    0.381146E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.403490E+02    0.396737E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.398749E+02    0.230721E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.378386E+02    0.232914E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.393721E+02    0.215368E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.417049E+02    0.218427E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.416473E+02    0.237600E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.392599E+02    0.246445E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.372054E+02    0.259285E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.358469E+02    0.248140E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.358511E+02    0.229992E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.366465E+02    0.214616E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.385930E+02    0.201088E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.407920E+02    0.196564E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.427857E+02    0.201143E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.441115E+02    0.212956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134952E+03   -0.442066E+02    0.230337E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.431703E+02    0.247666E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.413678E+02    0.259671E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.391570E+02    0.264071E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.370510E+02    0.288554E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.340555E+02    0.274621E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137724E+03   -0.327330E+02    0.248411E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.331663E+02    0.218938E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.355604E+02    0.191051E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.390327E+02    0.174893E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.429211E+02    0.172946E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134380E+03   -0.462045E+02    0.185762E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133559E+03   -0.479953E+02    0.209606E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.474358E+02    0.240578E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.446092E+02    0.270512E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.409025E+02    0.287232E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670505.082107534     
  ps_ts2 prof sum =   670121.120938089     
  trcom prof sum =    670121.120938089     
  ps_ts2 cur sum  =   9581.79931543815     
  trcom cur sum  =    9581.79931543814     
  
  antenna # iant =            2
  powecha_use(iant) =    669502.722466366     
  ps_ts2 prof sum =   669115.671887120     
  trcom prof sum =    669115.671887119     
  ps_ts2 cur sum  =   11805.8113888101     
  trcom cur sum  =    11805.8113888101     
  
  antenna # iant =            3
  powecha_use(iant) =    515751.287061728     
  ps_ts2 prof sum =   515442.603680726     
  trcom prof sum =    515442.603680726     
  ps_ts2 cur sum  =   6308.28984055661     
  trcom cur sum  =    6308.28984055662     
  
  antenna # iant =            4
  powecha_use(iant) =    570397.520869298     
  ps_ts2 prof sum =   570050.188847938     
  trcom prof sum =    570050.188847937     
  ps_ts2 cur sum  =   9045.35097818350     
  trcom cur sum  =    9045.35097818349     
  
  antenna # iant =            5
  powecha_use(iant) =    553375.986512733     
  ps_ts2 prof sum =   553083.901644771     
  trcom prof sum =    553083.901644771     
  ps_ts2 cur sum  =   10879.0512487774     
  trcom cur sum  =    10879.0512487774     
  
  Total ECH heating:      2977813.48699864     
  Total Current Drive:    47620.3027717658     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4234
 TA= 4.49500E+00 CPU TIME= 1.59192E-01 SECONDS.  DT= 1.09948E-03
  
 TEC1=    4.49499999999993     
 TEC2=    4.49999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9501424999999     
  %check_save_state: izleft hours =    68.0413888888889     
 --> plasma_hash("gframe"): TA= 4.495000E+00 NSTEP=  4234 Hash code:   90889648
 ->PRGCHK: bdy curvature ratio at t= 4.5000E+00 seconds is:  5.6349E-02
% MHDEQ: TG1=     4.495000 ; TG2=     4.500000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1700E-03 SECONDS
   DATA R*BT AT EDGE:  2.7533E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6349E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.495000 TO TG2=    4.500000 @ NSTEP     4234
   GFRAME TG2 MOMENTS CHECKSUM:  2.4451109038895D+04
 %MFRCHK - LABEL "RMS12", #       1= -5.02137E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.91760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22394E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.08731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.04939E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -7.03046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  2.19076E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.18144E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.98375E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.10317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  3.82800E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.00238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #       9=  1.74132E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.60799E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -5.49365E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.39691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.88929E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.88929E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.5000E+00  4.5050E+00 total power(Watts):  2.9819E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.50000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.390292E+02    0.377630E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.369875E+02    0.378988E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.383488E+02    0.362132E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.407761E+02    0.366066E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.406781E+02    0.386652E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.382801E+02    0.394550E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.363092E+02    0.406185E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.349752E+02    0.393367E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.348204E+02    0.376046E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.358346E+02    0.358366E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.376014E+02    0.346052E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.398013E+02    0.341976E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.417797E+02    0.347957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.430809E+02    0.361943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134229E+03   -0.433642E+02    0.379731E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134580E+03   -0.422938E+02    0.397406E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.404601E+02    0.409175E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.382438E+02    0.412455E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.362922E+02    0.436473E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.332372E+02    0.419644E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.318769E+02    0.392203E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.322670E+02    0.361989E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.346035E+02    0.333580E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.379825E+02    0.317829E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.418613E+02    0.317034E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133718E+03   -0.453500E+02    0.331506E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132938E+03   -0.470941E+02    0.360233E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132899E+03   -0.465801E+02    0.393352E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133924E+03   -0.437892E+02    0.422713E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.400386E+02    0.438382E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.399239E+02    0.289283E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.378770E+02    0.291278E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.393263E+02    0.274124E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.416579E+02    0.277660E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135270E+03   -0.415878E+02    0.297531E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.391881E+02    0.306307E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.372277E+02    0.318494E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.359708E+02    0.305749E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.356981E+02    0.289446E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.365970E+02    0.272821E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.385549E+02    0.259182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.407591E+02    0.254721E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.427536E+02    0.259730E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.440766E+02    0.272313E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.442706E+02    0.289666E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134815E+03   -0.432151E+02    0.307527E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.413971E+02    0.319789E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.391767E+02    0.323943E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135969E+03   -0.371458E+02    0.348841E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.340607E+02    0.333766E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137563E+03   -0.326666E+02    0.307019E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.331159E+02    0.276797E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.355258E+02    0.248370E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.390068E+02    0.232002E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.429025E+02    0.230341E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134125E+03   -0.461918E+02    0.244024E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133116E+03   -0.480966E+02    0.268828E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133195E+03   -0.475071E+02    0.301297E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.448666E+02    0.330848E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.409015E+02    0.349167E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.390931E+02    0.434262E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.369424E+02    0.435516E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.384239E+02    0.417815E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.407460E+02    0.423132E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.407391E+02    0.444209E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.383283E+02    0.451526E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.363449E+02    0.462555E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.350169E+02    0.449174E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.349726E+02    0.430724E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.357060E+02    0.414281E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.375832E+02    0.402089E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.397890E+02    0.398735E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.418790E+02    0.404630E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.431730E+02    0.419099E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.434401E+02    0.437936E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134029E+03   -0.424601E+02    0.455444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.405056E+02    0.466863E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135242E+03   -0.382811E+02    0.469292E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.363117E+02    0.492135E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136609E+03   -0.332596E+02    0.474595E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137141E+03   -0.318227E+02    0.447592E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.323271E+02    0.415896E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.345904E+02    0.389242E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.379833E+02    0.374504E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.418683E+02    0.374780E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133625E+03   -0.452397E+02    0.390794E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132498E+03   -0.472072E+02    0.418976E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132315E+03   -0.467786E+02    0.453199E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133435E+03   -0.439533E+02    0.481003E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134481E+03   -0.401742E+02    0.495014E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135498E+03   -0.394091E+02    0.335966E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.372634E+02    0.338378E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.388251E+02    0.319875E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.411529E+02    0.323937E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.410640E+02    0.345011E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.386666E+02    0.353672E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.366984E+02    0.365870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.354529E+02    0.352503E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.352901E+02    0.334529E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.362004E+02    0.317250E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.379635E+02    0.305039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.401638E+02    0.300768E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.421488E+02    0.306157E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134679E+03   -0.434578E+02    0.319454E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134123E+03   -0.438634E+02    0.336629E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134641E+03   -0.426814E+02    0.355825E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.408585E+02    0.368037E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.386406E+02    0.371723E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.366013E+02    0.395503E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.335330E+02    0.380272E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137460E+03   -0.321582E+02    0.353069E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.326270E+02    0.321517E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.349529E+02    0.293624E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.384301E+02    0.277347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.423174E+02    0.276047E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134103E+03   -0.455921E+02    0.290491E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133104E+03   -0.474735E+02    0.316748E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132984E+03   -0.469739E+02    0.350546E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133716E+03   -0.443164E+02    0.379922E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.403486E+02    0.396576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.399765E+02    0.229742E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.379311E+02    0.231973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.393714E+02    0.215201E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135536E+03   -0.417036E+02    0.218267E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.416465E+02    0.237435E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.392595E+02    0.246274E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.371065E+02    0.259905E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.360365E+02    0.246333E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137112E+03   -0.357545E+02    0.230677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.368376E+02    0.212734E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.385915E+02    0.200937E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.407898E+02    0.196417E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.427836E+02    0.200979E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134885E+03   -0.441103E+02    0.212791E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.443161E+02    0.229369E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.432789E+02    0.246712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.413672E+02    0.259484E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.391561E+02    0.263897E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.371503E+02    0.287658E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.340556E+02    0.274461E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137712E+03   -0.327320E+02    0.248255E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137612E+03   -0.332545E+02    0.217906E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.354656E+02    0.191807E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.391293E+02    0.173863E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.430246E+02    0.171931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.462020E+02    0.185610E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133340E+03   -0.481100E+02    0.208650E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.475513E+02    0.239633E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.447218E+02    0.269592E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.408970E+02    0.287114E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.69 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666504.432715891     
  ps_ts2 prof sum =   666097.847997129     
  trcom prof sum =    666097.847997129     
  ps_ts2 cur sum  =   9509.77454010395     
  trcom cur sum  =    9509.77454010395     
  
  antenna # iant =            2
  powecha_use(iant) =    672665.803540630     
  ps_ts2 prof sum =   672258.680747840     
  trcom prof sum =    672258.680747839     
  ps_ts2 cur sum  =   11840.0308180886     
  trcom cur sum  =    11840.0308180886     
  
  antenna # iant =            3
  powecha_use(iant) =    514784.076862334     
  ps_ts2 prof sum =   514457.588681590     
  trcom prof sum =    514457.588681591     
  ps_ts2 cur sum  =   6286.94258558620     
  trcom cur sum  =    6286.94258558621     
  
  antenna # iant =            4
  powecha_use(iant) =    574579.734703348     
  ps_ts2 prof sum =   574271.788855304     
  trcom prof sum =    574271.788855304     
  ps_ts2 cur sum  =   9095.39273793071     
  trcom cur sum  =    9095.39273793070     
  
  antenna # iant =            5
  powecha_use(iant) =    553372.453057972     
  ps_ts2 prof sum =   553038.866863769     
  trcom prof sum =    553038.866863769     
  ps_ts2 cur sum  =   10857.9962197115     
  trcom cur sum  =    10857.9962197115     
  
  Total ECH heating:      2980124.77314563     
  Total Current Drive:    47590.1369014210     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4238
 TA= 4.50000E+00 CPU TIME= 1.59582E-01 SECONDS.  DT= 1.01029E-03
  
 TEC1=    4.49999999999993     
 TEC2=    4.50499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9655858333329     
  %check_save_state: izleft hours =    68.0261111111111     
 --> plasma_hash("gframe"): TA= 4.500000E+00 NSTEP=  4238 Hash code:  110166166
 ->PRGCHK: bdy curvature ratio at t= 4.5050E+00 seconds is:  5.6328E-02
% MHDEQ: TG1=     4.500000 ; TG2=     4.505000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0910E-03 SECONDS
   DATA R*BT AT EDGE:  2.7508E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6328E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.500000 TO TG2=    4.505000 @ NSTEP     4238
   GFRAME TG2 MOMENTS CHECKSUM:  2.4447209810922D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5050E+00  4.5100E+00 total power(Watts):  2.9863E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.50500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.390293E+02    0.377481E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.369874E+02    0.378840E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.384528E+02    0.361414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.407761E+02    0.365923E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.407874E+02    0.385978E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.383847E+02    0.393889E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.364098E+02    0.405570E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.351709E+02    0.392163E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.350149E+02    0.374753E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.359335E+02    0.357626E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.376014E+02    0.345949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.398013E+02    0.341869E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134704E+03   -0.418914E+02    0.347234E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134307E+03   -0.431944E+02    0.361237E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134217E+03   -0.433645E+02    0.379572E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.424005E+02    0.396798E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134724E+03   -0.405692E+02    0.408589E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.383485E+02    0.411872E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.362939E+02    0.436371E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136843E+03   -0.332370E+02    0.419549E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137222E+03   -0.318767E+02    0.392075E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.323583E+02    0.361247E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.345080E+02    0.334158E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.380859E+02    0.317047E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.419708E+02    0.316283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.454661E+02    0.330792E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132709E+03   -0.472166E+02    0.359528E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132672E+03   -0.467000E+02    0.392717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133692E+03   -0.439046E+02    0.422186E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.401481E+02    0.437881E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.86 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.400293E+02    0.288434E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.378771E+02    0.291165E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.394301E+02    0.273226E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.417692E+02    0.276763E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.416968E+02    0.296723E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.392955E+02    0.305484E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.372277E+02    0.318409E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136340E+03   -0.360686E+02    0.304931E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.358920E+02    0.287814E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.367943E+02    0.271124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.385550E+02    0.259046E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.407596E+02    0.254590E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.428641E+02    0.258821E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.441891E+02    0.271435E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.443840E+02    0.288833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.433273E+02    0.306749E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.413969E+02    0.319701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.391771E+02    0.323855E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.371455E+02    0.348732E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.342501E+02    0.332322E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.327571E+02    0.306185E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.332078E+02    0.275861E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136981E+03   -0.354316E+02    0.249063E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.390060E+02    0.231887E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.429032E+02    0.230197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133695E+03   -0.464214E+02    0.242357E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.482158E+02    0.267962E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132972E+03   -0.476262E+02    0.300522E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134056E+03   -0.447514E+02    0.331381E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.410104E+02    0.348445E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135020E+03   -0.390932E+02    0.434162E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.370432E+02    0.435023E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.385291E+02    0.417249E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.408558E+02    0.422594E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.408490E+02    0.443740E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.384331E+02    0.451060E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.364457E+02    0.462111E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.352154E+02    0.448294E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.348744E+02    0.431074E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.359050E+02    0.413228E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.376863E+02    0.401462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.397890E+02    0.398603E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134464E+03   -0.418791E+02    0.404503E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.432873E+02    0.418550E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133389E+03   -0.436715E+02    0.437071E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.424600E+02    0.455344E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.406152E+02    0.466435E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.383863E+02    0.468874E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.364131E+02    0.491778E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.334490E+02    0.473856E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.319141E+02    0.447091E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.323271E+02    0.415797E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.344939E+02    0.389652E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.380868E+02    0.373798E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.419797E+02    0.374083E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133182E+03   -0.454751E+02    0.389659E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132269E+03   -0.473280E+02    0.418455E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132301E+03   -0.467786E+02    0.453087E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132982E+03   -0.441853E+02    0.480362E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.401745E+02    0.494914E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.394093E+02    0.335862E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.373647E+02    0.337639E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.388250E+02    0.319790E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.411529E+02    0.323849E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.410641E+02    0.344899E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.387710E+02    0.352953E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.366988E+02    0.365728E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.355509E+02    0.351757E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.351928E+02    0.335111E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.362993E+02    0.316463E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.380655E+02    0.304230E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.401640E+02    0.300667E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134856E+03   -0.422591E+02    0.305368E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.435707E+02    0.318711E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134323E+03   -0.437497E+02    0.337143E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.427939E+02    0.355109E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.408587E+02    0.367893E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.386413E+02    0.371584E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.367026E+02    0.394843E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136568E+03   -0.337221E+02    0.378986E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.322488E+02    0.352319E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.327182E+02    0.320728E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.348576E+02    0.294263E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.384302E+02    0.277215E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.423179E+02    0.275915E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133669E+03   -0.458235E+02    0.288976E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132880E+03   -0.475930E+02    0.316014E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132758E+03   -0.470936E+02    0.349848E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133919E+03   -0.442013E+02    0.380282E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134871E+03   -0.404574E+02    0.395937E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.400796E+02    0.228795E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.379319E+02    0.231842E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.394715E+02    0.214226E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.418103E+02    0.217312E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.417529E+02    0.236506E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.393619E+02    0.245338E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.373042E+02    0.258175E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.359413E+02    0.247025E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.359438E+02    0.228862E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136793E+03   -0.367415E+02    0.213465E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.386906E+02    0.199936E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.408925E+02    0.195414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.428904E+02    0.200010E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.442207E+02    0.211839E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.444282E+02    0.228444E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.433894E+02    0.245793E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.414742E+02    0.258567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.392596E+02    0.262973E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.370507E+02    0.288288E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.341487E+02    0.273530E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137482E+03   -0.328201E+02    0.247290E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137599E+03   -0.332546E+02    0.217790E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.355587E+02    0.190776E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.391298E+02    0.173734E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.430248E+02    0.171799E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134148E+03   -0.463148E+02    0.184633E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133534E+03   -0.479946E+02    0.209306E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133583E+03   -0.474350E+02    0.240261E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.449488E+02    0.267974E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.410085E+02    0.286233E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673274.592248189     
  ps_ts2 prof sum =   672881.522154130     
  trcom prof sum =    672881.522154131     
  ps_ts2 cur sum  =   9594.61865084679     
  trcom cur sum  =    9594.61865084679     
  
  antenna # iant =            2
  powecha_use(iant) =    670920.129787608     
  ps_ts2 prof sum =   670551.450261828     
  trcom prof sum =    670551.450261828     
  ps_ts2 cur sum  =   11794.2702359793     
  trcom cur sum  =    11794.2702359793     
  
  antenna # iant =            3
  powecha_use(iant) =    516237.679519032     
  ps_ts2 prof sum =   515942.806358991     
  trcom prof sum =    515942.806358991     
  ps_ts2 cur sum  =   6296.29588790650     
  trcom cur sum  =    6296.29588790651     
  
  antenna # iant =            4
  powecha_use(iant) =    572528.156058163     
  ps_ts2 prof sum =   572194.735186984     
  trcom prof sum =    572194.735186983     
  ps_ts2 cur sum  =   9052.38553564723     
  trcom cur sum  =    9052.38553564722     
  
  antenna # iant =            5
  powecha_use(iant) =    553336.558851373     
  ps_ts2 prof sum =   553008.121773326     
  trcom prof sum =    553008.121773326     
  ps_ts2 cur sum  =   10841.3306283653     
  trcom cur sum  =    10841.3306283653     
  
  Total ECH heating:      2984578.63573526     
  Total Current Drive:    47578.9009387451     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4242
 TA= 4.50500E+00 CPU TIME= 1.59815E-01 SECONDS.  DT= 1.43535E-03
  
 TEC1=    4.50499999999993     
 TEC2=    4.50999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    11.9803627777774     
  %check_save_state: izleft hours =    68.0111111111111     
 --> plasma_hash("gframe"): TA= 4.505000E+00 NSTEP=  4242 Hash code:  104643710
 ->PRGCHK: bdy curvature ratio at t= 4.5100E+00 seconds is:  5.6313E-02
% MHDEQ: TG1=     4.505000 ; TG2=     4.510000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7531E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6313E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.505000 TO TG2=    4.510000 @ NSTEP     4242
   GFRAME TG2 MOMENTS CHECKSUM:  2.4453844697860D+04
 %MFRCHK - LABEL "YMC11", #       1= -8.79526E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.30669E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88411E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.59492E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.26150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.89980E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.13891E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.88412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -3.31086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.01587E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -2.05590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.02747E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  2.96724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  6.72521E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -5.07452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -1.69991E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8=  2.07490E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.55026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.31040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.31040E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  4.5100E+00  4.5150E+00 total power(Watts):  2.9774E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.51000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.390236E+02    0.378017E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.369762E+02    0.379406E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.384411E+02    0.361887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.407588E+02    0.366440E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.406659E+02    0.387117E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.383733E+02    0.394513E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.363994E+02    0.406134E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.351609E+02    0.392763E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.348100E+02    0.376442E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.357245E+02    0.359301E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135992E+03   -0.375899E+02    0.346346E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135435E+03   -0.397895E+02    0.342255E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.417682E+02    0.348254E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.431811E+02    0.361716E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134283E+03   -0.433512E+02    0.380167E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.423882E+02    0.397433E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.405578E+02    0.409146E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.383379E+02    0.412391E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.362841E+02    0.436636E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.332281E+02    0.419970E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.318676E+02    0.392659E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.323489E+02    0.361696E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.344974E+02    0.334515E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.380745E+02    0.317374E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.419582E+02    0.316611E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133989E+03   -0.452202E+02    0.332389E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132778E+03   -0.472023E+02    0.360016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132737E+03   -0.466862E+02    0.393382E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.440082E+02    0.422208E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134747E+03   -0.401373E+02    0.438143E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.75 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.399120E+02    0.289513E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.378659E+02    0.291512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.393144E+02    0.274362E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.417564E+02    0.277130E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.416842E+02    0.297055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.392850E+02    0.305802E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.372165E+02    0.318736E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.358622E+02    0.306707E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.358813E+02    0.288164E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.367828E+02    0.271493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136090E+03   -0.385434E+02    0.259399E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.407468E+02    0.254930E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.427406E+02    0.259945E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.440630E+02    0.272545E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.442573E+02    0.289884E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.433139E+02    0.307081E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.413846E+02    0.320038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.391653E+02    0.324190E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.371339E+02    0.349147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.340503E+02    0.334023E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.327451E+02    0.306532E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.331976E+02    0.276248E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.355153E+02    0.248562E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.389899E+02    0.232172E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.428896E+02    0.230455E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133770E+03   -0.464075E+02    0.242658E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133176E+03   -0.480824E+02    0.269046E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133046E+03   -0.476122E+02    0.300847E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.447381E+02    0.331735E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.408891E+02    0.349466E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.390826E+02    0.434456E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.370349E+02    0.435284E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.384134E+02    0.418172E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.408448E+02    0.423013E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134722E+03   -0.407280E+02    0.444363E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.384224E+02    0.451342E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.364354E+02    0.462461E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.352044E+02    0.448557E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.349626E+02    0.430940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.358955E+02    0.413716E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.375720E+02    0.402558E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.397771E+02    0.399221E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134529E+03   -0.418671E+02    0.405097E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133734E+03   -0.433897E+02    0.418600E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133902E+03   -0.434284E+02    0.438123E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134088E+03   -0.424482E+02    0.455634E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.406033E+02    0.466816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.383753E+02    0.469266E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.364021E+02    0.492239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.332492E+02    0.474929E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136970E+03   -0.319059E+02    0.447340E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.323183E+02    0.416255E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.344833E+02    0.390243E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.380749E+02    0.374339E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.418556E+02    0.375181E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133247E+03   -0.454616E+02    0.390302E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132347E+03   -0.473098E+02    0.418968E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132374E+03   -0.467657E+02    0.453375E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133492E+03   -0.439397E+02    0.481387E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134538E+03   -0.401622E+02    0.495389E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.393974E+02    0.336232E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.373535E+02    0.338005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.388083E+02    0.320151E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135199E+03   -0.411405E+02    0.324187E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.410516E+02    0.345296E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.386548E+02    0.353986E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.366872E+02    0.366216E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.353397E+02    0.353453E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.351816E+02    0.335473E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.360912E+02    0.318186E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.379523E+02    0.305271E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.401516E+02    0.300994E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.422464E+02    0.305695E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.435575E+02    0.319037E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.437347E+02    0.337530E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.426684E+02    0.356141E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.408461E+02    0.368404E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.386292E+02    0.372107E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.365908E+02    0.395972E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.335229E+02    0.380685E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.321488E+02    0.353367E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137549E+03   -0.326173E+02    0.321760E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.348471E+02    0.294605E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.384183E+02    0.277578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.423048E+02    0.276283E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133742E+03   -0.458099E+02    0.289318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132953E+03   -0.475786E+02    0.316360E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133041E+03   -0.469600E+02    0.350859E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133985E+03   -0.441876E+02    0.380892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.404452E+02    0.396571E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.399640E+02    0.229865E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.379206E+02    0.232091E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.394588E+02    0.214450E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.417962E+02    0.217528E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135309E+03   -0.417402E+02    0.236773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.392468E+02    0.246459E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.372930E+02    0.258532E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.359300E+02    0.247334E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136744E+03   -0.359328E+02    0.229120E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.367300E+02    0.213691E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.386779E+02    0.200149E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.407812E+02    0.196454E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.428770E+02    0.200202E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.442061E+02    0.212041E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134796E+03   -0.443035E+02    0.229480E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.432660E+02    0.246892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.414614E+02    0.258925E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.392475E+02    0.263335E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136359E+03   -0.371390E+02    0.287884E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.341380E+02    0.273915E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.328101E+02    0.247605E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.332437E+02    0.218018E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137304E+03   -0.354545E+02    0.191904E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.391157E+02    0.174006E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135185E+03   -0.430101E+02    0.172071E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134225E+03   -0.462991E+02    0.184853E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133407E+03   -0.480959E+02    0.208695E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133451E+03   -0.475373E+02    0.239785E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134498E+03   -0.447082E+02    0.269818E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.409961E+02    0.286586E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    668998.673534374     
  ps_ts2 prof sum =   668606.862370096     
  trcom prof sum =    668606.862370096     
  ps_ts2 cur sum  =   9516.57902789951     
  trcom cur sum  =    9516.57902789950     
  
  antenna # iant =            2
  powecha_use(iant) =    666643.078268263     
  ps_ts2 prof sum =   666258.595487535     
  trcom prof sum =    666258.595487534     
  ps_ts2 cur sum  =   11703.7404539853     
  trcom cur sum  =    11703.7404539853     
  
  antenna # iant =            3
  powecha_use(iant) =    516283.062528794     
  ps_ts2 prof sum =   515988.315081670     
  trcom prof sum =    515988.315081671     
  ps_ts2 cur sum  =   6281.83431146786     
  trcom cur sum  =    6281.83431146786     
  
  antenna # iant =            4
  powecha_use(iant) =    571603.601010428     
  ps_ts2 prof sum =   571232.024526992     
  trcom prof sum =    571232.024526992     
  ps_ts2 cur sum  =   9022.95058427705     
  trcom cur sum  =    9022.95058427704     
  
  antenna # iant =            5
  powecha_use(iant) =    553856.234443456     
  ps_ts2 prof sum =   553546.129610452     
  trcom prof sum =    553546.129610452     
  ps_ts2 cur sum  =   10840.7333682608     
  trcom cur sum  =    10840.7333682608     
  
  Total ECH heating:      2975631.92707674     
  Total Current Drive:    47365.8377458905     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4245
 TA= 4.51000E+00 CPU TIME= 1.59259E-01 SECONDS.  DT= 2.21308E-03
  
 TEC1=    4.50999999999993     
 TEC2=    4.51499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0004388888885     
  %check_save_state: izleft hours =    67.9911111111111     
 --> plasma_hash("gframe"): TA= 4.510000E+00 NSTEP=  4245 Hash code:   44325495
 ->PRGCHK: bdy curvature ratio at t= 4.5150E+00 seconds is:  5.6299E-02
% MHDEQ: TG1=     4.510000 ; TG2=     4.515000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7554E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6299E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.510000 TO TG2=    4.515000 @ NSTEP     4245
   GFRAME TG2 MOMENTS CHECKSUM:  2.4460479584798D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5150E+00  4.5200E+00 total power(Watts):  2.9739E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.51500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.390069E+02    0.378291E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.369662E+02    0.379666E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.384311E+02    0.362129E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.407527E+02    0.366661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.406542E+02    0.387431E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.383562E+02    0.394910E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.362933E+02    0.407036E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.349551E+02    0.394178E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.348006E+02    0.376680E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.358094E+02    0.358975E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.375798E+02    0.346702E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.397782E+02    0.342656E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.417566E+02    0.348595E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.430563E+02    0.362533E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.433391E+02    0.380430E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.423761E+02    0.397821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.404370E+02    0.410060E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.382222E+02    0.413297E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.362741E+02    0.436957E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.332185E+02    0.420389E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137355E+03   -0.318587E+02    0.393004E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.322484E+02    0.362563E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.345832E+02    0.334311E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.379607E+02    0.318634E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135214E+03   -0.418356E+02    0.317866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134057E+03   -0.452057E+02    0.332902E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133064E+03   -0.470700E+02    0.360820E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133023E+03   -0.465535E+02    0.394235E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134048E+03   -0.437642E+02    0.423500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.400174E+02    0.438871E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.398992E+02    0.290074E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.378539E+02    0.292072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.393018E+02    0.274817E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135447E+03   -0.416346E+02    0.278356E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.415676E+02    0.298322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.391685E+02    0.307100E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136237E+03   -0.372054E+02    0.319301E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.359488E+02    0.306565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.356758E+02    0.290215E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.365737E+02    0.273495E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.385303E+02    0.259751E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.407339E+02    0.255248E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.427270E+02    0.260294E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134797E+03   -0.440452E+02    0.273017E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134654E+03   -0.442432E+02    0.290455E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.431883E+02    0.308368E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.413719E+02    0.320606E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.391570E+02    0.324713E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.371245E+02    0.349466E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.340392E+02    0.334507E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.326465E+02    0.307822E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.331869E+02    0.276697E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.355034E+02    0.248838E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.389813E+02    0.232366E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.428754E+02    0.230669E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.461633E+02    0.244435E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133246E+03   -0.480672E+02    0.269502E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133318E+03   -0.474785E+02    0.302134E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.448405E+02    0.331612E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.408780E+02    0.349795E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.22 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.390717E+02    0.434809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.369223E+02    0.436033E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.384024E+02    0.418607E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.407284E+02    0.423867E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.407160E+02    0.444674E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.383061E+02    0.452009E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.363236E+02    0.463151E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.349969E+02    0.449637E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.349540E+02    0.431295E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.356856E+02    0.415105E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.375613E+02    0.402971E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.397656E+02    0.399634E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.418550E+02    0.405532E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.431487E+02    0.419916E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133974E+03   -0.434164E+02    0.438458E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.424359E+02    0.455956E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.404814E+02    0.467504E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135146E+03   -0.383637E+02    0.469644E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.362896E+02    0.492943E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.332393E+02    0.475320E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.318056E+02    0.448032E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.323091E+02    0.416682E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.345705E+02    0.390025E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.379611E+02    0.375142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134881E+03   -0.418442E+02    0.375422E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133327E+03   -0.454453E+02    0.390663E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132622E+03   -0.471807E+02    0.419825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132448E+03   -0.467525E+02    0.453703E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133564E+03   -0.439265E+02    0.481819E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.401498E+02    0.495840E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.393861E+02    0.336688E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.372416E+02    0.339087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.388015E+02    0.320688E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.411284E+02    0.324736E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.410403E+02    0.345665E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.386444E+02    0.354279E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.366778E+02    0.366455E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.354327E+02    0.353107E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.352691E+02    0.335267E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.361790E+02    0.318054E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.379402E+02    0.305861E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.401394E+02    0.301588E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.421228E+02    0.306994E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134801E+03   -0.434315E+02    0.320277E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.437242E+02    0.337967E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.426587E+02    0.356419E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.408350E+02    0.368640E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.386187E+02    0.372339E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.365805E+02    0.396343E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.335138E+02    0.380935E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.321398E+02    0.353672E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137611E+03   -0.326078E+02    0.322307E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.349324E+02    0.294401E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.384061E+02    0.278062E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135168E+03   -0.422911E+02    0.276759E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134226E+03   -0.455636E+02    0.291310E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133227E+03   -0.474452E+02    0.317582E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133113E+03   -0.469475E+02    0.351169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133842E+03   -0.442904E+02    0.380647E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135225E+03   -0.403249E+02    0.397448E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.399556E+02    0.230057E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136407E+03   -0.379078E+02    0.232323E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.393448E+02    0.215524E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135468E+03   -0.417825E+02    0.217750E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135598E+03   -0.416197E+02    0.237810E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.392351E+02    0.246718E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.370826E+02    0.260476E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.359191E+02    0.247609E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.357315E+02    0.231047E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.368125E+02    0.213065E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.385650E+02    0.201274E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.407627E+02    0.196754E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135238E+03   -0.428621E+02    0.200453E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.440824E+02    0.213080E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134874E+03   -0.442887E+02    0.229691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.432522E+02    0.247151E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135612E+03   -0.413412E+02    0.260047E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.391320E+02    0.264492E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.371276E+02    0.288429E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137107E+03   -0.342202E+02    0.273558E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.327114E+02    0.248721E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.332287E+02    0.218300E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.354419E+02    0.192201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.391030E+02    0.174330E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.429956E+02    0.172396E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134508E+03   -0.461717E+02    0.185964E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133486E+03   -0.480800E+02    0.208911E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133530E+03   -0.475223E+02    0.240014E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.446939E+02    0.270252E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.408757E+02    0.287863E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    660475.598222698     
  ps_ts2 prof sum =   660076.070951289     
  trcom prof sum =    660076.070917249     
  ps_ts2 cur sum  =   9378.26687317571     
  trcom cur sum  =    9378.26687317570     
  
  antenna # iant =            2
  powecha_use(iant) =    669558.836201580     
  ps_ts2 prof sum =   669161.034741214     
  trcom prof sum =    669161.034741214     
  ps_ts2 cur sum  =   11736.9051555709     
  trcom cur sum  =    11736.9051555709     
  
  antenna # iant =            3
  powecha_use(iant) =    515823.729338150     
  ps_ts2 prof sum =   515503.721419155     
  trcom prof sum =    515503.721419156     
  ps_ts2 cur sum  =   6259.41404954275     
  trcom cur sum  =    6259.41404954275     
  
  antenna # iant =            4
  powecha_use(iant) =    574442.160340933     
  ps_ts2 prof sum =   574125.916906241     
  trcom prof sum =    574125.916906241     
  ps_ts2 cur sum  =   9053.48922102180     
  trcom cur sum  =    9053.48922102179     
  
  antenna # iant =            5
  powecha_use(iant) =    553567.285502837     
  ps_ts2 prof sum =   553239.364238738     
  trcom prof sum =    553239.364238738     
  ps_ts2 cur sum  =   10821.9932379783     
  trcom cur sum  =    10821.9932379783     
  
  Total ECH heating:      2972106.10822260     
  Total Current Drive:    47250.0685372895     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4248
 TA= 4.51500E+00 CPU TIME= 1.59709E-01 SECONDS.  DT= 2.57098E-05
  
 TEC1=    4.51499999999993     
 TEC2=    4.51999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0135347222222     
  %check_save_state: izleft hours =    67.9780555555556     
 --> plasma_hash("gframe"): TA= 4.515000E+00 NSTEP=  4248 Hash code:    3188239
 ->PRGCHK: bdy curvature ratio at t= 4.5200E+00 seconds is:  5.6285E-02
% MHDEQ: TG1=     4.515000 ; TG2=     4.520000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1860E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6285E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.515000 TO TG2=    4.520000 @ NSTEP     4248
   GFRAME TG2 MOMENTS CHECKSUM:  2.4467114592290D+04
 %MFRCHK - LABEL "RMS12", #       1= -5.40839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88348E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       3=  9.86972E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.26786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.90041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.13689E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.56407E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -1.94966E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.19804E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.74556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.98549E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  3.49140E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.00711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      16=  1.56643E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.18865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -6.11080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.57917E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.09936E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.09936E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5200E+00  4.5250E+00 total power(Watts):  2.5925E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.52000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135608E+03   -0.389947E+02    0.378568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136270E+03   -0.368532E+02    0.380501E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.383150E+02    0.363007E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.406312E+02    0.367510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135223E+03   -0.406415E+02    0.387748E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135834E+03   -0.382454E+02    0.395768E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.362766E+02    0.407486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.349439E+02    0.394536E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.348869E+02    0.376385E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.358028E+02    0.359244E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.375679E+02    0.347061E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.396590E+02    0.343683E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135130E+03   -0.417437E+02    0.348947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.430423E+02    0.362823E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.434398E+02    0.380196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.422500E+02    0.398702E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.404240E+02    0.410501E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.382099E+02    0.413742E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.362629E+02    0.437303E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.332081E+02    0.420809E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.318488E+02    0.393349E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.322391E+02    0.362852E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137322E+03   -0.343804E+02    0.336110E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.379474E+02    0.319158E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.418216E+02    0.318388E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133909E+03   -0.453087E+02    0.332745E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133137E+03   -0.470557E+02    0.361110E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133095E+03   -0.465387E+02    0.394621E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.437499E+02    0.423941E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135126E+03   -0.399983E+02    0.439237E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.398851E+02    0.290577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.378405E+02    0.292577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136066E+03   -0.392880E+02    0.275234E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.416198E+02    0.278799E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.415472E+02    0.298897E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.391550E+02    0.307639E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.371928E+02    0.319818E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136756E+03   -0.359368E+02    0.307096E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.357602E+02    0.289946E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136998E+03   -0.365613E+02    0.273885E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.385167E+02    0.260073E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.406138E+02    0.256327E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135278E+03   -0.427117E+02    0.260620E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.440333E+02    0.273405E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134720E+03   -0.442272E+02    0.290984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.431734E+02    0.308917E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.412489E+02    0.321795E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.390360E+02    0.325903E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136383E+03   -0.370112E+02    0.350442E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.340292E+02    0.334954E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137746E+03   -0.326352E+02    0.308346E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137814E+03   -0.330836E+02    0.277901E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.353020E+02    0.250746E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136240E+03   -0.389675E+02    0.232570E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.428602E+02    0.230865E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.461469E+02    0.244666E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133318E+03   -0.480502E+02    0.269914E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.474625E+02    0.302690E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.448261E+02    0.332094E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.408651E+02    0.350139E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.389525E+02    0.435586E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.369108E+02    0.436386E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.383901E+02    0.419047E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.407104E+02    0.424304E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.407028E+02    0.445008E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.382939E+02    0.452315E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.363118E+02    0.463488E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.350841E+02    0.449550E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.349431E+02    0.431664E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.357740E+02    0.415062E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135896E+03   -0.375494E+02    0.403383E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.397530E+02    0.400018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.417299E+02    0.406437E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134309E+03   -0.431346E+02    0.420373E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.435178E+02    0.438439E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.423092E+02    0.456621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.404682E+02    0.467865E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.382457E+02    0.470343E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.362775E+02    0.493375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136806E+03   -0.332284E+02    0.475705E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.317957E+02    0.448327E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137439E+03   -0.322063E+02    0.417590E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.345598E+02    0.390356E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.379493E+02    0.375416E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.418311E+02    0.375706E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133822E+03   -0.451993E+02    0.391989E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132692E+03   -0.471659E+02    0.420292E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132738E+03   -0.466174E+02    0.454358E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.440281E+02    0.481980E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134681E+03   -0.401362E+02    0.496288E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.392685E+02    0.337768E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.372297E+02    0.339508E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.386844E+02    0.321883E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.410059E+02    0.325904E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.410273E+02    0.346045E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.386324E+02    0.354596E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.364648E+02    0.367906E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.354222E+02    0.353425E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.352575E+02    0.335709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.361662E+02    0.318576E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.379275E+02    0.306395E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.401254E+02    0.302127E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.421053E+02    0.307556E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134866E+03   -0.434169E+02    0.320804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134744E+03   -0.435964E+02    0.339019E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.426439E+02    0.356736E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.407133E+02    0.369482E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.386068E+02    0.372618E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.365686E+02    0.396722E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.335033E+02    0.381223E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.321297E+02    0.353996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.325971E+02    0.322808E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.349193E+02    0.294910E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.383927E+02    0.278501E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135450E+03   -0.421668E+02    0.277937E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134293E+03   -0.455476E+02    0.291824E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133293E+03   -0.474295E+02    0.318128E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133185E+03   -0.469332E+02    0.351496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.442773E+02    0.380932E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.403120E+02    0.397833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.399373E+02    0.230289E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136485E+03   -0.378943E+02    0.232534E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.393308E+02    0.215732E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.416620E+02    0.218779E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135676E+03   -0.416046E+02    0.238025E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.392215E+02    0.246955E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.371681E+02    0.259995E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.360025E+02    0.247019E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.357175E+02    0.231268E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.367990E+02    0.213291E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.385505E+02    0.201524E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.407472E+02    0.197008E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.427397E+02    0.201534E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.440661E+02    0.213282E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.442730E+02    0.229883E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135208E+03   -0.432368E+02    0.247391E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.413264E+02    0.260367E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.391180E+02    0.264841E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.371145E+02    0.288918E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.340214E+02    0.275548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.327001E+02    0.248963E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.332210E+02    0.218488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.354284E+02    0.192486E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.390863E+02    0.174644E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.428716E+02    0.173562E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134584E+03   -0.461539E+02    0.186228E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133566E+03   -0.480631E+02    0.209094E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134010E+03   -0.472786E+02    0.241727E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.446780E+02    0.270648E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.408613E+02    0.288357E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662595.782792340     
  ps_ts2 prof sum =   662209.262870976     
  trcom prof sum =    662209.262870976     
  ps_ts2 cur sum  =   9389.56476583678     
  trcom cur sum  =    9389.56476583678     
  
  antenna # iant =            2
  powecha_use(iant) =    670257.694846629     
  ps_ts2 prof sum =   669860.448586696     
  trcom prof sum =    669860.448586695     
  ps_ts2 cur sum  =   11728.3521559876     
  trcom cur sum  =    11728.3521559876     
  
  antenna # iant =            3
  powecha_use(iant) =    518419.177319019     
  ps_ts2 prof sum =   518120.120192511     
  trcom prof sum =    518120.120192512     
  ps_ts2 cur sum  =   6275.04918347770     
  trcom cur sum  =    6275.04918347770     
  
  antenna # iant =            4
  powecha_use(iant) =    188876.164761572     
  ps_ts2 prof sum =   188768.512556113     
  trcom prof sum =    188768.512556113     
  ps_ts2 cur sum  =   2971.56033583544     
  trcom cur sum  =    2971.56033583544     
  
  antenna # iant =            5
  powecha_use(iant) =    552332.097701605     
  ps_ts2 prof sum =   552013.656837940     
  trcom prof sum =    552013.656837940     
  ps_ts2 cur sum  =   10781.3456734512     
  trcom cur sum  =    10781.3456734512     
  
  Total ECH heating:      2590972.00104424     
  Total Current Drive:    41145.8721145887     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4266
 TA= 4.52000E+00 CPU TIME= 1.59275E-01 SECONDS.  DT= 6.69829E-04
  
 TEC1=    4.51999999999993     
 TEC2=    4.52499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0278202777774     
  %check_save_state: izleft hours =    67.9636111111111     
 --> plasma_hash("gframe"): TA= 4.520000E+00 NSTEP=  4266 Hash code:   84080879
 ->PRGCHK: bdy curvature ratio at t= 4.5250E+00 seconds is:  5.6271E-02
% MHDEQ: TG1=     4.520000 ; TG2=     4.525000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7600E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6271E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.520000 TO TG2=    4.525000 @ NSTEP     4266
   GFRAME TG2 MOMENTS CHECKSUM:  2.4473749599783D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5250E+00  4.5300E+00 total power(Watts):  2.4072E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.52500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.388781E+02    0.379428E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136342E+03   -0.368430E+02    0.380804E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.383044E+02    0.363320E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.406198E+02    0.367815E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.406300E+02    0.388082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.382347E+02    0.396137E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.362665E+02    0.407902E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.350322E+02    0.394361E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.348775E+02    0.376681E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.355952E+02    0.360779E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.374549E+02    0.348074E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.396421E+02    0.344108E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.417318E+02    0.349328E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.430308E+02    0.363144E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.431994E+02    0.381557E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.422380E+02    0.399094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135218E+03   -0.404124E+02    0.410939E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.381990E+02    0.414180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.361518E+02    0.438087E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.331043E+02    0.421703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137722E+03   -0.317490E+02    0.394243E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137676E+03   -0.322296E+02    0.363161E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.343701E+02    0.336551E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.379359E+02    0.319666E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.418088E+02    0.318903E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134404E+03   -0.450630E+02    0.334446E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133211E+03   -0.470429E+02    0.361432E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133168E+03   -0.465259E+02    0.394998E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134189E+03   -0.437377E+02    0.424390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.399933E+02    0.439598E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.397671E+02    0.291805E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.377273E+02    0.293820E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.392679E+02    0.275702E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.416064E+02    0.279246E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.415342E+02    0.299410E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.391421E+02    0.308168E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.370804E+02    0.321014E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.359308E+02    0.307575E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.357492E+02    0.290433E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.366482E+02    0.273510E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.384035E+02    0.261193E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.405991E+02    0.256646E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.426979E+02    0.260964E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.440190E+02    0.273835E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.443267E+02    0.290784E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.431598E+02    0.309447E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.412365E+02    0.322297E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.390242E+02    0.326392E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136454E+03   -0.370008E+02    0.350804E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.341140E+02    0.334724E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.326254E+02    0.308855E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137884E+03   -0.330730E+02    0.278322E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137495E+03   -0.352903E+02    0.251024E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.388536E+02    0.233642E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.427378E+02    0.231894E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134213E+03   -0.462471E+02    0.244147E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133598E+03   -0.479161E+02    0.271051E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133451E+03   -0.474477E+02    0.303234E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134543E+03   -0.445820E+02    0.333807E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135427E+03   -0.408536E+02    0.350512E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.389418E+02    0.435972E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.369005E+02    0.436762E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.383792E+02    0.419487E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.406985E+02    0.424746E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134939E+03   -0.406921E+02    0.445350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.382834E+02    0.452644E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135980E+03   -0.363023E+02    0.463832E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.350746E+02    0.449873E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.347418E+02    0.432904E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.357640E+02    0.415498E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.375386E+02    0.403789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.396291E+02    0.400931E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.417179E+02    0.406864E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134162E+03   -0.432368E+02    0.420391E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.432757E+02    0.439592E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.422971E+02    0.456965E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.404567E+02    0.468232E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.382348E+02    0.470710E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.362670E+02    0.493810E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.333136E+02    0.475775E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137413E+03   -0.317866E+02    0.448655E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137508E+03   -0.321977E+02    0.418013E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.343566E+02    0.391781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.379388E+02    0.375715E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.418195E+02    0.376006E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133680E+03   -0.453043E+02    0.391856E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132979E+03   -0.470315E+02    0.421172E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132812E+03   -0.466044E+02    0.454717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133490E+03   -0.440152E+02    0.482416E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.400146E+02    0.497001E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136158E+03   -0.399243E+02    0.230525E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.376839E+02    0.234442E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.393174E+02    0.215979E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.416487E+02    0.219010E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.415914E+02    0.238265E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136283E+03   -0.392078E+02    0.247235E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.371562E+02    0.260325E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.359905E+02    0.247299E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137406E+03   -0.357064E+02    0.231497E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.365942E+02    0.215272E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.385372E+02    0.201790E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.407330E+02    0.197276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.427248E+02    0.201792E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.440522E+02    0.213507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.442591E+02    0.230106E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135284E+03   -0.432220E+02    0.247675E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.413132E+02    0.260703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.391056E+02    0.265205E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136991E+03   -0.369030E+02    0.290903E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137683E+03   -0.340114E+02    0.275949E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.326899E+02    0.249235E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.332079E+02    0.218739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.354158E+02    0.192786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.389747E+02    0.175841E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.428558E+02    0.173857E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134661E+03   -0.461382E+02    0.186497E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134059E+03   -0.478162E+02    0.210904E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133895E+03   -0.473742E+02    0.241233E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.445500E+02    0.271802E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.408482E+02    0.288849E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.84 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    668286.854018576     
  ps_ts2 prof sum =   667891.288057629     
  trcom prof sum =    667891.288057629     
  ps_ts2 cur sum  =   9451.96002509262     
  trcom cur sum  =    9451.96002509262     
  
  antenna # iant =            2
  powecha_use(iant) =    667056.470755200     
  ps_ts2 prof sum =   666704.048462019     
  trcom prof sum =    666704.048462019     
  ps_ts2 cur sum  =   11650.3924628810     
  trcom cur sum  =    11650.3924628810     
  
  antenna # iant =            3
  powecha_use(iant) =    518531.434783054     
  ps_ts2 prof sum =   518245.952313649     
  trcom prof sum =    518245.952313649     
  ps_ts2 cur sum  =   6260.63813769064     
  trcom cur sum  =    6260.63813769065     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553366.302686376     
  ps_ts2 prof sum =   553034.006737788     
  trcom prof sum =    553034.006737788     
  ps_ts2 cur sum  =   10786.9535057640     
  trcom cur sum  =    10786.9535057640     
  
  Total ECH heating:      2405875.29557108     
  Total Current Drive:    38149.9441314282     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4271
 TA= 4.52500E+00 CPU TIME= 1.61302E-01 SECONDS.  DT= 1.42252E-03
  
 TEC1=    4.52499999999993     
 TEC2=    4.52999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0420261111110     
  %check_save_state: izleft hours =    67.9494444444444     
 --> plasma_hash("gframe"): TA= 4.525000E+00 NSTEP=  4271 Hash code:   86381185
 ->PRGCHK: bdy curvature ratio at t= 4.5300E+00 seconds is:  5.6257E-02
% MHDEQ: TG1=     4.525000 ; TG2=     4.530000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2890E-03 SECONDS
   DATA R*BT AT EDGE:  2.7623E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6257E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.525000 TO TG2=    4.530000 @ NSTEP     4271
   GFRAME TG2 MOMENTS CHECKSUM:  2.4480384607275D+04
 %MFRCHK - LABEL "RMS12", #       1= -5.51008E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27423E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.90102E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.13487E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.24400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       7=  3.42430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.38022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6= -1.43522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.94350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.01557E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       6=  7.28902E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -4.94839E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -2.67740E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9= -1.40070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.09958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.09958E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.5300E+00  4.5350E+00 total power(Watts):  2.4011E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.53000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.388674E+02    0.379788E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.368331E+02    0.381168E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.382963E+02    0.363666E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.406088E+02    0.368181E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.405094E+02    0.388993E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.382239E+02    0.396552E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.360545E+02    0.409362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.350214E+02    0.394775E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137283E+03   -0.346732E+02    0.378187E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136881E+03   -0.356847E+02    0.360544E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.374447E+02    0.348478E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.396373E+02    0.344490E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.416100E+02    0.350330E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.429060E+02    0.364086E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.431876E+02    0.381935E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.422259E+02    0.399541E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.402913E+02    0.411903E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.380831E+02    0.415142E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.361411E+02    0.438521E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137411E+03   -0.330948E+02    0.422174E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.317403E+02    0.394640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137971E+03   -0.321293E+02    0.364137E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137466E+03   -0.343582E+02    0.336984E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.379258E+02    0.320087E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.416876E+02    0.319998E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134262E+03   -0.451672E+02    0.334270E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133498E+03   -0.469104E+02    0.362357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133455E+03   -0.463930E+02    0.395916E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.436091E+02    0.425328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.398729E+02    0.440444E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.397559E+02    0.292194E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136618E+03   -0.377160E+02    0.294211E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.391611E+02    0.276783E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.414857E+02    0.280365E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.414141E+02    0.300526E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.390270E+02    0.309282E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.370706E+02    0.321434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.357202E+02    0.309449E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137467E+03   -0.355453E+02    0.292322E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.366384E+02    0.273875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.383930E+02    0.261578E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.405898E+02    0.257037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.425769E+02    0.262108E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135217E+03   -0.438944E+02    0.274943E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.440878E+02    0.292580E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.430359E+02    0.310545E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135649E+03   -0.412255E+02    0.322724E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.390136E+02    0.326821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.369909E+02    0.351190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.339152E+02    0.336490E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138103E+03   -0.325257E+02    0.309990E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.330652E+02    0.278681E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.353760E+02    0.250625E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.388435E+02    0.234094E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.427267E+02    0.232358E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.460046E+02    0.246125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.479035E+02    0.271420E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.473158E+02    0.304318E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134401E+03   -0.446855E+02    0.333625E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.407337E+02    0.351513E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.66 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135597E+03   -0.389301E+02    0.436430E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.368895E+02    0.437203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.382631E+02    0.420441E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.405765E+02    0.425685E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.405706E+02    0.446136E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.382728E+02    0.453027E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.362918E+02    0.464210E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.348678E+02    0.451026E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.348254E+02    0.432938E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.357538E+02    0.415980E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.374246E+02    0.404752E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.396227E+02    0.401363E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.417057E+02    0.407354E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.429950E+02    0.421783E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.432634E+02    0.440041E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.422841E+02    0.457366E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.404443E+02    0.468639E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.382231E+02    0.471113E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.360525E+02    0.494797E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137179E+03   -0.331132E+02    0.476830E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.317774E+02    0.449030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137577E+03   -0.321885E+02    0.418490E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136987E+03   -0.344434E+02    0.391633E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.378248E+02    0.376635E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.416968E+02    0.376912E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.450562E+02    0.393255E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.470177E+02    0.421716E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132886E+03   -0.465909E+02    0.455127E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134003E+03   -0.437691E+02    0.483408E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135050E+03   -0.400016E+02    0.497484E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.398106E+02    0.231808E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136845E+03   -0.377732E+02    0.234062E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.393060E+02    0.216435E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.416373E+02    0.219470E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.414740E+02    0.239515E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.390953E+02    0.248464E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.371471E+02    0.260701E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.357885E+02    0.249381E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.357919E+02    0.231109E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.365839E+02    0.215727E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.383279E+02    0.203952E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.406181E+02    0.198545E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.427130E+02    0.202208E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.439300E+02    0.214784E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.441361E+02    0.231367E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.431011E+02    0.248874E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136040E+03   -0.411959E+02    0.261858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.390951E+02    0.265579E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136846E+03   -0.369929E+02    0.290534E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.340026E+02    0.276313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138066E+03   -0.326791E+02    0.249673E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138187E+03   -0.331090E+02    0.220076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.353135E+02    0.194074E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.389615E+02    0.176205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.428431E+02    0.174221E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134522E+03   -0.462393E+02    0.186025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133924E+03   -0.479187E+02    0.210551E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.473615E+02    0.241679E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.445378E+02    0.272170E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.407295E+02    0.289960E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662598.546878505     
  ps_ts2 prof sum =   662187.835610273     
  trcom prof sum =    662187.835610273     
  ps_ts2 cur sum  =   9364.82432743253     
  trcom cur sum  =    9364.82432743252     
  
  antenna # iant =            2
  powecha_use(iant) =    667729.320865360     
  ps_ts2 prof sum =   667321.012380385     
  trcom prof sum =    667321.012380385     
  ps_ts2 cur sum  =   11654.6027708618     
  trcom cur sum  =    11654.6027708618     
  
  antenna # iant =            3
  powecha_use(iant) =    516772.133630546     
  ps_ts2 prof sum =   516455.456785729     
  trcom prof sum =    516455.456785729     
  ps_ts2 cur sum  =   6229.60543014777     
  trcom cur sum  =    6229.60543014777     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554024.034500135     
  ps_ts2 prof sum =   553699.243352681     
  trcom prof sum =    553699.243352681     
  ps_ts2 cur sum  =   10790.3898910060     
  trcom cur sum  =    10790.3898910060     
  
  Total ECH heating:      2399663.54812907     
  Total Current Drive:    38039.4224194481     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4274
 TA= 4.53000E+00 CPU TIME= 1.59188E-01 SECONDS.  DT= 2.24916E-03
  
 TEC1=    4.52999999999993     
 TEC2=    4.53499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0547252777774     
  %check_save_state: izleft hours =    67.9369444444444     
 --> plasma_hash("gframe"): TA= 4.530000E+00 NSTEP=  4274 Hash code:    6915123
 ->PRGCHK: bdy curvature ratio at t= 4.5350E+00 seconds is:  5.6242E-02
% MHDEQ: TG1=     4.530000 ; TG2=     4.535000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3480E-03 SECONDS
   DATA R*BT AT EDGE:  2.7646E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6242E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.530000 TO TG2=    4.535000 @ NSTEP     4274
   GFRAME TG2 MOMENTS CHECKSUM:  2.4487019614768D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5350E+00  4.5400E+00 total power(Watts):  2.4075E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.53500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.388562E+02    0.380144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.368224E+02    0.381522E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136435E+03   -0.381787E+02    0.364637E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.404881E+02    0.369111E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.404976E+02    0.389360E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.381078E+02    0.397466E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.361447E+02    0.409313E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.348144E+02    0.396219E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.346633E+02    0.378534E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.356744E+02    0.360913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.374340E+02    0.348873E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.395191E+02    0.345530E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135560E+03   -0.415979E+02    0.350726E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.428936E+02    0.364453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.430609E+02    0.382823E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.421005E+02    0.400445E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.402748E+02    0.412390E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136152E+03   -0.380715E+02    0.415615E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.361352E+02    0.438942E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.330851E+02    0.422636E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137865E+03   -0.317314E+02    0.395009E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138038E+03   -0.321220E+02    0.364485E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.344471E+02    0.336701E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.378124E+02    0.321174E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.416751E+02    0.320413E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134335E+03   -0.451544E+02    0.334687E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133572E+03   -0.468970E+02    0.362739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133529E+03   -0.463793E+02    0.396336E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134550E+03   -0.435959E+02    0.425827E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.398613E+02    0.440864E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.397471E+02    0.292534E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.377050E+02    0.294572E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136495E+03   -0.391500E+02    0.277141E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.414749E+02    0.280719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.414021E+02    0.300892E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136434E+03   -0.390159E+02    0.309667E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.370601E+02    0.321835E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.358072E+02    0.309128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.355333E+02    0.292691E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.364310E+02    0.275803E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.383824E+02    0.261977E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.404726E+02    0.258234E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.425587E+02    0.262545E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.438820E+02    0.275305E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.440751E+02    0.292946E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135425E+03   -0.430234E+02    0.310938E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.411040E+02    0.323809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.388978E+02    0.327897E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.369805E+02    0.351580E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137703E+03   -0.339054E+02    0.336894E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138172E+03   -0.325140E+02    0.310382E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138245E+03   -0.329646E+02    0.279832E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.353661E+02    0.251058E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.388322E+02    0.234564E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.427138E+02    0.232833E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.459901E+02    0.246578E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133746E+03   -0.478902E+02    0.271780E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.473023E+02    0.304709E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.444415E+02    0.335286E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.407237E+02    0.351896E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.388117E+02    0.437286E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.367761E+02    0.438054E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.382515E+02    0.420921E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.405642E+02    0.426173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.405584E+02    0.446552E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.381557E+02    0.453782E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.361792E+02    0.464931E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.348566E+02    0.451411E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.348149E+02    0.433386E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.356432E+02    0.416924E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.374135E+02    0.405182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.396111E+02    0.401779E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.415816E+02    0.408274E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134740E+03   -0.429817E+02    0.422283E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134263E+03   -0.433655E+02    0.440124E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.421585E+02    0.458092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.403220E+02    0.469343E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.380995E+02    0.471839E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.361424E+02    0.494987E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.331043E+02    0.477206E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137785E+03   -0.316763E+02    0.449806E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137647E+03   -0.321792E+02    0.418944E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.344339E+02    0.392000E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.378158E+02    0.376987E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135392E+03   -0.416847E+02    0.377270E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.451607E+02    0.393159E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.470041E+02    0.422216E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133178E+03   -0.464564E+02    0.455869E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133858E+03   -0.438714E+02    0.483590E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135124E+03   -0.399888E+02    0.497955E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.397990E+02    0.232280E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.377620E+02    0.234533E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136737E+03   -0.391935E+02    0.217733E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.415189E+02    0.220758E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.414615E+02    0.239985E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.390842E+02    0.248913E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.370375E+02    0.261905E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.358786E+02    0.248967E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137757E+03   -0.355916E+02    0.233285E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.366702E+02    0.215291E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.384166E+02    0.203483E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.406069E+02    0.198929E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.425934E+02    0.203451E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.439166E+02    0.215225E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.441227E+02    0.231844E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.430886E+02    0.249325E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.411833E+02    0.262257E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.389806E+02    0.266743E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136916E+03   -0.369804E+02    0.290903E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138052E+03   -0.338965E+02    0.277491E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.325813E+02    0.250964E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138256E+03   -0.331001E+02    0.220532E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.353021E+02    0.194452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136723E+03   -0.389492E+02    0.176557E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.428309E+02    0.174565E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.459994E+02    0.188064E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.476719E+02    0.212588E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134451E+03   -0.471130E+02    0.243675E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.446390E+02    0.271801E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.407179E+02    0.290323E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    666016.227803860     
  ps_ts2 prof sum =   665630.314524474     
  trcom prof sum =    665630.314524473     
  ps_ts2 cur sum  =   9402.36498878813     
  trcom cur sum  =    9402.36498878813     
  
  antenna # iant =            2
  powecha_use(iant) =    670985.052432025     
  ps_ts2 prof sum =   670590.408202679     
  trcom prof sum =    670590.408202678     
  ps_ts2 cur sum  =   11699.5234529669     
  trcom cur sum  =    11699.5234529669     
  
  antenna # iant =            3
  powecha_use(iant) =    517136.646421087     
  ps_ts2 prof sum =   516843.028007489     
  trcom prof sum =    516843.028007490     
  ps_ts2 cur sum  =   6224.71987754368     
  trcom cur sum  =    6224.71987754369     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553335.405966673     
  ps_ts2 prof sum =   553012.625501754     
  trcom prof sum =    553012.625501754     
  ps_ts2 cur sum  =   10767.1718344980     
  trcom cur sum  =    10767.1718344980     
  
  Total ECH heating:      2406076.37623640     
  Total Current Drive:    38093.7801537968     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4276
 TA= 4.53500E+00 CPU TIME= 1.59659E-01 SECONDS.  DT= 3.43854E-03
  
 TEC1=    4.53499999999993     
 TEC2=    4.53999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0701580555556     
  %check_save_state: izleft hours =    67.9213888888889     
 --> plasma_hash("gframe"): TA= 4.535000E+00 NSTEP=  4276 Hash code:   23729450
 ->PRGCHK: bdy curvature ratio at t= 4.5400E+00 seconds is:  5.6228E-02
% MHDEQ: TG1=     4.535000 ; TG2=     4.540000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1450E-03 SECONDS
   DATA R*BT AT EDGE:  2.7669E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6228E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.535000 TO TG2=    4.540000 @ NSTEP     4276
   GFRAME TG2 MOMENTS CHECKSUM:  2.4493654622260D+04
 %MFRCHK - LABEL "RMS12", #       1= -5.59590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88231E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27959E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.90154E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.13316E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7=  1.66516E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       7= -3.25844E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.53395E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  6.82674E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.90808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  4.45790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.18868E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -3.32584E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.08983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       9=  2.57393E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.63247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.75934E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.75934E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5400E+00  4.5450E+00 total power(Watts):  2.4091E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.54000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.387361E+02    0.381084E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.367072E+02    0.382466E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136505E+03   -0.381649E+02    0.365042E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.404734E+02    0.369510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.404825E+02    0.389767E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.380937E+02    0.397873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.361308E+02    0.409760E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.349011E+02    0.396083E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137204E+03   -0.347480E+02    0.378337E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.356617E+02    0.361318E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.374207E+02    0.349316E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.395048E+02    0.345990E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.415829E+02    0.351176E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.428780E+02    0.364866E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.430451E+02    0.383216E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.420847E+02    0.400871E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.402639E+02    0.412841E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.380571E+02    0.416091E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.359138E+02    0.440225E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137324E+03   -0.331671E+02    0.422638E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.316283E+02    0.395946E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.321087E+02    0.364890E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.342431E+02    0.338507E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.377989E+02    0.321667E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.416601E+02    0.320914E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.449049E+02    0.336423E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133643E+03   -0.468802E+02    0.363169E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133601E+03   -0.463620E+02    0.396772E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.435795E+02    0.426333E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.398460E+02    0.441323E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.397308E+02    0.293067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.375915E+02    0.295812E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.391355E+02    0.277689E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.414607E+02    0.281260E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.413876E+02    0.301401E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136501E+03   -0.390020E+02    0.310167E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.369459E+02    0.323012E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.357946E+02    0.309610E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.356182E+02    0.292438E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.365172E+02    0.275556E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.382680E+02    0.263360E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.404590E+02    0.258855E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.425492E+02    0.263118E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.438670E+02    0.275868E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135001E+03   -0.441734E+02    0.292766E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.430079E+02    0.311457E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.410891E+02    0.324305E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.388831E+02    0.328389E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136885E+03   -0.368657E+02    0.352639E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.339882E+02    0.336685E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.325033E+02    0.310854E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138311E+03   -0.329536E+02    0.280351E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.351643E+02    0.253336E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136730E+03   -0.388197E+02    0.235220E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135986E+03   -0.425910E+02    0.234315E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.460900E+02    0.246490E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134020E+03   -0.477548E+02    0.273081E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133874E+03   -0.472857E+02    0.305243E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.444253E+02    0.335785E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.407071E+02    0.352346E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.387973E+02    0.437744E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.367613E+02    0.438512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.382367E+02    0.421413E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.405480E+02    0.426675E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.405427E+02    0.446995E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.381409E+02    0.454180E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.361644E+02    0.465308E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.349424E+02    0.451417E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.346050E+02    0.434712E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.356295E+02    0.417397E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.373993E+02    0.405618E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.394883E+02    0.402698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.415696E+02    0.408721E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.430796E+02    0.422364E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.431187E+02    0.441353E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.421421E+02    0.458491E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.403062E+02    0.469720E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.380909E+02    0.472198E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.361277E+02    0.495425E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.330912E+02    0.477588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137856E+03   -0.316641E+02    0.450193E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137944E+03   -0.320740E+02    0.419893E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137579E+03   -0.342274E+02    0.393475E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136472E+03   -0.378001E+02    0.377374E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.416695E+02    0.377668E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134115E+03   -0.451439E+02    0.393584E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133408E+03   -0.468648E+02    0.423157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133251E+03   -0.464385E+02    0.456292E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.438518E+02    0.484019E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135420E+03   -0.398633E+02    0.498651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.397862E+02    0.232939E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.377502E+02    0.235184E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.391821E+02    0.218358E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.415058E+02    0.221404E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.414478E+02    0.240658E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.390711E+02    0.249564E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.370254E+02    0.262495E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.358628E+02    0.249631E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.355809E+02    0.233923E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137301E+03   -0.366587E+02    0.215915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.384053E+02    0.204066E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.405945E+02    0.199515E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136022E+03   -0.425809E+02    0.204053E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135601E+03   -0.439030E+02    0.215869E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.441081E+02    0.232523E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.430743E+02    0.249982E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.411679E+02    0.262876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136695E+03   -0.389680E+02    0.267315E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.369681E+02    0.291410E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138109E+03   -0.338884E+02    0.277996E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138413E+03   -0.325713E+02    0.251585E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138319E+03   -0.330907E+02    0.221138E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137951E+03   -0.352924E+02    0.195000E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.387430E+02    0.178880E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.427139E+02    0.175974E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.459861E+02    0.188642E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.476571E+02    0.213244E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134306E+03   -0.472150E+02    0.243592E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.443965E+02    0.273851E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.407037E+02    0.290842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669327.573716410     
  ps_ts2 prof sum =   668942.898763490     
  trcom prof sum =    668942.898763490     
  ps_ts2 cur sum  =   9442.43804648439     
  trcom cur sum  =    9442.43804648439     
  
  antenna # iant =            2
  powecha_use(iant) =    669560.019946789     
  ps_ts2 prof sum =   669202.161129422     
  trcom prof sum =    669202.161129421     
  ps_ts2 cur sum  =   11670.2725000907     
  trcom cur sum  =    11670.2725000907     
  
  antenna # iant =            3
  powecha_use(iant) =    518723.816591547     
  ps_ts2 prof sum =   518418.325947965     
  trcom prof sum =    518418.325947966     
  ps_ts2 cur sum  =   6236.54556936832     
  trcom cur sum  =    6236.54556936833     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    551500.072486926     
  ps_ts2 prof sum =   551185.426669856     
  trcom prof sum =    551185.426669856     
  ps_ts2 cur sum  =   10726.9402862128     
  trcom cur sum  =    10726.9402862128     
  
  Total ECH heating:      2407748.81251073     
  Total Current Drive:    38076.1964021563     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4278
 TA= 4.54000E+00 CPU TIME= 1.60195E-01 SECONDS.  DT= 1.95182E-03
  
 TEC1=    4.53999999999993     
 TEC2=    4.54499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0855191666667     
  %check_save_state: izleft hours =    67.9061111111111     
 --> plasma_hash("gframe"): TA= 4.540000E+00 NSTEP=  4278 Hash code:   66055627
 ->PRGCHK: bdy curvature ratio at t= 4.5450E+00 seconds is:  5.6214E-02
% MHDEQ: TG1=     4.540000 ; TG2=     4.545000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7692E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6214E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.540000 TO TG2=    4.545000 @ NSTEP     4278
   GFRAME TG2 MOMENTS CHECKSUM:  2.4500289629753D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.5450E+00  4.5500E+00 total power(Watts):  2.4075E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.54500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.387230E+02    0.381490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.366950E+02    0.382867E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381523E+02    0.365468E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.404598E+02    0.369935E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.404687E+02    0.390179E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.380804E+02    0.398293E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.361178E+02    0.410222E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.348893E+02    0.396491E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137275E+03   -0.347364E+02    0.378739E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137536E+03   -0.354519E+02    0.362964E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.373060E+02    0.350407E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.394917E+02    0.346466E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.414584E+02    0.352248E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.428637E+02    0.365309E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.430304E+02    0.383633E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.420700E+02    0.401316E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.401399E+02    0.413784E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.380432E+02    0.416576E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.360022E+02    0.440282E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.329658E+02    0.424066E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138233E+03   -0.316174E+02    0.396348E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.320985E+02    0.365308E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137886E+03   -0.342313E+02    0.338989E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.377872E+02    0.322160E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.415366E+02    0.322090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.448901E+02    0.336937E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133927E+03   -0.467446E+02    0.364157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133888E+03   -0.462259E+02    0.397695E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134473E+03   -0.436791E+02    0.426459E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.398313E+02    0.441812E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.396129E+02    0.294312E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.375798E+02    0.296315E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136842E+03   -0.390212E+02    0.278986E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.414480E+02    0.281801E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.413714E+02    0.301934E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.389897E+02    0.310669E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.369341E+02    0.323507E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.357833E+02    0.310103E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.356078E+02    0.292929E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137348E+03   -0.365022E+02    0.276124E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.382567E+02    0.263942E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.404468E+02    0.259462E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.424279E+02    0.264475E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.437410E+02    0.277163E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.439327E+02    0.294710E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.429940E+02    0.311972E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.410758E+02    0.324809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.388705E+02    0.328888E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.368535E+02    0.353093E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138061E+03   -0.337881E+02    0.338505E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138308E+03   -0.324949E+02    0.311330E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138377E+03   -0.329437E+02    0.280864E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.351538E+02    0.253935E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.387070E+02    0.236656E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.425788E+02    0.234930E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.458425E+02    0.248685E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134087E+03   -0.477403E+02    0.273659E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.471515E+02    0.306438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.444172E+02    0.336268E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.405846E+02    0.353417E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.69 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.387802E+02    0.438249E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.367485E+02    0.438989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.381173E+02    0.422363E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.405270E+02    0.427209E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.404177E+02    0.447837E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.381270E+02    0.454608E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.361516E+02    0.465696E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.349296E+02    0.451838E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137354E+03   -0.345920E+02    0.435202E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136899E+03   -0.356166E+02    0.417882E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.373864E+02    0.406057E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.394743E+02    0.403136E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.415500E+02    0.409206E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.428353E+02    0.423738E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.431028E+02    0.441853E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.421270E+02    0.458920E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135437E+03   -0.402937E+02    0.470133E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.380764E+02    0.472600E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136353E+03   -0.361114E+02    0.495885E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.331739E+02    0.477657E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137927E+03   -0.316518E+02    0.450616E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.320627E+02    0.420370E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.342157E+02    0.393879E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.377875E+02    0.377782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135752E+03   -0.415439E+02    0.378626E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134187E+03   -0.451283E+02    0.394021E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133479E+03   -0.468477E+02    0.423703E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133323E+03   -0.464213E+02    0.456764E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.436042E+02    0.484990E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.398470E+02    0.499127E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.397731E+02    0.233555E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.376400E+02    0.236623E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136867E+03   -0.391712E+02    0.218923E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136315E+03   -0.414941E+02    0.221984E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.414358E+02    0.241277E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.390597E+02    0.250176E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.370145E+02    0.263076E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137931E+03   -0.356600E+02    0.251891E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.355705E+02    0.234513E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137796E+03   -0.364572E+02    0.218192E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.383953E+02    0.204587E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.405847E+02    0.200025E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.425694E+02    0.204583E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.438909E+02    0.216440E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.439843E+02    0.233940E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.429499E+02    0.251397E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.411560E+02    0.263464E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.389545E+02    0.267900E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.368581E+02    0.292655E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138175E+03   -0.338779E+02    0.278520E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138477E+03   -0.325617E+02    0.252178E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138384E+03   -0.330817E+02    0.221692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138020E+03   -0.352834E+02    0.195501E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137075E+03   -0.388321E+02    0.178463E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.427034E+02    0.176448E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.459744E+02    0.189144E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134334E+03   -0.477601E+02    0.213032E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134370E+03   -0.472011E+02    0.244239E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.443828E+02    0.274417E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.406911E+02    0.291363E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667889.446377983     
  ps_ts2 prof sum =   667504.002943130     
  trcom prof sum =    667504.002943130     
  ps_ts2 cur sum  =   9420.98809493102     
  trcom cur sum  =    9420.98809493102     
  
  antenna # iant =            2
  powecha_use(iant) =    670532.818356421     
  ps_ts2 prof sum =   670141.206178376     
  trcom prof sum =    670141.206178375     
  ps_ts2 cur sum  =   11688.0609084270     
  trcom cur sum  =    11688.0609084270     
  
  antenna # iant =            3
  powecha_use(iant) =    516908.228677589     
  ps_ts2 prof sum =   516613.571080170     
  trcom prof sum =    516613.571080171     
  ps_ts2 cur sum  =   6210.63843483312     
  trcom cur sum  =    6210.63843483312     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552215.558056262     
  ps_ts2 prof sum =   551912.480045683     
  trcom prof sum =    551912.480045683     
  ps_ts2 cur sum  =   10739.2020186552     
  trcom cur sum  =    10739.2020186552     
  
  Total ECH heating:      2406171.26024736     
  Total Current Drive:    38058.8894568464     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4281
 TA= 4.54500E+00 CPU TIME= 1.59990E-01 SECONDS.  DT= 7.60507E-04
  
 TEC1=    4.54499999999993     
 TEC2=    4.54999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.0995513888888     
  %check_save_state: izleft hours =    67.8919444444444     
 --> plasma_hash("gframe"): TA= 4.545000E+00 NSTEP=  4281 Hash code:  119517283
 ->PRGCHK: bdy curvature ratio at t= 4.5500E+00 seconds is:  5.6200E-02
% MHDEQ: TG1=     4.545000 ; TG2=     4.550000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3230E-03 SECONDS
   DATA R*BT AT EDGE:  2.7715E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6200E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.545000 TO TG2=    4.550000 @ NSTEP     4281
   GFRAME TG2 MOMENTS CHECKSUM:  2.4506924558079D+04
 %MFRCHK - LABEL "RMS11", #       1= -2.87905E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.70721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.88162E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.28656E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -2.90221E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.13094E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.25339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6=  2.04982E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.73337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  4.85022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.86212E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.03167E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.23741E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.22113E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -3.62483E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -1.48219E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.66412E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.90685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.90685E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5500E+00  4.5550E+00 total power(Watts):  2.4088E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.55000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.387115E+02    0.381892E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136925E+03   -0.366840E+02    0.383259E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.381413E+02    0.365897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.404481E+02    0.370360E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.403472E+02    0.391098E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.380689E+02    0.398704E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.360060E+02    0.411139E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.346828E+02    0.397945E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137793E+03   -0.345314E+02    0.380277E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.355407E+02    0.362778E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136982E+03   -0.372982E+02    0.350855E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.394803E+02    0.346945E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.414464E+02    0.352717E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135602E+03   -0.427377E+02    0.366308E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.430175E+02    0.384048E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.419444E+02    0.402220E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.401260E+02    0.414262E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136587E+03   -0.379261E+02    0.417516E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.359908E+02    0.440772E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.329554E+02    0.424554E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138306E+03   -0.316080E+02    0.396741E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138478E+03   -0.319978E+02    0.366336E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.343175E+02    0.338804E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.376729E+02    0.323355E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.415246E+02    0.322606E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134756E+03   -0.449938E+02    0.336835E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.467309E+02    0.364609E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133962E+03   -0.462115E+02    0.398129E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.434336E+02    0.427811E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135985E+03   -0.397092E+02    0.442713E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.396023E+02    0.294791E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.375698E+02    0.296793E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.390109E+02    0.279455E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.413285E+02    0.283016E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.412544E+02    0.303120E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.388747E+02    0.311869E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.369230E+02    0.324011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.355773E+02    0.312032E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.354052E+02    0.294908E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.364959E+02    0.276559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.382472E+02    0.264411E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.404360E+02    0.259939E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.424169E+02    0.264947E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.437295E+02    0.277632E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135562E+03   -0.439200E+02    0.295212E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.428697E+02    0.313158E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.410641E+02    0.325328E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.388594E+02    0.329394E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.368430E+02    0.353544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138129E+03   -0.337773E+02    0.338997E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138597E+03   -0.323941E+02    0.312550E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138446E+03   -0.329352E+02    0.281321E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.352408E+02    0.253599E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.386982E+02    0.237186E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.425691E+02    0.235475E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.458358E+02    0.249175E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.477278E+02    0.274152E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134223E+03   -0.471382E+02    0.306972E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.442823E+02    0.337434E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.405729E+02    0.353881E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.387703E+02    0.438746E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.366342E+02    0.439897E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.381048E+02    0.422870E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.404105E+02    0.428137E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.404042E+02    0.448326E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.380088E+02    0.455432E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.360379E+02    0.466458E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.347210E+02    0.453057E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.346796E+02    0.435264E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.354055E+02    0.419294E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.372757E+02    0.406967E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.394622E+02    0.403560E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.414257E+02    0.410119E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.428216E+02    0.424255E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.432035E+02    0.442015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.421121E+02    0.459393E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.401672E+02    0.470876E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.380634E+02    0.473026E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.359987E+02    0.496612E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.329740E+02    0.478700E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.316427E+02    0.451049E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.320526E+02    0.420840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137499E+03   -0.343025E+02    0.393736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.376727E+02    0.378752E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.415317E+02    0.379033E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.448788E+02    0.395424E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133552E+03   -0.468326E+02    0.424248E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133614E+03   -0.462851E+02    0.457581E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.437049E+02    0.485188E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.398322E+02    0.499624E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.396624E+02    0.234909E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.376314E+02    0.237150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.391620E+02    0.219514E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.413821E+02    0.223368E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.413194E+02    0.242602E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.389479E+02    0.251476E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.368071E+02    0.265138E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137999E+03   -0.356516E+02    0.252378E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.354672E+02    0.235896E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.365450E+02    0.217910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.381886E+02    0.206949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136804E+03   -0.404726E+02    0.201522E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.424570E+02    0.206027E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.437709E+02    0.217862E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.439735E+02    0.234491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.429410E+02    0.251892E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.410396E+02    0.264707E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.388422E+02    0.269138E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.368483E+02    0.293122E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.338694E+02    0.278976E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138544E+03   -0.325541E+02    0.252644E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138665E+03   -0.329854E+02    0.223138E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.351854E+02    0.196999E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.388237E+02    0.179065E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.426943E+02    0.177054E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.458522E+02    0.190628E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.475172E+02    0.215235E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.469583E+02    0.246280E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135481E+03   -0.443715E+02    0.274889E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.405727E+02    0.292566E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.83 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664603.759990267     
  ps_ts2 prof sum =   664219.103146339     
  trcom prof sum =    664219.103146339     
  ps_ts2 cur sum  =   9379.11593697813     
  trcom cur sum  =    9379.11593697812     
  
  antenna # iant =            2
  powecha_use(iant) =    672694.134234008     
  ps_ts2 prof sum =   672309.493851384     
  trcom prof sum =    672309.493812981     
  ps_ts2 cur sum  =   11725.2034581285     
  trcom cur sum  =    11725.2034581285     
  
  antenna # iant =            3
  powecha_use(iant) =    518535.040267106     
  ps_ts2 prof sum =   518226.804766564     
  trcom prof sum =    518226.804766565     
  ps_ts2 cur sum  =   6229.92677803744     
  trcom cur sum  =    6229.92677803745     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552942.013424894     
  ps_ts2 prof sum =   552587.475569534     
  trcom prof sum =    552587.475569534     
  ps_ts2 cur sum  =   10752.8904129371     
  trcom cur sum  =    10752.8904129371     
  
  Total ECH heating:      2407342.87729542     
  Total Current Drive:    38087.1365860812     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4286
 TA= 4.55000E+00 CPU TIME= 1.62084E-01 SECONDS.  DT= 7.69001E-04
  
 TEC1=    4.54999999999993     
 TEC2=    4.55499999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1155327777778     
  %check_save_state: izleft hours =    67.8761111111111     
 --> plasma_hash("gframe"): TA= 4.550000E+00 NSTEP=  4286 Hash code:   68774161
 ->PRGCHK: bdy curvature ratio at t= 4.5550E+00 seconds is:  5.6187E-02
% MHDEQ: TG1=     4.550000 ; TG2=     4.555000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7738E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6187E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.550000 TO TG2=    4.555000 @ NSTEP     4286
   GFRAME TG2 MOMENTS CHECKSUM:  2.4513559486405D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5550E+00  4.5600E+00 total power(Watts):  2.4119E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.55500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.385945E+02    0.382850E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.365718E+02    0.384218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.380260E+02    0.366920E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.403274E+02    0.371361E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.403404E+02    0.391501E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.379528E+02    0.399628E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137139E+03   -0.359951E+02    0.411572E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137788E+03   -0.346724E+02    0.398351E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137641E+03   -0.346190E+02    0.380108E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.355308E+02    0.363216E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.372849E+02    0.351344E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.393627E+02    0.348062E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.414347E+02    0.353202E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.427255E+02    0.366760E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.428908E+02    0.384989E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.419316E+02    0.402659E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136086E+03   -0.401144E+02    0.414701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.379135E+02    0.417980E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.359793E+02    0.441268E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137988E+03   -0.329453E+02    0.425017E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138376E+03   -0.315991E+02    0.397135E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138548E+03   -0.319888E+02    0.366763E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138244E+03   -0.341165E+02    0.340634E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.376627E+02    0.323859E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.415120E+02    0.323136E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.447480E+02    0.338597E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134284E+03   -0.465976E+02    0.365625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134242E+03   -0.460822E+02    0.399029E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.435354E+02    0.427934E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.396964E+02    0.443225E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.395917E+02    0.295299E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.374583E+02    0.298030E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.390011E+02    0.279963E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.413180E+02    0.283521E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136369E+03   -0.412428E+02    0.303636E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.388634E+02    0.312380E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.368121E+02    0.325199E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137681E+03   -0.356631E+02    0.311829E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.354932E+02    0.294643E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137695E+03   -0.363884E+02    0.277848E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.381353E+02    0.265740E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.403213E+02    0.261276E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.424065E+02    0.265504E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.436058E+02    0.278896E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.437991E+02    0.296414E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.428581E+02    0.313687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.409484E+02    0.326486E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.387438E+02    0.330574E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.367311E+02    0.354636E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138197E+03   -0.337679E+02    0.339487E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138664E+03   -0.323861E+02    0.313035E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138731E+03   -0.328357E+02    0.282601E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138323E+03   -0.350425E+02    0.255786E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.386898E+02    0.237762E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.424509E+02    0.236869E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135032E+03   -0.459402E+02    0.249011E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.475967E+02    0.275417E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.470061E+02    0.308177E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.442697E+02    0.337967E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.405605E+02    0.354364E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.386513E+02    0.439657E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.366225E+02    0.440397E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.380931E+02    0.423351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.403977E+02    0.428650E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.403909E+02    0.448832E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.380005E+02    0.455873E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.360261E+02    0.466862E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137249E+03   -0.348085E+02    0.453128E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.346685E+02    0.435765E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137266E+03   -0.354948E+02    0.419284E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.372600E+02    0.407399E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.393428E+02    0.404474E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.414127E+02    0.410559E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.426945E+02    0.425186E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.429592E+02    0.443293E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.419849E+02    0.460192E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.401539E+02    0.471293E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.379451E+02    0.473741E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136721E+03   -0.359860E+02    0.497079E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.329615E+02    0.479096E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138292E+03   -0.315418E+02    0.451891E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138382E+03   -0.319503E+02    0.421774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138018E+03   -0.340988E+02    0.395212E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136908E+03   -0.376620E+02    0.379165E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.415197E+02    0.379459E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.449832E+02    0.395372E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133839E+03   -0.466966E+02    0.425177E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133686E+03   -0.462702E+02    0.458079E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.434575E+02    0.486142E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.397088E+02    0.500350E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.396538E+02    0.235490E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137811E+03   -0.374246E+02    0.239387E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.390526E+02    0.220949E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.413700E+02    0.223991E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.413118E+02    0.243173E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.389389E+02    0.252039E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.368975E+02    0.264876E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137848E+03   -0.357398E+02    0.252103E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138228E+03   -0.354596E+02    0.236460E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.365378E+02    0.218496E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.382802E+02    0.206691E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.404646E+02    0.202148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.424443E+02    0.206684E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.437617E+02    0.218471E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.438526E+02    0.235886E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.429307E+02    0.252463E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.410293E+02    0.265248E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.388338E+02    0.269668E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.368389E+02    0.293614E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138529E+03   -0.337679E+02    0.280262E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138826E+03   -0.324575E+02    0.254029E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138728E+03   -0.329791E+02    0.223706E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.351762E+02    0.197644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137627E+03   -0.386193E+02    0.181470E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.425806E+02    0.178557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.458429E+02    0.191284E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134672E+03   -0.476227E+02    0.215065E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134712E+03   -0.470620E+02    0.246136E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135759E+03   -0.442466E+02    0.276161E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.405620E+02    0.293078E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    669387.883280398     
  ps_ts2 prof sum =   669010.248589246     
  trcom prof sum =    669010.248589247     
  ps_ts2 cur sum  =   9446.88225436829     
  trcom cur sum  =    9446.88225436828     
  
  antenna # iant =            2
  powecha_use(iant) =    669627.864546285     
  ps_ts2 prof sum =   669248.229344876     
  trcom prof sum =    669248.229311698     
  ps_ts2 cur sum  =   11673.7138656281     
  trcom cur sum  =    11673.7138656281     
  
  antenna # iant =            3
  powecha_use(iant) =    520686.520145044     
  ps_ts2 prof sum =   520371.207842716     
  trcom prof sum =    520371.207842716     
  ps_ts2 cur sum  =   6251.80204816634     
  trcom cur sum  =    6251.80204816635     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552166.465776241     
  ps_ts2 prof sum =   551850.831480634     
  trcom prof sum =    551850.831480634     
  ps_ts2 cur sum  =   10743.2988590239     
  trcom cur sum  =    10743.2988590239     
  
  Total ECH heating:      2410480.51722429     
  Total Current Drive:    38115.6970271866     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4291
 TA= 4.55500E+00 CPU TIME= 1.68144E-01 SECONDS.  DT= 7.07785E-04
  
 TEC1=    4.55499999999993     
 TEC2=    4.55999999999993     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1269022222223     
  %check_save_state: izleft hours =    67.8647222222222     
 --> plasma_hash("gframe"): TA= 4.555000E+00 NSTEP=  4291 Hash code:   35849226
 ->PRGCHK: bdy curvature ratio at t= 4.5600E+00 seconds is:  5.6207E-02
% MHDEQ: TG1=     4.555000 ; TG2=     4.560000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.5740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7735E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6207E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.555000 TO TG2=    4.560000 @ NSTEP     4291
   GFRAME TG2 MOMENTS CHECKSUM:  2.4515582725560D+04
 %MFRCHK - LABEL "RMS11", #       1= -5.01101E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -5.60500E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.91678E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.27650E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.00648E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.04774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  3.17765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       6= -4.86225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.00249E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  3.62699E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.86032E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  5.79320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.30325E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  1.44194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.38173E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -3.07666E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.69778E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.83396E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.83396E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5600E+00  4.5650E+00 total power(Watts):  2.4089E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.56000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136569E+03   -0.386978E+02    0.382325E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.366712E+02    0.383690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.380235E+02    0.366955E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.403248E+02    0.371391E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.403324E+02    0.391537E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136796E+03   -0.379500E+02    0.399651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.359923E+02    0.411604E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137803E+03   -0.346697E+02    0.398373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.345192E+02    0.380709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137470E+03   -0.355284E+02    0.363257E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137073E+03   -0.372824E+02    0.351392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.393600E+02    0.348112E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.414320E+02    0.353250E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.427227E+02    0.366796E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.428878E+02    0.385016E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.419284E+02    0.402689E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.401117E+02    0.414740E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.379110E+02    0.418027E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.359763E+02    0.441345E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138003E+03   -0.329430E+02    0.425084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138391E+03   -0.315969E+02    0.397159E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138562E+03   -0.319866E+02    0.366799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.343063E+02    0.339354E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.376602E+02    0.323926E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.415156E+02    0.323172E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.447452E+02    0.338654E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134087E+03   -0.467147E+02    0.365108E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134050E+03   -0.461943E+02    0.398596E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.434162E+02    0.428415E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.396933E+02    0.443298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136778E+03   -0.395893E+02    0.295385E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137191E+03   -0.375576E+02    0.297379E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.389989E+02    0.280068E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.413156E+02    0.283622E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.412403E+02    0.303717E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.388610E+02    0.312450E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.369107E+02    0.324579E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.356653E+02    0.311868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138040E+03   -0.353936E+02    0.295475E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137923E+03   -0.362887E+02    0.278718E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137155E+03   -0.382349E+02    0.265062E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.403156E+02    0.261406E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.424044E+02    0.265615E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.437161E+02    0.278273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.439061E+02    0.295820E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.428552E+02    0.313755E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.409410E+02    0.326579E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136754E+03   -0.388464E+02    0.329974E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137109E+03   -0.368308E+02    0.354065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138210E+03   -0.337660E+02    0.339548E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138677E+03   -0.323839E+02    0.313101E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138524E+03   -0.329253E+02    0.281908E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137902E+03   -0.352311E+02    0.254251E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.386881E+02    0.237862E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136195E+03   -0.425578E+02    0.236168E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135043E+03   -0.459378E+02    0.249130E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.475939E+02    0.275534E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.471226E+02    0.307584E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.442670E+02    0.338019E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.405587E+02    0.354407E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.386479E+02    0.439743E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.366194E+02    0.440473E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.380901E+02    0.423414E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.403944E+02    0.428719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.403876E+02    0.448908E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.379932E+02    0.455956E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.360228E+02    0.466923E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.347067E+02    0.453581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.346652E+02    0.435835E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.353908E+02    0.419805E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136855E+03   -0.372572E+02    0.407428E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.394476E+02    0.404014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.414096E+02    0.410597E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.428045E+02    0.424826E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.429558E+02    0.443362E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135421E+03   -0.419811E+02    0.460269E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135828E+03   -0.401501E+02    0.471351E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.379416E+02    0.473800E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136736E+03   -0.359825E+02    0.497170E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137787E+03   -0.329584E+02    0.479154E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138313E+03   -0.315382E+02    0.451962E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.320404E+02    0.421347E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.342902E+02    0.394157E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.376593E+02    0.379182E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.415171E+02    0.379474E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.449800E+02    0.395392E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.466928E+02    0.425243E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.462659E+02    0.458158E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134388E+03   -0.436857E+02    0.485691E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.398139E+02    0.500214E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.396521E+02    0.235588E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.376217E+02    0.237820E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.390512E+02    0.221027E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136668E+03   -0.413685E+02    0.224074E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.413084E+02    0.243291E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.389370E+02    0.252151E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137818E+03   -0.367964E+02    0.265782E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.356419E+02    0.253033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138239E+03   -0.354582E+02    0.236551E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.365363E+02    0.218575E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.382791E+02    0.206756E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.404635E+02    0.202210E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.424430E+02    0.206750E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.437602E+02    0.218551E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.439619E+02    0.235192E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.429285E+02    0.252580E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.410271E+02    0.265364E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.137121E+03   -0.388315E+02    0.269779E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137417E+03   -0.368369E+02    0.293711E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138104E+03   -0.339527E+02    0.278784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138837E+03   -0.324560E+02    0.254133E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138740E+03   -0.329780E+02    0.223783E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.351753E+02    0.197700E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137217E+03   -0.388157E+02    0.179722E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.426853E+02    0.177704E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.458420E+02    0.191323E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134891E+03   -0.475049E+02    0.215937E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.470596E+02    0.246259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.442441E+02    0.276281E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.405595E+02    0.293166E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.28 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667925.439121909     
  ps_ts2 prof sum =   667531.069294276     
  trcom prof sum =    667531.069294276     
  ps_ts2 cur sum  =   9435.13398154507     
  trcom cur sum  =    9435.13398154506     
  
  antenna # iant =            2
  powecha_use(iant) =    669215.946302921     
  ps_ts2 prof sum =   668848.600222280     
  trcom prof sum =    668848.600185008     
  ps_ts2 cur sum  =   11662.8011651426     
  trcom cur sum  =    11662.8011651426     
  
  antenna # iant =            3
  powecha_use(iant) =    518943.305670243     
  ps_ts2 prof sum =   518631.780191243     
  trcom prof sum =    518631.780191243     
  ps_ts2 cur sum  =   6239.73273642768     
  trcom cur sum  =    6239.73273642768     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552774.985675805     
  ps_ts2 prof sum =   552453.186131465     
  trcom prof sum =    552453.186131465     
  ps_ts2 cur sum  =   10744.2315977671     
  trcom cur sum  =    10744.2315977671     
  
  Total ECH heating:      2407464.63580199     
  Total Current Drive:    38081.8994808825     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4296
 TA= 4.56000E+00 CPU TIME= 1.59360E-01 SECONDS.  DT= 1.14897E-03
  
 TEC1=    4.55999999999993     
 TEC2=    4.56499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1392055555557     
  %check_save_state: izleft hours =    67.8522222222222     
 --> plasma_hash("gframe"): TA= 4.560000E+00 NSTEP=  4296 Hash code:    3566568
 ->PRGCHK: bdy curvature ratio at t= 4.5650E+00 seconds is:  5.6235E-02
% MHDEQ: TG1=     4.560000 ; TG2=     4.565000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1280E-03 SECONDS
   DATA R*BT AT EDGE:  2.7732E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6235E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.560000 TO TG2=    4.565000 @ NSTEP     4296
   GFRAME TG2 MOMENTS CHECKSUM:  2.4517605964715D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5650E+00  4.5700E+00 total power(Watts):  2.4040E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.56500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.386936E+02    0.382328E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137025E+03   -0.366667E+02    0.383697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136747E+03   -0.381236E+02    0.366392E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.404290E+02    0.370842E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.403277E+02    0.391540E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.380503E+02    0.399152E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137393E+03   -0.358871E+02    0.412122E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137371E+03   -0.348621E+02    0.397324E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137894E+03   -0.345154E+02    0.380713E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137705E+03   -0.354254E+02    0.363894E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137086E+03   -0.372782E+02    0.351434E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.394588E+02    0.347550E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.414272E+02    0.353288E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.427176E+02    0.366822E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.429970E+02    0.384496E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.420360E+02    0.402212E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136116E+03   -0.401068E+02    0.414769E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.379065E+02    0.418064E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.359717E+02    0.441409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138017E+03   -0.329391E+02    0.425137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138406E+03   -0.315936E+02    0.397167E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138352E+03   -0.320748E+02    0.366202E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.342064E+02    0.340081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.377587E+02    0.323307E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.415059E+02    0.323263E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.449730E+02    0.337481E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134101E+03   -0.467092E+02    0.365135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.461887E+02    0.398606E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135081E+03   -0.434107E+02    0.428464E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.396880E+02    0.443368E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.395849E+02    0.295469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.375480E+02    0.297491E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.389909E+02    0.280188E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.413110E+02    0.283726E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.412358E+02    0.303797E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.388565E+02    0.312520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.369065E+02    0.324642E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.355612E+02    0.312665E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138051E+03   -0.353895E+02    0.295564E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.364819E+02    0.277269E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.382320E+02    0.265182E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.404228E+02    0.260711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.423998E+02    0.265737E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.437111E+02    0.278384E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135654E+03   -0.439011E+02    0.295904E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.428482E+02    0.313837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.410455E+02    0.325973E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.388420E+02    0.330031E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137123E+03   -0.368261E+02    0.354097E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138223E+03   -0.337622E+02    0.339600E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138469E+03   -0.324713E+02    0.312440E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138535E+03   -0.329219E+02    0.281998E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138127E+03   -0.351324E+02    0.255191E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137159E+03   -0.386844E+02    0.237972E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.425538E+02    0.236278E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.458180E+02    0.250021E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.477080E+02    0.274931E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134316E+03   -0.471172E+02    0.307668E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.444932E+02    0.336836E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.405541E+02    0.354444E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.387496E+02    0.439408E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.367173E+02    0.440130E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.380854E+02    0.423458E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.403893E+02    0.428776E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.403824E+02    0.448967E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.380938E+02    0.455651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.361200E+02    0.466623E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.347026E+02    0.453634E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.346662E+02    0.435881E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.355867E+02    0.418915E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.372527E+02    0.407449E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.394404E+02    0.404037E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.415165E+02    0.410152E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.427991E+02    0.424872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.430652E+02    0.443062E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.420889E+02    0.459983E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135842E+03   -0.401447E+02    0.471393E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.380421E+02    0.473521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136977E+03   -0.358756E+02    0.497507E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.329536E+02    0.479195E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138098E+03   -0.316261E+02    0.451618E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.320366E+02    0.421399E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137824E+03   -0.341896E+02    0.394697E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.376549E+02    0.379197E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135927E+03   -0.415123E+02    0.379484E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.448566E+02    0.395882E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133652E+03   -0.468080E+02    0.424889E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133715E+03   -0.462598E+02    0.458213E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.435633E+02    0.485998E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.398083E+02    0.500292E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136999E+03   -0.396483E+02    0.235697E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.376181E+02    0.237930E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.391492E+02    0.220276E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.414707E+02    0.223347E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.413043E+02    0.243408E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.389333E+02    0.252267E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137397E+03   -0.369910E+02    0.264310E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138085E+03   -0.356382E+02    0.253149E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137819E+03   -0.356452E+02    0.234961E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.364364E+02    0.219532E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137199E+03   -0.383751E+02    0.205975E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.405629E+02    0.201442E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.425464E+02    0.205999E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.437563E+02    0.218647E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.439582E+02    0.235300E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.429240E+02    0.252706E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.410229E+02    0.265480E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.389308E+02    0.269115E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137428E+03   -0.368321E+02    0.293799E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138333E+03   -0.338562E+02    0.279671E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138629E+03   -0.325421E+02    0.253408E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138534E+03   -0.330644E+02    0.222994E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.353581E+02    0.195985E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.388126E+02    0.179787E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.426816E+02    0.177772E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.458383E+02    0.191401E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.477334E+02    0.214450E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.469380E+02    0.247147E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.443527E+02    0.275648E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.405550E+02    0.293254E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662524.579359102     
  ps_ts2 prof sum =   662119.982715905     
  trcom prof sum =    662119.982715905     
  ps_ts2 cur sum  =   9362.22164374721     
  trcom cur sum  =    9362.22164374720     
  
  antenna # iant =            2
  powecha_use(iant) =    669651.714852866     
  ps_ts2 prof sum =   669248.611067240     
  trcom prof sum =    669248.611026305     
  ps_ts2 cur sum  =   11661.2101708164     
  trcom cur sum  =    11661.2101708163     
  
  antenna # iant =            3
  powecha_use(iant) =    518792.094139865     
  ps_ts2 prof sum =   518467.729835544     
  trcom prof sum =    518467.729835544     
  ps_ts2 cur sum  =   6242.63474631917     
  trcom cur sum  =    6242.63474631918     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553018.680275046     
  ps_ts2 prof sum =   552718.262057528     
  trcom prof sum =    552718.262057528     
  ps_ts2 cur sum  =   10732.7873812058     
  trcom cur sum  =    10732.7873812058     
  
  Total ECH heating:      2402554.58563528     
  Total Current Drive:    37998.8539420886     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4300
 TA= 4.56500E+00 CPU TIME= 1.59946E-01 SECONDS.  DT= 7.74429E-04
  
 TEC1=    4.56499999999992     
 TEC2=    4.56999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1540627777774     
  %check_save_state: izleft hours =    67.8375000000000     
 --> plasma_hash("gframe"): TA= 4.565000E+00 NSTEP=  4300 Hash code:   18385689
 ->PRGCHK: bdy curvature ratio at t= 4.5700E+00 seconds is:  5.6271E-02
% MHDEQ: TG1=     4.565000 ; TG2=     4.570000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1810E-03 SECONDS
   DATA R*BT AT EDGE:  2.7728E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6271E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.565000 TO TG2=    4.570000 @ NSTEP     4300
   GFRAME TG2 MOMENTS CHECKSUM:  2.4519629203869D+04
 %MFRCHK - LABEL "RMS12", #       1= -5.30343E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -1.98401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.25070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.20320E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.89238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  2.46118E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  3.06268E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.31828E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  3.23074E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.90155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       6=  6.67759E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.38057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  3.00920E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.29501E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       8= -5.13495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.73077E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.53054E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.53054E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.5700E+00  4.5750E+00 total power(Watts):  2.4036E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.57000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.386927E+02    0.382396E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.366660E+02    0.383757E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.381232E+02    0.366466E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.404285E+02    0.370911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.403268E+02    0.391607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.380493E+02    0.399215E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136960E+03   -0.360877E+02    0.411226E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.348612E+02    0.397383E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.347098E+02    0.379631E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137719E+03   -0.354252E+02    0.363973E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.372779E+02    0.351528E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136531E+03   -0.394644E+02    0.347618E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.414268E+02    0.353382E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.427172E+02    0.366898E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.429961E+02    0.384563E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.420348E+02    0.402279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.401053E+02    0.414858E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136493E+03   -0.380048E+02    0.417696E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.359699E+02    0.441522E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138031E+03   -0.329379E+02    0.425238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.315927E+02    0.397228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.320745E+02    0.366276E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.342060E+02    0.340178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137010E+03   -0.377590E+02    0.323407E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.415059E+02    0.323363E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.449728E+02    0.337586E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.467085E+02    0.365218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.461874E+02    0.398674E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.434088E+02    0.428581E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.396859E+02    0.443482E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.395856E+02    0.295592E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.375539E+02    0.297574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.389971E+02    0.280295E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.413115E+02    0.283856E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136406E+03   -0.412362E+02    0.303912E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.389616E+02    0.311927E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.369069E+02    0.324742E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.355616E+02    0.312769E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137628E+03   -0.355845E+02    0.294176E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.364829E+02    0.277406E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137176E+03   -0.382332E+02    0.265328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.404220E+02    0.260881E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.424007E+02    0.265884E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135806E+03   -0.437120E+02    0.278532E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.439015E+02    0.296033E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.428544E+02    0.313921E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.410456E+02    0.326080E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.388421E+02    0.330136E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137136E+03   -0.368259E+02    0.354189E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138237E+03   -0.337620E+02    0.339703E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138481E+03   -0.324716E+02    0.312539E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138547E+03   -0.329230E+02    0.282122E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138138E+03   -0.351337E+02    0.255329E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.386861E+02    0.238102E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.425540E+02    0.236422E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.458193E+02    0.250169E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.477082E+02    0.275091E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.471173E+02    0.307791E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135004E+03   -0.444928E+02    0.336944E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.405537E+02    0.354536E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.387480E+02    0.439518E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.367157E+02    0.440245E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136567E+03   -0.380840E+02    0.423557E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.404976E+02    0.428464E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.403803E+02    0.449079E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.380919E+02    0.455750E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.361180E+02    0.466704E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137067E+03   -0.348985E+02    0.452963E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.345613E+02    0.436442E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.355858E+02    0.418999E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.373551E+02    0.407026E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136297E+03   -0.394458E+02    0.404079E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135651E+03   -0.415143E+02    0.410239E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.427973E+02    0.424975E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.430632E+02    0.443181E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.420865E+02    0.460082E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.402521E+02    0.471164E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.380398E+02    0.473603E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.360762E+02    0.497103E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137816E+03   -0.329516E+02    0.479274E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138113E+03   -0.316247E+02    0.451712E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138198E+03   -0.320353E+02    0.421489E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.341887E+02    0.394757E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136732E+03   -0.377581E+02    0.378695E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.415114E+02    0.379557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134809E+03   -0.448556E+02    0.395954E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133667E+03   -0.468059E+02    0.425001E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133729E+03   -0.462570E+02    0.458324E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.435602E+02    0.486084E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.398044E+02    0.500427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.396501E+02    0.235824E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.376198E+02    0.238057E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.391513E+02    0.220385E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.414729E+02    0.223461E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.413055E+02    0.243556E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.390370E+02    0.251607E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137408E+03   -0.369922E+02    0.264454E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.138096E+03   -0.356396E+02    0.253286E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137831E+03   -0.356473E+02    0.235083E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.364390E+02    0.219632E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.383774E+02    0.206076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.405656E+02    0.201533E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.425493E+02    0.206087E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135838E+03   -0.438657E+02    0.217962E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.439598E+02    0.235442E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.429254E+02    0.252862E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136412E+03   -0.411312E+02    0.264866E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.389318E+02    0.269262E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137441E+03   -0.368331E+02    0.293911E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138344E+03   -0.338568E+02    0.279798E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138640E+03   -0.325434E+02    0.253550E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138546E+03   -0.330664E+02    0.223103E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.352684E+02    0.196960E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.388158E+02    0.179842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.426851E+02    0.177825E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.459530E+02    0.190652E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.477357E+02    0.214570E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.471731E+02    0.245777E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.443538E+02    0.275805E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.406635E+02    0.292652E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    658913.169684643     
  ps_ts2 prof sum =   658527.103058826     
  trcom prof sum =    658527.103058826     
  ps_ts2 cur sum  =   9325.70389490318     
  trcom cur sum  =    9325.70389490318     
  
  antenna # iant =            2
  powecha_use(iant) =    672007.651237610     
  ps_ts2 prof sum =   671609.880021327     
  trcom prof sum =    671609.880021327     
  ps_ts2 cur sum  =   11710.9921572722     
  trcom cur sum  =    11710.9921572722     
  
  antenna # iant =            3
  powecha_use(iant) =    521137.885035457     
  ps_ts2 prof sum =   520827.563533367     
  trcom prof sum =    520827.563533367     
  ps_ts2 cur sum  =   6282.40263648382     
  trcom cur sum  =    6282.40263648383     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    551555.197758155     
  ps_ts2 prof sum =   551271.975640482     
  trcom prof sum =    551271.975640482     
  ps_ts2 cur sum  =   10703.8267302808     
  trcom cur sum  =    10703.8267302808     
  
  Total ECH heating:      2402236.52225400     
  Total Current Drive:    38022.9254189401     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4305
 TA= 4.57000E+00 CPU TIME= 1.59925E-01 SECONDS.  DT= 6.68666E-04
  
 TEC1=    4.56999999999992     
 TEC2=    4.57499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1660341666664     
  %check_save_state: izleft hours =    67.8255555555556     
 --> plasma_hash("gframe"): TA= 4.570000E+00 NSTEP=  4305 Hash code:   72541627
 ->PRGCHK: bdy curvature ratio at t= 4.5750E+00 seconds is:  5.6316E-02
% MHDEQ: TG1=     4.570000 ; TG2=     4.575000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7725E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6316E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.570000 TO TG2=    4.575000 @ NSTEP     4305
   GFRAME TG2 MOMENTS CHECKSUM:  2.4521652443024D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.5750E+00  4.5800E+00 total power(Watts):  2.3987E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.57500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.386902E+02    0.382399E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.366638E+02    0.383760E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.381208E+02    0.366488E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.404261E+02    0.370926E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.404335E+02    0.391087E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.380468E+02    0.399215E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.360853E+02    0.411244E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.348590E+02    0.397390E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137478E+03   -0.347078E+02    0.379637E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137291E+03   -0.356209E+02    0.362787E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.372755E+02    0.351573E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.394595E+02    0.347677E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.414242E+02    0.353422E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135517E+03   -0.428280E+02    0.366350E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135434E+03   -0.429934E+02    0.384560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.420320E+02    0.402282E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.402120E+02    0.414422E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136494E+03   -0.380081E+02    0.417725E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136965E+03   -0.359674E+02    0.441594E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.329348E+02    0.425288E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138436E+03   -0.315905E+02    0.397234E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138381E+03   -0.320724E+02    0.366301E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138077E+03   -0.342035E+02    0.340227E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.377563E+02    0.323471E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.416133E+02    0.322770E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.448533E+02    0.338260E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134131E+03   -0.467055E+02    0.365234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134096E+03   -0.461841E+02    0.398670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.436368E+02    0.427816E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.397917E+02    0.443172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136814E+03   -0.395834E+02    0.295671E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137213E+03   -0.375564E+02    0.297618E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136810E+03   -0.390966E+02    0.279647E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.414174E+02    0.283227E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.413423E+02    0.303298E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136758E+03   -0.389590E+02    0.312003E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.369042E+02    0.324804E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.357561E+02    0.311410E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.355829E+02    0.294259E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.364808E+02    0.277513E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.382306E+02    0.265437E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136660E+03   -0.404198E+02    0.260988E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.423982E+02    0.266007E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.437094E+02    0.278634E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135679E+03   -0.438987E+02    0.296121E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135751E+03   -0.429600E+02    0.313337E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.410429E+02    0.326147E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.388391E+02    0.330194E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137151E+03   -0.368235E+02    0.354229E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.339496E+02    0.338409E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138494E+03   -0.324695E+02    0.312608E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138558E+03   -0.329211E+02    0.282219E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.351318E+02    0.255434E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137182E+03   -0.386842E+02    0.238198E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.425564E+02    0.236484E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.458167E+02    0.250296E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.477055E+02    0.275197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134343E+03   -0.471141E+02    0.307864E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.443743E+02    0.337617E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.406602E+02    0.353972E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.387451E+02    0.439595E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136685E+03   -0.367130E+02    0.440319E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.380799E+02    0.423615E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.404946E+02    0.428522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.403772E+02    0.449161E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.380890E+02    0.455823E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.361149E+02    0.466777E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.348960E+02    0.453037E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137553E+03   -0.345591E+02    0.436512E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.355833E+02    0.419039E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136678E+03   -0.373526E+02    0.407039E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.394390E+02    0.404102E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.415126E+02    0.410241E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135302E+03   -0.427939E+02    0.425027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135044E+03   -0.430596E+02    0.443264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.420832E+02    0.460157E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.402490E+02    0.471238E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.380368E+02    0.473675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.360728E+02    0.497225E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137373E+03   -0.331388E+02    0.478721E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138128E+03   -0.316225E+02    0.451785E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138214E+03   -0.320336E+02    0.421535E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.341814E+02    0.394788E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.377558E+02    0.378699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.416202E+02    0.379016E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134395E+03   -0.450883E+02    0.394976E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.468025E+02    0.425048E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.463738E+02    0.458085E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134652E+03   -0.435562E+02    0.486179E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.398008E+02    0.500545E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.70 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136809E+03   -0.397512E+02    0.235099E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.375187E+02    0.238983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137042E+03   -0.391500E+02    0.220456E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.414710E+02    0.223538E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.414100E+02    0.242858E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.390350E+02    0.251725E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137419E+03   -0.369899E+02    0.264567E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.358301E+02    0.251752E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.355504E+02    0.236018E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137981E+03   -0.364332E+02    0.219740E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.383759E+02    0.206134E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.405641E+02    0.201587E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.425477E+02    0.206144E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.438695E+02    0.217992E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.439577E+02    0.235539E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.430328E+02    0.252202E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.411287E+02    0.264977E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136940E+03   -0.389292E+02    0.269368E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137670E+03   -0.367312E+02    0.294738E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138356E+03   -0.338548E+02    0.279900E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138651E+03   -0.325417E+02    0.253641E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138558E+03   -0.330650E+02    0.223175E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138194E+03   -0.352672E+02    0.197009E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.387160E+02    0.180755E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.426835E+02    0.177834E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.459509E+02    0.190695E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.477333E+02    0.214636E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134547E+03   -0.471703E+02    0.245901E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.443508E+02    0.275919E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.406608E+02    0.292742E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    656795.792499283     
  ps_ts2 prof sum =   656430.031115599     
  trcom prof sum =    656430.031115599     
  ps_ts2 cur sum  =   9301.45004672810     
  trcom cur sum  =    9301.45004672810     
  
  antenna # iant =            2
  powecha_use(iant) =    668499.046871111     
  ps_ts2 prof sum =   668122.401010011     
  trcom prof sum =    668122.401010011     
  ps_ts2 cur sum  =   11642.4369792670     
  trcom cur sum  =    11642.4369792670     
  
  antenna # iant =            3
  powecha_use(iant) =    522002.314436551     
  ps_ts2 prof sum =   521700.386613768     
  trcom prof sum =    521700.386613768     
  ps_ts2 cur sum  =   6299.39538208091     
  trcom cur sum  =    6299.39538208091     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    551448.875026234     
  ps_ts2 prof sum =   551120.593308518     
  trcom prof sum =    551120.593308518     
  ps_ts2 cur sum  =   10688.5123818743     
  trcom cur sum  =    10688.5123818743     
  
  Total ECH heating:      2397373.41204790     
  Total Current Drive:    37931.7947899503     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4310
 TA= 4.57500E+00 CPU TIME= 1.59204E-01 SECONDS.  DT= 1.43090E-03
  
 TEC1=    4.57499999999992     
 TEC2=    4.57999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1775277777779     
  %check_save_state: izleft hours =    67.8141666666667     
 --> plasma_hash("gframe"): TA= 4.575000E+00 NSTEP=  4310 Hash code:   10905000
 ->PRGCHK: bdy curvature ratio at t= 4.5800E+00 seconds is:  5.6369E-02
% MHDEQ: TG1=     4.575000 ; TG2=     4.580000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1390E-03 SECONDS
   DATA R*BT AT EDGE:  2.7721E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6369E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.575000 TO TG2=    4.580000 @ NSTEP     4310
   GFRAME TG2 MOMENTS CHECKSUM:  2.4523675682179D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.96776E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.05885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.22198E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.42215E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.71946E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6=  1.66372E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  5.61688E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.66977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.78971E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.94743E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.21000E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.46662E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  4.75361E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.21024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.35796E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.76750E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.61349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.61349E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5800E+00  4.5850E+00 total power(Watts):  2.3985E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.58000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.386871E+02    0.382458E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137070E+03   -0.366610E+02    0.383818E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.381180E+02    0.366569E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.404231E+02    0.370998E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.404301E+02    0.391142E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136634E+03   -0.380434E+02    0.399277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.360819E+02    0.411317E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.347578E+02    0.397974E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.347050E+02    0.379701E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.356183E+02    0.362865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.373752E+02    0.351047E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.394567E+02    0.347782E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.415319E+02    0.352924E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.428248E+02    0.366433E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.429898E+02    0.384624E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.420282E+02    0.402346E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.402081E+02    0.414502E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.380041E+02    0.417801E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137203E+03   -0.358626E+02    0.442126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.331208E+02    0.424457E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138224E+03   -0.316790E+02    0.396742E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138394E+03   -0.320703E+02    0.366380E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138089E+03   -0.342016E+02    0.340334E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137035E+03   -0.377539E+02    0.323585E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.416109E+02    0.322884E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.448503E+02    0.338377E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133932E+03   -0.468221E+02    0.364776E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133897E+03   -0.463000E+02    0.398258E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.436317E+02    0.427923E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.397872E+02    0.443299E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136611E+03   -0.396869E+02    0.295078E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137238E+03   -0.375493E+02    0.297784E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.390951E+02    0.279785E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.414153E+02    0.283364E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136217E+03   -0.413402E+02    0.303411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136770E+03   -0.389568E+02    0.312111E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.369019E+02    0.324917E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137516E+03   -0.357539E+02    0.311519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137651E+03   -0.355810E+02    0.294381E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137751E+03   -0.363807E+02    0.278421E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.382293E+02    0.265586E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.404179E+02    0.261143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136025E+03   -0.425060E+02    0.265409E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.438197E+02    0.278050E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.441235E+02    0.294857E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.429573E+02    0.313461E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136275E+03   -0.410403E+02    0.326263E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136805E+03   -0.388365E+02    0.330312E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137164E+03   -0.368209E+02    0.354323E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.338500E+02    0.339205E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138506E+03   -0.324672E+02    0.312718E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138569E+03   -0.329196E+02    0.282345E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138159E+03   -0.351306E+02    0.255571E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.387846E+02    0.237508E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.425522E+02    0.236650E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.460452E+02    0.248925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134281E+03   -0.477032E+02    0.275353E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134145E+03   -0.472307E+02    0.307331E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.443713E+02    0.337734E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.406576E+02    0.354074E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.387408E+02    0.439719E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.367087E+02    0.440438E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.381815E+02    0.423262E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.404903E+02    0.428631E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135665E+03   -0.404819E+02    0.448917E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.380844E+02    0.455952E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.361105E+02    0.466886E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.348919E+02    0.453153E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137566E+03   -0.345553E+02    0.436628E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.355800E+02    0.419125E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.373491E+02    0.407102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.394352E+02    0.404166E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135681E+03   -0.415075E+02    0.410328E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.430183E+02    0.424290E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.430547E+02    0.443395E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.420781E+02    0.460280E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.402438E+02    0.471356E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136251E+03   -0.380319E+02    0.473788E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.360682E+02    0.497361E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137616E+03   -0.330404E+02    0.479137E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138141E+03   -0.316190E+02    0.451896E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138227E+03   -0.320290E+02    0.421628E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.341841E+02    0.394811E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136762E+03   -0.377529E+02    0.378760E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.416169E+02    0.379083E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134410E+03   -0.450845E+02    0.395027E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133696E+03   -0.467976E+02    0.425153E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133540E+03   -0.463679E+02    0.458219E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134665E+03   -0.435497E+02    0.486322E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135710E+03   -0.397948E+02    0.500703E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.397502E+02    0.235232E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137224E+03   -0.377165E+02    0.237456E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.137053E+03   -0.391491E+02    0.220575E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.414702E+02    0.223662E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.414090E+02    0.243001E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.390337E+02    0.251862E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.369879E+02    0.264708E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137685E+03   -0.358288E+02    0.251890E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138076E+03   -0.355463E+02    0.236172E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137551E+03   -0.366300E+02    0.218087E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.383756E+02    0.206250E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.405637E+02    0.201698E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136278E+03   -0.425470E+02    0.206270E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.438656E+02    0.218136E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.440677E+02    0.234874E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135948E+03   -0.430315E+02    0.252357E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.411268E+02    0.265135E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136950E+03   -0.389278E+02    0.269510E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137247E+03   -0.369284E+02    0.293387E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138367E+03   -0.338533E+02    0.280021E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138661E+03   -0.325407E+02    0.253776E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138568E+03   -0.330634E+02    0.223286E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138205E+03   -0.352671E+02    0.197114E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137061E+03   -0.389116E+02    0.179063E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.426835E+02    0.177921E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.459472E+02    0.190823E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.476164E+02    0.215555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.471686E+02    0.246066E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.443491E+02    0.276058E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.406585E+02    0.292869E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    657785.187457142     
  ps_ts2 prof sum =   657413.134994597     
  trcom prof sum =    657413.134994597     
  ps_ts2 cur sum  =   9325.13313079334     
  trcom cur sum  =    9325.13313079333     
  
  antenna # iant =            2
  powecha_use(iant) =    668718.079183988     
  ps_ts2 prof sum =   668344.781914784     
  trcom prof sum =    668344.781914784     
  ps_ts2 cur sum  =   11643.2212879377     
  trcom cur sum  =    11643.2212879377     
  
  antenna # iant =            3
  powecha_use(iant) =    519045.407020979     
  ps_ts2 prof sum =   518731.230984119     
  trcom prof sum =    518731.230984119     
  ps_ts2 cur sum  =   6273.40194505576     
  trcom cur sum  =    6273.40194505577     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552959.741389538     
  ps_ts2 prof sum =   552659.571510171     
  trcom prof sum =    552659.571510171     
  ps_ts2 cur sum  =   10707.4523480230     
  trcom cur sum  =    10707.4523480230     
  
  Total ECH heating:      2397148.71940367     
  Total Current Drive:    37949.2087118098     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4313
 TA= 4.58000E+00 CPU TIME= 1.66015E-01 SECONDS.  DT= 2.22559E-03
  
 TEC1=    4.57999999999992     
 TEC2=    4.58499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.1905674999996     
  %check_save_state: izleft hours =    67.8011111111111     
 --> plasma_hash("gframe"): TA= 4.580000E+00 NSTEP=  4313 Hash code:   95962124
 ->PRGCHK: bdy curvature ratio at t= 4.5850E+00 seconds is:  5.6416E-02
% MHDEQ: TG1=     4.580000 ; TG2=     4.585000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1880E-03 SECONDS
   DATA R*BT AT EDGE:  2.7718E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6416E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.580000 TO TG2=    4.585000 @ NSTEP     4313
   GFRAME TG2 MOMENTS CHECKSUM:  2.4525698921333D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.5850E+00  4.5900E+00 total power(Watts):  2.4037E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.58500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136422E+03   -0.387882E+02    0.381969E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.367579E+02    0.383327E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.382148E+02    0.366084E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.405270E+02    0.370511E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.404250E+02    0.391194E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.380383E+02    0.399332E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137004E+03   -0.360769E+02    0.411379E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.347535E+02    0.398024E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.346032E+02    0.380334E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137317E+03   -0.356140E+02    0.362954E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136919E+03   -0.373708E+02    0.351158E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136357E+03   -0.395587E+02    0.347282E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.415269E+02    0.353035E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.428195E+02    0.366521E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.432127E+02    0.383638E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.420226E+02    0.402402E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135954E+03   -0.402025E+02    0.414568E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136523E+03   -0.379988E+02    0.417871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.360590E+02    0.441400E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.330215E+02    0.425001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138238E+03   -0.316749E+02    0.396792E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138407E+03   -0.320664E+02    0.366463E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.343891E+02    0.339129E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.377495E+02    0.323724E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.416064E+02    0.323021E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.450780E+02    0.337292E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.468163E+02    0.364870E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.462938E+02    0.398313E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134906E+03   -0.435166E+02    0.428414E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.397816E+02    0.443383E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.396834E+02    0.295225E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.376470E+02    0.297203E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.390909E+02    0.279979E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136280E+03   -0.414117E+02    0.283539E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.413359E+02    0.303563E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.389528E+02    0.312263E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.369988E+02    0.324372E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.357506E+02    0.311648E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137879E+03   -0.354806E+02    0.295284E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137760E+03   -0.363775E+02    0.278589E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136990E+03   -0.383280E+02    0.264984E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.405205E+02    0.260559E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.425028E+02    0.265589E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.438159E+02    0.278234E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.440056E+02    0.295723E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.429529E+02    0.313609E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.411450E+02    0.325747E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.389371E+02    0.329787E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.369179E+02    0.353811E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.338513E+02    0.339295E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138517E+03   -0.324643E+02    0.312846E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138359E+03   -0.330081E+02    0.281718E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.353185E+02    0.254116E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136988E+03   -0.387826E+02    0.237679E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.426584E+02    0.236018E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.459269E+02    0.249891E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.478181E+02    0.274842E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.472256E+02    0.307496E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.443662E+02    0.337872E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.406524E+02    0.354181E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.387350E+02    0.439809E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.367033E+02    0.440531E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.381759E+02    0.423344E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.404844E+02    0.428718E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.404821E+02    0.448990E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.380786E+02    0.456033E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136729E+03   -0.361050E+02    0.466953E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.347879E+02    0.453614E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.347468E+02    0.435861E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.354750E+02    0.419666E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.373440E+02    0.407161E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.395378E+02    0.403730E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135695E+03   -0.415019E+02    0.410385E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.428978E+02    0.424794E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135070E+03   -0.430484E+02    0.443487E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.420716E+02    0.460361E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.402374E+02    0.471427E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.380258E+02    0.473861E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.360622E+02    0.497473E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137631E+03   -0.330352E+02    0.479210E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138155E+03   -0.316147E+02    0.451974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138014E+03   -0.321180E+02    0.421215E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.343727E+02    0.393793E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.377482E+02    0.378825E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.416118E+02    0.379141E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.449610E+02    0.395566E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133494E+03   -0.469117E+02    0.424838E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133553E+03   -0.463606E+02    0.458312E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.437747E+02    0.485892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.398972E+02    0.500588E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.397482E+02    0.235401E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.377144E+02    0.237620E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.392487E+02    0.219890E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.415741E+02    0.222999E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.414065E+02    0.243170E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.390310E+02    0.252055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137653E+03   -0.368862E+02    0.265679E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.357304E+02    0.252894E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.138073E+03   -0.355493E+02    0.236290E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.366281E+02    0.218236E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137457E+03   -0.382754E+02    0.207254E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.405627E+02    0.201837E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.426526E+02    0.205573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135865E+03   -0.438638E+02    0.218294E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.440651E+02    0.235066E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.430284E+02    0.252542E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.411201E+02    0.265352E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.389245E+02    0.269698E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137257E+03   -0.369251E+02    0.293532E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.340372E+02    0.278613E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138670E+03   -0.325386E+02    0.253944E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138577E+03   -0.330625E+02    0.223428E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138215E+03   -0.352663E+02    0.197238E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.389142E+02    0.179132E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.427885E+02    0.177151E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.459521E+02    0.190909E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.478467E+02    0.214135E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.470487E+02    0.247017E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.444587E+02    0.275517E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136462E+03   -0.406549E+02    0.293033E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.48 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    659489.973852529     
  ps_ts2 prof sum =   659129.842138167     
  trcom prof sum =    659129.842138167     
  ps_ts2 cur sum  =   9351.59705476873     
  trcom cur sum  =    9351.59705476873     
  
  antenna # iant =            2
  powecha_use(iant) =    669578.501188393     
  ps_ts2 prof sum =   669201.629654032     
  trcom prof sum =    669201.629654031     
  ps_ts2 cur sum  =   11653.7008893610     
  trcom cur sum  =    11653.7008893610     
  
  antenna # iant =            3
  powecha_use(iant) =    521530.065004967     
  ps_ts2 prof sum =   521212.286358393     
  trcom prof sum =    521212.286358393     
  ps_ts2 cur sum  =   6306.37870481894     
  trcom cur sum  =    6306.37870481894     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553092.854103920     
  ps_ts2 prof sum =   552762.390605651     
  trcom prof sum =    552762.390605651     
  ps_ts2 cur sum  =   10702.9969009682     
  trcom cur sum  =    10702.9969009682     
  
  Total ECH heating:      2402306.14875624     
  Total Current Drive:    38014.6735499168     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4315
 TA= 4.58500E+00 CPU TIME= 1.61947E-01 SECONDS.  DT= 3.46801E-03
  
 TEC1=    4.58499999999992     
 TEC2=    4.58999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2036974999999     
  %check_save_state: izleft hours =    67.7877777777778     
 --> plasma_hash("gframe"): TA= 4.585000E+00 NSTEP=  4315 Hash code:   94678429
 ->PRGCHK: bdy curvature ratio at t= 4.5900E+00 seconds is:  5.6335E-02
% MHDEQ: TG1=     4.585000 ; TG2=     4.590000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7714E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6335E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.585000 TO TG2=    4.590000 @ NSTEP     4315
   GFRAME TG2 MOMENTS CHECKSUM:  2.4527722160488D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.69795E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.72252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.11900E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.22114E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.19890E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.59815E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.58046E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -5.95045E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       5=  7.66995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.95229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  2.43520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.98431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.33496E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.53579E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.41832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.36692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.69471E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.79701E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.95267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.95267E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5900E+00  4.5950E+00 total power(Watts):  2.1577E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.59000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136431E+03   -0.387810E+02    0.382163E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.367512E+02    0.383512E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136585E+03   -0.382141E+02    0.366268E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.405202E+02    0.370730E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.404173E+02    0.391383E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136436E+03   -0.381355E+02    0.399002E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.360690E+02    0.411560E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137216E+03   -0.349424E+02    0.397144E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.345970E+02    0.380519E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137325E+03   -0.356081E+02    0.363172E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.373651E+02    0.351400E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136364E+03   -0.395528E+02    0.347536E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.415206E+02    0.353291E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.428125E+02    0.366750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.430849E+02    0.384391E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.420143E+02    0.402582E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.401938E+02    0.414751E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.379890E+02    0.418067E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.360501E+02    0.441577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137857E+03   -0.330127E+02    0.425179E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138249E+03   -0.316686E+02    0.396956E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.321526E+02    0.366051E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137895E+03   -0.342850E+02    0.340056E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.378473E+02    0.323306E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.416014E+02    0.323301E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.450716E+02    0.337574E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133951E+03   -0.468084E+02    0.365117E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133918E+03   -0.462843E+02    0.398519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.435003E+02    0.428618E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.397718E+02    0.443567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.396800E+02    0.295485E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.376437E+02    0.297457E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.390887E+02    0.280223E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.414087E+02    0.283811E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.413317E+02    0.303832E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.389486E+02    0.312520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.369939E+02    0.324627E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.356486E+02    0.312618E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.354772E+02    0.295529E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.365722E+02    0.277299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.383259E+02    0.265250E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.405189E+02    0.260829E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.425006E+02    0.265877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.438130E+02    0.278519E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.440013E+02    0.295996E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.429483E+02    0.313882E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.411400E+02    0.326013E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.389320E+02    0.330048E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.369121E+02    0.354048E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.338438E+02    0.339554E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138303E+03   -0.325520E+02    0.312357E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138366E+03   -0.330059E+02    0.281961E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.353172E+02    0.254370E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.387819E+02    0.237929E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.426577E+02    0.236285E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.459253E+02    0.250189E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134085E+03   -0.478147E+02    0.275150E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.472205E+02    0.307792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.445910E+02    0.336931E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.406461E+02    0.354430E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.83 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.388321E+02    0.439597E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.366943E+02    0.440709E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.381673E+02    0.423525E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.404751E+02    0.428909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.404665E+02    0.449181E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136333E+03   -0.380689E+02    0.456179E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136741E+03   -0.360953E+02    0.467089E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.347790E+02    0.453767E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.347378E+02    0.436041E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137362E+03   -0.354672E+02    0.419840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136716E+03   -0.373361E+02    0.407344E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.395297E+02    0.403907E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135704E+03   -0.414931E+02    0.410573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.428878E+02    0.424990E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134642E+03   -0.432676E+02    0.442937E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.421738E+02    0.460193E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.402265E+02    0.471570E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.381208E+02    0.473688E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.360514E+02    0.497653E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137643E+03   -0.330259E+02    0.479343E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.316982E+02    0.451725E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.321108E+02    0.421386E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.343662E+02    0.393963E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136784E+03   -0.377414E+02    0.379023E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.416043E+02    0.379348E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.449521E+02    0.395764E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133502E+03   -0.469008E+02    0.425051E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133576E+03   -0.463418E+02    0.458508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.436464E+02    0.486301E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.398852E+02    0.500779E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136835E+03   -0.397478E+02    0.235648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.377138E+02    0.237870E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.392488E+02    0.220127E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.415744E+02    0.223242E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.414056E+02    0.243438E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136961E+03   -0.390295E+02    0.252318E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137658E+03   -0.368845E+02    0.265942E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.357293E+02    0.253149E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137652E+03   -0.357377E+02    0.234853E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137782E+03   -0.365322E+02    0.219325E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.382763E+02    0.207479E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.405636E+02    0.202067E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.426534E+02    0.205814E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.438643E+02    0.218543E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.440647E+02    0.235324E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.430271E+02    0.252832E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.411237E+02    0.265585E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.389220E+02    0.269970E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137263E+03   -0.369220E+02    0.293786E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138164E+03   -0.339417E+02    0.279646E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138458E+03   -0.326271E+02    0.253355E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138584E+03   -0.330627E+02    0.223648E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137794E+03   -0.354528E+02    0.195658E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.389141E+02    0.179362E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.427902E+02    0.177360E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.460629E+02    0.190327E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.478471E+02    0.214400E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.470472E+02    0.247317E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.444558E+02    0.275807E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136468E+03   -0.406515E+02    0.293298E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    414055.997459464     
  ps_ts2 prof sum =   413823.141719849     
  trcom prof sum =    413823.141719849     
  ps_ts2 cur sum  =   5874.01487084432     
  trcom cur sum  =    5874.01487084432     
  
  antenna # iant =            2
  powecha_use(iant) =    669539.446833608     
  ps_ts2 prof sum =   669162.268787852     
  trcom prof sum =    669162.268787852     
  ps_ts2 cur sum  =   11651.5327227695     
  trcom cur sum  =    11651.5327227695     
  
  antenna # iant =            3
  powecha_use(iant) =    521602.819859200     
  ps_ts2 prof sum =   521283.897105059     
  trcom prof sum =    521283.897105059     
  ps_ts2 cur sum  =   6311.90504117981     
  trcom cur sum  =    6311.90504117982     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552548.028941099     
  ps_ts2 prof sum =   552218.977907566     
  trcom prof sum =    552218.977907566     
  ps_ts2 cur sum  =   10688.3627297180     
  trcom cur sum  =    10688.3627297180     
  
  Total ECH heating:      2156488.28552033     
  Total Current Drive:    34525.8153645117     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4317
 TA= 4.59000E+00 CPU TIME= 1.59430E-01 SECONDS.  DT= 1.91499E-03
  
 TEC1=    4.58999999999992     
 TEC2=    4.59499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2174663888889     
  %check_save_state: izleft hours =    67.7741666666667     
 --> plasma_hash("gframe"): TA= 4.590000E+00 NSTEP=  4317 Hash code:   39832210
 ->PRGCHK: bdy curvature ratio at t= 4.5950E+00 seconds is:  5.6261E-02
% MHDEQ: TG1=     4.590000 ; TG2=     4.595000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7711E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6261E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.590000 TO TG2=    4.595000 @ NSTEP     4317
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529745399643D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.5950E+00  4.6000E+00 total power(Watts):  1.7450E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.59500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.396763E+02    0.295762E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.376407E+02    0.297714E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.390864E+02    0.280495E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.414060E+02    0.284089E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.413280E+02    0.304107E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.390488E+02    0.312094E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137087E+03   -0.369895E+02    0.324896E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.356454E+02    0.312868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137456E+03   -0.356686E+02    0.294292E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.365701E+02    0.277559E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.383244E+02    0.265523E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136476E+03   -0.405177E+02    0.261114E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.424989E+02    0.266169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.438109E+02    0.278804E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.439978E+02    0.296292E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.430559E+02    0.313497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.411350E+02    0.326296E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.389272E+02    0.330321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136971E+03   -0.369065E+02    0.354294E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138067E+03   -0.338393E+02    0.339804E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138310E+03   -0.325489E+02    0.312599E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138372E+03   -0.330036E+02    0.282208E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137963E+03   -0.352214E+02    0.255443E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.387817E+02    0.238178E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.426573E+02    0.236557E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.459242E+02    0.250484E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134097E+03   -0.478073E+02    0.275492E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.472157E+02    0.308100E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.445851E+02    0.337222E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.406400E+02    0.354689E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       6.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.388229E+02    0.439783E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136507E+03   -0.367879E+02    0.440484E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.381582E+02    0.423713E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.404658E+02    0.429101E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.404564E+02    0.449357E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.381645E+02    0.455976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.361870E+02    0.466887E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.347702E+02    0.453920E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137149E+03   -0.347295E+02    0.436219E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.356589E+02    0.419084E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.373284E+02    0.407529E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.395215E+02    0.404101E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.415959E+02    0.410307E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.428778E+02    0.425193E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134870E+03   -0.431421E+02    0.443506E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.421628E+02    0.460355E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.403254E+02    0.471400E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136063E+03   -0.381105E+02    0.473821E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136375E+03   -0.361423E+02    0.497572E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.330169E+02    0.479469E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.316903E+02    0.451873E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138035E+03   -0.321038E+02    0.421557E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.342628E+02    0.394679E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.378384E+02    0.378675E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.415969E+02    0.379568E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.449433E+02    0.395976E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133511E+03   -0.468896E+02    0.425278E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133571E+03   -0.463372E+02    0.458670E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.436343E+02    0.486449E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.398735E+02    0.500963E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.397477E+02    0.235897E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.377136E+02    0.238115E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136863E+03   -0.392498E+02    0.220351E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.415748E+02    0.223480E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.415114E+02    0.242924E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.391312E+02    0.251795E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.370813E+02    0.264631E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137921E+03   -0.357286E+02    0.253403E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137659E+03   -0.357376E+02    0.235088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137790E+03   -0.365330E+02    0.219541E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137046E+03   -0.384756E+02    0.205961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.406679E+02    0.201419E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.426547E+02    0.206030E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135669E+03   -0.439748E+02    0.217972E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.440645E+02    0.235590E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135966E+03   -0.430256E+02    0.253120E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136239E+03   -0.412269E+02    0.265119E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136755E+03   -0.390237E+02    0.269470E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.369193E+02    0.294045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138170E+03   -0.339394E+02    0.279898E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138464E+03   -0.326264E+02    0.253601E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138375E+03   -0.331526E+02    0.222984E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138016E+03   -0.353617E+02    0.196745E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.389163E+02    0.179529E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.427926E+02    0.177528E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.460649E+02    0.190534E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134340E+03   -0.478477E+02    0.214646E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134366E+03   -0.472795E+02    0.246113E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.444537E+02    0.276096E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.407558E+02    0.292850E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            2
  powecha_use(iant) =    671677.980174013     
  ps_ts2 prof sum =   671289.289806671     
  trcom prof sum =    671289.289806671     
  ps_ts2 cur sum  =   11690.0838993857     
  trcom cur sum  =    11690.0838993857     
  
  antenna # iant =            3
  powecha_use(iant) =    520084.955703198     
  ps_ts2 prof sum =   519770.800805658     
  trcom prof sum =    519770.800805658     
  ps_ts2 cur sum  =   6297.25603585250     
  trcom cur sum  =    6297.25603585251     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553233.921419562     
  ps_ts2 prof sum =   552951.440581490     
  trcom prof sum =    552951.440581490     
  ps_ts2 cur sum  =   10700.6452084468     
  trcom cur sum  =    10700.6452084468     
  
  Total ECH heating:      1744011.53119382     
  Total Current Drive:    28687.9851436850     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4320
 TA= 4.59500E+00 CPU TIME= 1.67949E-01 SECONDS.  DT= 8.64099E-04
  
 TEC1=    4.59499999999992     
 TEC2=    4.59999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2322252777774     
  %check_save_state: izleft hours =    67.7594444444444     
 --> plasma_hash("gframe"): TA= 4.595000E+00 NSTEP=  4320 Hash code:   56430782
 ->PRGCHK: bdy curvature ratio at t= 4.6000E+00 seconds is:  5.6195E-02
% MHDEQ: TG1=     4.595000 ; TG2=     4.600000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2440E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6195E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.595000 TO TG2=    4.600000 @ NSTEP     4320
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531768638797D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.33109E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.30377E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.20079E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.31882E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.83745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.39147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8=  4.80893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.46164E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.33645E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.95317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.03446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.50486E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.62984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.85760E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.57995E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.15259E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.83715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.98099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.98099E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6000E+00  4.6050E+00 total power(Watts):  2.1285E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.60000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136450E+03   -0.387681E+02    0.382563E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.367360E+02    0.383911E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.381996E+02    0.366743E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.405076E+02    0.371181E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.405122E+02    0.391254E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136457E+03   -0.381213E+02    0.399364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136811E+03   -0.361554E+02    0.411434E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.349284E+02    0.397497E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.347799E+02    0.379771E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137564E+03   -0.354987E+02    0.364225E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136941E+03   -0.373550E+02    0.351901E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.395422E+02    0.348066E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.415091E+02    0.353816E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.429128E+02    0.366676E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.430760E+02    0.384782E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.421109E+02    0.402486E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.401762E+02    0.415151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.380779E+02    0.417993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.360335E+02    0.442005E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137878E+03   -0.329985E+02    0.425550E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138270E+03   -0.316571E+02    0.397286E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138209E+03   -0.321428E+02    0.366465E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.342802E+02    0.340540E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136848E+03   -0.378396E+02    0.323840E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.415925E+02    0.323866E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.449441E+02    0.338784E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133966E+03   -0.467939E+02    0.365640E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133936E+03   -0.462669E+02    0.398942E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.434809E+02    0.429062E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.398618E+02    0.443629E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.396739E+02    0.296026E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137051E+03   -0.376386E+02    0.297967E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.390851E+02    0.280761E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.415126E+02    0.283631E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.414341E+02    0.303692E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.390458E+02    0.312364E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137094E+03   -0.369861E+02    0.325158E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137766E+03   -0.356419E+02    0.313117E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.356669E+02    0.294537E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137346E+03   -0.365688E+02    0.277817E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137008E+03   -0.383240E+02    0.265789E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136482E+03   -0.405168E+02    0.261378E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.424981E+02    0.266448E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.438091E+02    0.279096E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.439952E+02    0.296572E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.430526E+02    0.313788E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.411308E+02    0.326583E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.389236E+02    0.330595E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136979E+03   -0.369019E+02    0.354539E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138075E+03   -0.338358E+02    0.340053E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138317E+03   -0.325464E+02    0.312841E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138379E+03   -0.330026E+02    0.282458E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.352213E+02    0.255682E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137007E+03   -0.387823E+02    0.238421E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.426580E+02    0.236807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.459240E+02    0.250761E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.478120E+02    0.275762E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.472121E+02    0.308410E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.444646E+02    0.338134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.406349E+02    0.354944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.388145E+02    0.440036E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.367797E+02    0.440738E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.381571E+02    0.423908E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.405668E+02    0.428909E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.404473E+02    0.449626E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.381557E+02    0.456232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136536E+03   -0.361783E+02    0.467112E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136913E+03   -0.349592E+02    0.453414E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.346243E+02    0.436876E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136934E+03   -0.356522E+02    0.419273E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136514E+03   -0.374250E+02    0.407211E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.395146E+02    0.404280E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.415881E+02    0.410497E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.428700E+02    0.425401E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134879E+03   -0.431326E+02    0.443780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.421530E+02    0.460619E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135486E+03   -0.403156E+02    0.471632E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.381012E+02    0.474033E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.361328E+02    0.497710E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.330088E+02    0.479642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.316832E+02    0.452110E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138046E+03   -0.320974E+02    0.421742E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137690E+03   -0.342572E+02    0.394845E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.378326E+02    0.378869E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.415907E+02    0.379774E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134234E+03   -0.451707E+02    0.395210E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.468805E+02    0.425503E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133363E+03   -0.464458E+02    0.458648E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134489E+03   -0.436233E+02    0.486644E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.398587E+02    0.501069E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.398515E+02    0.235326E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137252E+03   -0.377141E+02    0.238356E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.392511E+02    0.220573E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.415759E+02    0.223711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.415118E+02    0.243174E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.391311E+02    0.252043E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.370807E+02    0.264892E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137928E+03   -0.357287E+02    0.253638E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137666E+03   -0.357383E+02    0.235317E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137797E+03   -0.365345E+02    0.219756E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.384741E+02    0.206195E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.406700E+02    0.201629E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.426566E+02    0.206253E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.439763E+02    0.218206E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.440598E+02    0.235886E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.430257E+02    0.253391E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136245E+03   -0.412261E+02    0.265394E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.390227E+02    0.269737E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137277E+03   -0.369175E+02    0.294293E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.339384E+02    0.280144E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138471E+03   -0.326265E+02    0.253835E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138383E+03   -0.331544E+02    0.223190E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138024E+03   -0.353637E+02    0.196937E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.389186E+02    0.179699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136147E+03   -0.427955E+02    0.177697E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.460676E+02    0.190747E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.478492E+02    0.214894E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134373E+03   -0.472793E+02    0.246395E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135418E+03   -0.444521E+02    0.276393E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136267E+03   -0.407533E+02    0.293120E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    384183.132072247     
  ps_ts2 prof sum =   383958.674951591     
  trcom prof sum =    383958.674951591     
  ps_ts2 cur sum  =   5456.69894058110     
  trcom cur sum  =    5456.69894058110     
  
  antenna # iant =            2
  powecha_use(iant) =    671815.390107741     
  ps_ts2 prof sum =   671415.744572579     
  trcom prof sum =    671415.744572578     
  ps_ts2 cur sum  =   11692.0994316321     
  trcom cur sum  =    11692.0994316321     
  
  antenna # iant =            3
  powecha_use(iant) =    519633.129069207     
  ps_ts2 prof sum =   519329.350736700     
  trcom prof sum =    519329.350736700     
  ps_ts2 cur sum  =   6297.38178056495     
  trcom cur sum  =    6297.38178056495     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552915.116496653     
  ps_ts2 prof sum =   552623.086386238     
  trcom prof sum =    552623.086386238     
  ps_ts2 cur sum  =   10692.2723341268     
  trcom cur sum  =    10692.2723341268     
  
  Total ECH heating:      2127326.85664711     
  Total Current Drive:    34138.4524869050     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4325
 TA= 4.60000E+00 CPU TIME= 1.59593E-01 SECONDS.  DT= 2.24125E-05
  
 TEC1=    4.59999999999992     
 TEC2=    4.60499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2443788888886     
  %check_save_state: izleft hours =    67.7472222222222     
 --> plasma_hash("gframe"): TA= 4.600000E+00 NSTEP=  4325 Hash code:   70736137
 ->PRGCHK: bdy curvature ratio at t= 4.6050E+00 seconds is:  5.6135E-02
% MHDEQ: TG1=     4.600000 ; TG2=     4.605000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0760E-03 SECONDS
   DATA R*BT AT EDGE:  2.7704E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6135E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.600000 TO TG2=    4.605000 @ NSTEP     4325
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533791877952D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6050E+00  4.6100E+00 total power(Watts):  2.3941E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.60500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136458E+03   -0.387610E+02    0.382783E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136893E+03   -0.367349E+02    0.384086E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136616E+03   -0.381934E+02    0.366974E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.405009E+02    0.371419E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.405045E+02    0.391466E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.381138E+02    0.399559E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136821E+03   -0.361477E+02    0.411626E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137235E+03   -0.349272E+02    0.397661E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.347741E+02    0.379970E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.356908E+02    0.363256E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136949E+03   -0.373498E+02    0.352154E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.395368E+02    0.348329E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.416136E+02    0.353491E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.429058E+02    0.366933E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135280E+03   -0.430683E+02    0.385006E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.421025E+02    0.402693E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.402766E+02    0.414901E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136339E+03   -0.380696E+02    0.418195E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.360208E+02    0.442239E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137889E+03   -0.329924E+02    0.425733E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.316511E+02    0.397463E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138218E+03   -0.321378E+02    0.366680E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.342764E+02    0.340781E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.378353E+02    0.324121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.416978E+02    0.323505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134926E+03   -0.449383E+02    0.339085E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.467863E+02    0.365915E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.461383E+02    0.399628E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134519E+03   -0.437010E+02    0.428490E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.398520E+02    0.443868E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136646E+03   -0.396711E+02    0.296295E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.376358E+02    0.298231E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.391869E+02    0.280293E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.415102E+02    0.283912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.414306E+02    0.303967E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.390421E+02    0.312638E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.369819E+02    0.325437E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.358344E+02    0.311958E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.356645E+02    0.294802E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137352E+03   -0.365674E+02    0.278086E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.383225E+02    0.266062E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136488E+03   -0.405160E+02    0.261670E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.426056E+02    0.265998E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.438064E+02    0.279388E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.439920E+02    0.296860E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135584E+03   -0.430487E+02    0.314075E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.411261E+02    0.326872E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.389190E+02    0.330873E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.368965E+02    0.354787E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.338317E+02    0.340306E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138324E+03   -0.325433E+02    0.313088E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.329995E+02    0.282721E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137979E+03   -0.352197E+02    0.255958E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.387824E+02    0.238695E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136060E+03   -0.426582E+02    0.237090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.461528E+02    0.249573E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134100E+03   -0.478068E+02    0.276095E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134386E+03   -0.470885E+02    0.309372E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.444589E+02    0.338433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.407378E+02    0.354612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.388050E+02    0.440270E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.367707E+02    0.440962E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.381435E+02    0.424110E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.405572E+02    0.429134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135493E+03   -0.405468E+02    0.449504E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.381457E+02    0.456458E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136546E+03   -0.361687E+02    0.467307E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136923E+03   -0.349504E+02    0.453630E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.346161E+02    0.437088E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.356442E+02    0.419469E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.374173E+02    0.407411E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.395066E+02    0.404483E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135514E+03   -0.415795E+02    0.410704E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.428604E+02    0.425619E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.431219E+02    0.444030E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.421421E+02    0.460846E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.403048E+02    0.471826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136083E+03   -0.380910E+02    0.474219E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.361221E+02    0.497869E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137219E+03   -0.331895E+02    0.479179E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137969E+03   -0.316752E+02    0.452316E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138056E+03   -0.320904E+02    0.421928E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137700E+03   -0.342508E+02    0.395028E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.378260E+02    0.379086E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135585E+03   -0.416946E+02    0.379468E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134243E+03   -0.451618E+02    0.395439E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.468695E+02    0.425749E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133371E+03   -0.464336E+02    0.458900E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.436112E+02    0.486821E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.398529E+02    0.501263E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136641E+03   -0.398516E+02    0.235599E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137472E+03   -0.376152E+02    0.239443E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.392521E+02    0.220837E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136327E+03   -0.415766E+02    0.223990E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.415115E+02    0.243460E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.391304E+02    0.252327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.370796E+02    0.265161E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.359201E+02    0.252282E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137887E+03   -0.356437E+02    0.236410E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137804E+03   -0.365358E+02    0.220005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.384808E+02    0.206408E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.406718E+02    0.201895E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136107E+03   -0.426582E+02    0.206525E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.439774E+02    0.218484E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.440661E+02    0.236136E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135780E+03   -0.431287E+02    0.252967E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.412248E+02    0.265687E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.390211E+02    0.270021E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.368154E+02    0.295289E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138183E+03   -0.339369E+02    0.280401E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138476E+03   -0.326262E+02    0.254093E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138389E+03   -0.331554E+02    0.223431E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138030E+03   -0.353657E+02    0.197181E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137315E+03   -0.388231E+02    0.180805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.427984E+02    0.177933E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.460698E+02    0.191025E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.477342E+02    0.215979E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.472784E+02    0.246722E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135424E+03   -0.444498E+02    0.276692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.407506E+02    0.293397E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    651396.745742933     
  ps_ts2 prof sum =   651028.639569666     
  trcom prof sum =    651028.639569666     
  ps_ts2 cur sum  =   9257.56901694380     
  trcom cur sum  =    9257.56901694380     
  
  antenna # iant =            2
  powecha_use(iant) =    670668.448499018     
  ps_ts2 prof sum =   670282.103374162     
  trcom prof sum =    670282.103374161     
  ps_ts2 cur sum  =   11674.9392877423     
  trcom cur sum  =    11674.9392877423     
  
  antenna # iant =            3
  powecha_use(iant) =    519444.705495397     
  ps_ts2 prof sum =   519142.770011380     
  trcom prof sum =    519142.770011380     
  ps_ts2 cur sum  =   6299.04827778295     
  trcom cur sum  =    6299.04827778296     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552595.903275221     
  ps_ts2 prof sum =   552260.050745734     
  trcom prof sum =    552260.050745734     
  ps_ts2 cur sum  =   10685.0399635860     
  trcom cur sum  =    10685.0399635860     
  
  Total ECH heating:      2392713.56370094     
  Total Current Drive:    37916.5965460551     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4344
 TA= 4.60500E+00 CPU TIME= 1.60032E-01 SECONDS.  DT= 1.41350E-04
  
 TEC1=    4.60499999999992     
 TEC2=    4.60999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2604274999999     
  %check_save_state: izleft hours =    67.7311111111111     
 --> plasma_hash("gframe"): TA= 4.605000E+00 NSTEP=  4344 Hash code:  119888014
 ->PRGCHK: bdy curvature ratio at t= 4.6100E+00 seconds is:  5.6189E-02
% MHDEQ: TG1=     4.605000 ; TG2=     4.610000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1310E-03 SECONDS
   DATA R*BT AT EDGE:  2.7688E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6189E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.605000 TO TG2=    4.610000 @ NSTEP     4344
   GFRAME TG2 MOMENTS CHECKSUM:  2.4531604930261D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.08450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.10230E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.24639E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -3.96159E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.27295E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.32990E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.73912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.50276E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.69028E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.86321E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.64218E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.64539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.85723E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.80880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.42447E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.78284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.58442E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.58442E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.6100E+00  4.6150E+00 total power(Watts):  2.3944E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.61000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.388692E+02    0.382405E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.366330E+02    0.384801E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.381965E+02    0.367135E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.405039E+02    0.371592E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.405069E+02    0.391628E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.381160E+02    0.399704E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.361494E+02    0.411743E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.348271E+02    0.398339E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137504E+03   -0.346794E+02    0.380681E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.356934E+02    0.363407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.374551E+02    0.351686E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136345E+03   -0.395404E+02    0.348480E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.416172E+02    0.353657E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135316E+03   -0.429090E+02    0.367114E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.430707E+02    0.385200E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.421048E+02    0.402851E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.402783E+02    0.415024E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.380719E+02    0.418292E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.361266E+02    0.441815E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137623E+03   -0.330868E+02    0.425347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138015E+03   -0.317436E+02    0.397059E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138179E+03   -0.321404E+02    0.366817E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137868E+03   -0.342804E+02    0.340904E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.378400E+02    0.324257E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.417025E+02    0.323672E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134459E+03   -0.451748E+02    0.338052E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133717E+03   -0.469091E+02    0.365584E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133687E+03   -0.463791E+02    0.398897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134697E+03   -0.435882E+02    0.428973E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.398532E+02    0.443861E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.55 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.397817E+02    0.295771E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136800E+03   -0.377421E+02    0.297693E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136598E+03   -0.391924E+02    0.280474E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.415164E+02    0.284113E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.414360E+02    0.304164E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136549E+03   -0.390469E+02    0.312806E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137281E+03   -0.368858E+02    0.326240E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137295E+03   -0.358388E+02    0.312116E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.355726E+02    0.295710E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137528E+03   -0.364749E+02    0.279026E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136759E+03   -0.384305E+02    0.265462E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.405227E+02    0.261838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.426129E+02    0.266184E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.439253E+02    0.278880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.441110E+02    0.296388E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.430535E+02    0.314260E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.411308E+02    0.327023E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.389232E+02    0.331022E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.367986E+02    0.355547E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137822E+03   -0.339298E+02    0.339771E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138285E+03   -0.325475E+02    0.313223E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138346E+03   -0.330066E+02    0.282865E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.352271E+02    0.256081E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136761E+03   -0.388909E+02    0.238010E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135811E+03   -0.427745E+02    0.236443E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134864E+03   -0.460457E+02    0.250504E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133859E+03   -0.479267E+02    0.275661E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.473318E+02    0.308302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135024E+03   -0.444633E+02    0.338600E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.407412E+02    0.354775E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.388062E+02    0.440274E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136489E+03   -0.367720E+02    0.440958E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.382474E+02    0.423777E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.405594E+02    0.429201E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.405478E+02    0.449478E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.381466E+02    0.456411E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.361690E+02    0.467269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.349512E+02    0.453581E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.348128E+02    0.436262E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.356458E+02    0.419561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.374191E+02    0.407539E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.396159E+02    0.404148E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135474E+03   -0.415814E+02    0.410846E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.429751E+02    0.425326E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.431234E+02    0.444032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135052E+03   -0.421429E+02    0.460808E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135459E+03   -0.403051E+02    0.471802E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136047E+03   -0.380910E+02    0.474201E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.361216E+02    0.497941E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137412E+03   -0.330946E+02    0.479490E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.316762E+02    0.452261E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138019E+03   -0.320917E+02    0.422003E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137211E+03   -0.344455E+02    0.394104E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.378285E+02    0.379249E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.416972E+02    0.379650E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.451642E+02    0.395629E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133271E+03   -0.469913E+02    0.425486E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133334E+03   -0.464339E+02    0.458873E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134021E+03   -0.438428E+02    0.486343E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135281E+03   -0.399602E+02    0.501121E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.398592E+02    0.235729E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.378205E+02    0.237926E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.392601E+02    0.220928E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136290E+03   -0.415852E+02    0.224100E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136197E+03   -0.415191E+02    0.243609E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.391374E+02    0.252475E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.370859E+02    0.265320E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.359265E+02    0.252418E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137850E+03   -0.356507E+02    0.236522E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137339E+03   -0.367356E+02    0.218369E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.384875E+02    0.206466E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.406810E+02    0.201926E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.426675E+02    0.206580E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.439864E+02    0.218587E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.441842E+02    0.235507E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.431425E+02    0.253094E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.412313E+02    0.265866E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.390275E+02    0.270191E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.370198E+02    0.294003E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.339427E+02    0.280564E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138439E+03   -0.326322E+02    0.254215E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138353E+03   -0.331620E+02    0.223505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137998E+03   -0.353741E+02    0.197181E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.390297E+02    0.179014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.429144E+02    0.177063E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.460806E+02    0.191044E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134108E+03   -0.479756E+02    0.214527E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.471697E+02    0.247649E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.446827E+02    0.275466E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.407559E+02    0.293590E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653220.270764696     
  ps_ts2 prof sum =   652821.399214480     
  trcom prof sum =    652821.399214479     
  ps_ts2 cur sum  =   9267.69412570385     
  trcom cur sum  =    9267.69412570385     
  
  antenna # iant =            2
  powecha_use(iant) =    668681.436221739     
  ps_ts2 prof sum =   668253.598781074     
  trcom prof sum =    668253.598781074     
  ps_ts2 cur sum  =   11623.0189954072     
  trcom cur sum  =    11623.0189954072     
  
  antenna # iant =            3
  powecha_use(iant) =    518870.436846052     
  ps_ts2 prof sum =   518580.141787984     
  trcom prof sum =    518580.141787984     
  ps_ts2 cur sum  =   6282.50089933565     
  trcom cur sum  =    6282.50089933565     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553664.849829163     
  ps_ts2 prof sum =   553360.943862812     
  trcom prof sum =    553360.943862812     
  ps_ts2 cur sum  =   10693.0904585559     
  trcom cur sum  =    10693.0904585559     
  
  Total ECH heating:      2393016.08364635     
  Total Current Drive:    37866.3044790026     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4355
 TA= 4.61000E+00 CPU TIME= 1.60184E-01 SECONDS.  DT= 3.74647E-04
  
 TEC1=    4.60999999999992     
 TEC2=    4.61499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2733180555556     
  %check_save_state: izleft hours =    67.7183333333333     
 --> plasma_hash("gframe"): TA= 4.610000E+00 NSTEP=  4355 Hash code:   30911770
 ->PRGCHK: bdy curvature ratio at t= 4.6150E+00 seconds is:  5.6245E-02
% MHDEQ: TG1=     4.610000 ; TG2=     4.615000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1470E-03 SECONDS
   DATA R*BT AT EDGE:  2.7672E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6245E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.610000 TO TG2=    4.615000 @ NSTEP     4355
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529417982571D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6150E+00  4.6200E+00 total power(Watts):  2.4071E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.61500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.388708E+02    0.382570E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.368371E+02    0.383868E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.382976E+02    0.366746E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.406145E+02    0.371207E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.405085E+02    0.391789E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.382214E+02    0.399362E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.361502E+02    0.411869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136943E+03   -0.350236E+02    0.397434E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.346810E+02    0.380823E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.356955E+02    0.363555E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.374579E+02    0.351832E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.396495E+02    0.348032E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.416201E+02    0.353826E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.429114E+02    0.367297E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134981E+03   -0.431864E+02    0.384863E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.422182E+02    0.402536E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.402791E+02    0.415160E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.380737E+02    0.418401E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.361269E+02    0.441879E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.330889E+02    0.425433E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137976E+03   -0.317446E+02    0.397184E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138140E+03   -0.321423E+02    0.366950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.344733E+02    0.339738E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.379457E+02    0.323747E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.417064E+02    0.323836E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134417E+03   -0.451781E+02    0.338235E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133674E+03   -0.469113E+02    0.365798E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133645E+03   -0.463802E+02    0.399087E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.435929E+02    0.429095E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.398535E+02    0.443934E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.397862E+02    0.295971E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.377467E+02    0.297879E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.391975E+02    0.280666E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.415215E+02    0.284319E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135955E+03   -0.414403E+02    0.304355E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.390513E+02    0.312976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136803E+03   -0.370905E+02    0.325050E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137474E+03   -0.357450E+02    0.312988E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137607E+03   -0.355770E+02    0.295887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137054E+03   -0.366762E+02    0.277676E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.384360E+02    0.265630E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.406340E+02    0.261247E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.426186E+02    0.266370E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.439308E+02    0.279094E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.441158E+02    0.296603E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.430578E+02    0.314456E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.412433E+02    0.326542E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.390312E+02    0.330520E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.370034E+02    0.354472E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137781E+03   -0.339334E+02    0.339891E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138246E+03   -0.325510E+02    0.313370E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138087E+03   -0.331019E+02    0.282252E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.354224E+02    0.254608E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136722E+03   -0.388974E+02    0.238155E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.427817E+02    0.236607E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.460525E+02    0.250696E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133806E+03   -0.479378E+02    0.275872E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.473363E+02    0.308517E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.446970E+02    0.337572E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.407440E+02    0.354944E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.389128E+02    0.439955E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136451E+03   -0.367724E+02    0.441019E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.382497E+02    0.423887E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.405601E+02    0.429313E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135408E+03   -0.405516E+02    0.449538E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135839E+03   -0.382515E+02    0.456125E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136698E+03   -0.360678E+02    0.467656E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137076E+03   -0.348529E+02    0.454007E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.348129E+02    0.436341E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.355471E+02    0.420128E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136444E+03   -0.374199E+02    0.407677E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.396170E+02    0.404291E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135213E+03   -0.416936E+02    0.410542E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134848E+03   -0.429761E+02    0.425452E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.432382E+02    0.443750E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134791E+03   -0.422557E+02    0.460557E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.403048E+02    0.471867E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.381956E+02    0.473953E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.361208E+02    0.497920E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.330938E+02    0.479522E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.317673E+02    0.451922E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.321842E+02    0.421631E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.344509E+02    0.394224E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136510E+03   -0.378302E+02    0.379408E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.416990E+02    0.379833E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.450484E+02    0.396281E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133229E+03   -0.469920E+02    0.425629E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133292E+03   -0.464340E+02    0.458959E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134200E+03   -0.437256E+02    0.486666E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.399587E+02    0.501108E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.398661E+02    0.235880E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136966E+03   -0.378269E+02    0.238071E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136589E+03   -0.393683E+02    0.220218E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136039E+03   -0.416984E+02    0.223428E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136157E+03   -0.415259E+02    0.243772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136686E+03   -0.391432E+02    0.252646E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.369926E+02    0.266262E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.358364E+02    0.253369E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137383E+03   -0.358459E+02    0.234992E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.366494E+02    0.219309E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.385943E+02    0.205690E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136262E+03   -0.407922E+02    0.201154E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.427828E+02    0.205848E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.441038E+02    0.217925E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.441918E+02    0.235677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135687E+03   -0.431490E+02    0.253272E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.412372E+02    0.266049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136471E+03   -0.391361E+02    0.269616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.370236E+02    0.294193E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137885E+03   -0.340404E+02    0.279956E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138182E+03   -0.327267E+02    0.253521E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138316E+03   -0.331683E+02    0.223609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.355668E+02    0.195439E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136824E+03   -0.390392E+02    0.179038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.429240E+02    0.177105E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.462011E+02    0.190291E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134069E+03   -0.479842E+02    0.214685E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134087E+03   -0.474097E+02    0.246361E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.445750E+02    0.276399E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.407607E+02    0.293801E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.92 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    664478.632098670     
  ps_ts2 prof sum =   664102.363449290     
  trcom prof sum =    664102.363449290     
  ps_ts2 cur sum  =   9409.87719752981     
  trcom cur sum  =    9409.87719752980     
  
  antenna # iant =            2
  powecha_use(iant) =    671762.333667729     
  ps_ts2 prof sum =   671367.959979480     
  trcom prof sum =    671367.959979480     
  ps_ts2 cur sum  =   11657.8007170520     
  trcom cur sum  =    11657.8007170520     
  
  antenna # iant =            3
  powecha_use(iant) =    516191.387946859     
  ps_ts2 prof sum =   515859.051576563     
  trcom prof sum =    515859.051576564     
  ps_ts2 cur sum  =   6241.38578081849     
  trcom cur sum  =    6241.38578081850     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554630.351263211     
  ps_ts2 prof sum =   554331.189230726     
  trcom prof sum =    554331.189230726     
  ps_ts2 cur sum  =   10697.1747331722     
  trcom cur sum  =    10697.1747331722     
  
  Total ECH heating:      2405660.56423606     
  Total Current Drive:    38006.2384285725     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4362
 TA= 4.61500E+00 CPU TIME= 1.60380E-01 SECONDS.  DT= 9.77416E-04
  
 TEC1=    4.61499999999992     
 TEC2=    4.61999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2874233333332     
  %check_save_state: izleft hours =    67.7041666666667     
 --> plasma_hash("gframe"): TA= 4.615000E+00 NSTEP=  4362 Hash code:   54339194
 ->PRGCHK: bdy curvature ratio at t= 4.6200E+00 seconds is:  5.6303E-02
% MHDEQ: TG1=     4.615000 ; TG2=     4.620000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3600E-03 SECONDS
   DATA R*BT AT EDGE:  2.7656E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6303E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.615000 TO TG2=    4.620000 @ NSTEP     4362
   GFRAME TG2 MOMENTS CHECKSUM:  2.4527231026850D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.89450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.06070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.26821E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.39814E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -9.34520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.00509E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.19370E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.10305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.97468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.50034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.57453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.44007E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.78085E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.58964E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      17= -1.43691E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.10682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.58297E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.62550E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.86921E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.86921E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6200E+00  4.6250E+00 total power(Watts):  2.4114E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.62000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136117E+03   -0.388722E+02    0.382706E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.368385E+02    0.383996E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.383042E+02    0.366858E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135717E+03   -0.406162E+02    0.371354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.406185E+02    0.391425E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.382225E+02    0.399480E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.362515E+02    0.411483E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.350245E+02    0.397544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.348761E+02    0.379829E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137232E+03   -0.355989E+02    0.364270E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.374600E+02    0.351961E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136035E+03   -0.396569E+02    0.348151E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.417324E+02    0.353390E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.430261E+02    0.366903E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134940E+03   -0.431878E+02    0.385014E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.422193E+02    0.402665E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.403887E+02    0.414815E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.381762E+02    0.418049E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136467E+03   -0.361272E+02    0.441931E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137547E+03   -0.330892E+02    0.425500E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137937E+03   -0.317455E+02    0.397285E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137877E+03   -0.322349E+02    0.366462E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137571E+03   -0.343802E+02    0.340501E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.379484E+02    0.323876E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.418189E+02    0.323343E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.450648E+02    0.338989E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133419E+03   -0.470325E+02    0.365447E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133388E+03   -0.465004E+02    0.398781E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134179E+03   -0.438193E+02    0.428395E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.399620E+02    0.443628E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136307E+03   -0.397899E+02    0.296139E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136714E+03   -0.377521E+02    0.298028E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.393080E+02    0.280070E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.416339E+02    0.283759E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135699E+03   -0.415524E+02    0.303838E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.391587E+02    0.312443E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.370932E+02    0.325179E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.359435E+02    0.311730E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.357739E+02    0.294567E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.366801E+02    0.277824E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.384403E+02    0.265765E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136155E+03   -0.406389E+02    0.261389E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.427326E+02    0.265782E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.440476E+02    0.278549E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135174E+03   -0.441200E+02    0.296789E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135233E+03   -0.431786E+02    0.313935E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.412461E+02    0.326689E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.390339E+02    0.330653E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.370054E+02    0.354602E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137745E+03   -0.339350E+02    0.340004E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137986E+03   -0.326451E+02    0.312777E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138048E+03   -0.331055E+02    0.282388E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.353322E+02    0.255523E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136684E+03   -0.389028E+02    0.238260E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.427874E+02    0.236724E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134364E+03   -0.462871E+02    0.249352E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133763E+03   -0.479424E+02    0.276078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133628E+03   -0.474587E+02    0.308064E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.445846E+02    0.338328E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135622E+03   -0.408545E+02    0.354502E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.389132E+02    0.440019E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.368747E+02    0.440682E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.382505E+02    0.423969E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.406702E+02    0.428982E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.405486E+02    0.449611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.382518E+02    0.456186E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.362694E+02    0.467077E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.350494E+02    0.453329E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.347158E+02    0.436806E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.357461E+02    0.419299E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.375237E+02    0.407299E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.396182E+02    0.404402E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.416946E+02    0.410653E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.429774E+02    0.425543E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.432383E+02    0.443833E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.422557E+02    0.460648E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.404142E+02    0.471654E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.381957E+02    0.474033E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.362217E+02    0.497663E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.330935E+02    0.479588E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137629E+03   -0.317674E+02    0.451978E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.321838E+02    0.421705E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137357E+03   -0.343512E+02    0.394880E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.379348E+02    0.378997E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.418115E+02    0.379451E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133901E+03   -0.452838E+02    0.395488E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133188E+03   -0.469928E+02    0.425739E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.465538E+02    0.458751E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134159E+03   -0.437257E+02    0.486728E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.399585E+02    0.501098E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136313E+03   -0.399744E+02    0.235173E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137144E+03   -0.377333E+02    0.238985E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.393745E+02    0.220290E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.417045E+02    0.223513E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.416377E+02    0.243105E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136433E+03   -0.392504E+02    0.251980E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136911E+03   -0.371939E+02    0.264839E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137602E+03   -0.358412E+02    0.253476E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.357572E+02    0.235906E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137481E+03   -0.366522E+02    0.219384E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.386007E+02    0.205708E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.407990E+02    0.201162E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.427897E+02    0.205877E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.441089E+02    0.218013E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.443084E+02    0.235015E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.432632E+02    0.252652E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135917E+03   -0.413491E+02    0.265448E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.391404E+02    0.269764E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137162E+03   -0.369277E+02    0.295077E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137846E+03   -0.340439E+02    0.280091E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138144E+03   -0.327311E+02    0.253620E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138063E+03   -0.332633E+02    0.222798E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137716E+03   -0.354806E+02    0.196307E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136581E+03   -0.391444E+02    0.178107E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.430374E+02    0.176197E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134875E+03   -0.462101E+02    0.190269E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.478750E+02    0.215555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.474154E+02    0.246501E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.445796E+02    0.276580E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.408715E+02    0.293252E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.66 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    671121.012521907     
  ps_ts2 prof sum =   670747.155025283     
  trcom prof sum =    670747.154985241     
  ps_ts2 cur sum  =   9481.76068562632     
  trcom cur sum  =    9481.76068562631     
  
  antenna # iant =            2
  powecha_use(iant) =    668752.323144706     
  ps_ts2 prof sum =   668385.123236847     
  trcom prof sum =    668385.123236846     
  ps_ts2 cur sum  =   11580.2391362033     
  trcom cur sum  =    11580.2391362033     
  
  antenna # iant =            3
  powecha_use(iant) =    517680.892350780     
  ps_ts2 prof sum =   517368.713283174     
  trcom prof sum =    517368.713283175     
  ps_ts2 cur sum  =   6246.19632533434     
  trcom cur sum  =    6246.19632533434     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553798.580838158     
  ps_ts2 prof sum =   553462.519383071     
  trcom prof sum =    553462.519383071     
  ps_ts2 cur sum  =   10661.0057005800     
  trcom cur sum  =    10661.0057005800     
  
  Total ECH heating:      2409963.51088833     
  Total Current Drive:    37969.2018477439     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4366
 TA= 4.62000E+00 CPU TIME= 1.60721E-01 SECONDS.  DT= 1.59200E-03
  
 TEC1=    4.61999999999992     
 TEC2=    4.62499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.2998894444445     
  %check_save_state: izleft hours =    67.6916666666667     
 --> plasma_hash("gframe"): TA= 4.620000E+00 NSTEP=  4366 Hash code:   81884470
 ->PRGCHK: bdy curvature ratio at t= 4.6250E+00 seconds is:  5.6364E-02
% MHDEQ: TG1=     4.620000 ; TG2=     4.625000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7640E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6364E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.620000 TO TG2=    4.625000 @ NSTEP     4366
   GFRAME TG2 MOMENTS CHECKSUM:  2.4525044071129D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6250E+00  4.6300E+00 total power(Watts):  2.4158E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.62500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.389799E+02    0.382324E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136519E+03   -0.368407E+02    0.384135E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.383069E+02    0.367005E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.406190E+02    0.371510E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.406207E+02    0.391579E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.382245E+02    0.399611E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.362532E+02    0.411589E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.349288E+02    0.398182E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.348783E+02    0.379968E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.357986E+02    0.363224E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.375646E+02    0.351499E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136008E+03   -0.396555E+02    0.348309E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.417356E+02    0.353548E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.430292E+02    0.367068E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.431903E+02    0.385185E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.422214E+02    0.402814E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135391E+03   -0.403905E+02    0.414932E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.381794E+02    0.418160E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.360279E+02    0.442407E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137055E+03   -0.332788E+02    0.424674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137899E+03   -0.317471E+02    0.397401E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137839E+03   -0.322374E+02    0.366584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.343836E+02    0.340622E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.379525E+02    0.324014E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.418286E+02    0.323469E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134122E+03   -0.453006E+02    0.337965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133377E+03   -0.470355E+02    0.365630E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133346E+03   -0.465025E+02    0.398950E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134358E+03   -0.437059E+02    0.428902E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.399631E+02    0.443718E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.399001E+02    0.295600E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136680E+03   -0.377548E+02    0.298197E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136261E+03   -0.393105E+02    0.280255E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.416394E+02    0.283948E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.415574E+02    0.304012E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.391629E+02    0.312607E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.369968E+02    0.325973E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.359500E+02    0.311849E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137091E+03   -0.357788E+02    0.294729E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137193E+03   -0.365877E+02    0.278733E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.385474E+02    0.265151E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.406407E+02    0.261574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.427392E+02    0.265960E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.440535E+02    0.278750E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.442383E+02    0.296300E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135206E+03   -0.431776E+02    0.314128E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.412504E+02    0.326836E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136250E+03   -0.390379E+02    0.330783E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136608E+03   -0.370085E+02    0.354739E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137262E+03   -0.341272E+02    0.338826E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.326491E+02    0.312906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.331103E+02    0.282533E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137606E+03   -0.353380E+02    0.255649E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.390105E+02    0.237583E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.429027E+02    0.236085E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.461800E+02    0.250271E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.480669E+02    0.275603E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133586E+03   -0.474637E+02    0.308264E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.445886E+02    0.338489E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.408572E+02    0.354660E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.389143E+02    0.440111E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.368757E+02    0.440763E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.383580E+02    0.423624E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135264E+03   -0.406717E+02    0.429080E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135115E+03   -0.406589E+02    0.449350E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.382524E+02    0.456295E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.362698E+02    0.467198E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.350503E+02    0.453423E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137013E+03   -0.347183E+02    0.436874E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.357470E+02    0.419402E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.375256E+02    0.407415E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.397205E+02    0.404081E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135134E+03   -0.416977E+02    0.410766E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134549E+03   -0.430928E+02    0.425249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.432396E+02    0.443931E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134710E+03   -0.422563E+02    0.460776E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.404147E+02    0.471788E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135703E+03   -0.381960E+02    0.474162E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136017E+03   -0.362217E+02    0.497697E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.332827E+02    0.479084E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137591E+03   -0.317680E+02    0.452060E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.321865E+02    0.421774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.343533E+02    0.395002E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.379373E+02    0.379142E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.418141E+02    0.379612E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134076E+03   -0.451690E+02    0.396125E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132931E+03   -0.471147E+02    0.425483E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132992E+03   -0.465543E+02    0.458894E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133677E+03   -0.439571E+02    0.486368E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.399587E+02    0.501128E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.84 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.399812E+02    0.235310E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.379376E+02    0.237480E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.393818E+02    0.220402E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135964E+03   -0.417120E+02    0.223638E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.416443E+02    0.243258E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136394E+03   -0.392566E+02    0.252123E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.371996E+02    0.264987E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.360385E+02    0.251994E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137521E+03   -0.357635E+02    0.236020E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.368497E+02    0.217780E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136707E+03   -0.386084E+02    0.205781E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136193E+03   -0.408074E+02    0.201231E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.429046E+02    0.205139E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.441186E+02    0.218133E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135151E+03   -0.443158E+02    0.235166E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.432698E+02    0.252812E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.413544E+02    0.265615E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.391460E+02    0.269928E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.371316E+02    0.293783E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137807E+03   -0.340488E+02    0.280237E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138107E+03   -0.327367E+02    0.253739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138027E+03   -0.332698E+02    0.222891E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137682E+03   -0.354884E+02    0.196339E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.391529E+02    0.178130E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.430470E+02    0.176215E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.463312E+02    0.189505E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133785E+03   -0.481152E+02    0.214137E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134215E+03   -0.473063E+02    0.247434E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.446989E+02    0.276059E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.408766E+02    0.293433E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678287.456087122     
  ps_ts2 prof sum =   677888.312227821     
  trcom prof sum =    677888.312227821     
  ps_ts2 cur sum  =   9566.53711363421     
  trcom cur sum  =    9566.53711363421     
  
  antenna # iant =            2
  powecha_use(iant) =    665866.637056351     
  ps_ts2 prof sum =   665471.500814727     
  trcom prof sum =    665471.500814727     
  ps_ts2 cur sum  =   11508.6920745864     
  trcom cur sum  =    11508.6920745864     
  
  antenna # iant =            3
  powecha_use(iant) =    517103.845917110     
  ps_ts2 prof sum =   516792.990452703     
  trcom prof sum =    516792.990452704     
  ps_ts2 cur sum  =   6230.48618228965     
  trcom cur sum  =    6230.48618228966     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554564.783741094     
  ps_ts2 prof sum =   554259.781336338     
  trcom prof sum =    554259.781336338     
  ps_ts2 cur sum  =   10657.1591206650     
  trcom cur sum  =    10657.1591206650     
  
  Total ECH heating:      2414412.58483159     
  Total Current Drive:    37962.8744911753     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4369
 TA= 4.62500E+00 CPU TIME= 1.66244E-01 SECONDS.  DT= 1.77249E-03
  
 TEC1=    4.62499999999992     
 TEC2=    4.62999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3130002777777     
  %check_save_state: izleft hours =    67.6786111111111     
 --> plasma_hash("gframe"): TA= 4.625000E+00 NSTEP=  4369 Hash code:   98625550
 ->PRGCHK: bdy curvature ratio at t= 4.6300E+00 seconds is:  5.6428E-02
% MHDEQ: TG1=     4.625000 ; TG2=     4.630000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7624E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6428E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.625000 TO TG2=    4.630000 @ NSTEP     4369
   GFRAME TG2 MOMENTS CHECKSUM:  2.4522857115408D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.72869E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.02440E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.67233E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.28724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.42017E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -6.95453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.04305E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12455E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.34157E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.18024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.49822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.47352E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -6.23022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.90185E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.54099E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  4.64445E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.36690E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.72129E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.48819E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.87822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.87822E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   4.000001354143023E-006
 EC call, timestep(sec):  4.6300E+00  4.6350E+00 total power(Watts):  2.4365E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.63000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.389822E+02    0.382517E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.369439E+02    0.383783E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135975E+03   -0.384136E+02    0.366629E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.407301E+02    0.371168E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135436E+03   -0.406223E+02    0.391773E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.382262E+02    0.399781E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.362541E+02    0.411746E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.349306E+02    0.398342E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137110E+03   -0.347884E+02    0.380675E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136709E+03   -0.358016E+02    0.363408E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136311E+03   -0.375684E+02    0.351680E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.397652E+02    0.347910E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.417394E+02    0.353760E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134935E+03   -0.430324E+02    0.367289E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.433062E+02    0.384893E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.422229E+02    0.403011E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.403934E+02    0.415072E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.381804E+02    0.418305E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136164E+03   -0.362291E+02    0.441723E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.331859E+02    0.425229E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.318392E+02    0.397023E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137799E+03   -0.322397E+02    0.366750E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.345779E+02    0.339496E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.379570E+02    0.324209E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.418283E+02    0.323707E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134080E+03   -0.453048E+02    0.338196E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133334E+03   -0.470385E+02    0.365879E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133308E+03   -0.465021E+02    0.399177E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.437070E+02    0.429050E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.399636E+02    0.443843E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.48 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.399060E+02    0.295819E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.378609E+02    0.297699E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136220E+03   -0.393163E+02    0.280474E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.416459E+02    0.284176E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135617E+03   -0.415632E+02    0.304236E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.391681E+02    0.312810E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136466E+03   -0.372019E+02    0.324831E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136917E+03   -0.359522E+02    0.312053E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137270E+03   -0.356874E+02    0.295651E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.365939E+02    0.278924E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.385542E+02    0.265338E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.407575E+02    0.260975E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135428E+03   -0.427466E+02    0.266169E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.440605E+02    0.278985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.442426E+02    0.296550E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.431831E+02    0.314352E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.413623E+02    0.326410E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.391464E+02    0.330344E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.371126E+02    0.354325E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.340366E+02    0.339643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137908E+03   -0.326539E+02    0.313079E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137970E+03   -0.331160E+02    0.282711E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.355344E+02    0.254201E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.390186E+02    0.237738E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.429113E+02    0.236259E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.461886E+02    0.250477E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133469E+03   -0.480743E+02    0.275859E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133543E+03   -0.474694E+02    0.308520E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134218E+03   -0.448228E+02    0.337522E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135541E+03   -0.408615E+02    0.354857E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.389150E+02    0.440223E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.368763E+02    0.440870E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.383591E+02    0.423754E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135224E+03   -0.406728E+02    0.429207E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.406591E+02    0.449489E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.382512E+02    0.456438E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.362728E+02    0.467317E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136733E+03   -0.349521E+02    0.453907E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.349137E+02    0.436138E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.356492E+02    0.419982E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136103E+03   -0.375270E+02    0.407574E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.397289E+02    0.404233E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.416995E+02    0.410936E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134517E+03   -0.430897E+02    0.425403E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134249E+03   -0.433544E+02    0.443703E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.423690E+02    0.460601E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.404144E+02    0.471933E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.381956E+02    0.474302E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.362210E+02    0.497727E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137028E+03   -0.331882E+02    0.479493E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137559E+03   -0.317659E+02    0.452172E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137638E+03   -0.321875E+02    0.421885E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.345475E+02    0.394122E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.379395E+02    0.379340E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.418166E+02    0.379822E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134034E+03   -0.451710E+02    0.396344E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132889E+03   -0.471155E+02    0.425664E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132950E+03   -0.465542E+02    0.459057E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133856E+03   -0.438411E+02    0.486749E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.400667E+02    0.500942E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.399896E+02    0.235469E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136638E+03   -0.379455E+02    0.237632E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136265E+03   -0.394917E+02    0.219707E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.418266E+02    0.222982E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.416476E+02    0.243453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.392642E+02    0.252294E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.371078E+02    0.265938E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137309E+03   -0.359500E+02    0.252951E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137483E+03   -0.357713E+02    0.236163E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136978E+03   -0.368598E+02    0.217898E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136884E+03   -0.385191E+02    0.206729E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.409200E+02    0.200477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.429147E+02    0.205251E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135075E+03   -0.442378E+02    0.217487E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.443248E+02    0.235345E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.432789E+02    0.252999E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135836E+03   -0.413617E+02    0.265816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.391528E+02    0.270123E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.371408E+02    0.293965E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.340547E+02    0.280418E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138060E+03   -0.327450E+02    0.253864E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137990E+03   -0.332777E+02    0.223004E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137648E+03   -0.354976E+02    0.196391E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136515E+03   -0.391636E+02    0.178156E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.430586E+02    0.176251E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.463429E+02    0.189585E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.481255E+02    0.214308E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133757E+03   -0.475478E+02    0.246161E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134794E+03   -0.447060E+02    0.276295E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135853E+03   -0.408827E+02    0.293658E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699841.855041253     
  ps_ts2 prof sum =   699439.581488633     
  trcom prof sum =    699439.581488633     
  ps_ts2 cur sum  =   9855.42992381840     
  trcom cur sum  =    9855.42992381840     
  
  antenna # iant =            2
  powecha_use(iant) =    667933.807460389     
  ps_ts2 prof sum =   667547.853911484     
  trcom prof sum =    667547.853911483     
  ps_ts2 cur sum  =   11528.1770329292     
  trcom cur sum  =    11528.1770329292     
  
  antenna # iant =            3
  powecha_use(iant) =    516235.790352246     
  ps_ts2 prof sum =   515901.922518243     
  trcom prof sum =    515901.922518244     
  ps_ts2 cur sum  =   6211.08819622020     
  trcom cur sum  =    6211.08819622020     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552508.830250313     
  ps_ts2 prof sum =   552169.227385974     
  trcom prof sum =    552169.227385974     
  ps_ts2 cur sum  =   10606.9061469196     
  trcom cur sum  =    10606.9061469196     
  
  Total ECH heating:      2435058.58530433     
  Total Current Drive:    38201.6012998874     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4372
 TA= 4.63000E+00 CPU TIME= 1.60348E-01 SECONDS.  DT= 1.26487E-03
  
 TEC1=    4.62999999999992     
 TEC2=    4.63499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3301288888883     
  %check_save_state: izleft hours =    67.6613888888889     
 --> plasma_hash("gframe"): TA= 4.630000E+00 NSTEP=  4372 Hash code:   94107243
 ->PRGCHK: bdy curvature ratio at t= 4.6350E+00 seconds is:  5.6494E-02
% MHDEQ: TG1=     4.630000 ; TG2=     4.635000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2980E-03 SECONDS
   DATA R*BT AT EDGE:  2.7608E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6494E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.630000 TO TG2=    4.635000 @ NSTEP     4372
   GFRAME TG2 MOMENTS CHECKSUM:  2.4520670159687D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6350E+00  4.6400E+00 total power(Watts):  2.4368E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.63500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135774E+03   -0.389815E+02    0.382697E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.369434E+02    0.383946E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.384136E+02    0.366811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.407299E+02    0.371355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.407306E+02    0.391445E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.383295E+02    0.399440E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.361531E+02    0.412330E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.351243E+02    0.397465E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137082E+03   -0.347835E+02    0.380852E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136891E+03   -0.357035E+02    0.364158E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.375684E+02    0.351861E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.397653E+02    0.348095E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.417399E+02    0.353946E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.431473E+02    0.366936E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.433056E+02    0.385086E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.423335E+02    0.402707E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135310E+03   -0.403915E+02    0.415212E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.382837E+02    0.417972E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.362273E+02    0.441799E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137205E+03   -0.331846E+02    0.425305E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137594E+03   -0.318389E+02    0.397141E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137535E+03   -0.323308E+02    0.366304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137231E+03   -0.344837E+02    0.340295E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.380606E+02    0.323732E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.419392E+02    0.323270E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134250E+03   -0.451900E+02    0.338998E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133076E+03   -0.471574E+02    0.365585E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133045E+03   -0.466219E+02    0.398910E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133838E+03   -0.439349E+02    0.428371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.400640E+02    0.443567E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.399086E+02    0.296042E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.378633E+02    0.297908E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.393200E+02    0.280698E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.417566E+02    0.283710E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.416739E+02    0.303784E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.392740E+02    0.312336E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.372033E+02    0.325010E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137096E+03   -0.358568E+02    0.312931E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.358833E+02    0.294398E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.367932E+02    0.277632E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.385577E+02    0.265547E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.407617E+02    0.261191E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.428593E+02    0.265662E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.440639E+02    0.279233E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.442474E+02    0.296787E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134908E+03   -0.432968E+02    0.313925E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.413651E+02    0.326607E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.391480E+02    0.330521E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.371130E+02    0.354495E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137405E+03   -0.340375E+02    0.339789E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137646E+03   -0.327461E+02    0.312546E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137709E+03   -0.332098E+02    0.282136E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137310E+03   -0.354439E+02    0.255178E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136352E+03   -0.390236E+02    0.237924E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.429168E+02    0.236463E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.464220E+02    0.249243E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133424E+03   -0.480776E+02    0.276136E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133287E+03   -0.475896E+02    0.308149E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.447091E+02    0.338324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.408619E+02    0.355045E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.390194E+02    0.439915E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.369763E+02    0.440557E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135745E+03   -0.383579E+02    0.423848E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.407805E+02    0.428894E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.406573E+02    0.449573E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.383553E+02    0.456172E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.363684E+02    0.467096E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136694E+03   -0.349505E+02    0.453980E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.349119E+02    0.436210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136260E+03   -0.358467E+02    0.419182E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.375261E+02    0.407703E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.397280E+02    0.404376E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.418094E+02    0.410631E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134467E+03   -0.430927E+02    0.425512E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.433527E+02    0.443796E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134408E+03   -0.423669E+02    0.460701E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.405212E+02    0.471739E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.382983E+02    0.474092E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.363195E+02    0.497515E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.331862E+02    0.479567E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.318577E+02    0.451848E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.322782E+02    0.421505E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.344509E+02    0.394782E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.380422E+02    0.378969E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.419210E+02    0.379519E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.454037E+02    0.395598E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132846E+03   -0.471138E+02    0.425792E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132690E+03   -0.466714E+02    0.458867E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.438387E+02    0.486844E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.400645E+02    0.500971E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.400975E+02    0.234858E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.379504E+02    0.237821E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136225E+03   -0.394974E+02    0.219880E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.418323E+02    0.223175E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.417639E+02    0.242849E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.393709E+02    0.251704E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136575E+03   -0.373086E+02    0.264588E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.359543E+02    0.253127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137011E+03   -0.359655E+02    0.234677E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137153E+03   -0.367697E+02    0.218903E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.387228E+02    0.205165E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.409267E+02    0.200624E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.429217E+02    0.205415E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135033E+03   -0.442441E+02    0.217686E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134859E+03   -0.444408E+02    0.234785E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.433930E+02    0.252461E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135581E+03   -0.414731E+02    0.265289E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136108E+03   -0.392533E+02    0.269620E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136605E+03   -0.371400E+02    0.294203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137507E+03   -0.341506E+02    0.279847E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137810E+03   -0.328363E+02    0.253236E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137734E+03   -0.333718E+02    0.222291E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137396E+03   -0.355974E+02    0.195609E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.390734E+02    0.179121E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.431721E+02    0.175493E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134558E+03   -0.463510E+02    0.189727E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.480165E+02    0.215303E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133713E+03   -0.475525E+02    0.246411E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134750E+03   -0.447096E+02    0.276545E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.409923E+02    0.293193E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    699429.577458517     
  ps_ts2 prof sum =   699012.869253961     
  trcom prof sum =    699012.869253962     
  ps_ts2 cur sum  =   9824.28139460094     
  trcom cur sum  =    9824.28139460093     
  
  antenna # iant =            2
  powecha_use(iant) =    667807.210685429     
  ps_ts2 prof sum =   667423.427761344     
  trcom prof sum =    667423.427761343     
  ps_ts2 cur sum  =   11498.7538343490     
  trcom cur sum  =    11498.7538343490     
  
  antenna # iant =            3
  powecha_use(iant) =    516627.727856349     
  ps_ts2 prof sum =   516321.706278064     
  trcom prof sum =    516321.706278064     
  ps_ts2 cur sum  =   6201.07419396156     
  trcom cur sum  =    6201.07419396156     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552888.773611312     
  ps_ts2 prof sum =   552577.017833171     
  trcom prof sum =    552577.017833171     
  ps_ts2 cur sum  =   10594.4840324571     
  trcom cur sum  =    10594.4840324571     
  
  Total ECH heating:      2435335.02112654     
  Total Current Drive:    38118.5934553686     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4376
 TA= 4.63500E+00 CPU TIME= 1.59240E-01 SECONDS.  DT= 2.22090E-04
  
 TEC1=    4.63499999999992     
 TEC2=    4.63999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3436083333329     
  %check_save_state: izleft hours =    67.6480555555556     
 --> plasma_hash("gframe"): TA= 4.635000E+00 NSTEP=  4376 Hash code:   11699358
 ->PRGCHK: bdy curvature ratio at t= 4.6400E+00 seconds is:  5.6562E-02
% MHDEQ: TG1=     4.635000 ; TG2=     4.640000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1250E-03 SECONDS
   DATA R*BT AT EDGE:  2.7592E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6562E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.635000 TO TG2=    4.640000 @ NSTEP     4376
   GFRAME TG2 MOMENTS CHECKSUM:  2.4518483203966D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.94056E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.52555E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.97993E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.02150E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.31057E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.44715E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -4.02556E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.08956E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.03983E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.85896E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.43210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.49563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.34976E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.59801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.05010E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.48138E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  2.69403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.68554E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.89075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.31997E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.70390E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.70390E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6400E+00  4.6450E+00 total power(Watts):  2.4317E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.64000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.389806E+02    0.382964E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.369423E+02    0.384211E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.384133E+02    0.367084E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.407295E+02    0.371650E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.407289E+02    0.391723E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.383277E+02    0.399687E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136094E+03   -0.363511E+02    0.411602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.351227E+02    0.397697E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.349761E+02    0.380005E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.358999E+02    0.363247E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.375712E+02    0.352105E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.397667E+02    0.348356E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.418502E+02    0.353658E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134631E+03   -0.431446E+02    0.367253E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.433043E+02    0.385387E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.423317E+02    0.402973E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135045E+03   -0.404973E+02    0.414992E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.382814E+02    0.418176E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.362244E+02    0.441935E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.331823E+02    0.425451E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.318365E+02    0.397359E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.323307E+02    0.366541E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137189E+03   -0.344850E+02    0.340524E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.380627E+02    0.323980E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.419414E+02    0.323537E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.454226E+02    0.338126E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133029E+03   -0.471565E+02    0.365926E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132999E+03   -0.466202E+02    0.399202E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134013E+03   -0.438172E+02    0.428956E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135012E+03   -0.400664E+02    0.443707E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.400168E+02    0.295624E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.378674E+02    0.298169E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.394276E+02    0.280237E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.417610E+02    0.283998E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.416773E+02    0.304069E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.392772E+02    0.312591E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.372057E+02    0.325258E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136614E+03   -0.360542E+02    0.311796E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136748E+03   -0.358868E+02    0.294655E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.367970E+02    0.277885E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136301E+03   -0.385630E+02    0.265794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.407672E+02    0.261444E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135129E+03   -0.428653E+02    0.265937E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134716E+03   -0.441807E+02    0.278830E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134577E+03   -0.443641E+02    0.296421E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.432997E+02    0.314210E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.413673E+02    0.326867E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.391497E+02    0.330775E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.371128E+02    0.354760E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.340393E+02    0.340019E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137604E+03   -0.327488E+02    0.312765E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137667E+03   -0.332136E+02    0.282368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137269E+03   -0.354495E+02    0.255394E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136097E+03   -0.391311E+02    0.237347E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.430323E+02    0.235923E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134197E+03   -0.463145E+02    0.250254E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133168E+03   -0.482008E+02    0.275793E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133240E+03   -0.475925E+02    0.308479E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134344E+03   -0.447106E+02    0.338617E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.409706E+02    0.354749E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.390162E+02    0.440067E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.369733E+02    0.440697E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135479E+03   -0.384595E+02    0.423606E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.407776E+02    0.429071E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.407629E+02    0.449378E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135414E+03   -0.383513E+02    0.456330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.363644E+02    0.467245E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.351427E+02    0.453394E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136673E+03   -0.348119E+02    0.436754E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.358447E+02    0.419354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.376296E+02    0.407459E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135441E+03   -0.397261E+02    0.404619E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.418072E+02    0.410874E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134204E+03   -0.432033E+02    0.425307E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134165E+03   -0.433491E+02    0.443964E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134365E+03   -0.423628E+02    0.460868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.405167E+02    0.471900E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.382938E+02    0.474245E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.363150E+02    0.497584E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.333707E+02    0.479080E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137245E+03   -0.318545E+02    0.451974E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137331E+03   -0.322761E+02    0.421660E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.344496E+02    0.395013E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135862E+03   -0.380415E+02    0.379239E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.419256E+02    0.379792E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133512E+03   -0.454015E+02    0.395904E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132585E+03   -0.472303E+02    0.425633E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132645E+03   -0.466664E+02    0.459068E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133330E+03   -0.440639E+02    0.486508E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134818E+03   -0.400607E+02    0.501025E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.401045E+02    0.235068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.378585E+02    0.238837E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.395053E+02    0.220088E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.418432E+02    0.223363E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.417707E+02    0.243094E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136058E+03   -0.393767E+02    0.251935E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.373138E+02    0.264830E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.361512E+02    0.251746E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.358776E+02    0.235701E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.369687E+02    0.217399E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.387313E+02    0.205328E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.409358E+02    0.200781E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.429342E+02    0.205565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.442527E+02    0.217907E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134817E+03   -0.444484E+02    0.235032E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.433994E+02    0.252719E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.414786E+02    0.265555E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.392638E+02    0.269840E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.370443E+02    0.295185E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137465E+03   -0.341546E+02    0.280083E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137769E+03   -0.328417E+02    0.253433E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137694E+03   -0.333787E+02    0.222463E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137353E+03   -0.356064E+02    0.195697E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136231E+03   -0.392804E+02    0.177439E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.431830E+02    0.175587E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.464731E+02    0.189059E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133454E+03   -0.482564E+02    0.214004E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.474456E+02    0.247404E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134282E+03   -0.449403E+02    0.275442E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.409961E+02    0.293485E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    694728.594648951     
  ps_ts2 prof sum =   694335.095847820     
  trcom prof sum =    694335.095847821     
  ps_ts2 cur sum  =   9738.73778871521     
  trcom cur sum  =    9738.73778871521     
  
  antenna # iant =            2
  powecha_use(iant) =    665858.388379907     
  ps_ts2 prof sum =   665486.981167664     
  trcom prof sum =    665486.981167663     
  ps_ts2 cur sum  =   11446.8111471814     
  trcom cur sum  =    11446.8111471814     
  
  antenna # iant =            3
  powecha_use(iant) =    517897.366480853     
  ps_ts2 prof sum =   517599.631854879     
  trcom prof sum =    517599.631854879     
  ps_ts2 cur sum  =   6202.68248968736     
  trcom cur sum  =    6202.68248968737     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553219.270160035     
  ps_ts2 prof sum =   552908.635250402     
  trcom prof sum =    552908.635250402     
  ps_ts2 cur sum  =   10586.6018536588     
  trcom cur sum  =    10586.6018536588     
  
  Total ECH heating:      2430330.34412076     
  Total Current Drive:    37974.8332792428     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4385
 TA= 4.64000E+00 CPU TIME= 1.63479E-01 SECONDS.  DT= 7.41657E-04
  
 TEC1=    4.63999999999992     
 TEC2=    4.64499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3574463888888     
  %check_save_state: izleft hours =    67.6341666666667     
 --> plasma_hash("gframe"): TA= 4.640000E+00 NSTEP=  4385 Hash code:   26768549
 ->PRGCHK: bdy curvature ratio at t= 4.6450E+00 seconds is:  5.6633E-02
% MHDEQ: TG1=     4.640000 ; TG2=     4.645000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7577E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6633E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.640000 TO TG2=    4.645000 @ NSTEP     4385
   GFRAME TG2 MOMENTS CHECKSUM:  2.4516296248246D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6450E+00  4.6500E+00 total power(Watts):  2.4319E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.64500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.390837E+02    0.382672E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.370414E+02    0.383900E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.384122E+02    0.367312E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135068E+03   -0.408362E+02    0.371346E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.407269E+02    0.391946E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.383246E+02    0.399887E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.363476E+02    0.411773E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.350236E+02    0.398386E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.349746E+02    0.380214E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.358980E+02    0.363469E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.376699E+02    0.351739E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.397658E+02    0.348587E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.418495E+02    0.353901E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134586E+03   -0.431431E+02    0.367506E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.434153E+02    0.385143E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134647E+03   -0.423294E+02    0.403178E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.404947E+02    0.415162E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.382790E+02    0.418321E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.363213E+02    0.441649E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.333672E+02    0.424670E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137512E+03   -0.318358E+02    0.397526E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137452E+03   -0.323301E+02    0.366739E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137148E+03   -0.344852E+02    0.340721E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.380636E+02    0.324201E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.419421E+02    0.323778E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133732E+03   -0.454223E+02    0.338390E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132983E+03   -0.471548E+02    0.366217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132954E+03   -0.466173E+02    0.399448E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133970E+03   -0.438140E+02    0.429095E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134971E+03   -0.400631E+02    0.443818E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.400186E+02    0.295881E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.379694E+02    0.297707E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.394300E+02    0.280486E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.417635E+02    0.284263E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.416796E+02    0.304322E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135825E+03   -0.392780E+02    0.312827E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.371064E+02    0.326124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136571E+03   -0.360556E+02    0.312018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136704E+03   -0.358879E+02    0.294889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136808E+03   -0.367017E+02    0.278858E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.386639E+02    0.265286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.408759E+02    0.260917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.428680E+02    0.266189E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134671E+03   -0.441833E+02    0.279109E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134532E+03   -0.443661E+02    0.296699E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.433012E+02    0.314466E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.414760E+02    0.326476E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135645E+03   -0.392543E+02    0.330367E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.370117E+02    0.355569E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.342276E+02    0.338931E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.327493E+02    0.312972E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137625E+03   -0.332159E+02    0.282580E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.354532E+02    0.255589E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.391356E+02    0.237556E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135105E+03   -0.430368E+02    0.236150E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134152E+03   -0.463184E+02    0.250502E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133122E+03   -0.482035E+02    0.276097E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133194E+03   -0.475935E+02    0.308771E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.449396E+02    0.337700E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135193E+03   -0.409699E+02    0.354987E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.390130E+02    0.440172E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.369702E+02    0.440799E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135438E+03   -0.384568E+02    0.423734E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.407746E+02    0.429196E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134728E+03   -0.407593E+02    0.449496E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.383479E+02    0.456438E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.363607E+02    0.467353E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.351395E+02    0.453498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.348093E+02    0.436846E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.358423E+02    0.419488E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.376237E+02    0.407645E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135177E+03   -0.398304E+02    0.404350E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.418046E+02    0.411064E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134161E+03   -0.432002E+02    0.425453E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133683E+03   -0.435733E+02    0.443386E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134322E+03   -0.423588E+02    0.460996E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134726E+03   -0.405127E+02    0.472021E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.382897E+02    0.474358E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.363110E+02    0.497621E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.332738E+02    0.479456E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137206E+03   -0.318514E+02    0.452065E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.322736E+02    0.421774E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136931E+03   -0.344476E+02    0.395203E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.380397E+02    0.379464E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.419238E+02    0.380036E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133672E+03   -0.452875E+02    0.396598E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132541E+03   -0.472267E+02    0.425800E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132601E+03   -0.466618E+02    0.459216E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133287E+03   -0.440594E+02    0.486604E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.401648E+02    0.500842E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.401092E+02    0.235298E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.380602E+02    0.237428E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.396113E+02    0.219475E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.419507E+02    0.222808E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.417754E+02    0.243311E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.393839E+02    0.252125E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136490E+03   -0.373170E+02    0.265048E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136753E+03   -0.361550E+02    0.251951E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.358821E+02    0.235892E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136642E+03   -0.369739E+02    0.217597E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.386386E+02    0.206365E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.409417E+02    0.200971E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.430434E+02    0.204990E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134739E+03   -0.443674E+02    0.217345E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.444534E+02    0.235271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.434036E+02    0.252955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.414820E+02    0.265790E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.392670E+02    0.270074E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.372441E+02    0.293986E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137423E+03   -0.341572E+02    0.280298E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137729E+03   -0.328456E+02    0.253608E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.333836E+02    0.222642E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137320E+03   -0.356115E+02    0.195868E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.392868E+02    0.177581E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.431908E+02    0.175751E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134270E+03   -0.464803E+02    0.189264E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133410E+03   -0.482623E+02    0.214262E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133416E+03   -0.476794E+02    0.246221E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.448281E+02    0.276431E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.409980E+02    0.293743E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    697312.599159120     
  ps_ts2 prof sum =   696908.588482802     
  trcom prof sum =    696908.588482802     
  ps_ts2 cur sum  =   9746.43829673346     
  trcom cur sum  =    9746.43829673346     
  
  antenna # iant =            2
  powecha_use(iant) =    665723.616087286     
  ps_ts2 prof sum =   665321.716212681     
  trcom prof sum =    665321.716212680     
  ps_ts2 cur sum  =   11412.2671668420     
  trcom cur sum  =    11412.2671668420     
  
  antenna # iant =            3
  powecha_use(iant) =    515857.697433682     
  ps_ts2 prof sum =   515532.194552077     
  trcom prof sum =    515532.194522598     
  ps_ts2 cur sum  =   6161.52254964509     
  trcom cur sum  =    6161.52254964510     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552971.535200042     
  ps_ts2 prof sum =   552654.170449348     
  trcom prof sum =    552654.170449348     
  ps_ts2 cur sum  =   10555.0947311750     
  trcom cur sum  =    10555.0947311750     
  
  Total ECH heating:      2430416.66966743     
  Total Current Drive:    37875.3227443956     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4390
 TA= 4.64500E+00 CPU TIME= 1.60227E-01 SECONDS.  DT= 9.04855E-04
  
 TEC1=    4.64499999999992     
 TEC2=    4.64999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3709138888887     
  %check_save_state: izleft hours =    67.6205555555556     
 --> plasma_hash("gframe"): TA= 4.645000E+00 NSTEP=  4390 Hash code:   75548057
 ->PRGCHK: bdy curvature ratio at t= 4.6500E+00 seconds is:  5.6707E-02
% MHDEQ: TG1=     4.645000 ; TG2=     4.650000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7561E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6707E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.645000 TO TG2=    4.650000 @ NSTEP     4390
   GFRAME TG2 MOMENTS CHECKSUM:  2.4514109292525D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.64040E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.34108E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  8.93954E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.43048E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.33175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.47166E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.36573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.13180E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.96289E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.23692E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.66080E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.49328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7=  1.23738E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -1.20767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.18473E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.42726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -3.96746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.97489E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.04464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.16721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.71309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.71309E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.6500E+00  4.6550E+00 total power(Watts):  2.4269E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.65000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135422E+03   -0.390819E+02    0.382924E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135863E+03   -0.370394E+02    0.384149E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.385143E+02    0.367012E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.408345E+02    0.371620E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.407247E+02    0.392204E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.384265E+02    0.399632E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136018E+03   -0.363420E+02    0.411959E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.350214E+02    0.398600E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136731E+03   -0.348766E+02    0.380990E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.358973E+02    0.363708E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.376694E+02    0.351978E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.398712E+02    0.348241E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134922E+03   -0.418490E+02    0.354165E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.432539E+02    0.367262E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134244E+03   -0.434131E+02    0.385425E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134384E+03   -0.424381E+02    0.402964E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134960E+03   -0.404923E+02    0.415358E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.382763E+02    0.418488E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135777E+03   -0.363178E+02    0.441773E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.332706E+02    0.425235E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137243E+03   -0.319239E+02    0.397211E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137410E+03   -0.323293E+02    0.366953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.346756E+02    0.339664E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.381670E+02    0.323767E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.419433E+02    0.324038E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133912E+03   -0.453015E+02    0.339265E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132936E+03   -0.471529E+02    0.366536E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132907E+03   -0.466140E+02    0.399732E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133489E+03   -0.440390E+02    0.428494E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.400592E+02    0.443952E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.400210E+02    0.296131E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136032E+03   -0.379712E+02    0.297950E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.394332E+02    0.280726E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.417665E+02    0.284522E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.416840E+02    0.304569E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135782E+03   -0.392796E+02    0.313071E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.373081E+02    0.325030E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.359601E+02    0.312917E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.357947E+02    0.295831E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136322E+03   -0.369028E+02    0.277580E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.386708E+02    0.265478E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.408799E+02    0.261146E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135042E+03   -0.428726E+02    0.266425E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.441833E+02    0.279401E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134487E+03   -0.443690E+02    0.296971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.434139E+02    0.314083E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.414772E+02    0.326721E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.392538E+02    0.330597E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.372121E+02    0.354626E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137058E+03   -0.341343E+02    0.339763E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.327524E+02    0.313173E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137363E+03   -0.333094E+02    0.282034E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136752E+03   -0.356461E+02    0.254195E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.391406E+02    0.237753E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.430422E+02    0.236366E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133684E+03   -0.465545E+02    0.249275E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133077E+03   -0.482071E+02    0.276388E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132937E+03   -0.477131E+02    0.308444E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.448252E+02    0.338554E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.409693E+02    0.355242E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.391147E+02    0.439929E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135722E+03   -0.369666E+02    0.440923E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.384535E+02    0.423892E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134844E+03   -0.407678E+02    0.429354E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.407552E+02    0.449634E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.383438E+02    0.456571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.363565E+02    0.467478E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.350381E+02    0.453978E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.350003E+02    0.436155E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.357406E+02    0.420086E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.376210E+02    0.407850E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.398276E+02    0.404581E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134480E+03   -0.419115E+02    0.410853E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134118E+03   -0.431967E+02    0.425623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133860E+03   -0.434553E+02    0.443885E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134053E+03   -0.424688E+02    0.460832E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.405120E+02    0.472151E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135047E+03   -0.383898E+02    0.474184E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135595E+03   -0.363048E+02    0.497662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.332697E+02    0.479542E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137165E+03   -0.318461E+02    0.452191E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.323624E+02    0.421454E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.346371E+02    0.394400E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.380381E+02    0.379716E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134767E+03   -0.419219E+02    0.380313E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133204E+03   -0.455121E+02    0.395983E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132496E+03   -0.472225E+02    0.425996E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132339E+03   -0.467759E+02    0.459089E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133464E+03   -0.439392E+02    0.486951E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134511E+03   -0.401596E+02    0.500893E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135845E+03   -0.401176E+02    0.235466E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.380652E+02    0.237621E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.396171E+02    0.219673E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135336E+03   -0.419566E+02    0.223017E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.418860E+02    0.242747E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135974E+03   -0.393850E+02    0.252355E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136665E+03   -0.372226E+02    0.266020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.360638E+02    0.252932E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136672E+03   -0.360759E+02    0.234434E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.368840E+02    0.218621E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.388419E+02    0.204852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.410512E+02    0.200315E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.430499E+02    0.205188E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.443737E+02    0.217568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.444591E+02    0.235494E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.435175E+02    0.252435E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135237E+03   -0.415921E+02    0.265286E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135750E+03   -0.393726E+02    0.269559E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136257E+03   -0.372463E+02    0.294224E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136942E+03   -0.343448E+02    0.279001E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.328496E+02    0.253779E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137614E+03   -0.333890E+02    0.222812E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.358018E+02    0.194245E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136367E+03   -0.391969E+02    0.178570E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.431991E+02    0.175869E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134230E+03   -0.464883E+02    0.189441E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133575E+03   -0.481537E+02    0.215270E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133372E+03   -0.476850E+02    0.246473E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.448336E+02    0.276701E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.411072E+02    0.293306E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    691749.292974463     
  ps_ts2 prof sum =   691341.306503419     
  trcom prof sum =    691341.306503420     
  ps_ts2 cur sum  =   9642.01796831646     
  trcom cur sum  =    9642.01796831647     
  
  antenna # iant =            2
  powecha_use(iant) =    667484.608695433     
  ps_ts2 prof sum =   667091.382939269     
  trcom prof sum =    667091.382939268     
  ps_ts2 cur sum  =   11417.1031288743     
  trcom cur sum  =    11417.1031288743     
  
  antenna # iant =            3
  powecha_use(iant) =    515322.379782808     
  ps_ts2 prof sum =   514992.833902651     
  trcom prof sum =    514992.833902651     
  ps_ts2 cur sum  =   6138.98374604147     
  trcom cur sum  =    6138.98374604148     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552329.625321314     
  ps_ts2 prof sum =   552008.479817574     
  trcom prof sum =    552008.479817574     
  ps_ts2 cur sum  =   10522.1166739981     
  trcom cur sum  =    10522.1166739981     
  
  Total ECH heating:      2425434.00316291     
  Total Current Drive:    37720.2215172304     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4394
 TA= 4.65000E+00 CPU TIME= 1.59471E-01 SECONDS.  DT= 1.93780E-03
  
 TEC1=    4.64999999999992     
 TEC2=    4.65499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3833944444441     
  %check_save_state: izleft hours =    67.6080555555556     
 --> plasma_hash("gframe"): TA= 4.650000E+00 NSTEP=  4394 Hash code:  103882813
 ->PRGCHK: bdy curvature ratio at t= 4.6550E+00 seconds is:  5.6783E-02
% MHDEQ: TG1=     4.650000 ; TG2=     4.655000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1340E-03 SECONDS
   DATA R*BT AT EDGE:  2.7545E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6783E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.650000 TO TG2=    4.655000 @ NSTEP     4394
   GFRAME TG2 MOMENTS CHECKSUM:  2.4511922336804D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999997039092705E-006
 EC call, timestep(sec):  4.6550E+00  4.6600E+00 total power(Watts):  2.4237E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.65500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.390809E+02    0.383209E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.370382E+02    0.384418E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.385142E+02    0.367302E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.408389E+02    0.371905E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134776E+03   -0.408314E+02    0.391996E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.384249E+02    0.399882E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.364436E+02    0.411690E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136166E+03   -0.352143E+02    0.397829E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136688E+03   -0.348761E+02    0.381245E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136497E+03   -0.358002E+02    0.364548E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.376704E+02    0.352255E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.398721E+02    0.348546E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.419590E+02    0.353914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134278E+03   -0.432538E+02    0.367585E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.434121E+02    0.385734E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134339E+03   -0.424361E+02    0.403232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.405980E+02    0.415139E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.383779E+02    0.418235E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.363133E+02    0.441932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136817E+03   -0.332688E+02    0.425370E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137201E+03   -0.319227E+02    0.397425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137142E+03   -0.324201E+02    0.366621E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.345824E+02    0.340547E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.381676E+02    0.324070E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134793E+03   -0.420547E+02    0.323734E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133854E+03   -0.453083E+02    0.339584E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132674E+03   -0.472709E+02    0.366390E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132645E+03   -0.467298E+02    0.399604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.439218E+02    0.429060E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.401635E+02    0.443751E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.400251E+02    0.296464E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.379750E+02    0.298266E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.394383E+02    0.281059E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135021E+03   -0.418784E+02    0.284176E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.417918E+02    0.304256E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.393861E+02    0.312713E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.373086E+02    0.325327E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136705E+03   -0.359635E+02    0.313209E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.357987E+02    0.296129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.369049E+02    0.277913E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.386767E+02    0.265792E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.408860E+02    0.261477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134783E+03   -0.429876E+02    0.266048E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134367E+03   -0.443034E+02    0.279053E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134013E+03   -0.445970E+02    0.296027E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134514E+03   -0.434169E+02    0.314424E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.414793E+02    0.327044E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135558E+03   -0.392575E+02    0.330884E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.372128E+02    0.354903E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137015E+03   -0.341343E+02    0.340030E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.327553E+02    0.313438E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.333141E+02    0.282325E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136926E+03   -0.355582E+02    0.255255E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.391485E+02    0.238036E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135019E+03   -0.430510E+02    0.236674E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133853E+03   -0.464456E+02    0.250372E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132817E+03   -0.483296E+02    0.276143E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132888E+03   -0.477162E+02    0.308839E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.448248E+02    0.338899E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134886E+03   -0.410776E+02    0.354988E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.391120E+02    0.440081E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135455E+03   -0.370634E+02    0.440709E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.384511E+02    0.424056E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134571E+03   -0.408762E+02    0.429134E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134421E+03   -0.408607E+02    0.449458E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.384445E+02    0.456399E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135469E+03   -0.364530E+02    0.467316E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.352302E+02    0.453408E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136098E+03   -0.349977E+02    0.436294E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.359362E+02    0.419364E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.377219E+02    0.407602E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.398253E+02    0.404824E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134436E+03   -0.419093E+02    0.411089E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133636E+03   -0.434203E+02    0.425029E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133817E+03   -0.434520E+02    0.444059E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134015E+03   -0.424625E+02    0.461016E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.406125E+02    0.472039E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.383858E+02    0.474337E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.364026E+02    0.497498E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.332662E+02    0.479653E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136896E+03   -0.319359E+02    0.451937E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.323605E+02    0.421594E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136621E+03   -0.345402E+02    0.395142E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.381402E+02    0.379465E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.420314E+02    0.380111E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133158E+03   -0.455101E+02    0.396288E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132436E+03   -0.472260E+02    0.426217E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132294E+03   -0.467714E+02    0.459294E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.132979E+03   -0.441642E+02    0.486623E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.401555E+02    0.500961E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135599E+03   -0.402250E+02    0.234997E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.380729E+02    0.237896E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135844E+03   -0.396262E+02    0.219944E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135292E+03   -0.419659E+02    0.223308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135190E+03   -0.418938E+02    0.243055E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.394935E+02    0.251892E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136187E+03   -0.374245E+02    0.264796E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136886E+03   -0.360705E+02    0.253206E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.360835E+02    0.234697E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136774E+03   -0.368930E+02    0.218873E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136043E+03   -0.388507E+02    0.205095E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.410616E+02    0.200574E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135091E+03   -0.430606E+02    0.205463E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.443836E+02    0.217872E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134476E+03   -0.445776E+02    0.235049E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134717E+03   -0.435245E+02    0.252765E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135192E+03   -0.415983E+02    0.265625E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.393781E+02    0.269888E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.372512E+02    0.294533E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.342575E+02    0.280049E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.329444E+02    0.253228E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.333945E+02    0.223036E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.357199E+02    0.195336E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.394039E+02    0.177037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.433184E+02    0.175241E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133770E+03   -0.467227E+02    0.188109E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133114E+03   -0.483945E+02    0.214078E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133536E+03   -0.475771E+02    0.247560E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134356E+03   -0.448392E+02    0.277078E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.411111E+02    0.293651E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    689502.806285688     
  ps_ts2 prof sum =   689099.082566493     
  trcom prof sum =    689099.082566494     
  ps_ts2 cur sum  =   9590.48632736946     
  trcom cur sum  =    9590.48632736947     
  
  antenna # iant =            2
  powecha_use(iant) =    666405.006268495     
  ps_ts2 prof sum =   666009.237864350     
  trcom prof sum =    666009.237864350     
  ps_ts2 cur sum  =   11378.5432012714     
  trcom cur sum  =    11378.5432012714     
  
  antenna # iant =            3
  powecha_use(iant) =    514973.392144409     
  ps_ts2 prof sum =   514691.444073370     
  trcom prof sum =    514691.444073370     
  ps_ts2 cur sum  =   6121.80432351497     
  trcom cur sum  =    6121.80432351498     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552867.177525389     
  ps_ts2 prof sum =   552570.636149378     
  trcom prof sum =    552570.636149378     
  ps_ts2 cur sum  =   10520.2602970916     
  trcom cur sum  =    10520.2602970916     
  
  Total ECH heating:      2422370.40065359     
  Total Current Drive:    37611.0941492474     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4397
 TA= 4.65500E+00 CPU TIME= 1.59092E-01 SECONDS.  DT= 7.99939E-04
  
 TEC1=    4.65499999999992     
 TEC2=    4.65999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.3985422222220     
  %check_save_state: izleft hours =    67.5930555555556     
 --> plasma_hash("gframe"): TA= 4.655000E+00 NSTEP=  4397 Hash code:  106511309
 ->PRGCHK: bdy curvature ratio at t= 4.6600E+00 seconds is:  5.6709E-02
% MHDEQ: TG1=     4.655000 ; TG2=     4.660000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1550E-03 SECONDS
   DATA R*BT AT EDGE:  2.7546E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6709E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.655000 TO TG2=    4.660000 @ NSTEP     4397
   GFRAME TG2 MOMENTS CHECKSUM:  2.4511197571565D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.59957E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.25191E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.01177E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -8.56228E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.34495E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.46926E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       5= -2.01041E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.23981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  1.98600E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  6.31216E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.79565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.40152E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       9= -3.45272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       8=  5.37100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.25840E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.41843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11=  2.59350E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.95225E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.11664E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.12682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  5.95034E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  5.95034E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.6600E+00  4.6650E+00 total power(Watts):  2.4203E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.66000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.390829E+02    0.383605E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.370405E+02    0.384791E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.385173E+02    0.367687E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.408334E+02    0.372350E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.407254E+02    0.392868E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.384264E+02    0.400233E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.363452E+02    0.412451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.352158E+02    0.398167E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136658E+03   -0.348784E+02    0.381606E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.359006E+02    0.364355E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.376743E+02    0.352638E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.398763E+02    0.348941E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.418535E+02    0.354893E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134246E+03   -0.432570E+02    0.368018E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.434142E+02    0.386157E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134308E+03   -0.424376E+02    0.403608E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134887E+03   -0.404913E+02    0.415885E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.383786E+02    0.418535E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135707E+03   -0.363131E+02    0.442189E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.332728E+02    0.425612E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.319243E+02    0.397739E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137338E+03   -0.323321E+02    0.367550E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136588E+03   -0.346805E+02    0.340290E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.381730E+02    0.324472E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134978E+03   -0.419519E+02    0.324775E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133821E+03   -0.453126E+02    0.340046E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132641E+03   -0.472737E+02    0.366871E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132612E+03   -0.467310E+02    0.400036E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133415E+03   -0.440362E+02    0.428998E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.400560E+02    0.444385E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.72 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.400326E+02    0.296884E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.379829E+02    0.298670E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.394465E+02    0.281477E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.417795E+02    0.285308E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135149E+03   -0.416912E+02    0.305352E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.392884E+02    0.313791E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.373139E+02    0.325716E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.359698E+02    0.313579E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.358058E+02    0.296514E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136255E+03   -0.369132E+02    0.278308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.386860E+02    0.266188E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.408961E+02    0.261885E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134966E+03   -0.428889E+02    0.267201E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134548E+03   -0.442010E+02    0.280199E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134407E+03   -0.443801E+02    0.297802E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134482E+03   -0.434235E+02    0.314868E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.414849E+02    0.327463E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135527E+03   -0.392624E+02    0.331292E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135882E+03   -0.372165E+02    0.355283E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136985E+03   -0.341389E+02    0.340383E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.327611E+02    0.313795E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.333217E+02    0.282692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136679E+03   -0.356619E+02    0.254832E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.391597E+02    0.238413E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.430629E+02    0.237090E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133612E+03   -0.465710E+02    0.250101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132994E+03   -0.482212E+02    0.277310E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132857E+03   -0.477221E+02    0.309330E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133961E+03   -0.448316E+02    0.339337E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135073E+03   -0.409737E+02    0.355962E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134976E+03   -0.391118E+02    0.440356E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.369621E+02    0.441348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.384514E+02    0.424348E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134542E+03   -0.408764E+02    0.429430E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134615E+03   -0.407514E+02    0.450081E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.384437E+02    0.456668E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.364511E+02    0.467577E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.350344E+02    0.454370E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.349969E+02    0.436552E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.359369E+02    0.419645E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.376201E+02    0.408392E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.398269E+02    0.405176E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.419109E+02    0.411433E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134045E+03   -0.431948E+02    0.426125E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133787E+03   -0.434517E+02    0.444360E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133986E+03   -0.424614E+02    0.461309E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134389E+03   -0.406113E+02    0.472301E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134977E+03   -0.383844E+02    0.474580E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.363007E+02    0.497891E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136572E+03   -0.332646E+02    0.479855E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137099E+03   -0.318447E+02    0.452543E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.323611E+02    0.421839E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.346377E+02    0.394977E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135701E+03   -0.380398E+02    0.380382E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.419238E+02    0.381029E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133126E+03   -0.455115E+02    0.396713E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132426E+03   -0.472171E+02    0.426562E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132264E+03   -0.467702E+02    0.459608E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133392E+03   -0.439329E+02    0.487331E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.401537E+02    0.501133E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.401343E+02    0.236168E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136185E+03   -0.380840E+02    0.238274E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.396385E+02    0.220345E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.419786E+02    0.223725E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.419052E+02    0.243464E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.394023E+02    0.253048E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.372370E+02    0.266701E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136857E+03   -0.360802E+02    0.253565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.360944E+02    0.235062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.369055E+02    0.219249E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.388634E+02    0.205499E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.410758E+02    0.200985E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135060E+03   -0.430741E+02    0.205895E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134622E+03   -0.443972E+02    0.218309E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.444801E+02    0.236237E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134899E+03   -0.434264E+02    0.253927E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.416078E+02    0.266046E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.393872E+02    0.270295E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.372585E+02    0.294932E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.341729E+02    0.281173E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137618E+03   -0.328648E+02    0.254374E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137542E+03   -0.334059E+02    0.223392E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136781E+03   -0.358236E+02    0.194833E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.393208E+02    0.178292E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134937E+03   -0.433296E+02    0.175695E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134158E+03   -0.465168E+02    0.190172E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133493E+03   -0.481812E+02    0.216057E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133295E+03   -0.477046E+02    0.247301E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134325E+03   -0.448484E+02    0.277528E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135169E+03   -0.411188E+02    0.294083E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    686318.509626697     
  ps_ts2 prof sum =   685934.940159294     
  trcom prof sum =    685934.940159294     
  ps_ts2 cur sum  =   9523.55358004791     
  trcom cur sum  =    9523.55358004791     
  
  antenna # iant =            2
  powecha_use(iant) =    666007.083025580     
  ps_ts2 prof sum =   665615.640924834     
  trcom prof sum =    665615.640924833     
  ps_ts2 cur sum  =   11362.2213751154     
  trcom cur sum  =    11362.2213751154     
  
  antenna # iant =            3
  powecha_use(iant) =    515259.011417088     
  ps_ts2 prof sum =   514944.445116856     
  trcom prof sum =    514944.445116856     
  ps_ts2 cur sum  =   6106.14739228499     
  trcom cur sum  =    6106.14739228499     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552735.730531883     
  ps_ts2 prof sum =   552411.693335279     
  trcom prof sum =    552411.693335279     
  ps_ts2 cur sum  =   10520.0057608209     
  trcom cur sum  =    10520.0057608209     
  
  Total ECH heating:      2418906.71953626     
  Total Current Drive:    37511.9281082692     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4402
 TA= 4.66000E+00 CPU TIME= 1.60460E-01 SECONDS.  DT= 4.84812E-04
  
 TEC1=    4.65999999999992     
 TEC2=    4.66499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4120666666668     
  %check_save_state: izleft hours =    67.5794444444444     
 --> plasma_hash("gframe"): TA= 4.660000E+00 NSTEP=  4402 Hash code:   81802637
 ->PRGCHK: bdy curvature ratio at t= 4.6650E+00 seconds is:  5.6637E-02
% MHDEQ: TG1=     4.660000 ; TG2=     4.665000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1220E-03 SECONDS
   DATA R*BT AT EDGE:  2.7548E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6637E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.660000 TO TG2=    4.665000 @ NSTEP     4402
   GFRAME TG2 MOMENTS CHECKSUM:  2.4510472806326D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6650E+00  4.6700E+00 total power(Watts):  2.4151E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.66500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135320E+03   -0.390824E+02    0.383981E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.370412E+02    0.385146E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.385186E+02    0.368065E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.408381E+02    0.372726E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.407255E+02    0.393240E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135326E+03   -0.384263E+02    0.400572E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.363448E+02    0.412740E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.350223E+02    0.399467E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136628E+03   -0.348791E+02    0.381947E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.359022E+02    0.364710E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135815E+03   -0.376767E+02    0.353003E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.398786E+02    0.349327E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134813E+03   -0.418557E+02    0.355287E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.431463E+02    0.368952E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134134E+03   -0.434144E+02    0.386560E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.424375E+02    0.403961E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134857E+03   -0.404907E+02    0.416190E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135430E+03   -0.382745E+02    0.419245E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.363132E+02    0.442415E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136772E+03   -0.332639E+02    0.425877E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137143E+03   -0.319244E+02    0.398044E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137308E+03   -0.323340E+02    0.367875E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136557E+03   -0.346833E+02    0.340643E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.380758E+02    0.325494E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.419559E+02    0.325187E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133788E+03   -0.453156E+02    0.340483E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132821E+03   -0.471562E+02    0.367825E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132796E+03   -0.466125E+02    0.400859E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133385E+03   -0.440348E+02    0.429292E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134829E+03   -0.400544E+02    0.444641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135512E+03   -0.400385E+02    0.297289E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.379882E+02    0.299060E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.394530E+02    0.281872E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.417867E+02    0.285719E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.416966E+02    0.305772E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.392933E+02    0.314186E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.373177E+02    0.326098E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.360711E+02    0.313280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.358113E+02    0.296889E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.367248E+02    0.280147E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135895E+03   -0.386932E+02    0.266564E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.409041E+02    0.262273E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.428965E+02    0.267608E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134516E+03   -0.442077E+02    0.280636E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.443862E+02    0.298248E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134663E+03   -0.433164E+02    0.315939E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134963E+03   -0.414889E+02    0.327863E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.392662E+02    0.331681E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.372183E+02    0.355655E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136955E+03   -0.341419E+02    0.340730E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.327651E+02    0.314147E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137480E+03   -0.332373E+02    0.283794E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.356697E+02    0.255180E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.391690E+02    0.238782E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.430729E+02    0.237485E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133580E+03   -0.465801E+02    0.250530E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132961E+03   -0.482287E+02    0.277782E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133033E+03   -0.476102E+02    0.310415E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133928E+03   -0.448339E+02    0.339783E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.409753E+02    0.356362E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.134946E+03   -0.391089E+02    0.440629E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.369623E+02    0.441570E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.384508E+02    0.424603E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134735E+03   -0.407681E+02    0.430070E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.407495E+02    0.450345E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135232E+03   -0.383375E+02    0.457253E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.363486E+02    0.468124E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136249E+03   -0.350327E+02    0.454604E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.349955E+02    0.436787E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.357388E+02    0.420782E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.376206E+02    0.408701E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135028E+03   -0.398264E+02    0.405514E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134376E+03   -0.419103E+02    0.411764E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134014E+03   -0.431926E+02    0.426439E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133758E+03   -0.434498E+02    0.444637E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133956E+03   -0.424590E+02    0.461580E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.406086E+02    0.472552E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.383818E+02    0.474812E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.362976E+02    0.498039E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.332623E+02    0.480041E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.318432E+02    0.452764E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.323605E+02    0.422076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136336E+03   -0.346380E+02    0.395296E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135670E+03   -0.380406E+02    0.380751E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.419244E+02    0.381428E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133094E+03   -0.455112E+02    0.397112E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132389E+03   -0.472181E+02    0.426882E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132233E+03   -0.467673E+02    0.459917E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133367E+03   -0.439274E+02    0.487561E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.401506E+02    0.501288E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.401439E+02    0.236543E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.380931E+02    0.238628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.396487E+02    0.220722E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.419893E+02    0.224121E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.418089E+02    0.244613E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.394108E+02    0.253415E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136561E+03   -0.372449E+02    0.267058E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.360883E+02    0.253910E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137005E+03   -0.359151E+02    0.237029E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.370090E+02    0.218777E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135983E+03   -0.388764E+02    0.205875E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135472E+03   -0.410880E+02    0.201384E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135029E+03   -0.430869E+02    0.206310E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.444086E+02    0.218727E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134626E+03   -0.444903E+02    0.236645E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.434354E+02    0.254330E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135344E+03   -0.415092E+02    0.267172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135860E+03   -0.392925E+02    0.271414E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.372640E+02    0.295318E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.341792E+02    0.281526E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137589E+03   -0.328725E+02    0.254699E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137513E+03   -0.334159E+02    0.223726E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137183E+03   -0.356526E+02    0.196925E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.393337E+02    0.178663E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.432414E+02    0.176916E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134127E+03   -0.465304E+02    0.190605E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133477E+03   -0.481862E+02    0.216555E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133263E+03   -0.477141E+02    0.247739E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134292E+03   -0.448553E+02    0.277973E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135353E+03   -0.410182E+02    0.295180E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681316.351109381     
  ps_ts2 prof sum =   680913.371155504     
  trcom prof sum =    680913.371155504     
  ps_ts2 cur sum  =   9427.91282064827     
  trcom cur sum  =    9427.91282064827     
  
  antenna # iant =            2
  powecha_use(iant) =    667569.998020674     
  ps_ts2 prof sum =   667173.216425733     
  trcom prof sum =    667173.216425733     
  ps_ts2 cur sum  =   11374.1717673661     
  trcom cur sum  =    11374.1717673661     
  
  antenna # iant =            3
  powecha_use(iant) =    514117.222398485     
  ps_ts2 prof sum =   513793.800548929     
  trcom prof sum =    513793.800548930     
  ps_ts2 cur sum  =   6070.55031303897     
  trcom cur sum  =    6070.55031303897     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552099.746781846     
  ps_ts2 prof sum =   551751.950376735     
  trcom prof sum =    551751.950376735     
  ps_ts2 cur sum  =   10504.7877453309     
  trcom cur sum  =    10504.7877453309     
  
  Total ECH heating:      2413632.33850690     
  Total Current Drive:    37377.4226463842     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4408
 TA= 4.66500E+00 CPU TIME= 1.59636E-01 SECONDS.  DT= 1.27641E-03
  
 TEC1=    4.66499999999992     
 TEC2=    4.66999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4235527777778     
  %check_save_state: izleft hours =    67.5680555555556     
 --> plasma_hash("gframe"): TA= 4.665000E+00 NSTEP=  4408 Hash code:   10821649
 ->PRGCHK: bdy curvature ratio at t= 4.6700E+00 seconds is:  5.6569E-02
% MHDEQ: TG1=     4.665000 ; TG2=     4.670000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7549E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6569E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.665000 TO TG2=    4.670000 @ NSTEP     4408
   GFRAME TG2 MOMENTS CHECKSUM:  2.4509748071765D+04
 %MFRCHK - LABEL "RMC12", #       1= -9.84247E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -3.25873E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.21726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS12", #       1= -9.51235E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.35075E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.43670E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       5= -1.55477E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.43300E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.12290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  4.94762E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.84120E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.20013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -3.01640E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -3.13813E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.27252E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.45899E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.71537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.58026E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.10563E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.20684E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.45535E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.45535E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6700E+00  4.6750E+00 total power(Watts):  2.4145E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.67000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135285E+03   -0.390852E+02    0.384368E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.370423E+02    0.385521E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135667E+03   -0.384180E+02    0.368995E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.408402E+02    0.373135E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.407266E+02    0.393627E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.383231E+02    0.401403E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.363448E+02    0.413052E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.350233E+02    0.399800E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136373E+03   -0.349768E+02    0.381775E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136183E+03   -0.359048E+02    0.365079E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.376799E+02    0.353386E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.398824E+02    0.349716E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134782E+03   -0.418589E+02    0.355701E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.431486E+02    0.369380E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134102E+03   -0.434158E+02    0.386982E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134245E+03   -0.424379E+02    0.404346E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134827E+03   -0.404908E+02    0.416515E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.382745E+02    0.419545E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.363123E+02    0.442674E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.332684E+02    0.426108E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.319252E+02    0.398362E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137279E+03   -0.323361E+02    0.368225E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136973E+03   -0.344981E+02    0.342243E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.380808E+02    0.325889E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.419611E+02    0.325609E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133541E+03   -0.454350E+02    0.340364E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132788E+03   -0.471584E+02    0.368288E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132763E+03   -0.466125E+02    0.401302E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.438053E+02    0.430371E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134800E+03   -0.400532E+02    0.444924E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.400454E+02    0.297702E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.379947E+02    0.299460E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.394608E+02    0.282273E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.417945E+02    0.286141E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.417032E+02    0.306196E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.392988E+02    0.314595E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.373230E+02    0.326486E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.360766E+02    0.313664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.359138E+02    0.296565E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.367326E+02    0.280524E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.387018E+02    0.266950E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135341E+03   -0.409134E+02    0.262668E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.429058E+02    0.268024E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134484E+03   -0.442166E+02    0.281077E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134342E+03   -0.443933E+02    0.298697E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134632E+03   -0.433232E+02    0.316365E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.414938E+02    0.328285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.392708E+02    0.332079E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.372216E+02    0.356027E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.342399E+02    0.340464E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.327702E+02    0.314500E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137450E+03   -0.332444E+02    0.284149E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137056E+03   -0.354907E+02    0.257088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135881E+03   -0.391797E+02    0.239157E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.430843E+02    0.237888E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133971E+03   -0.463633E+02    0.252400E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132928E+03   -0.482374E+02    0.278267E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133000E+03   -0.476164E+02    0.310902E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133681E+03   -0.449525E+02    0.339657E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.409787E+02    0.356760E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135141E+03   -0.390029E+02    0.441268E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.369615E+02    0.441832E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135267E+03   -0.384506E+02    0.424890E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.407677E+02    0.430361E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134556E+03   -0.407482E+02    0.450627E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.383361E+02    0.457520E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135611E+03   -0.363478E+02    0.468356E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135993E+03   -0.351288E+02    0.454505E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136014E+03   -0.349958E+02    0.437030E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.358377E+02    0.420624E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135579E+03   -0.376208E+02    0.409031E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134998E+03   -0.398273E+02    0.405868E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.418004E+02    0.412542E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.431923E+02    0.426756E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133728E+03   -0.434486E+02    0.444937E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.424572E+02    0.461869E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.404983E+02    0.473092E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135145E+03   -0.382758E+02    0.475334E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135467E+03   -0.362954E+02    0.498195E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136516E+03   -0.332601E+02    0.480240E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.318421E+02    0.452998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.322695E+02    0.422776E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.346388E+02    0.395641E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.380420E+02    0.381131E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.419261E+02    0.381840E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133495E+03   -0.452797E+02    0.398411E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132358E+03   -0.472174E+02    0.427231E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132202E+03   -0.467652E+02    0.460239E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133333E+03   -0.439273E+02    0.487791E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134385E+03   -0.401481E+02    0.501456E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.56 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.401550E+02    0.236923E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.381036E+02    0.238997E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.396605E+02    0.221106E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.420014E+02    0.224517E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135313E+03   -0.418196E+02    0.245006E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135840E+03   -0.394206E+02    0.253794E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.373516E+02    0.266679E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136580E+03   -0.361927E+02    0.253483E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136976E+03   -0.359254E+02    0.237370E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.370209E+02    0.219135E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.387894E+02    0.207080E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.409992E+02    0.202593E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.431004E+02    0.206714E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134561E+03   -0.444215E+02    0.219142E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.445021E+02    0.237056E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134837E+03   -0.434455E+02    0.254739E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.415186E+02    0.267575E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.393010E+02    0.271805E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.372707E+02    0.295713E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137248E+03   -0.341866E+02    0.281886E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.328814E+02    0.255030E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137484E+03   -0.334260E+02    0.224065E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137154E+03   -0.356653E+02    0.197267E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.393492E+02    0.179018E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.432568E+02    0.177298E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134098E+03   -0.465456E+02    0.191030E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133228E+03   -0.483193E+02    0.216228E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133232E+03   -0.477252E+02    0.248190E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134261E+03   -0.448646E+02    0.278410E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135322E+03   -0.410260E+02    0.295598E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.45 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678350.407902364     
  ps_ts2 prof sum =   677955.183474539     
  trcom prof sum =    677955.183474539     
  ps_ts2 cur sum  =   9364.16308885682     
  trcom cur sum  =    9364.16308885682     
  
  antenna # iant =            2
  powecha_use(iant) =    668985.060437801     
  ps_ts2 prof sum =   668616.876133423     
  trcom prof sum =    668616.876133422     
  ps_ts2 cur sum  =   11390.4265468308     
  trcom cur sum  =    11390.4265468308     
  
  antenna # iant =            3
  powecha_use(iant) =    513646.104620534     
  ps_ts2 prof sum =   513326.690785903     
  trcom prof sum =    513326.690785903     
  ps_ts2 cur sum  =   6044.13393199285     
  trcom cur sum  =    6044.13393199285     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553550.388616182     
  ps_ts2 prof sum =   553249.219721919     
  trcom prof sum =    553249.219721919     
  ps_ts2 cur sum  =   10534.2942859368     
  trcom cur sum  =    10534.2942859368     
  
  Total ECH heating:      2413147.97011578     
  Total Current Drive:    37333.0178536172     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4412
 TA= 4.67000E+00 CPU TIME= 1.66300E-01 SECONDS.  DT= 1.67094E-04
  
 TEC1=    4.66999999999992     
 TEC2=    4.67499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4422547222216     
  %check_save_state: izleft hours =    67.5491666666667     
 --> plasma_hash("gframe"): TA= 4.670000E+00 NSTEP=  4412 Hash code:   66173188
 ->PRGCHK: bdy curvature ratio at t= 4.6750E+00 seconds is:  5.6505E-02
% MHDEQ: TG1=     4.670000 ; TG2=     4.675000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6505E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.670000 TO TG2=    4.675000 @ NSTEP     4412
   GFRAME TG2 MOMENTS CHECKSUM:  2.4509023337205D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6750E+00  4.6800E+00 total power(Watts):  2.4113E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.67500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.389835E+02    0.385238E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135921E+03   -0.369447E+02    0.386387E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135636E+03   -0.384211E+02    0.369379E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135072E+03   -0.407361E+02    0.374045E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.407288E+02    0.394004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.383250E+02    0.401743E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.363463E+02    0.413346E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136273E+03   -0.351218E+02    0.399636E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.349794E+02    0.382126E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.359083E+02    0.365440E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.376840E+02    0.353758E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.397818E+02    0.350675E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.418659E+02    0.356090E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134368E+03   -0.431522E+02    0.369784E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133853E+03   -0.435308E+02    0.386921E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.423285E+02    0.405148E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134798E+03   -0.404922E+02    0.416827E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.382757E+02    0.419833E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.363126E+02    0.442929E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136478E+03   -0.333622E+02    0.425928E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137313E+03   -0.318374E+02    0.399161E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.323396E+02    0.368556E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136944E+03   -0.345034E+02    0.342593E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.380910E+02    0.326256E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134883E+03   -0.419675E+02    0.326027E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133510E+03   -0.454404E+02    0.340806E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132750E+03   -0.471649E+02    0.368729E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132731E+03   -0.466143E+02    0.401714E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133764E+03   -0.438061E+02    0.430676E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.400536E+02    0.445193E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.38 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.400530E+02    0.298120E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.379018E+02    0.300546E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.394693E+02    0.282684E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135110E+03   -0.418031E+02    0.286572E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135054E+03   -0.417104E+02    0.306629E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.393095E+02    0.314978E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.372287E+02    0.327503E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136363E+03   -0.360828E+02    0.314052E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136496E+03   -0.359214E+02    0.296950E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136382E+03   -0.368383E+02    0.280190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136051E+03   -0.386110E+02    0.268087E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.408188E+02    0.263813E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134872E+03   -0.429157E+02    0.268461E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.442259E+02    0.281529E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.444014E+02    0.299154E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134601E+03   -0.433303E+02    0.316806E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.413923E+02    0.329303E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.391718E+02    0.333096E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.371256E+02    0.356967E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.340576E+02    0.342053E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.327760E+02    0.314860E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.332522E+02    0.284512E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.355005E+02    0.257452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.391912E+02    0.239551E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.430966E+02    0.238311E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133940E+03   -0.463751E+02    0.252859E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132896E+03   -0.482470E+02    0.278763E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132967E+03   -0.476236E+02    0.311390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.447298E+02    0.341226E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134979E+03   -0.409831E+02    0.357150E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.390033E+02    0.441533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.369618E+02    0.442088E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135239E+03   -0.384516E+02    0.425171E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134677E+03   -0.407685E+02    0.430644E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.407482E+02    0.450905E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135176E+03   -0.383358E+02    0.457784E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135583E+03   -0.363472E+02    0.468602E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.351278E+02    0.454755E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.348026E+02    0.438062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.358386E+02    0.420896E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135550E+03   -0.376224E+02    0.409348E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.398284E+02    0.406208E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134536E+03   -0.418020E+02    0.412876E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.431932E+02    0.427056E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133471E+03   -0.435656E+02    0.444890E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134119E+03   -0.423450E+02    0.462453E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134526E+03   -0.404975E+02    0.473351E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.382752E+02    0.475577E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.362943E+02    0.498358E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.333530E+02    0.480152E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.318420E+02    0.453229E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.322702E+02    0.423026E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136728E+03   -0.344499E+02    0.396954E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.380450E+02    0.381501E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.419288E+02    0.382240E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133464E+03   -0.452818E+02    0.398813E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132328E+03   -0.472181E+02    0.427568E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132391E+03   -0.466457E+02    0.460840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133083E+03   -0.440406E+02    0.487806E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134357E+03   -0.401467E+02    0.501638E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135694E+03   -0.401668E+02    0.237322E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.379185E+02    0.240952E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135939E+03   -0.395729E+02    0.222302E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135385E+03   -0.419095E+02    0.225714E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.418312E+02    0.245418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.394311E+02    0.254189E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136284E+03   -0.373609E+02    0.267067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.362028E+02    0.253860E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136947E+03   -0.359370E+02    0.237739E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.368424E+02    0.221156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136138E+03   -0.388027E+02    0.207469E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.410116E+02    0.203001E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134969E+03   -0.431148E+02    0.207146E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.443266E+02    0.220348E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134565E+03   -0.445147E+02    0.237491E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134807E+03   -0.434566E+02    0.255172E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135283E+03   -0.415286E+02    0.267998E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.393102E+02    0.272207E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.370808E+02    0.297492E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137218E+03   -0.341946E+02    0.282254E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137531E+03   -0.328916E+02    0.255383E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.334374E+02    0.224414E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.356781E+02    0.197628E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135999E+03   -0.393645E+02    0.179385E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.432735E+02    0.177693E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134068E+03   -0.465621E+02    0.191468E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133198E+03   -0.483342E+02    0.216700E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133621E+03   -0.475063E+02    0.250076E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.449862E+02    0.278195E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.410340E+02    0.296021E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.06 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677106.644984911     
  ps_ts2 prof sum =   676744.101674777     
  trcom prof sum =    676744.101674777     
  ps_ts2 cur sum  =   9326.69408348593     
  trcom cur sum  =    9326.69408348593     
  
  antenna # iant =            2
  powecha_use(iant) =    666488.481385347     
  ps_ts2 prof sum =   666114.286550587     
  trcom prof sum =    666114.286550587     
  ps_ts2 cur sum  =   11336.6651387556     
  trcom cur sum  =    11336.6651387556     
  
  antenna # iant =            3
  powecha_use(iant) =    514839.077398225     
  ps_ts2 prof sum =   514530.970981665     
  trcom prof sum =    514530.970981665     
  ps_ts2 cur sum  =   6040.92986813500     
  trcom cur sum  =    6040.92986813500     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552830.986412456     
  ps_ts2 prof sum =   552508.838098870     
  trcom prof sum =    552508.838098870     
  ps_ts2 cur sum  =   10520.0774246689     
  trcom cur sum  =    10520.0774246689     
  
  Total ECH heating:      2409898.19730590     
  Total Current Drive:    37224.3665150454     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4422
 TA= 4.67500E+00 CPU TIME= 1.60357E-01 SECONDS.  DT= 8.60745E-04
  
 TEC1=    4.67499999999992     
 TEC2=    4.67999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4535036111108     
  %check_save_state: izleft hours =    67.5380555555556     
 --> plasma_hash("gframe"): TA= 4.675000E+00 NSTEP=  4422 Hash code:   43550327
 ->PRGCHK: bdy curvature ratio at t= 4.6800E+00 seconds is:  5.6444E-02
% MHDEQ: TG1=     4.675000 ; TG2=     4.680000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1420E-03 SECONDS
   DATA R*BT AT EDGE:  2.7552E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6444E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.675000 TO TG2=    4.680000 @ NSTEP     4422
   GFRAME TG2 MOMENTS CHECKSUM:  2.4508298602644D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.26545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.41958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.35646E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.40463E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       6=  7.01587E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.62322E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.25770E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  3.60405E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.88606E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -5.00183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.86721E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       7= -5.26095E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.28642E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.49893E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -2.88038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.21398E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.09479E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.28564E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.01458E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.01458E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.6800E+00  4.6850E+00 total power(Watts):  2.4118E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.68000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.389847E+02    0.385609E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135891E+03   -0.369459E+02    0.386737E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135606E+03   -0.384231E+02    0.369757E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.407378E+02    0.374436E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134841E+03   -0.407294E+02    0.394374E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135458E+03   -0.383257E+02    0.402075E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.363465E+02    0.413628E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.351217E+02    0.399961E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.349807E+02    0.382474E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136570E+03   -0.357153E+02    0.366911E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.375858E+02    0.354707E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135377E+03   -0.397847E+02    0.351076E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134731E+03   -0.418605E+02    0.356539E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134336E+03   -0.431540E+02    0.370204E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134257E+03   -0.433068E+02    0.388264E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.423273E+02    0.405496E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134755E+03   -0.404983E+02    0.417114E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.382757E+02    0.420106E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.362113E+02    0.443544E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136907E+03   -0.331758E+02    0.427007E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137285E+03   -0.318381E+02    0.399461E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137220E+03   -0.323415E+02    0.368893E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.345070E+02    0.342952E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.380885E+02    0.326699E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.419720E+02    0.326470E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.452145E+02    0.342370E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132734E+03   -0.471576E+02    0.369222E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132699E+03   -0.466143E+02    0.402117E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133735E+03   -0.438054E+02    0.430961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134743E+03   -0.400523E+02    0.445445E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.399551E+02    0.299229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136050E+03   -0.379077E+02    0.300971E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.393743E+02    0.283818E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.418127E+02    0.287019E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.417164E+02    0.307082E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135588E+03   -0.393072E+02    0.315444E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136099E+03   -0.372331E+02    0.327903E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.358942E+02    0.315778E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136464E+03   -0.359271E+02    0.297356E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136351E+03   -0.368455E+02    0.280601E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.386193E+02    0.268502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.408276E+02    0.264246E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134840E+03   -0.429245E+02    0.268919E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134420E+03   -0.442337E+02    0.282002E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134063E+03   -0.445198E+02    0.298993E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134567E+03   -0.433344E+02    0.317279E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.413967E+02    0.329736E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.391754E+02    0.333509E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.371282E+02    0.357338E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137089E+03   -0.340612E+02    0.342413E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.327807E+02    0.315237E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.332589E+02    0.284894E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.355088E+02    0.257835E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.391014E+02    0.240744E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.430002E+02    0.239521E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133907E+03   -0.463854E+02    0.253335E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132862E+03   -0.482551E+02    0.279282E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132933E+03   -0.476291E+02    0.311905E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.447337E+02    0.341663E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134948E+03   -0.409854E+02    0.357556E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.44 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.390023E+02    0.441783E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.369598E+02    0.442330E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135210E+03   -0.384513E+02    0.425434E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134648E+03   -0.407671E+02    0.430921E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.407469E+02    0.451159E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135147E+03   -0.383344E+02    0.458024E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.363454E+02    0.468826E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135937E+03   -0.351257E+02    0.454998E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.348018E+02    0.438285E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.358384E+02    0.421156E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.376227E+02    0.409654E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.397231E+02    0.406981E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.418020E+02    0.413200E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133926E+03   -0.431937E+02    0.427328E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133461E+03   -0.435551E+02    0.445181E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134090E+03   -0.423434E+02    0.462709E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134497E+03   -0.404957E+02    0.473582E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.382718E+02    0.475789E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.362919E+02    0.498502E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136232E+03   -0.333514E+02    0.480327E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136989E+03   -0.318400E+02    0.453447E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.322701E+02    0.423258E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.344506E+02    0.397271E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135578E+03   -0.380464E+02    0.381872E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134564E+03   -0.419299E+02    0.382640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.453981E+02    0.398777E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132297E+03   -0.472166E+02    0.427907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132361E+03   -0.466437E+02    0.461128E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133054E+03   -0.440382E+02    0.488020E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134554E+03   -0.400365E+02    0.501994E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       7.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.401776E+02    0.237751E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136282E+03   -0.380269E+02    0.240574E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.395843E+02    0.222736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.419218E+02    0.226152E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.418416E+02    0.245862E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.394405E+02    0.254605E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136253E+03   -0.373692E+02    0.267472E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136956E+03   -0.360217E+02    0.255797E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.360383E+02    0.237338E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136841E+03   -0.368536E+02    0.221561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.388154E+02    0.207905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.410258E+02    0.203451E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.430225E+02    0.208399E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134711E+03   -0.443396E+02    0.220816E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.445261E+02    0.237959E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134775E+03   -0.434665E+02    0.255622E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135251E+03   -0.415370E+02    0.268435E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.393182E+02    0.272632E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136277E+03   -0.371855E+02    0.297216E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137187E+03   -0.342015E+02    0.282642E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137501E+03   -0.328997E+02    0.255746E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137644E+03   -0.333597E+02    0.225619E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137095E+03   -0.356909E+02    0.198033E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.393786E+02    0.179827E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135022E+03   -0.432892E+02    0.178167E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.466885E+02    0.191182E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133165E+03   -0.483476E+02    0.217218E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133588E+03   -0.475171E+02    0.250565E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134409E+03   -0.447700E+02    0.280021E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.410403E+02    0.296471E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    681262.794163408     
  ps_ts2 prof sum =   680856.341134018     
  trcom prof sum =    680856.341134018     
  ps_ts2 cur sum  =   9356.60521918000     
  trcom cur sum  =    9356.60521918001     
  
  antenna # iant =            2
  powecha_use(iant) =    666011.850157830     
  ps_ts2 prof sum =   665636.412521310     
  trcom prof sum =    665636.412521310     
  ps_ts2 cur sum  =   11316.8371493042     
  trcom cur sum  =    11316.8371493042     
  
  antenna # iant =            3
  powecha_use(iant) =    513552.136572070     
  ps_ts2 prof sum =   513261.214284350     
  trcom prof sum =    513261.214284351     
  ps_ts2 cur sum  =   6004.31038657472     
  trcom cur sum  =    6004.31038657473     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    550943.415888524     
  ps_ts2 prof sum =   550644.836451072     
  trcom prof sum =    550644.836451072     
  ps_ts2 cur sum  =   10485.8332940607     
  trcom cur sum  =    10485.8332940607     
  
  Total ECH heating:      2410398.80439075     
  Total Current Drive:    37163.5860491196     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4427
 TA= 4.68000E+00 CPU TIME= 1.62612E-01 SECONDS.  DT= 4.65829E-05
  
 TEC1=    4.67999999999992     
 TEC2=    4.68499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4678066666665     
  %check_save_state: izleft hours =    67.5238888888889     
 --> plasma_hash("gframe"): TA= 4.680000E+00 NSTEP=  4427 Hash code:   99173712
 ->PRGCHK: bdy curvature ratio at t= 4.6850E+00 seconds is:  5.6386E-02
% MHDEQ: TG1=     4.680000 ; TG2=     4.685000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1140E-03 SECONDS
   DATA R*BT AT EDGE:  2.7553E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6386E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.680000 TO TG2=    4.685000 @ NSTEP     4427
   GFRAME TG2 MOMENTS CHECKSUM:  2.4507573868084D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6850E+00  4.6900E+00 total power(Watts):  2.4136E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.68500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.389868E+02    0.385977E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.369479E+02    0.387087E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.384257E+02    0.370141E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135011E+03   -0.407406E+02    0.374827E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134811E+03   -0.407312E+02    0.394741E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.383272E+02    0.402407E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.363475E+02    0.413914E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.351234E+02    0.400275E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136734E+03   -0.347911E+02    0.383851E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136317E+03   -0.358161E+02    0.366712E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.375898E+02    0.355077E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.397889E+02    0.351461E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134907E+03   -0.417602E+02    0.357465E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.431571E+02    0.370618E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134227E+03   -0.433089E+02    0.388661E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.423296E+02    0.405863E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.404903E+02    0.417440E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.382764E+02    0.420388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.362165E+02    0.443764E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.331764E+02    0.427238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137256E+03   -0.318390E+02    0.399759E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137418E+03   -0.322541E+02    0.369785E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.346051E+02    0.342695E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.380964E+02    0.327078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.418680E+02    0.327505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133875E+03   -0.452190E+02    0.342818E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132905E+03   -0.470480E+02    0.370146E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132668E+03   -0.466158E+02    0.402508E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133486E+03   -0.439195E+02    0.430892E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134714E+03   -0.400510E+02    0.445724E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.399622E+02    0.299648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136019E+03   -0.379144E+02    0.301369E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.393825E+02    0.284227E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135271E+03   -0.417066E+02    0.288165E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.416162E+02    0.308148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.392142E+02    0.316469E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136069E+03   -0.372386E+02    0.328287E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136743E+03   -0.359001E+02    0.316158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.357426E+02    0.299130E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.368535E+02    0.280996E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.386284E+02    0.268905E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135464E+03   -0.408373E+02    0.264655E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.428257E+02    0.270054E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134602E+03   -0.441313E+02    0.283124E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.443035E+02    0.300726E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134535E+03   -0.433406E+02    0.317720E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135055E+03   -0.414020E+02    0.330152E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135591E+03   -0.391811E+02    0.333898E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135952E+03   -0.371317E+02    0.357707E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137060E+03   -0.340657E+02    0.342757E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.326963E+02    0.316272E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137360E+03   -0.332663E+02    0.285261E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.356128E+02    0.257434E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136006E+03   -0.391123E+02    0.241133E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.430120E+02    0.239934E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.465101E+02    0.253092E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133040E+03   -0.481471E+02    0.280426E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133325E+03   -0.474007E+02    0.313587E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134016E+03   -0.447385E+02    0.342098E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.408817E+02    0.358492E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.50 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.390036E+02    0.442019E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.369600E+02    0.442583E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135406E+03   -0.383483E+02    0.426101E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134620E+03   -0.407679E+02    0.431186E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134471E+03   -0.407465E+02    0.451423E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.383338E+02    0.458274E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.363447E+02    0.469049E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135909E+03   -0.351252E+02    0.455241E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.348989E+02    0.438128E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.358391E+02    0.421416E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135492E+03   -0.376238E+02    0.409960E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.397245E+02    0.407310E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134477E+03   -0.418030E+02    0.413523E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133678E+03   -0.433069E+02    0.427249E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133862E+03   -0.433341E+02    0.446108E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.423427E+02    0.462978E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134469E+03   -0.404947E+02    0.473820E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.382725E+02    0.476009E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.362903E+02    0.498655E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136666E+03   -0.331629E+02    0.481076E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136963E+03   -0.318395E+02    0.453666E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.322720E+02    0.423488E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136670E+03   -0.344523E+02    0.397586E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.380486E+02    0.382235E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.418227E+02    0.383515E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133184E+03   -0.453996E+02    0.399174E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132484E+03   -0.470978E+02    0.428582E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132331E+03   -0.466427E+02    0.461426E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133026E+03   -0.440367E+02    0.488242E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.400366E+02    0.502155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135848E+03   -0.400868E+02    0.238917E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136252E+03   -0.380380E+02    0.240947E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.395956E+02    0.223130E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.419338E+02    0.226573E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.418526E+02    0.246268E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.393492E+02    0.255754E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.371826E+02    0.269340E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136927E+03   -0.360316E+02    0.256158E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136669E+03   -0.360497E+02    0.237696E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.368657E+02    0.221933E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136076E+03   -0.388281E+02    0.208300E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.410403E+02    0.203861E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135119E+03   -0.430354E+02    0.208833E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.443529E+02    0.221254E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134715E+03   -0.444283E+02    0.239132E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.433683E+02    0.256777E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135221E+03   -0.415464E+02    0.268863E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.393268E+02    0.273035E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.371925E+02    0.297627E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136937E+03   -0.343013E+02    0.282286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137692E+03   -0.328188E+02    0.256877E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137615E+03   -0.333712E+02    0.225975E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.357960E+02    0.197552E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.391990E+02    0.181937E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.432013E+02    0.179429E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134216E+03   -0.464829E+02    0.193219E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133552E+03   -0.481321E+02    0.219176E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.476438E+02    0.250338E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134378E+03   -0.447789E+02    0.280478E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135227E+03   -0.410477E+02    0.296901E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679296.522882900     
  ps_ts2 prof sum =   678915.736081494     
  trcom prof sum =    678915.736081495     
  ps_ts2 cur sum  =   9306.48346407567     
  trcom cur sum  =    9306.48346407567     
  
  antenna # iant =            2
  powecha_use(iant) =    668704.776771967     
  ps_ts2 prof sum =   668298.115187186     
  trcom prof sum =    668298.115187185     
  ps_ts2 cur sum  =   11352.4682140447     
  trcom cur sum  =    11352.4682140447     
  
  antenna # iant =            3
  powecha_use(iant) =    513575.297844403     
  ps_ts2 prof sum =   513287.798270790     
  trcom prof sum =    513287.798270790     
  ps_ts2 cur sum  =   5987.08916611520     
  trcom cur sum  =    5987.08916611520     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552032.836081772     
  ps_ts2 prof sum =   551711.911837323     
  trcom prof sum =    551711.911837323     
  ps_ts2 cur sum  =   10507.3290159585     
  trcom cur sum  =    10507.3290159585     
  
  Total ECH heating:      2412213.56137679     
  Total Current Drive:    37153.3698601941     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4442
 TA= 4.68500E+00 CPU TIME= 1.59799E-01 SECONDS.  DT= 1.18705E-03
  
 TEC1=    4.68499999999992     
 TEC2=    4.68999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4810372222221     
  %check_save_state: izleft hours =    67.5105555555556     
 --> plasma_hash("gframe"): TA= 4.685000E+00 NSTEP=  4442 Hash code:   36858453
 ->PRGCHK: bdy curvature ratio at t= 4.6900E+00 seconds is:  5.6333E-02
% MHDEQ: TG1=     4.685000 ; TG2=     4.690000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4460E-03 SECONDS
   DATA R*BT AT EDGE:  2.7555E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6333E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.685000 TO TG2=    4.690000 @ NSTEP     4442
   GFRAME TG2 MOMENTS CHECKSUM:  2.4506849133523D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.27181E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.61122E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.36187E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.37426E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       6=  4.33616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.80339E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.38537E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  2.33147E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.92854E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.81401E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.47250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.24979E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.29958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.53675E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -3.98382E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.86706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.08453E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.36027E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.45540E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.45540E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.6900E+00  4.6950E+00 total power(Watts):  2.4075E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.69000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.389875E+02    0.386300E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135832E+03   -0.369487E+02    0.387398E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.384272E+02    0.370471E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134980E+03   -0.407418E+02    0.375179E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135003E+03   -0.406243E+02    0.395516E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.383278E+02    0.402692E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136218E+03   -0.361491E+02    0.415027E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.351236E+02    0.400554E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136706E+03   -0.347920E+02    0.384147E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.358176E+02    0.367037E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.375918E+02    0.355417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135317E+03   -0.397912E+02    0.351820E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.417624E+02    0.357827E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134492E+03   -0.430468E+02    0.371491E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.433097E+02    0.389005E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.423302E+02    0.406162E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.403854E+02    0.418102E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.382761E+02    0.420622E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.362080E+02    0.443990E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.331761E+02    0.427436E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137229E+03   -0.318393E+02    0.400016E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.322560E+02    0.370081E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136632E+03   -0.346084E+02    0.343030E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136009E+03   -0.379994E+02    0.328077E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135005E+03   -0.418721E+02    0.327913E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133843E+03   -0.452217E+02    0.343230E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132874E+03   -0.470492E+02    0.370552E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132855E+03   -0.464983E+02    0.403258E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133458E+03   -0.439198E+02    0.431122E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.399430E+02    0.446294E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.399673E+02    0.300068E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.379192E+02    0.301788E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135786E+03   -0.393887E+02    0.284638E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135230E+03   -0.417176E+02    0.288561E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135175E+03   -0.416209E+02    0.308576E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135737E+03   -0.392183E+02    0.316870E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.372444E+02    0.328649E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.360006E+02    0.315876E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.357477E+02    0.299511E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136727E+03   -0.366651E+02    0.282815E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135959E+03   -0.386354E+02    0.269298E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.408447E+02    0.265059E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.428345E+02    0.270474E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134570E+03   -0.441378E+02    0.283572E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134427E+03   -0.443091E+02    0.301178E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134719E+03   -0.432346E+02    0.318757E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.414047E+02    0.330567E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135559E+03   -0.391841E+02    0.334287E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.371337E+02    0.358045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.340686E+02    0.343088E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.327006E+02    0.316622E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.331819E+02    0.286350E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.356202E+02    0.257797E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.391215E+02    0.241514E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135018E+03   -0.430216E+02    0.240353E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134056E+03   -0.462918E+02    0.254935E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133007E+03   -0.481538E+02    0.280907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133079E+03   -0.475227E+02    0.313474E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133984E+03   -0.447410E+02    0.342515E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.408849E+02    0.358851E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.390019E+02    0.442252E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135485E+03   -0.369591E+02    0.442797E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135379E+03   -0.383479E+02    0.426327E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.407672E+02    0.431420E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134666E+03   -0.406370E+02    0.451979E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135092E+03   -0.383324E+02    0.458496E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.363431E+02    0.469255E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.351255E+02    0.455430E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.348979E+02    0.438339E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.358385E+02    0.421644E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.375219E+02    0.410667E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.397245E+02    0.407600E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134448E+03   -0.418030E+02    0.413804E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134089E+03   -0.430809E+02    0.428251E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133833E+03   -0.433330E+02    0.446351E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.423411E+02    0.463224E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.404930E+02    0.474034E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135034E+03   -0.382707E+02    0.476210E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.362880E+02    0.498796E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.331622E+02    0.481225E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136936E+03   -0.318391E+02    0.453853E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.322705E+02    0.423692E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136416E+03   -0.345481E+02    0.397379E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135744E+03   -0.379466E+02    0.383059E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134723E+03   -0.418236E+02    0.383862E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133153E+03   -0.453994E+02    0.399535E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132455E+03   -0.470970E+02    0.428860E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132302E+03   -0.466408E+02    0.461692E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133440E+03   -0.438060E+02    0.488877E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134500E+03   -0.400333E+02    0.502291E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.400963E+02    0.239306E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.380450E+02    0.241335E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135847E+03   -0.396057E+02    0.223527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.419444E+02    0.226990E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.417562E+02    0.247420E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.393573E+02    0.256142E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.371897E+02    0.269717E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.360393E+02    0.256519E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.358704E+02    0.239648E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136566E+03   -0.369711E+02    0.221504E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.386435E+02    0.210351E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.410502E+02    0.204303E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135087E+03   -0.430464E+02    0.209286E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134649E+03   -0.443634E+02    0.221702E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.444381E+02    0.239561E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.433768E+02    0.257189E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135405E+03   -0.414479E+02    0.269978E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.392320E+02    0.274155E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136215E+03   -0.371976E+02    0.298009E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137342E+03   -0.341240E+02    0.284096E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.328263E+02    0.257218E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.333813E+02    0.226328E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.356228E+02    0.199656E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.393089E+02    0.181519E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135172E+03   -0.432147E+02    0.179895E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134183E+03   -0.464952E+02    0.193716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133520E+03   -0.481435E+02    0.219658E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133315E+03   -0.476529E+02    0.250793E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134345E+03   -0.447856E+02    0.280927E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.409472E+02    0.297989E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676086.794252932     
  ps_ts2 prof sum =   675682.190862063     
  trcom prof sum =    675682.190862063     
  ps_ts2 cur sum  =   9236.94361489263     
  trcom cur sum  =    9236.94361489264     
  
  antenna # iant =            2
  powecha_use(iant) =    663661.545400324     
  ps_ts2 prof sum =   663260.420005953     
  trcom prof sum =    663260.420005953     
  ps_ts2 cur sum  =   11250.6629488343     
  trcom cur sum  =    11250.6629488343     
  
  antenna # iant =            3
  powecha_use(iant) =    514266.045734671     
  ps_ts2 prof sum =   513972.402612131     
  trcom prof sum =    513972.402612131     
  ps_ts2 cur sum  =   5972.67865606717     
  trcom cur sum  =    5972.67865606718     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553484.527562286     
  ps_ts2 prof sum =   553132.284790930     
  trcom prof sum =    553132.284790930     
  ps_ts2 cur sum  =   10528.6485011187     
  trcom cur sum  =    10528.6485011187     
  
  Total ECH heating:      2406047.29827108     
  Total Current Drive:    36988.9337209128     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4446
 TA= 4.69000E+00 CPU TIME= 1.59240E-01 SECONDS.  DT= 5.92972E-04
  
 TEC1=    4.68999999999992     
 TEC2=    4.69499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.4969850000000     
  %check_save_state: izleft hours =    67.4944444444444     
 --> plasma_hash("gframe"): TA= 4.690000E+00 NSTEP=  4446 Hash code:   53688157
 ->PRGCHK: bdy curvature ratio at t= 4.6950E+00 seconds is:  5.6282E-02
% MHDEQ: TG1=     4.690000 ; TG2=     4.695000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0900E-03 SECONDS
   DATA R*BT AT EDGE:  2.7556E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6282E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.690000 TO TG2=    4.695000 @ NSTEP     4446
   GFRAME TG2 MOMENTS CHECKSUM:  2.4506124398963D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.6950E+00  4.7000E+00 total power(Watts):  2.4087E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.69500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135357E+03   -0.389880E+02    0.386612E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.369516E+02    0.387690E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.384281E+02    0.370802E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.407425E+02    0.375519E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.406240E+02    0.395827E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.383265E+02    0.402977E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.362475E+02    0.414828E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136602E+03   -0.349345E+02    0.401744E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.347922E+02    0.384441E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.358187E+02    0.367350E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135856E+03   -0.375936E+02    0.355754E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.397931E+02    0.352180E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134846E+03   -0.417640E+02    0.358192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.430477E+02    0.371851E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134166E+03   -0.433096E+02    0.389345E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134315E+03   -0.423298E+02    0.406454E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134905E+03   -0.403844E+02    0.418345E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135484E+03   -0.381720E+02    0.421264E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.362099E+02    0.444179E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.331749E+02    0.427629E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.318402E+02    0.400253E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137361E+03   -0.322567E+02    0.370373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136603E+03   -0.346105E+02    0.343364E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.380022E+02    0.328457E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.418751E+02    0.328324E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133596E+03   -0.453383E+02    0.343101E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132842E+03   -0.470500E+02    0.370940E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132824E+03   -0.464976E+02    0.403599E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133429E+03   -0.439180E+02    0.431377E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134882E+03   -0.399420E+02    0.446504E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.399718E+02    0.300498E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.379234E+02    0.302194E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135754E+03   -0.393937E+02    0.285054E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135198E+03   -0.417228E+02    0.288995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.416249E+02    0.309006E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.392218E+02    0.317275E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136020E+03   -0.372401E+02    0.329067E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136460E+03   -0.360041E+02    0.316264E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.358479E+02    0.299213E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.366707E+02    0.283199E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.386418E+02    0.269695E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135401E+03   -0.408512E+02    0.265477E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134973E+03   -0.428341E+02    0.270938E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134537E+03   -0.441437E+02    0.284024E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.443135E+02    0.301642E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134687E+03   -0.432381E+02    0.319191E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134991E+03   -0.414074E+02    0.330973E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.391868E+02    0.334664E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.371352E+02    0.358375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137001E+03   -0.340706E+02    0.343418E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.327040E+02    0.316979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137522E+03   -0.331868E+02    0.286704E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137126E+03   -0.354377E+02    0.259683E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.391281E+02    0.241901E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.430306E+02    0.240760E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.462999E+02    0.255384E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.481596E+02    0.281406E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133045E+03   -0.475261E+02    0.313954E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133736E+03   -0.448569E+02    0.342384E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.408853E+02    0.359211E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.390007E+02    0.442456E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.368580E+02    0.443344E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135338E+03   -0.383520E+02    0.426532E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.406588E+02    0.432003E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.406354E+02    0.452200E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.383307E+02    0.458708E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135473E+03   -0.363412E+02    0.469451E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136312E+03   -0.349287E+02    0.456306E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.348966E+02    0.438534E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.358379E+02    0.421854E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.375216E+02    0.410914E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135074E+03   -0.397243E+02    0.407865E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134419E+03   -0.418022E+02    0.414071E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134060E+03   -0.430797E+02    0.428497E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133805E+03   -0.433315E+02    0.446582E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.423391E+02    0.463444E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134413E+03   -0.404909E+02    0.474237E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135006E+03   -0.382685E+02    0.476396E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.361861E+02    0.499146E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136612E+03   -0.331584E+02    0.481399E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.317471E+02    0.454394E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.136994E+03   -0.322696E+02    0.423886E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.345482E+02    0.397644E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.379479E+02    0.383371E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.418242E+02    0.384192E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133123E+03   -0.453990E+02    0.399868E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132426E+03   -0.470956E+02    0.429123E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132273E+03   -0.466384E+02    0.461948E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133411E+03   -0.438032E+02    0.489076E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134472E+03   -0.400308E+02    0.502432E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.401037E+02    0.239701E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.380532E+02    0.241709E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.396150E+02    0.223922E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135261E+03   -0.419527E+02    0.227399E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135374E+03   -0.417644E+02    0.247817E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135904E+03   -0.393648E+02    0.256529E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.372935E+02    0.269362E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136648E+03   -0.361396E+02    0.256127E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137045E+03   -0.358792E+02    0.240002E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136535E+03   -0.369805E+02    0.221880E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136229E+03   -0.387521E+02    0.209941E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135715E+03   -0.409601E+02    0.205521E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135056E+03   -0.430574E+02    0.209720E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.442656E+02    0.222884E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134653E+03   -0.444470E+02    0.239984E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134895E+03   -0.433845E+02    0.257618E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.414546E+02    0.270403E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.392384E+02    0.274563E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.372021E+02    0.298409E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137328E+03   -0.341243E+02    0.284511E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137633E+03   -0.328323E+02    0.257554E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137555E+03   -0.333884E+02    0.226674E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.356346E+02    0.200031E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.393210E+02    0.181934E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.432281E+02    0.180352E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.465077E+02    0.194190E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133278E+03   -0.482690E+02    0.219396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133282E+03   -0.476612E+02    0.251257E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134312E+03   -0.447916E+02    0.281390E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.409519E+02    0.298410E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678488.159561397     
  ps_ts2 prof sum =   678100.623414540     
  trcom prof sum =    678100.623414540     
  ps_ts2 cur sum  =   9242.35995550685     
  trcom cur sum  =    9242.35995550686     
  
  antenna # iant =            2
  powecha_use(iant) =    663557.440219500     
  ps_ts2 prof sum =   663180.585248538     
  trcom prof sum =    663180.585248537     
  ps_ts2 cur sum  =   11229.4780524272     
  trcom cur sum  =    11229.4780524272     
  
  antenna # iant =            3
  powecha_use(iant) =    513920.701421240     
  ps_ts2 prof sum =   513609.647665429     
  trcom prof sum =    513609.647665430     
  ps_ts2 cur sum  =   5947.26464744282     
  trcom cur sum  =    5947.26464744283     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552751.292754405     
  ps_ts2 prof sum =   552445.914731812     
  trcom prof sum =    552445.914731812     
  ps_ts2 cur sum  =   10507.2997933709     
  trcom cur sum  =    10507.2997933709     
  
  Total ECH heating:      2407336.77106032     
  Total Current Drive:    36926.4024487478     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4452
 TA= 4.69500E+00 CPU TIME= 1.62518E-01 SECONDS.  DT= 1.66826E-04
  
 TEC1=    4.69499999999992     
 TEC2=    4.69999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  T
  %check_save_state: check at wall_hours =    12.5124697222220     
  %check_save_state: izleft hours =    67.4791666666667     
  %wrstf: start call wrstf.
  %wrstf: open new restart file:198927D05RS.DAT
  %wrstf: open198927D05RS.DAT_NEW, status=           0
  %wrstf: record, ier=           1  (ier=1, OK)
  %wrstf: psload_save
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %ps_rezone_chk: no rezone operator available (no MHD equilibrium).
  %wrstf: write marker file.
  %wrstf: transp_rplot_state_backup

 % RESTART RECORD WRITTEN AT TA=  4.6950000E+00

  arrays allocated in pt_diff_data_init
  arrays allocated in ptsolver_data_init

 %WRSTF: virtual memory size =  1.626E+03 MB.

 --> plasma_hash("gframe"): TA= 4.695000E+00 NSTEP=  4452 Hash code:   54411099
 ->PRGCHK: bdy curvature ratio at t= 4.7000E+00 seconds is:  5.6235E-02
% MHDEQ: TG1=     4.695000 ; TG2=     4.700000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3270E-03 SECONDS
   DATA R*BT AT EDGE:  2.7558E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6235E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.695000 TO TG2=    4.700000 @ NSTEP     4452
   GFRAME TG2 MOMENTS CHECKSUM:  2.4505399694761D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.27879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.82112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.36780E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.34100E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       6=  1.40625E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.00073E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.52522E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.93707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.97507E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.60829E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.98081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.62830E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.31400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.57818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -5.19243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.48707E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  3.07328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.44202E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.44616E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.44616E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7000E+00  4.7050E+00 total power(Watts):  2.4155E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.70000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135328E+03   -0.389902E+02    0.386933E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.369470E+02    0.388021E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135709E+03   -0.383283E+02    0.371662E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.406379E+02    0.376362E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134944E+03   -0.406260E+02    0.396148E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135567E+03   -0.382263E+02    0.403703E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135938E+03   -0.362488E+02    0.415069E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.349289E+02    0.402033E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.348904E+02    0.384227E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.358214E+02    0.367673E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.375968E+02    0.356090E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.396918E+02    0.353082E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134816E+03   -0.417675E+02    0.358550E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.430507E+02    0.372215E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133911E+03   -0.434272E+02    0.389225E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134507E+03   -0.422207E+02    0.407180E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134878E+03   -0.403857E+02    0.418597E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135457E+03   -0.381731E+02    0.421500E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135714E+03   -0.362096E+02    0.444398E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136801E+03   -0.331762E+02    0.427827E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137402E+03   -0.317516E+02    0.401002E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.322588E+02    0.370669E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137021E+03   -0.344258E+02    0.344898E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.380069E+02    0.328832E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.418800E+02    0.328734E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133565E+03   -0.453426E+02    0.343517E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132811E+03   -0.470528E+02    0.371343E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132794E+03   -0.464986E+02    0.403953E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133841E+03   -0.436918E+02    0.432339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.399424E+02    0.446732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.399782E+02    0.300902E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136145E+03   -0.378296E+02    0.303253E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.394013E+02    0.285460E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.417301E+02    0.289424E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.416308E+02    0.309430E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.392272E+02    0.317674E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136199E+03   -0.371504E+02    0.330020E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.360093E+02    0.316638E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136562E+03   -0.358539E+02    0.299596E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136448E+03   -0.367751E+02    0.282867E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136115E+03   -0.385496E+02    0.270806E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.407561E+02    0.266595E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134930E+03   -0.428482E+02    0.271328E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.441514E+02    0.284467E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134363E+03   -0.443202E+02    0.302087E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134656E+03   -0.432438E+02    0.319621E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.413050E+02    0.331955E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135719E+03   -0.390883E+02    0.335625E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.370388E+02    0.359262E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136749E+03   -0.341679E+02    0.343145E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137433E+03   -0.327090E+02    0.317328E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.331936E+02    0.287068E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137097E+03   -0.354461E+02    0.260038E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135915E+03   -0.391381E+02    0.242294E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.430414E+02    0.241173E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133993E+03   -0.463099E+02    0.255840E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132941E+03   -0.481678E+02    0.281896E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133012E+03   -0.475317E+02    0.314440E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134137E+03   -0.446339E+02    0.343878E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.408887E+02    0.359568E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.62 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135200E+03   -0.388970E+02    0.443028E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135658E+03   -0.368577E+02    0.443565E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135331E+03   -0.383451E+02    0.426778E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.406593E+02    0.432239E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.406345E+02    0.452446E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.382258E+02    0.459253E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135674E+03   -0.362415E+02    0.469937E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.349300E+02    0.456499E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136079E+03   -0.348970E+02    0.438732E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.357410E+02    0.422489E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.375230E+02    0.411173E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135046E+03   -0.397257E+02    0.408146E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134612E+03   -0.416937E+02    0.414752E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134033E+03   -0.430813E+02    0.428731E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.433309E+02    0.446843E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.133977E+03   -0.423385E+02    0.463687E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134610E+03   -0.403826E+02    0.474718E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135205E+03   -0.381646E+02    0.476861E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.361855E+02    0.499285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136586E+03   -0.331580E+02    0.481561E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137114E+03   -0.317472E+02    0.454582E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137197E+03   -0.321798E+02    0.424514E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.345503E+02    0.397917E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135684E+03   -0.379504E+02    0.383688E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.418265E+02    0.384536E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.451694E+02    0.401053E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132398E+03   -0.470968E+02    0.429396E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132463E+03   -0.465198E+02    0.462483E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.438027E+02    0.489265E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134445E+03   -0.400296E+02    0.502594E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135757E+03   -0.401136E+02    0.240097E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.378675E+02    0.243619E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.395271E+02    0.225102E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135445E+03   -0.418593E+02    0.228578E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.417746E+02    0.248218E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.393736E+02    0.256915E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.373016E+02    0.269748E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136619E+03   -0.361480E+02    0.256486E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.358893E+02    0.240356E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136939E+03   -0.368009E+02    0.223875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.387636E+02    0.210332E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135685E+03   -0.409731E+02    0.205944E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135026E+03   -0.430710E+02    0.210139E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134799E+03   -0.442769E+02    0.223318E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134623E+03   -0.444584E+02    0.240401E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.433951E+02    0.258040E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.414629E+02    0.270816E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135861E+03   -0.392461E+02    0.274965E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.370116E+02    0.300149E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.341353E+02    0.284838E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137605E+03   -0.328417E+02    0.257902E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137527E+03   -0.333993E+02    0.227023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137192E+03   -0.356476E+02    0.200403E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.393347E+02    0.182349E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.432428E+02    0.180793E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.465227E+02    0.194662E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133248E+03   -0.482822E+02    0.219863E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133673E+03   -0.474412E+02    0.253104E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134495E+03   -0.446878E+02    0.282500E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135349E+03   -0.409585E+02    0.298833E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679994.123687770     
  ps_ts2 prof sum =   679596.200646751     
  trcom prof sum =    679596.200646752     
  ps_ts2 cur sum  =   9239.49675817200     
  trcom cur sum  =    9239.49675817201     
  
  antenna # iant =            2
  powecha_use(iant) =    667643.795657501     
  ps_ts2 prof sum =   667284.583986700     
  trcom prof sum =    667284.583986699     
  ps_ts2 cur sum  =   11284.9177171056     
  trcom cur sum  =    11284.9177171056     
  
  antenna # iant =            3
  powecha_use(iant) =    514963.371286575     
  ps_ts2 prof sum =   514634.814996221     
  trcom prof sum =    514634.814996221     
  ps_ts2 cur sum  =   5939.56705353498     
  trcom cur sum  =    5939.56705353498     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552916.246831703     
  ps_ts2 prof sum =   552584.362551941     
  trcom prof sum =    552584.362551941     
  ps_ts2 cur sum  =   10505.5618252538     
  trcom cur sum  =    10505.5618252538     
  
  Total ECH heating:      2414099.96218161     
  Total Current Drive:    36969.5433540664     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4462
 TA= 4.70000E+00 CPU TIME= 1.83631E-01 SECONDS.  DT= 8.69380E-04
  
 TEC1=    4.69999999999992     
 TEC2=    4.70499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5236277777778     
  %check_save_state: izleft hours =    67.4680555555556     
 --> plasma_hash("gframe"): TA= 4.700000E+00 NSTEP=  4462 Hash code:  122889400
 ->PRGCHK: bdy curvature ratio at t= 4.7050E+00 seconds is:  5.6192E-02
% MHDEQ: TG1=     4.700000 ; TG2=     4.705000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7559E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6192E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.700000 TO TG2=    4.705000 @ NSTEP     4462
   GFRAME TG2 MOMENTS CHECKSUM:  2.4504674990559D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7050E+00  4.7100E+00 total power(Watts):  2.4133E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.70500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.388868E+02    0.387727E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.368515E+02    0.388790E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.383299E+02    0.371982E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.406388E+02    0.376701E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.406261E+02    0.396453E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.382264E+02    0.403976E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135911E+03   -0.362488E+02    0.415298E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.350296E+02    0.401815E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136396E+03   -0.348912E+02    0.384517E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.358222E+02    0.367992E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135797E+03   -0.375981E+02    0.356430E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135448E+03   -0.396933E+02    0.353435E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134786E+03   -0.417694E+02    0.358906E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134402E+03   -0.430517E+02    0.372568E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134337E+03   -0.431947E+02    0.390498E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134478E+03   -0.422210E+02    0.407465E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.403856E+02    0.418842E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135429E+03   -0.381730E+02    0.421725E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135688E+03   -0.362085E+02    0.444598E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.332686E+02    0.427608E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137376E+03   -0.317524E+02    0.401243E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137305E+03   -0.322601E+02    0.370957E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136992E+03   -0.344281E+02    0.345217E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135918E+03   -0.380102E+02    0.329206E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134911E+03   -0.418836E+02    0.329127E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133965E+03   -0.451162E+02    0.344990E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132780E+03   -0.470535E+02    0.371742E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132764E+03   -0.464988E+02    0.404278E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133802E+03   -0.436970E+02    0.432554E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134828E+03   -0.399412E+02    0.446949E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.398791E+02    0.301966E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.378341E+02    0.303646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.393046E+02    0.286551E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.417356E+02    0.289854E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.416351E+02    0.309850E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135644E+03   -0.392309E+02    0.318068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136169E+03   -0.371536E+02    0.330384E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.360129E+02    0.317009E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136532E+03   -0.358584E+02    0.299980E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136417E+03   -0.367807E+02    0.283257E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136085E+03   -0.385563E+02    0.271202E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.407630E+02    0.267010E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134898E+03   -0.428549E+02    0.271766E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134688E+03   -0.440465E+02    0.285575E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.442130E+02    0.303165E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134624E+03   -0.432475E+02    0.320043E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.413085E+02    0.332339E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.390912E+02    0.335995E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.370399E+02    0.359594E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137168E+03   -0.339835E+02    0.344669E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.327125E+02    0.317675E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137464E+03   -0.331983E+02    0.287434E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.354563E+02    0.260397E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.390471E+02    0.243441E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.429422E+02    0.242340E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133749E+03   -0.464314E+02    0.255607E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133110E+03   -0.480603E+02    0.283015E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132979E+03   -0.475357E+02    0.314910E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134106E+03   -0.446365E+02    0.344273E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.408905E+02    0.359912E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.388960E+02    0.443232E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.368567E+02    0.443767E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.383474E+02    0.426990E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134732E+03   -0.406586E+02    0.432463E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134573E+03   -0.406376E+02    0.452658E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135235E+03   -0.382244E+02    0.459468E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.362386E+02    0.470144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.350249E+02    0.456367E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136053E+03   -0.348962E+02    0.438936E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.357407E+02    0.422701E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.375229E+02    0.411418E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.397258E+02    0.408414E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134583E+03   -0.416936E+02    0.415013E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134005E+03   -0.430805E+02    0.428974E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133528E+03   -0.434426E+02    0.446758E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.422255E+02    0.464203E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.403809E+02    0.474917E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135178E+03   -0.381628E+02    0.477046E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135508E+03   -0.361836E+02    0.499413E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136560E+03   -0.331565E+02    0.481707E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.317462E+02    0.454770E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137171E+03   -0.321797E+02    0.424704E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136785E+03   -0.343604E+02    0.399135E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.379508E+02    0.384000E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.418268E+02    0.384879E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133281E+03   -0.452849E+02    0.400961E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132369E+03   -0.470959E+02    0.429662E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132434E+03   -0.465179E+02    0.462725E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133134E+03   -0.439147E+02    0.489234E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134418E+03   -0.400272E+02    0.502732E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.401230E+02    0.240495E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136350E+03   -0.379742E+02    0.243235E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.395369E+02    0.225505E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135415E+03   -0.418700E+02    0.228993E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.417831E+02    0.248640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.393804E+02    0.257320E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.373084E+02    0.270139E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.359663E+02    0.258373E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.359916E+02    0.239940E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136909E+03   -0.368104E+02    0.224261E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136168E+03   -0.387740E+02    0.210749E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135653E+03   -0.409835E+02    0.206381E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135207E+03   -0.429765E+02    0.211371E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134768E+03   -0.442868E+02    0.223763E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134585E+03   -0.444694E+02    0.240834E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.433968E+02    0.258497E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.414699E+02    0.271233E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135831E+03   -0.392526E+02    0.275364E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136343E+03   -0.371146E+02    0.299867E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137259E+03   -0.341406E+02    0.285208E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137575E+03   -0.328488E+02    0.258249E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.334075E+02    0.227384E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137160E+03   -0.356577E+02    0.200811E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.393483E+02    0.182791E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135077E+03   -0.432561E+02    0.181270E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134298E+03   -0.464255E+02    0.195929E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133215E+03   -0.482931E+02    0.220354E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133641E+03   -0.474497E+02    0.253574E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134462E+03   -0.446939E+02    0.282954E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.409633E+02    0.299259E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       5.56 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676932.993452159     
  ps_ts2 prof sum =   676549.222132865     
  trcom prof sum =    676549.222132865     
  ps_ts2 cur sum  =   9171.28791150121     
  trcom cur sum  =    9171.28791150122     
  
  antenna # iant =            2
  powecha_use(iant) =    667812.867267533     
  ps_ts2 prof sum =   667433.120190493     
  trcom prof sum =    667433.120190492     
  ps_ts2 cur sum  =   11269.7952104716     
  trcom cur sum  =    11269.7952104716     
  
  antenna # iant =            3
  powecha_use(iant) =    514883.496107122     
  ps_ts2 prof sum =   514579.092038704     
  trcom prof sum =    514579.092038704     
  ps_ts2 cur sum  =   5917.89297215069     
  trcom cur sum  =    5917.89297200273     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553712.339936882     
  ps_ts2 prof sum =   553409.943855757     
  trcom prof sum =    553409.943855757     
  ps_ts2 cur sum  =   10511.8247097033     
  trcom cur sum  =    10511.8247097033     
  
  Total ECH heating:      2411971.37821782     
  Total Current Drive:    36870.8008036789     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4466
 TA= 4.70500E+00 CPU TIME= 1.46749E-01 SECONDS.  DT= 2.10686E-03
  
 TEC1=    4.70499999999992     
 TEC2=    4.70999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5399741666663     
  %check_save_state: izleft hours =    67.4516666666667     
 --> plasma_hash("gframe"): TA= 4.705000E+00 NSTEP=  4466 Hash code:  116953918
 ->PRGCHK: bdy curvature ratio at t= 4.7100E+00 seconds is:  5.6266E-02
% MHDEQ: TG1=     4.705000 ; TG2=     4.710000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.5610E-03 SECONDS
   DATA R*BT AT EDGE:  2.7574E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6266E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.705000 TO TG2=    4.710000 @ NSTEP     4466
   GFRAME TG2 MOMENTS CHECKSUM:  2.4507929454667D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.43318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.34739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.29726E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -1.64667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -5.00944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.64539E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -2.33385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.82003E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.41213E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  2.07847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.83464E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.21243E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.61452E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -5.22238E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.26190E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.88194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.44004E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.07376E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.07376E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7100E+00  4.7150E+00 total power(Watts):  2.4151E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.71000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.388832E+02    0.388047E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.368433E+02    0.389120E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135691E+03   -0.383270E+02    0.372331E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.406354E+02    0.377056E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.406221E+02    0.396771E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.382220E+02    0.404277E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.362442E+02    0.415576E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.350204E+02    0.402123E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.346967E+02    0.385834E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136659E+03   -0.356253E+02    0.369407E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.374957E+02    0.357362E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135456E+03   -0.396912E+02    0.353839E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135015E+03   -0.416581E+02    0.359831E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134412E+03   -0.430485E+02    0.372948E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134332E+03   -0.431981E+02    0.390825E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134491E+03   -0.422159E+02    0.407780E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134863E+03   -0.403803E+02    0.419136E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135442E+03   -0.381679E+02    0.422003E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135929E+03   -0.361042E+02    0.445174E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137017E+03   -0.330785E+02    0.428674E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137388E+03   -0.317488E+02    0.401517E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137316E+03   -0.322579E+02    0.371278E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136777E+03   -0.345208E+02    0.345006E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135926E+03   -0.380097E+02    0.329630E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135137E+03   -0.417747E+02    0.330163E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133973E+03   -0.451139E+02    0.345454E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133005E+03   -0.469318E+02    0.372619E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132992E+03   -0.463756E+02    0.405028E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133607E+03   -0.437987E+02    0.432498E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.399355E+02    0.447172E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.80 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135702E+03   -0.398804E+02    0.302418E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136121E+03   -0.378353E+02    0.304089E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.393070E+02    0.287013E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135358E+03   -0.416309E+02    0.290986E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135304E+03   -0.415285E+02    0.310941E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.391281E+02    0.319131E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.371528E+02    0.330806E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136851E+03   -0.358204E+02    0.318710E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136980E+03   -0.356684E+02    0.301761E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.365893E+02    0.285108E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.385602E+02    0.271672E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.407673E+02    0.267502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.427506E+02    0.272950E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.440490E+02    0.286073E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.442142E+02    0.303639E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134847E+03   -0.431369E+02    0.321107E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135156E+03   -0.413075E+02    0.332781E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135697E+03   -0.390900E+02    0.336424E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.370377E+02    0.359958E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137177E+03   -0.339824E+02    0.345046E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137635E+03   -0.326229E+02    0.318733E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.332005E+02    0.287856E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136854E+03   -0.355524E+02    0.260119E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.390528E+02    0.243942E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.429480E+02    0.242876E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134178E+03   -0.462092E+02    0.257532E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.480592E+02    0.283569E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133199E+03   -0.474183E+02    0.315998E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134114E+03   -0.446346E+02    0.344726E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.407808E+02    0.360839E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.97 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.388900E+02    0.443467E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.368514E+02    0.443992E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.382349E+02    0.427662E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.406529E+02    0.432733E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134597E+03   -0.406271E+02    0.452874E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.382182E+02    0.459651E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.362324E+02    0.470306E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136046E+03   -0.350193E+02    0.456545E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.346983E+02    0.439908E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.357360E+02    0.422965E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.375183E+02    0.411711E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.396154E+02    0.409143E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.416885E+02    0.415317E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134239E+03   -0.429622E+02    0.429626E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133983E+03   -0.432102E+02    0.447631E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134186E+03   -0.422185E+02    0.464393E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134598E+03   -0.403737E+02    0.475088E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135194E+03   -0.381562E+02    0.477205E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135524E+03   -0.361763E+02    0.499563E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.332433E+02    0.481587E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.317411E+02    0.454938E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137184E+03   -0.321754E+02    0.424953E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136797E+03   -0.343559E+02    0.399433E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.379472E+02    0.384328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134865E+03   -0.417136E+02    0.385692E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133292E+03   -0.452798E+02    0.401306E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132599E+03   -0.469706E+02    0.430309E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132449E+03   -0.465104E+02    0.462938E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133150E+03   -0.439066E+02    0.489409E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134659E+03   -0.399122E+02    0.503076E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135947E+03   -0.400269E+02    0.241761E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.379801E+02    0.243735E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.395435E+02    0.226019E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.418766E+02    0.229529E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.416820E+02    0.249887E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.392838E+02    0.258542E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136763E+03   -0.371170E+02    0.272039E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.359716E+02    0.258833E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.358093E+02    0.241986E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136914E+03   -0.368179E+02    0.224740E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136173E+03   -0.387825E+02    0.211259E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.409925E+02    0.206914E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135211E+03   -0.429849E+02    0.211914E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134772E+03   -0.442950E+02    0.224316E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134808E+03   -0.443632E+02    0.242116E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135048E+03   -0.432992E+02    0.259683E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135533E+03   -0.413679E+02    0.272418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136054E+03   -0.391543E+02    0.276537E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136349E+03   -0.371159E+02    0.300312E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.342344E+02    0.284928E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137801E+03   -0.327644E+02    0.259464E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137721E+03   -0.333269E+02    0.228670E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136948E+03   -0.357575E+02    0.200458E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.392608E+02    0.184154E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135293E+03   -0.431626E+02    0.182640E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134302E+03   -0.464352E+02    0.196513E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133639E+03   -0.480712E+02    0.222395E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133434E+03   -0.475696E+02    0.253456E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.446965E+02    0.283461E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.408591E+02    0.300366E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677316.516696999     
  ps_ts2 prof sum =   676932.662617491     
  trcom prof sum =    676932.662617491     
  ps_ts2 cur sum  =   9180.75248820177     
  trcom cur sum  =    9180.75248820178     
  
  antenna # iant =            2
  powecha_use(iant) =    668248.793514746     
  ps_ts2 prof sum =   667831.744929689     
  trcom prof sum =    667831.744929688     
  ps_ts2 cur sum  =   11290.9749962897     
  trcom cur sum  =    11290.9749962897     
  
  antenna # iant =            3
  powecha_use(iant) =    515636.277148358     
  ps_ts2 prof sum =   515338.905794696     
  trcom prof sum =    515338.905794696     
  ps_ts2 cur sum  =   5926.59498788814     
  trcom cur sum  =    5926.59498788815     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553864.248717022     
  ps_ts2 prof sum =   553536.835472301     
  trcom prof sum =    553536.835472301     
  ps_ts2 cur sum  =   10530.9228518641     
  trcom cur sum  =    10530.9228518641     
  
  Total ECH heating:      2413640.14881418     
  Total Current Drive:    36929.2453242436     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4469
 TA= 4.71000E+00 CPU TIME= 1.65250E-01 SECONDS.  DT= 3.24447E-04
  
 TEC1=    4.70999999999992     
 TEC2=    4.71499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5543633333332     
  %check_save_state: izleft hours =    67.4372222222222     
 --> plasma_hash("gframe"): TA= 4.710000E+00 NSTEP=  4469 Hash code:   23763204
 ->PRGCHK: bdy curvature ratio at t= 4.7150E+00 seconds is:  5.6345E-02
% MHDEQ: TG1=     4.710000 ; TG2=     4.715000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1400E-03 SECONDS
   DATA R*BT AT EDGE:  2.7589E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6345E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.710000 TO TG2=    4.715000 @ NSTEP     4469
   GFRAME TG2 MOMENTS CHECKSUM:  2.4511183918774D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.7150E+00  4.7200E+00 total power(Watts):  2.4165E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.71500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.388786E+02    0.388365E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.368461E+02    0.389398E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.382211E+02    0.373187E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135133E+03   -0.406314E+02    0.377400E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135161E+03   -0.405099E+02    0.397522E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135564E+03   -0.382172E+02    0.404559E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136162E+03   -0.361401E+02    0.416269E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.348303E+02    0.403288E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.346932E+02    0.386129E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.357197E+02    0.369210E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.374929E+02    0.357736E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135686E+03   -0.395840E+02    0.354778E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.416543E+02    0.360238E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134640E+03   -0.429328E+02    0.373809E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134349E+03   -0.431910E+02    0.391153E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.422103E+02    0.408079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.402671E+02    0.419817E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135680E+03   -0.380592E+02    0.422675E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135943E+03   -0.360979E+02    0.445393E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137031E+03   -0.330734E+02    0.428914E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137401E+03   -0.317449E+02    0.401776E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137554E+03   -0.321653E+02    0.372132E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.343313E+02    0.346560E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136154E+03   -0.379076E+02    0.330662E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135144E+03   -0.417731E+02    0.330617E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.452253E+02    0.345377E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133015E+03   -0.469274E+02    0.373016E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133005E+03   -0.463698E+02    0.405347E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134060E+03   -0.435649E+02    0.433479E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135080E+03   -0.398223E+02    0.447719E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.398810E+02    0.302891E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136347E+03   -0.377360E+02    0.305189E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135922E+03   -0.393087E+02    0.287490E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.416324E+02    0.291484E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.415286E+02    0.311414E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135878E+03   -0.391276E+02    0.319582E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136198E+03   -0.371460E+02    0.331254E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.359165E+02    0.318498E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136766E+03   -0.357649E+02    0.301526E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.366887E+02    0.284865E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.385627E+02    0.272157E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.406663E+02    0.268703E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.427480E+02    0.273496E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.440507E+02    0.286593E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134557E+03   -0.442147E+02    0.304152E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134854E+03   -0.431363E+02    0.321581E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.411987E+02    0.333809E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.390884E+02    0.336846E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.370351E+02    0.360329E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137186E+03   -0.339810E+02    0.345417E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.326230E+02    0.319135E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137697E+03   -0.331124E+02    0.289001E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137298E+03   -0.353690E+02    0.262088E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136111E+03   -0.390584E+02    0.244453E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.429536E+02    0.243415E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134182E+03   -0.462137E+02    0.258090E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133129E+03   -0.480609E+02    0.284128E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.474176E+02    0.316519E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134338E+03   -0.445179E+02    0.345720E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.407772E+02    0.361231E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135201E+03   -0.388835E+02    0.443707E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135886E+03   -0.367446E+02    0.444569E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135539E+03   -0.382363E+02    0.427905E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.405384E+02    0.433363E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.405118E+02    0.453409E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.382125E+02    0.459828E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.362251E+02    0.470487E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136517E+03   -0.348194E+02    0.457394E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136308E+03   -0.347887E+02    0.439765E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.357304E+02    0.423231E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135855E+03   -0.374118E+02    0.412412E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.396100E+02    0.409431E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134609E+03   -0.416825E+02    0.415610E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134252E+03   -0.429555E+02    0.429908E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.432030E+02    0.447877E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134201E+03   -0.422112E+02    0.464575E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134613E+03   -0.403659E+02    0.475268E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.381487E+02    0.477379E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.361683E+02    0.499713E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136822E+03   -0.330500E+02    0.482286E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.317350E+02    0.455118E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137198E+03   -0.321707E+02    0.425192E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136584E+03   -0.344469E+02    0.399229E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.378414E+02    0.385127E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134876E+03   -0.417095E+02    0.386015E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133740E+03   -0.450430E+02    0.402456E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132611E+03   -0.469631E+02    0.430614E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132468E+03   -0.464993E+02    0.463165E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133608E+03   -0.436694E+02    0.490013E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134675E+03   -0.399035E+02    0.503229E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.400331E+02    0.242276E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136358E+03   -0.379849E+02    0.244233E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.394502E+02    0.227321E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135637E+03   -0.417790E+02    0.230822E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.416872E+02    0.250415E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.392878E+02    0.259041E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.372172E+02    0.271793E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136818E+03   -0.360704E+02    0.258568E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.358148E+02    0.242465E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.369196E+02    0.224449E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.386925E+02    0.212584E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.408988E+02    0.208249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135215E+03   -0.429928E+02    0.212474E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.441932E+02    0.225629E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134812E+03   -0.443687E+02    0.242671E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135057E+03   -0.433017E+02    0.260232E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135538E+03   -0.413708E+02    0.272926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.391562E+02    0.277027E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136356E+03   -0.371169E+02    0.300762E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137503E+03   -0.340499E+02    0.286815E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137806E+03   -0.327684E+02    0.259919E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.333327E+02    0.229147E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.355821E+02    0.202641E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136248E+03   -0.392698E+02    0.184698E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.431731E+02    0.183220E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134305E+03   -0.464443E+02    0.197118E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.481929E+02    0.222290E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133861E+03   -0.473440E+02    0.255385E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.448102E+02    0.283339E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135548E+03   -0.408598E+02    0.300847E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678380.898732310     
  ps_ts2 prof sum =   677964.318253071     
  trcom prof sum =    677964.318253071     
  ps_ts2 cur sum  =   9202.45700850358     
  trcom cur sum  =    9202.45700850358     
  
  antenna # iant =            2
  powecha_use(iant) =    668078.097459599     
  ps_ts2 prof sum =   667705.161437074     
  trcom prof sum =    667705.161437073     
  ps_ts2 cur sum  =   11298.3923809663     
  trcom cur sum  =    11298.3923809663     
  
  antenna # iant =            3
  powecha_use(iant) =    516129.823744940     
  ps_ts2 prof sum =   515823.564975844     
  trcom prof sum =    515823.564947099     
  ps_ts2 cur sum  =   5934.51357214915     
  trcom cur sum  =    5934.51357214916     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553887.018746668     
  ps_ts2 prof sum =   553587.362329060     
  trcom prof sum =    553587.362329060     
  ps_ts2 cur sum  =   10545.0501175547     
  trcom cur sum  =    10545.0501175547     
  
  Total ECH heating:      2415080.40696630     
  Total Current Drive:    36980.4130791737     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4477
 TA= 4.71500E+00 CPU TIME= 1.59172E-01 SECONDS.  DT= 1.36816E-04
  
 TEC1=    4.71499999999992     
 TEC2=    4.71999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5669469444440     
  %check_save_state: izleft hours =    67.4247222222222     
 --> plasma_hash("gframe"): TA= 4.715000E+00 NSTEP=  4477 Hash code:   31264289
 ->PRGCHK: bdy curvature ratio at t= 4.7200E+00 seconds is:  5.6421E-02
% MHDEQ: TG1=     4.715000 ; TG2=     4.720000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2020E-03 SECONDS
   DATA R*BT AT EDGE:  2.7604E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6421E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.715000 TO TG2=    4.720000 @ NSTEP     4477
   GFRAME TG2 MOMENTS CHECKSUM:  2.4514438382882D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.74577E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.29932E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.23962E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -5.05397E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.83253E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.75591E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.59609E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.45328E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.20944E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.77847E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.88774E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.98801E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.64880E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -4.09053E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -6.10841E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.49711E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.35520E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.43183E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.43183E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7200E+00  4.7250E+00 total power(Watts):  2.4168E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.72000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.387727E+02    0.389187E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.367422E+02    0.390223E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.382193E+02    0.373573E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135365E+03   -0.405229E+02    0.378268E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135173E+03   -0.405073E+02    0.397867E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.381115E+02    0.405327E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136175E+03   -0.361369E+02    0.416572E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136593E+03   -0.349223E+02    0.403142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.347875E+02    0.385957E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.355245E+02    0.370641E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136271E+03   -0.373923E+02    0.358689E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.395840E+02    0.355204E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135252E+03   -0.415451E+02    0.361190E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134651E+03   -0.429314E+02    0.374216E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134579E+03   -0.430764E+02    0.391971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134736E+03   -0.420964E+02    0.408835E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.402634E+02    0.420141E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.380555E+02    0.422984E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.360873E+02    0.445662E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136816E+03   -0.331626E+02    0.428784E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137642E+03   -0.316534E+02    0.402541E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137568E+03   -0.321637E+02    0.372480E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.343324E+02    0.346970E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136163E+03   -0.379092E+02    0.331115E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.416665E+02    0.331679E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134205E+03   -0.449968E+02    0.346925E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133241E+03   -0.468080E+02    0.373918E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133017E+03   -0.463662E+02    0.405717E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134073E+03   -0.435600E+02    0.433806E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.398173E+02    0.447985E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135934E+03   -0.397809E+02    0.304032E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.377397E+02    0.305672E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.392115E+02    0.288672E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.415304E+02    0.292662E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135535E+03   -0.414247E+02    0.312532E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.391304E+02    0.320055E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.370554E+02    0.332271E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137088E+03   -0.357263E+02    0.320218E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137215E+03   -0.355774E+02    0.303333E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.366927E+02    0.285361E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.384692E+02    0.273386E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.406722E+02    0.269249E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135340E+03   -0.426535E+02    0.274692E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134920E+03   -0.439451E+02    0.287790E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.441070E+02    0.305286E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134862E+03   -0.431382E+02    0.322083E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.412000E+02    0.334282E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135933E+03   -0.389863E+02    0.337884E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136309E+03   -0.369352E+02    0.361270E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137420E+03   -0.338889E+02    0.346418E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137650E+03   -0.326256E+02    0.319565E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137704E+03   -0.331176E+02    0.289452E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137303E+03   -0.353754E+02    0.262587E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.389665E+02    0.245746E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135367E+03   -0.428557E+02    0.244717E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.461084E+02    0.259376E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133347E+03   -0.479494E+02    0.285348E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133425E+03   -0.473027E+02    0.317645E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134347E+03   -0.445182E+02    0.346204E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.407763E+02    0.361657E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135440E+03   -0.387742E+02    0.444318E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.367398E+02    0.444831E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.382288E+02    0.428217E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134995E+03   -0.405338E+02    0.433671E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.405067E+02    0.453659E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.381039E+02    0.460358E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.361201E+02    0.470967E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.349117E+02    0.457290E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.347847E+02    0.440022E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136310E+03   -0.356290E+02    0.423933E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135868E+03   -0.374087E+02    0.412725E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.395011E+02    0.410179E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.415689E+02    0.416348E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134265E+03   -0.429510E+02    0.430234E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134233E+03   -0.430849E+02    0.448465E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134438E+03   -0.420943E+02    0.465092E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.402520E+02    0.475734E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135451E+03   -0.380391E+02    0.477842E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.360623E+02    0.500095E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.330446E+02    0.482463E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137364E+03   -0.316408E+02    0.455678E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137440E+03   -0.320767E+02    0.425890E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.342546E+02    0.400478E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.378370E+02    0.385484E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134888E+03   -0.417073E+02    0.386386E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133534E+03   -0.451552E+02    0.402414E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132625E+03   -0.469584E+02    0.430955E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132684E+03   -0.463826E+02    0.463696E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133402E+03   -0.437764E+02    0.490014E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134691E+03   -0.398963E+02    0.503412E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.19 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.400413E+02    0.242828E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.378911E+02    0.245556E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136200E+03   -0.394602E+02    0.227872E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135642E+03   -0.417887E+02    0.231386E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.416954E+02    0.250983E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136075E+03   -0.392954E+02    0.259584E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.372232E+02    0.272302E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.358877E+02    0.260565E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137000E+03   -0.359169E+02    0.242210E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137140E+03   -0.367398E+02    0.226560E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136397E+03   -0.387038E+02    0.213121E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.409114E+02    0.208801E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.428990E+02    0.213818E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.442049E+02    0.226216E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.442686E+02    0.243980E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135277E+03   -0.432010E+02    0.261495E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135544E+03   -0.413774E+02    0.273470E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.391619E+02    0.277543E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.370225E+02    0.301906E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.340591E+02    0.287245E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137812E+03   -0.327752E+02    0.260403E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137949E+03   -0.332534E+02    0.230444E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137390E+03   -0.355936E+02    0.203144E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.390886E+02    0.186894E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135301E+03   -0.431879E+02    0.183792E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134521E+03   -0.463480E+02    0.198480E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133857E+03   -0.479756E+02    0.224355E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.474674E+02    0.255335E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.445922E+02    0.285190E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135554E+03   -0.408638E+02    0.301356E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    679803.735266482     
  ps_ts2 prof sum =   679403.400219956     
  trcom prof sum =    679403.400219957     
  ps_ts2 cur sum  =   9235.46821264476     
  trcom cur sum  =    9235.46821264476     
  
  antenna # iant =            2
  powecha_use(iant) =    666474.923870102     
  ps_ts2 prof sum =   666061.190233067     
  trcom prof sum =    666061.190233067     
  ps_ts2 cur sum  =   11293.4996664311     
  trcom cur sum  =    11293.4996664311     
  
  antenna # iant =            3
  powecha_use(iant) =    516853.624358218     
  ps_ts2 prof sum =   516545.877158926     
  trcom prof sum =    516545.877158926     
  ps_ts2 cur sum  =   5947.29762969836     
  trcom cur sum  =    5947.29762969837     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553629.153250439     
  ps_ts2 prof sum =   553319.745663354     
  trcom prof sum =    553319.745663354     
  ps_ts2 cur sum  =   10564.5168830020     
  trcom cur sum  =    10564.5168830020     
  
  Total ECH heating:      2415330.21327530     
  Total Current Drive:    37040.7823917763     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4488
 TA= 4.72000E+00 CPU TIME= 1.58936E-01 SECONDS.  DT= 5.63107E-04
  
 TEC1=    4.71999999999992     
 TEC2=    4.72499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5792980555552     
  %check_save_state: izleft hours =    67.4122222222222     
 --> plasma_hash("gframe"): TA= 4.720000E+00 NSTEP=  4488 Hash code:   38950481
 ->PRGCHK: bdy curvature ratio at t= 4.7250E+00 seconds is:  5.6397E-02
% MHDEQ: TG1=     4.720000 ; TG2=     4.725000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7619E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6397E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.720000 TO TG2=    4.725000 @ NSTEP     4488
   GFRAME TG2 MOMENTS CHECKSUM:  2.4517692846989D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.999997377628461E-006
 EC call, timestep(sec):  4.7250E+00  4.7300E+00 total power(Watts):  2.4138E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.72500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.387701E+02    0.389520E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136242E+03   -0.367397E+02    0.390544E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135945E+03   -0.382175E+02    0.373933E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.405211E+02    0.378632E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.403966E+02    0.398640E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.381079E+02    0.405634E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.361330E+02    0.416869E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136606E+03   -0.349192E+02    0.403444E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137119E+03   -0.345929E+02    0.387272E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136692E+03   -0.356202E+02    0.370465E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136281E+03   -0.373916E+02    0.359076E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.395834E+02    0.355617E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135262E+03   -0.415440E+02    0.361601E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.428178E+02    0.375089E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.430731E+02    0.392327E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134748E+03   -0.420915E+02    0.409174E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135359E+03   -0.401457E+02    0.420860E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.380511E+02    0.423281E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.359900E+02    0.446231E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137287E+03   -0.329729E+02    0.429863E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.316511E+02    0.402821E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137789E+03   -0.320774E+02    0.373329E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137029E+03   -0.344259E+02    0.346780E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.378091E+02    0.332145E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.416671E+02    0.332136E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133998E+03   -0.451106E+02    0.346873E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133251E+03   -0.468052E+02    0.374347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133246E+03   -0.462440E+02    0.406476E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133866E+03   -0.436679E+02    0.433771E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.398117E+02    0.448234E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135941E+03   -0.397838E+02    0.304504E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.377423E+02    0.306124E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136153E+03   -0.392159E+02    0.289148E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135604E+03   -0.415299E+02    0.293173E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135543E+03   -0.414265E+02    0.313008E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136113E+03   -0.390286E+02    0.321119E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.370550E+02    0.332697E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.358244E+02    0.320017E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137223E+03   -0.355807E+02    0.303768E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137101E+03   -0.365029E+02    0.287203E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136326E+03   -0.384737E+02    0.273859E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.405735E+02    0.270438E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.426571E+02    0.275203E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.439493E+02    0.288304E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134787E+03   -0.441092E+02    0.305802E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.430292E+02    0.323148E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.412005E+02    0.334732E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135942E+03   -0.389866E+02    0.338315E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.369342E+02    0.361651E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137429E+03   -0.338885E+02    0.346807E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137883E+03   -0.325378E+02    0.320621E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137933E+03   -0.330317E+02    0.290586E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137529E+03   -0.352874E+02    0.263785E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136337E+03   -0.389732E+02    0.246244E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135373E+03   -0.428635E+02    0.245244E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134406E+03   -0.461152E+02    0.259911E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.479534E+02    0.285907E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133432E+03   -0.473042E+02    0.318169E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134139E+03   -0.446312E+02    0.346143E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.406683E+02    0.362580E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.387688E+02    0.444577E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.367348E+02    0.445072E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.381209E+02    0.428888E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.405287E+02    0.433959E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.403934E+02    0.454199E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.380975E+02    0.460571E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.361147E+02    0.471144E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.349066E+02    0.457489E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136792E+03   -0.345875E+02    0.441007E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136323E+03   -0.356248E+02    0.424219E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136105E+03   -0.373033E+02    0.413451E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.394970E+02    0.410493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.415645E+02    0.416663E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134499E+03   -0.428332E+02    0.430904E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.430791E+02    0.448733E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134454E+03   -0.420878E+02    0.465307E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.402454E+02    0.475926E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135466E+03   -0.380317E+02    0.478038E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.360554E+02    0.500255E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.331318E+02    0.482361E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.316360E+02    0.455882E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.320712E+02    0.426160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137062E+03   -0.342518E+02    0.400773E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136137E+03   -0.377390E+02    0.386286E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.415949E+02    0.387210E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133982E+03   -0.449201E+02    0.403580E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132855E+03   -0.468338E+02    0.431625E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132711E+03   -0.463702E+02    0.463931E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133861E+03   -0.435407E+02    0.490622E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134942E+03   -0.397772E+02    0.503769E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136177E+03   -0.399466E+02    0.244079E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136582E+03   -0.379034E+02    0.246005E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.394689E+02    0.228375E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135647E+03   -0.417968E+02    0.231911E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.415976E+02    0.252208E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.392006E+02    0.260794E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.371306E+02    0.273481E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.359882E+02    0.260289E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137444E+03   -0.357365E+02    0.244218E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.368429E+02    0.226254E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.385174E+02    0.215209E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136100E+03   -0.408195E+02    0.210101E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.429094E+02    0.214356E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135212E+03   -0.441052E+02    0.227507E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135036E+03   -0.442765E+02    0.244515E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.432066E+02    0.262018E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135766E+03   -0.412769E+02    0.274645E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.390651E+02    0.278714E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.370256E+02    0.302360E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137728E+03   -0.339699E+02    0.288393E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138039E+03   -0.326926E+02    0.261604E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137955E+03   -0.332606E+02    0.230907E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137613E+03   -0.355120E+02    0.204452E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136473E+03   -0.391979E+02    0.186578E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.430965E+02    0.185142E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.463601E+02    0.199055E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133653E+03   -0.481002E+02    0.224229E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.472445E+02    0.257230E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134486E+03   -0.447083E+02    0.285072E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135779E+03   -0.407612E+02    0.302480E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    675429.537503418     
  ps_ts2 prof sum =   675060.689299645     
  trcom prof sum =    675060.689299646     
  ps_ts2 cur sum  =   9184.91521883755     
  trcom cur sum  =    9184.91521883755     
  
  antenna # iant =            2
  powecha_use(iant) =    667044.021072269     
  ps_ts2 prof sum =   666657.931493358     
  trcom prof sum =    666657.931493357     
  ps_ts2 cur sum  =   11322.9800146965     
  trcom cur sum  =    11322.9800146965     
  
  antenna # iant =            3
  powecha_use(iant) =    516979.407904256     
  ps_ts2 prof sum =   516666.384577630     
  trcom prof sum =    516666.384577631     
  ps_ts2 cur sum  =   5952.42510968334     
  trcom cur sum  =    5952.42510968334     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554390.611199409     
  ps_ts2 prof sum =   554081.148922539     
  trcom prof sum =    554081.148922539     
  ps_ts2 cur sum  =   10600.0770249018     
  trcom cur sum  =    10600.0770249018     
  
  Total ECH heating:      2412466.15429317     
  Total Current Drive:    37060.3973681192     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4494
 TA= 4.72500E+00 CPU TIME= 1.63386E-01 SECONDS.  DT= 4.73202E-04
  
 TEC1=    4.72499999999992     
 TEC2=    4.72999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.5908080555555     
  %check_save_state: izleft hours =    67.4008333333333     
 --> plasma_hash("gframe"): TA= 4.725000E+00 NSTEP=  4494 Hash code:   71483269
 ->PRGCHK: bdy curvature ratio at t= 4.7300E+00 seconds is:  5.6377E-02
% MHDEQ: TG1=     4.725000 ; TG2=     4.730000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2100E-03 SECONDS
   DATA R*BT AT EDGE:  2.7634E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6377E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.725000 TO TG2=    4.730000 @ NSTEP     4494
   GFRAME TG2 MOMENTS CHECKSUM:  2.4520947311096D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.07879E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.24810E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.17822E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       3= -8.68406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.64406E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.87367E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -4.94086E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.06254E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.99349E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.45885E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.94430E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.74892E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.68531E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -2.88468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.60502E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.08713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.26481E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.39456E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.39456E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7300E+00  4.7350E+00 total power(Watts):  2.4134E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.73000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.387665E+02    0.389804E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.365368E+02    0.391774E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.381124E+02    0.374749E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.404108E+02    0.379432E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.403925E+02    0.398922E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.380010E+02    0.406333E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.360296E+02    0.417540E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.347231E+02    0.404602E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136906E+03   -0.346855E+02    0.387053E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136703E+03   -0.356184E+02    0.370768E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.373896E+02    0.359415E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135936E+03   -0.394766E+02    0.356507E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.415416E+02    0.361957E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134892E+03   -0.428148E+02    0.375422E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134823E+03   -0.429572E+02    0.393070E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.419708E+02    0.409859E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.401480E+02    0.421111E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135944E+03   -0.379432E+02    0.423938E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136213E+03   -0.359837E+02    0.446449E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137300E+03   -0.329685E+02    0.430094E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137669E+03   -0.316477E+02    0.403061E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137815E+03   -0.320718E+02    0.373630E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137487E+03   -0.342364E+02    0.348280E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.378049E+02    0.332540E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.416663E+02    0.332538E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.448801E+02    0.348318E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133262E+03   -0.468017E+02    0.374708E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133259E+03   -0.462389E+02    0.406782E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.434351E+02    0.434732E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135347E+03   -0.396991E+02    0.448787E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.396809E+02    0.305566E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136590E+03   -0.376435E+02    0.307177E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.391156E+02    0.290259E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135594E+03   -0.415374E+02    0.293600E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.414268E+02    0.313432E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136132E+03   -0.390240E+02    0.321541E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136654E+03   -0.369551E+02    0.333667E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.358246E+02    0.320396E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137009E+03   -0.356770E+02    0.303504E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136888E+03   -0.366021E+02    0.286943E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136550E+03   -0.383766E+02    0.275018E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136016E+03   -0.405769E+02    0.270918E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.425520E+02    0.276363E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135148E+03   -0.438407E+02    0.289422E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.439986E+02    0.306861E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.430289E+02    0.323571E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135626E+03   -0.410921E+02    0.335701E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.388821E+02    0.339271E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136553E+03   -0.368326E+02    0.362519E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137214E+03   -0.339801E+02    0.346564E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137891E+03   -0.325380E+02    0.320979E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.330332E+02    0.290988E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137534E+03   -0.352905E+02    0.264236E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136559E+03   -0.388781E+02    0.247479E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135592E+03   -0.427616E+02    0.246486E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134198E+03   -0.462325E+02    0.259793E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133571E+03   -0.478385E+02    0.287038E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133654E+03   -0.471868E+02    0.319196E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134581E+03   -0.444024E+02    0.347602E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.406660E+02    0.362930E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135692E+03   -0.386585E+02    0.445140E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136170E+03   -0.366229E+02    0.445654E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135813E+03   -0.381159E+02    0.429143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.404153E+02    0.434577E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.403870E+02    0.454418E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135761E+03   -0.379880E+02    0.461068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136179E+03   -0.360090E+02    0.471597E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136791E+03   -0.347071E+02    0.458316E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.346786E+02    0.440864E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136789E+03   -0.354242E+02    0.425275E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136118E+03   -0.372989E+02    0.413709E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.394926E+02    0.410757E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135090E+03   -0.414499E+02    0.417335E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134512E+03   -0.428274E+02    0.431181E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.431854E+02    0.448665E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134468E+03   -0.420809E+02    0.465504E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135108E+03   -0.401306E+02    0.476357E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135482E+03   -0.380250E+02    0.478207E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136045E+03   -0.359487E+02    0.500615E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137100E+03   -0.329389E+02    0.483052E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137394E+03   -0.316309E+02    0.456054E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137455E+03   -0.320726E+02    0.426377E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.343437E+02    0.400552E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136160E+03   -0.377323E+02    0.386580E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.415913E+02    0.387514E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133777E+03   -0.450308E+02    0.403475E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132868E+03   -0.468273E+02    0.431921E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132945E+03   -0.462446E+02    0.464407E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133877E+03   -0.435326E+02    0.490799E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134941E+03   -0.397768E+02    0.503926E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.25 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136182E+03   -0.399516E+02    0.244583E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.377115E+02    0.247993E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.393756E+02    0.229647E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.416985E+02    0.233178E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.416021E+02    0.252726E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136303E+03   -0.392043E+02    0.261280E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136786E+03   -0.371331E+02    0.273935E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137492E+03   -0.358021E+02    0.262223E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.357417E+02    0.244689E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137368E+03   -0.366590E+02    0.228308E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.386227E+02    0.214922E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.408231E+02    0.210652E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135657E+03   -0.428117E+02    0.215652E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.441115E+02    0.228045E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.442819E+02    0.245055E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.432109E+02    0.262532E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.412797E+02    0.275128E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136295E+03   -0.390680E+02    0.279171E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137038E+03   -0.368301E+02    0.304077E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137735E+03   -0.339720E+02    0.288802E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138045E+03   -0.326963E+02    0.262039E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137960E+03   -0.332663E+02    0.231358E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137617E+03   -0.355196E+02    0.204933E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136477E+03   -0.392078E+02    0.187101E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.431065E+02    0.185699E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134742E+03   -0.462594E+02    0.200388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134078E+03   -0.478785E+02    0.226234E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133876E+03   -0.473638E+02    0.257130E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134921E+03   -0.444871E+02    0.286841E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.407618E+02    0.302915E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.05 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    677160.192981015     
  ps_ts2 prof sum =   676744.542886853     
  trcom prof sum =    676744.542886853     
  ps_ts2 cur sum  =   9215.73484659217     
  trcom cur sum  =    9215.73484659218     
  
  antenna # iant =            2
  powecha_use(iant) =    666987.835920646     
  ps_ts2 prof sum =   666624.627424045     
  trcom prof sum =    666624.627424044     
  ps_ts2 cur sum  =   11336.6885523674     
  trcom cur sum  =    11336.6885523674     
  
  antenna # iant =            3
  powecha_use(iant) =    516175.077559026     
  ps_ts2 prof sum =   515864.622442282     
  trcom prof sum =    515864.622442282     
  ps_ts2 cur sum  =   5943.89679538415     
  trcom cur sum  =    5943.89679538415     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553123.987614525     
  ps_ts2 prof sum =   552799.003077325     
  trcom prof sum =    552799.003077325     
  ps_ts2 cur sum  =   10592.5495980477     
  trcom cur sum  =    10592.5495980477     
  
  Total ECH heating:      2412032.79583050     
  Total Current Drive:    37088.8697923914     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4500
 TA= 4.73000E+00 CPU TIME= 1.59649E-01 SECONDS.  DT= 1.39552E-03
  
 TEC1=    4.72999999999992     
 TEC2=    4.73499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6054674999998     
  %check_save_state: izleft hours =    67.3861111111111     
 --> plasma_hash("gframe"): TA= 4.730000E+00 NSTEP=  4500 Hash code:   86106537
 ->PRGCHK: bdy curvature ratio at t= 4.7350E+00 seconds is:  5.6362E-02
% MHDEQ: TG1=     4.730000 ; TG2=     4.735000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0870E-03 SECONDS
   DATA R*BT AT EDGE:  2.7649E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6362E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.730000 TO TG2=    4.735000 @ NSTEP     4500
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524201775204D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7350E+00  4.7400E+00 total power(Watts):  2.4151E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.73500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136038E+03   -0.386582E+02    0.390533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136491E+03   -0.366322E+02    0.391549E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.381083E+02    0.375044E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135620E+03   -0.404060E+02    0.379729E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135432E+03   -0.403868E+02    0.399183E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136062E+03   -0.379954E+02    0.406577E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.360239E+02    0.417776E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136858E+03   -0.348142E+02    0.404384E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136918E+03   -0.346811E+02    0.387309E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.354200E+02    0.372105E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.372852E+02    0.360277E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135946E+03   -0.394728E+02    0.356848E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.414281E+02    0.362810E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.428099E+02    0.375739E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134835E+03   -0.429516E+02    0.393351E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134992E+03   -0.419720E+02    0.410104E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.401400E+02    0.421364E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.379369E+02    0.424180E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.359771E+02    0.446650E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137085E+03   -0.330555E+02    0.429915E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137910E+03   -0.315536E+02    0.403763E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137826E+03   -0.320679E+02    0.373900E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137496E+03   -0.342333E+02    0.348612E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.378085E+02    0.332883E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135614E+03   -0.415556E+02    0.333489E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.448763E+02    0.348706E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133491E+03   -0.466775E+02    0.375509E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.461149E+02    0.407454E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134333E+03   -0.434277E+02    0.434977E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135361E+03   -0.396918E+02    0.449001E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136174E+03   -0.396802E+02    0.305980E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.376427E+02    0.307577E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136384E+03   -0.391147E+02    0.290700E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.414290E+02    0.294691E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.413186E+02    0.314455E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136344E+03   -0.389264E+02    0.322500E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136662E+03   -0.369530E+02    0.334031E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137335E+03   -0.356305E+02    0.322018E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.354847E+02    0.305220E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136894E+03   -0.366027E+02    0.287361E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.383772E+02    0.275471E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.405784E+02    0.271387E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.425529E+02    0.276844E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.438408E+02    0.289885E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135017E+03   -0.439976E+02    0.307300E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135319E+03   -0.429165E+02    0.324559E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.410894E+02    0.336083E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136180E+03   -0.388795E+02    0.339633E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136564E+03   -0.368290E+02    0.362833E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137673E+03   -0.337908E+02    0.348057E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137900E+03   -0.325368E+02    0.321332E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137947E+03   -0.330335E+02    0.291382E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137540E+03   -0.352926E+02    0.264672E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136563E+03   -0.388813E+02    0.247956E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135596E+03   -0.427644E+02    0.246997E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134628E+03   -0.460081E+02    0.261652E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133577E+03   -0.478385E+02    0.287540E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133661E+03   -0.471847E+02    0.319640E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.445122E+02    0.347460E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.405549E+02    0.363774E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135706E+03   -0.386510E+02    0.445361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136167E+03   -0.366228E+02    0.445844E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.381093E+02    0.429388E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.404082E+02    0.434818E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.403798E+02    0.454611E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.379812E+02    0.461232E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.360017E+02    0.471748E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136577E+03   -0.347974E+02    0.458168E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.346722E+02    0.441074E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136576E+03   -0.355162E+02    0.425107E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136131E+03   -0.372931E+02    0.413949E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135762E+03   -0.393811E+02    0.411420E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135102E+03   -0.414433E+02    0.417587E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.429323E+02    0.431083E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.429490E+02    0.449503E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134705E+03   -0.419607E+02    0.465968E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135123E+03   -0.401224E+02    0.476512E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.379137E+02    0.478601E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.359406E+02    0.500749E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137117E+03   -0.329337E+02    0.483167E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137640E+03   -0.315347E+02    0.456559E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.319727E+02    0.427023E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137314E+03   -0.341488E+02    0.401716E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136172E+03   -0.377279E+02    0.386847E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.414768E+02    0.388256E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133789E+03   -0.450244E+02    0.403754E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133098E+03   -0.467007E+02    0.432524E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132959E+03   -0.462357E+02    0.464604E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133670E+03   -0.436373E+02    0.490752E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.397647E+02    0.504069E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.398532E+02    0.245801E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136813E+03   -0.378127E+02    0.247717E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136430E+03   -0.393791E+02    0.230143E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.417027E+02    0.233688E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.414994E+02    0.253920E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.391052E+02    0.262463E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.369394E+02    0.275787E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137497E+03   -0.358043E+02    0.262664E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.358384E+02    0.244385E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.366632E+02    0.228784E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136626E+03   -0.386275E+02    0.215417E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.408357E+02    0.211131E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.428173E+02    0.216187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.441164E+02    0.228577E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.441757E+02    0.246280E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135507E+03   -0.431042E+02    0.263712E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135994E+03   -0.411749E+02    0.276271E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136302E+03   -0.390693E+02    0.279611E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136825E+03   -0.369279E+02    0.303821E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137741E+03   -0.339725E+02    0.289204E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138050E+03   -0.326984E+02    0.262473E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.331821E+02    0.232609E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137620E+03   -0.355250E+02    0.205414E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.390200E+02    0.189255E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.430102E+02    0.187050E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.462665E+02    0.200960E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133871E+03   -0.479979E+02    0.226096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133880E+03   -0.473660E+02    0.257671E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.444874E+02    0.287315E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136011E+03   -0.406561E+02    0.303966E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    678490.354908663     
  ps_ts2 prof sum =   678104.735938824     
  trcom prof sum =    678104.735938824     
  ps_ts2 cur sum  =   9236.75221028667     
  trcom cur sum  =    9236.75221028667     
  
  antenna # iant =            2
  powecha_use(iant) =    666882.140460170     
  ps_ts2 prof sum =   666486.741721914     
  trcom prof sum =    666486.741721913     
  ps_ts2 cur sum  =   11344.6676601232     
  trcom cur sum  =    11344.6676601232     
  
  antenna # iant =            3
  powecha_use(iant) =    516490.416100459     
  ps_ts2 prof sum =   516188.113908554     
  trcom prof sum =    516188.113908554     
  ps_ts2 cur sum  =   5945.71988549035     
  trcom cur sum  =    5945.71988549035     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553192.950779728     
  ps_ts2 prof sum =   552875.734545150     
  trcom prof sum =    552875.734545150     
  ps_ts2 cur sum  =   10606.1919351031     
  trcom cur sum  =    10606.1919351031     
  
  Total ECH heating:      2413655.32611444     
  Total Current Drive:    37133.3316910033     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4503
 TA= 4.73500E+00 CPU TIME= 1.61726E-01 SECONDS.  DT= 2.32509E-03
  
 TEC1=    4.73499999999992     
 TEC2=    4.73999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6182149999995     
  %check_save_state: izleft hours =    67.3733333333333     
 --> plasma_hash("gframe"): TA= 4.735000E+00 NSTEP=  4503 Hash code:  112322059
 ->PRGCHK: bdy curvature ratio at t= 4.7400E+00 seconds is:  5.6351E-02
% MHDEQ: TG1=     4.735000 ; TG2=     4.740000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2030E-03 SECONDS
   DATA R*BT AT EDGE:  2.7663E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6351E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.735000 TO TG2=    4.740000 @ NSTEP     4503
   GFRAME TG2 MOMENTS CHECKSUM:  2.4527456239311D+04
 %MFRCHK - LABEL "RMS11", #       1=  2.70545E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.39746E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.19909E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.46371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.98634E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -6.22767E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.68865E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.78686E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.70845E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  1.99843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.52013E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.72025E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      10= -1.73081E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.12333E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.69482E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.17832E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.61475E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.61475E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   1.999993401113898E-006
 EC call, timestep(sec):  4.7400E+00  4.7450E+00 total power(Watts):  2.4164E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.74000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.386533E+02    0.390708E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.366276E+02    0.391712E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136204E+03   -0.381041E+02    0.375219E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.404017E+02    0.379907E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135668E+03   -0.402749E+02    0.399791E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.379907E+02    0.406752E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136455E+03   -0.360189E+02    0.417952E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.348098E+02    0.404544E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137384E+03   -0.344869E+02    0.388445E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.355135E+02    0.371757E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.372820E+02    0.360461E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135960E+03   -0.394697E+02    0.357039E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.414249E+02    0.363001E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135136E+03   -0.426943E+02    0.376400E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134849E+03   -0.429466E+02    0.393527E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135009E+03   -0.419653E+02    0.410292E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.400273E+02    0.421940E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135971E+03   -0.379315E+02    0.424365E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136469E+03   -0.358722E+02    0.447163E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137557E+03   -0.328650E+02    0.430888E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137925E+03   -0.315494E+02    0.403916E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138068E+03   -0.319750E+02    0.374597E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.343248E+02    0.348217E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.377029E+02    0.333681E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135627E+03   -0.415531E+02    0.333705E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134678E+03   -0.447583E+02    0.349436E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133488E+03   -0.466808E+02    0.375686E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133503E+03   -0.461091E+02    0.407646E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134568E+03   -0.433078E+02    0.435526E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135600E+03   -0.395787E+02    0.449500E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136186E+03   -0.396784E+02    0.306227E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137049E+03   -0.374415E+02    0.309092E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.391141E+02    0.290975E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135835E+03   -0.414275E+02    0.294972E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.413161E+02    0.314696E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136362E+03   -0.389217E+02    0.322730E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.369504E+02    0.334231E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137125E+03   -0.357248E+02    0.321605E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.355792E+02    0.304795E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137345E+03   -0.364074E+02    0.289005E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136783E+03   -0.382761E+02    0.276476E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136247E+03   -0.404732E+02    0.272409E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135586E+03   -0.425515E+02    0.277173E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135165E+03   -0.438391E+02    0.290189E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135244E+03   -0.438836E+02    0.308163E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135332E+03   -0.429138E+02    0.324787E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135867E+03   -0.409794E+02    0.336857E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.388768E+02    0.339831E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136578E+03   -0.368256E+02    0.363013E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137687E+03   -0.337884E+02    0.348238E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138137E+03   -0.324454E+02    0.322174E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138181E+03   -0.329427E+02    0.292333E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.351981E+02    0.265734E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136583E+03   -0.388770E+02    0.248363E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.426572E+02    0.248100E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134422E+03   -0.461204E+02    0.261388E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133800E+03   -0.477197E+02    0.288471E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133674E+03   -0.471820E+02    0.319895E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134821E+03   -0.442817E+02    0.348711E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.405511E+02    0.363968E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135721E+03   -0.386452E+02    0.445536E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136184E+03   -0.366162E+02    0.446016E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136065E+03   -0.380004E+02    0.429950E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135495E+03   -0.402941E+02    0.435363E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135355E+03   -0.402648E+02    0.455090E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.379742E+02    0.461392E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.359946E+02    0.471900E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.347908E+02    0.458319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.344743E+02    0.441971E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136591E+03   -0.355110E+02    0.425287E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136371E+03   -0.371867E+02    0.414539E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.393753E+02    0.411602E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135117E+03   -0.414377E+02    0.417776E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134760E+03   -0.427016E+02    0.431985E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134501E+03   -0.429500E+02    0.449675E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134721E+03   -0.419543E+02    0.466111E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135138E+03   -0.401151E+02    0.476661E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135723E+03   -0.379127E+02    0.478747E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136077E+03   -0.359331E+02    0.500896E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136902E+03   -0.330204E+02    0.483035E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137656E+03   -0.315295E+02    0.456700E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137725E+03   -0.319677E+02    0.427195E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137329E+03   -0.341441E+02    0.401877E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136410E+03   -0.376219E+02    0.387492E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.414723E+02    0.388430E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134240E+03   -0.447881E+02    0.404749E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133113E+03   -0.466940E+02    0.432743E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133193E+03   -0.461099E+02    0.465037E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134129E+03   -0.434012E+02    0.491324E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135204E+03   -0.396493E+02    0.504414E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136409E+03   -0.398530E+02    0.246183E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136820E+03   -0.378116E+02    0.248086E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136653E+03   -0.392800E+02    0.231285E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136091E+03   -0.415985E+02    0.234827E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135995E+03   -0.414989E+02    0.254303E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136533E+03   -0.391047E+02    0.262815E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137020E+03   -0.370356E+02    0.275396E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.358981E+02    0.262268E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137679E+03   -0.356511E+02    0.246270E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137161E+03   -0.367594E+02    0.228379E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136849E+03   -0.385315E+02    0.216593E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136329E+03   -0.407334E+02    0.212320E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.427128E+02    0.217346E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135439E+03   -0.440086E+02    0.229731E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135265E+03   -0.441754E+02    0.246691E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135515E+03   -0.431031E+02    0.264079E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.411741E+02    0.276598E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.389665E+02    0.280602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136837E+03   -0.369261E+02    0.304065E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137974E+03   -0.338795E+02    0.290161E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138280E+03   -0.326098E+02    0.263536E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.331830E+02    0.232968E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137843E+03   -0.354349E+02    0.206617E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.391198E+02    0.188864E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.430130E+02    0.187489E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.461579E+02    0.202156E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134299E+03   -0.477697E+02    0.227941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134099E+03   -0.472500E+02    0.258735E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135152E+03   -0.443740E+02    0.288259E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.406543E+02    0.304221E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.17 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    676303.033266042     
  ps_ts2 prof sum =   675918.532869193     
  trcom prof sum =    675918.532869193     
  ps_ts2 cur sum  =   9212.96560717021     
  trcom cur sum  =    9212.96560717022     
  
  antenna # iant =            2
  powecha_use(iant) =    666063.964211400     
  ps_ts2 prof sum =   665670.059619840     
  trcom prof sum =    665670.059619839     
  ps_ts2 cur sum  =   11343.9212031051     
  trcom cur sum  =    11343.9212031051     
  
  antenna # iant =            3
  powecha_use(iant) =    519694.249475846     
  ps_ts2 prof sum =   519382.232011434     
  trcom prof sum =    519382.232011434     
  ps_ts2 cur sum  =   5981.57550038757     
  trcom cur sum  =    5981.57550038758     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554310.090550390     
  ps_ts2 prof sum =   554007.728662404     
  trcom prof sum =    554007.728662404     
  ps_ts2 cur sum  =   10640.2366299816     
  trcom cur sum  =    10640.2366299816     
  
  Total ECH heating:      2414978.55316287     
  Total Current Drive:    37178.6989406445     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4505
 TA= 4.74000E+00 CPU TIME= 1.59185E-01 SECONDS.  DT= 3.34364E-03
  
 TEC1=    4.73999999999992     
 TEC2=    4.74499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6306897222216     
  %check_save_state: izleft hours =    67.3608333333333     
 --> plasma_hash("gframe"): TA= 4.740000E+00 NSTEP=  4505 Hash code:  106859346
 ->PRGCHK: bdy curvature ratio at t= 4.7450E+00 seconds is:  5.6346E-02
% MHDEQ: TG1=     4.740000 ; TG2=     4.745000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1010E-03 SECONDS
   DATA R*BT AT EDGE:  2.7678E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6346E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.740000 TO TG2=    4.745000 @ NSTEP     4505
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530710703419D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   8.000002708286047E-006
 EC call, timestep(sec):  4.7450E+00  4.7500E+00 total power(Watts):  2.4099E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.74500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136067E+03   -0.386474E+02    0.390840E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136969E+03   -0.364222E+02    0.392790E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136442E+03   -0.379968E+02    0.375860E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135870E+03   -0.402886E+02    0.380530E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135683E+03   -0.402684E+02    0.399925E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.378814E+02    0.407313E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136696E+03   -0.359137E+02    0.418506E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.346116E+02    0.405574E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137399E+03   -0.344816E+02    0.388572E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136967E+03   -0.355083E+02    0.371894E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136552E+03   -0.372769E+02    0.360621E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136194E+03   -0.393595E+02    0.357739E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135530E+03   -0.414198E+02    0.363157E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.426881E+02    0.376550E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135083E+03   -0.428281E+02    0.394103E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135245E+03   -0.418480E+02    0.410837E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.400204E+02    0.422087E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.378219E+02    0.424901E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136484E+03   -0.358652E+02    0.447304E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137572E+03   -0.328589E+02    0.431027E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137940E+03   -0.315439E+02    0.404037E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138082E+03   -0.319702E+02    0.374731E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137748E+03   -0.341324E+02    0.349531E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.376985E+02    0.333873E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135640E+03   -0.415480E+02    0.333904E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.447525E+02    0.349619E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133733E+03   -0.465498E+02    0.376307E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.461018E+02    0.407800E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134582E+03   -0.432999E+02    0.435693E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135615E+03   -0.395714E+02    0.449641E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136415E+03   -0.395704E+02    0.307109E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.375371E+02    0.308692E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.390081E+02    0.291926E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.413167E+02    0.295903E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.413114E+02    0.314933E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.389171E+02    0.322946E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136910E+03   -0.368468E+02    0.335011E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.357203E+02    0.321809E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137260E+03   -0.355753E+02    0.305042E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137134E+03   -0.365013E+02    0.288608E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.382726E+02    0.276817E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136254E+03   -0.404701E+02    0.272772E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135809E+03   -0.424396E+02    0.278192E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.437240E+02    0.291137E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135254E+03   -0.438786E+02    0.308433E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.429092E+02    0.325004E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135880E+03   -0.409745E+02    0.337044E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.387693E+02    0.340579E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136815E+03   -0.367209E+02    0.363705E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.338771E+02    0.347820E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138149E+03   -0.324413E+02    0.322373E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138190E+03   -0.329384E+02    0.292605E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137774E+03   -0.351958E+02    0.266097E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.387797E+02    0.249466E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.426544E+02    0.248536E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134853E+03   -0.458900E+02    0.263136E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133808E+03   -0.477149E+02    0.288823E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133899E+03   -0.470593E+02    0.320699E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.442759E+02    0.348901E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.405460E+02    0.364122E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.385333E+02    0.446018E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.365087E+02    0.446502E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136080E+03   -0.379935E+02    0.430104E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.402869E+02    0.435525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135370E+03   -0.402573E+02    0.455226E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.378634E+02    0.461821E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.358878E+02    0.472292E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137065E+03   -0.345907E+02    0.459083E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136850E+03   -0.345639E+02    0.441749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137059E+03   -0.353087E+02    0.426230E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136386E+03   -0.371803E+02    0.414678E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135792E+03   -0.393692E+02    0.411733E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135352E+03   -0.413218E+02    0.418311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.426942E+02    0.432150E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134304E+03   -0.430501E+02    0.449533E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.418348E+02    0.466515E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135378E+03   -0.399990E+02    0.477038E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135755E+03   -0.378995E+02    0.478863E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136093E+03   -0.359246E+02    0.501021E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137379E+03   -0.328263E+02    0.483679E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.315228E+02    0.456823E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.319617E+02    0.427335E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.342335E+02    0.401541E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.376158E+02    0.387626E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.414661E+02    0.388568E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134037E+03   -0.448964E+02    0.404492E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133344E+03   -0.465668E+02    0.433250E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133208E+03   -0.461009E+02    0.465183E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133923E+03   -0.435057E+02    0.491256E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135220E+03   -0.396402E+02    0.504543E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136414E+03   -0.398509E+02    0.246603E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137043E+03   -0.377119E+02    0.249232E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.392778E+02    0.231725E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.415965E+02    0.235276E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.414959E+02    0.254721E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.391016E+02    0.263193E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.370326E+02    0.275733E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137731E+03   -0.357066E+02    0.264093E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137684E+03   -0.356488E+02    0.246661E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137600E+03   -0.365680E+02    0.230354E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.385306E+02    0.217038E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.407330E+02    0.212782E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.427115E+02    0.217817E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135443E+03   -0.440069E+02    0.230189E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.440629E+02    0.247834E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.429918E+02    0.265162E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136010E+03   -0.411704E+02    0.276952E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.389629E+02    0.280935E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.368239E+02    0.304960E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137983E+03   -0.338753E+02    0.290443E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138286E+03   -0.326068E+02    0.263883E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138195E+03   -0.331818E+02    0.233356E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137847E+03   -0.354357E+02    0.207039E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137132E+03   -0.389257E+02    0.190965E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135756E+03   -0.430097E+02    0.188023E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134964E+03   -0.461576E+02    0.202668E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134093E+03   -0.478807E+02    0.227757E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134104E+03   -0.472462E+02    0.259179E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135160E+03   -0.443696E+02    0.288586E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136033E+03   -0.406500E+02    0.304486E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    673730.871002279     
  ps_ts2 prof sum =   673309.853009521     
  trcom prof sum =    673309.853009522     
  ps_ts2 cur sum  =   9177.05040381204     
  trcom cur sum  =    9177.05040381204     
  
  antenna # iant =            2
  powecha_use(iant) =    664666.248527105     
  ps_ts2 prof sum =   664303.380351444     
  trcom prof sum =    664303.380351444     
  ps_ts2 cur sum  =   11322.5090084167     
  trcom cur sum  =    11322.5090084167     
  
  antenna # iant =            3
  powecha_use(iant) =    517821.119961230     
  ps_ts2 prof sum =   517512.871834569     
  trcom prof sum =    517512.871834570     
  ps_ts2 cur sum  =   5954.81367785875     
  trcom cur sum  =    5954.81367785876     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553655.578575087     
  ps_ts2 prof sum =   553349.309193285     
  trcom prof sum =    553349.309193285     
  ps_ts2 cur sum  =   10632.2042691779     
  trcom cur sum  =    10632.2042691779     
  
  Total ECH heating:      2408475.41438882     
  Total Current Drive:    37086.5773592654     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4507
 TA= 4.74500E+00 CPU TIME= 1.59296E-01 SECONDS.  DT= 2.07045E-03
  
 TEC1=    4.74499999999992     
 TEC2=    4.74999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6468824999999     
  %check_save_state: izleft hours =    67.3447222222222     
 --> plasma_hash("gframe"): TA= 4.745000E+00 NSTEP=  4507 Hash code:  118035480
 ->PRGCHK: bdy curvature ratio at t= 4.7500E+00 seconds is:  5.6345E-02
% MHDEQ: TG1=     4.745000 ; TG2=     4.750000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1960E-03 SECONDS
   DATA R*BT AT EDGE:  2.7693E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6345E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.745000 TO TG2=    4.750000 @ NSTEP     4507
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533965167526D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.70525E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.15175E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34227E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.28952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.09517E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       5=  1.17977E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.32753E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.58727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.98973E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.05070E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.29915E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.75400E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      11=  3.00368E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -4.65808E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.31590E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.09478E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.57851E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.57851E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7500E+00  4.7550E+00 total power(Watts):  2.4103E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.75000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.385389E+02    0.391480E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.365180E+02    0.392486E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.379934E+02    0.376039E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.402848E+02    0.380711E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135919E+03   -0.401566E+02    0.400539E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136331E+03   -0.378769E+02    0.407486E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136711E+03   -0.359090E+02    0.418682E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.347040E+02    0.405293E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137188E+03   -0.345734E+02    0.388250E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137430E+03   -0.353104E+02    0.373113E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.371733E+02    0.361347E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136208E+03   -0.393559E+02    0.357939E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135764E+03   -0.413078E+02    0.363863E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.425726E+02    0.377217E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135098E+03   -0.428235E+02    0.394289E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135260E+03   -0.418429E+02    0.411024E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.400151E+02    0.422277E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.378168E+02    0.425089E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.358600E+02    0.447464E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137372E+03   -0.329421E+02    0.430823E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138184E+03   -0.314507E+02    0.404665E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138097E+03   -0.319669E+02    0.374899E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.341300E+02    0.349720E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136671E+03   -0.376965E+02    0.334078E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135872E+03   -0.414375E+02    0.334694E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134490E+03   -0.448642E+02    0.349324E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133747E+03   -0.465456E+02    0.376517E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133750E+03   -0.459789E+02    0.408390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134377E+03   -0.434073E+02    0.435556E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.395651E+02    0.449817E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.395686E+02    0.307375E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.375356E+02    0.308949E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136633E+03   -0.390069E+02    0.292229E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136072E+03   -0.413151E+02    0.296198E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136030E+03   -0.412026E+02    0.315790E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136607E+03   -0.388126E+02    0.323780E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.368447E+02    0.335220E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.355257E+02    0.323276E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.353825E+02    0.306608E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137585E+03   -0.363073E+02    0.290259E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136799E+03   -0.382725E+02    0.277159E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136479E+03   -0.403653E+02    0.273819E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.424387E+02    0.278557E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.437224E+02    0.291458E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.438768E+02    0.308715E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135575E+03   -0.427966E+02    0.325821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135894E+03   -0.409720E+02    0.337264E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.387665E+02    0.340798E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.367177E+02    0.363891E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.336884E+02    0.349170E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138168E+03   -0.324376E+02    0.322600E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.329384E+02    0.292874E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137562E+03   -0.352892E+02    0.265728E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136798E+03   -0.387792E+02    0.249884E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135827E+03   -0.426546E+02    0.248976E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134860E+03   -0.458895E+02    0.263564E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134030E+03   -0.475965E+02    0.289780E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.470530E+02    0.320973E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.441600E+02    0.349635E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.404357E+02    0.364825E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.59 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135976E+03   -0.385274E+02    0.446198E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136441E+03   -0.365033E+02    0.446664E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.379882E+02    0.430293E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.402812E+02    0.435718E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135386E+03   -0.402507E+02    0.455400E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.378570E+02    0.461973E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136470E+03   -0.358822E+02    0.472424E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136852E+03   -0.346822E+02    0.458908E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137321E+03   -0.343661E+02    0.442643E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.354017E+02    0.426011E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.371761E+02    0.414852E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.392587E+02    0.412331E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.413158E+02    0.418500E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135010E+03   -0.425760E+02    0.432700E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134761E+03   -0.428172E+02    0.450350E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.418279E+02    0.466676E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.399919E+02    0.477189E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135997E+03   -0.377892E+02    0.479266E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.358178E+02    0.501372E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137395E+03   -0.328201E+02    0.483822E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137918E+03   -0.314282E+02    0.457294E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137984E+03   -0.318664E+02    0.427917E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137586E+03   -0.340395E+02    0.402627E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136439E+03   -0.376117E+02    0.387805E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.413528E+02    0.389202E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134488E+03   -0.446604E+02    0.405486E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133359E+03   -0.465606E+02    0.433464E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133224E+03   -0.460936E+02    0.465363E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133952E+03   -0.434911E+02    0.491433E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.395251E+02    0.504879E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136636E+03   -0.397496E+02    0.247755E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137048E+03   -0.377123E+02    0.249646E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.392792E+02    0.232166E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136316E+03   -0.414937E+02    0.236449E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136222E+03   -0.413906E+02    0.255847E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.390000E+02    0.264296E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.368367E+02    0.277470E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137738E+03   -0.357063E+02    0.264468E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137909E+03   -0.355552E+02    0.247816E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137387E+03   -0.366640E+02    0.230002E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137290E+03   -0.383367E+02    0.219034E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.406336E+02    0.214012E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.427136E+02    0.218294E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135661E+03   -0.438997E+02    0.231384E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135489E+03   -0.440635E+02    0.248279E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135743E+03   -0.429912E+02    0.265563E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136235E+03   -0.410639E+02    0.277981E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136764E+03   -0.388606E+02    0.281942E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.368224E+02    0.305220E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137772E+03   -0.339672E+02    0.290029E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138516E+03   -0.325192E+02    0.264985E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138421E+03   -0.330947E+02    0.234551E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138070E+03   -0.353472E+02    0.208289E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136920E+03   -0.390275E+02    0.190636E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135956E+03   -0.429155E+02    0.189275E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134968E+03   -0.461612E+02    0.203183E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.476607E+02    0.229607E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.470159E+02    0.260946E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135384E+03   -0.442564E+02    0.289562E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.405426E+02    0.305387E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    672267.684671343     
  ps_ts2 prof sum =   671913.066839609     
  trcom prof sum =    671913.066839610     
  ps_ts2 cur sum  =   9162.06615713976     
  trcom cur sum  =    9162.06615713976     
  
  antenna # iant =            2
  powecha_use(iant) =    666705.302963346     
  ps_ts2 prof sum =   666323.487438249     
  trcom prof sum =    666323.487438248     
  ps_ts2 cur sum  =   11370.1279442541     
  trcom cur sum  =    11370.1279442541     
  
  antenna # iant =            3
  powecha_use(iant) =    517614.866260377     
  ps_ts2 prof sum =   517292.190786218     
  trcom prof sum =    517292.190786218     
  ps_ts2 cur sum  =   5951.52433799916     
  trcom cur sum  =    5951.52433799917     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553679.668538977     
  ps_ts2 prof sum =   553348.361468646     
  trcom prof sum =    553348.361468646     
  ps_ts2 cur sum  =   10645.3882610075     
  trcom cur sum  =    10645.3882610075     
  
  Total ECH heating:      2408877.10653272     
  Total Current Drive:    37129.1067004006     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4510
 TA= 4.75000E+00 CPU TIME= 1.59151E-01 SECONDS.  DT= 4.26846E-04
  
 TEC1=    4.74999999999992     
 TEC2=    4.75499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6603069444443     
  %check_save_state: izleft hours =    67.3313888888889     
 --> plasma_hash("gframe"): TA= 4.750000E+00 NSTEP=  4510 Hash code:   72029948
 ->PRGCHK: bdy curvature ratio at t= 4.7550E+00 seconds is:  5.6348E-02
% MHDEQ: TG1=     4.750000 ; TG2=     4.755000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4630E-03 SECONDS
   DATA R*BT AT EDGE:  2.7708E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6348E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.750000 TO TG2=    4.755000 @ NSTEP     4510
   GFRAME TG2 MOMENTS CHECKSUM:  2.4537219631633D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7550E+00  4.7600E+00 total power(Watts):  2.4110E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.75500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136320E+03   -0.385353E+02    0.391633E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.365135E+02    0.392641E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136693E+03   -0.378864E+02    0.376705E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.402779E+02    0.380888E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135935E+03   -0.401516E+02    0.400697E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136346E+03   -0.378719E+02    0.407643E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137178E+03   -0.357061E+02    0.419663E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137145E+03   -0.346991E+02    0.405442E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137655E+03   -0.343780E+02    0.389377E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137221E+03   -0.354046E+02    0.372753E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136802E+03   -0.371694E+02    0.361522E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.392474E+02    0.358649E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135778E+03   -0.413033E+02    0.364049E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.425685E+02    0.377387E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.427064E+02    0.394890E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135496E+03   -0.417268E+02    0.411592E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135877E+03   -0.399023E+02    0.422831E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136465E+03   -0.377084E+02    0.425642E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136742E+03   -0.357551E+02    0.447956E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137827E+03   -0.327579E+02    0.431751E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138199E+03   -0.314467E+02    0.404810E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138339E+03   -0.318735E+02    0.375584E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137552E+03   -0.342209E+02    0.349326E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136905E+03   -0.375925E+02    0.334868E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135884E+03   -0.414337E+02    0.334918E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.446314E+02    0.350561E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133978E+03   -0.464229E+02    0.377153E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133765E+03   -0.459732E+02    0.408562E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.431737E+02    0.436418E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135869E+03   -0.394520E+02    0.450296E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136657E+03   -0.394624E+02    0.308256E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137084E+03   -0.374333E+02    0.309826E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.390048E+02    0.292527E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136082E+03   -0.413125E+02    0.296492E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.411999E+02    0.316029E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.388097E+02    0.323998E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.366432E+02    0.336594E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137385E+03   -0.356195E+02    0.322868E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137505E+03   -0.354760E+02    0.306194E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.364011E+02    0.289875E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.381707E+02    0.278180E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136487E+03   -0.403638E+02    0.274178E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.423287E+02    0.279561E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.436094E+02    0.292406E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135494E+03   -0.437626E+02    0.309571E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135587E+03   -0.427929E+02    0.326053E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.408609E+02    0.338045E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136676E+03   -0.386601E+02    0.341558E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137289E+03   -0.365145E+02    0.365126E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137953E+03   -0.336855E+02    0.349347E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138388E+03   -0.323502E+02    0.323415E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138434E+03   -0.328475E+02    0.293840E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138009E+03   -0.351001E+02    0.267526E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137022E+03   -0.386783E+02    0.251008E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.425472E+02    0.250096E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135079E+03   -0.457745E+02    0.264641E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.475938E+02    0.290121E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134130E+03   -0.469402E+02    0.321759E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135078E+03   -0.441558E+02    0.349843E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136012E+03   -0.404313E+02    0.365005E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135991E+03   -0.385209E+02    0.446361E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.364974E+02    0.446819E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136334E+03   -0.378793E+02    0.430836E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.401673E+02    0.436241E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.401352E+02    0.455871E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136064E+03   -0.378495E+02    0.462128E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136486E+03   -0.358750E+02    0.472556E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136868E+03   -0.346761E+02    0.459042E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137337E+03   -0.343606E+02    0.442794E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.353965E+02    0.426174E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136640E+03   -0.370685E+02    0.415435E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136044E+03   -0.392534E+02    0.412493E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135605E+03   -0.412006E+02    0.419050E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135025E+03   -0.425696E+02    0.432880E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.429232E+02    0.450211E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134990E+03   -0.418208E+02    0.466821E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135410E+03   -0.399847E+02    0.477327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136013E+03   -0.377823E+02    0.479399E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136354E+03   -0.358104E+02    0.501516E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137181E+03   -0.329068E+02    0.483681E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137934E+03   -0.314225E+02    0.457422E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138000E+03   -0.318617E+02    0.428069E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137374E+03   -0.341300E+02    0.402318E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136677E+03   -0.375056E+02    0.388436E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.413479E+02    0.389372E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134285E+03   -0.447702E+02    0.405263E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133384E+03   -0.465489E+02    0.433664E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133458E+03   -0.459677E+02    0.465775E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134394E+03   -0.432633E+02    0.491978E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.395170E+02    0.505032E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.397447E+02    0.248187E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137491E+03   -0.375156E+02    0.251499E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136883E+03   -0.391793E+02    0.233332E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.414931E+02    0.236883E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136228E+03   -0.413899E+02    0.256247E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136771E+03   -0.389988E+02    0.264664E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.369331E+02    0.277099E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137526E+03   -0.357999E+02    0.264092E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137915E+03   -0.355546E+02    0.248197E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137829E+03   -0.364743E+02    0.231951E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137078E+03   -0.384352E+02    0.218692E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136555E+03   -0.406346E+02    0.214472E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.136106E+03   -0.426089E+02    0.219497E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.439002E+02    0.231831E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135708E+03   -0.439530E+02    0.249405E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.428814E+02    0.266631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136244E+03   -0.410619E+02    0.278327E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136773E+03   -0.388588E+02    0.282265E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137533E+03   -0.366235E+02    0.306769E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.138226E+03   -0.337824E+02    0.291694E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138523E+03   -0.325182E+02    0.265333E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138427E+03   -0.330948E+02    0.234932E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138074E+03   -0.353486E+02    0.208722E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.390295E+02    0.191122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.429162E+02    0.189807E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.135182E+03   -0.460519E+02    0.204440E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134310E+03   -0.477689E+02    0.229436E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134328E+03   -0.471291E+02    0.260723E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.442539E+02    0.289885E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136274E+03   -0.405401E+02    0.305652E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.16 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670655.543014421     
  ps_ts2 prof sum =   670255.585427780     
  trcom prof sum =    670255.585427780     
  ps_ts2 cur sum  =   9140.10103562182     
  trcom cur sum  =    9140.10103562182     
  
  antenna # iant =            2
  powecha_use(iant) =    666167.712065210     
  ps_ts2 prof sum =   665763.300314139     
  trcom prof sum =    665763.300314139     
  ps_ts2 cur sum  =   11369.2431182070     
  trcom cur sum  =    11369.2431182070     
  
  antenna # iant =            3
  powecha_use(iant) =    520047.601974863     
  ps_ts2 prof sum =   519767.552371821     
  trcom prof sum =    519767.552371822     
  ps_ts2 cur sum  =   5977.23822543357     
  trcom cur sum  =    5977.23822543358     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554132.495697661     
  ps_ts2 prof sum =   553824.844882657     
  trcom prof sum =    553824.844882657     
  ps_ts2 cur sum  =   10663.8159513633     
  trcom cur sum  =    10663.8159513633     
  
  Total ECH heating:      2409611.28299640     
  Total Current Drive:    37150.3983306257     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4517
 TA= 4.75500E+00 CPU TIME= 1.59223E-01 SECONDS.  DT= 2.42793E-04
  
 TEC1=    4.75499999999992     
 TEC2=    4.75999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6726622222222     
  %check_save_state: izleft hours =    67.3188888888889     
 --> plasma_hash("gframe"): TA= 4.755000E+00 NSTEP=  4517 Hash code:   50198040
 ->PRGCHK: bdy curvature ratio at t= 4.7600E+00 seconds is:  5.6338E-02
% MHDEQ: TG1=     4.755000 ; TG2=     4.760000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3740E-03 SECONDS
   DATA R*BT AT EDGE:  2.7692E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6338E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.755000 TO TG2=    4.760000 @ NSTEP     4517
   GFRAME TG2 MOMENTS CHECKSUM:  2.4535929294738D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.72371E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.13682E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.45012E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.25294E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  3.10324E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -7.29818E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.28755E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.61952E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -4.46309E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.09588E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.26573E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.77630E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -1.36565E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       9= -5.26446E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.26566E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.10210E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.38089E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.38089E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.7600E+00  4.7650E+00 total power(Watts):  2.4062E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.76000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136300E+03   -0.385263E+02    0.391512E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136767E+03   -0.365011E+02    0.392528E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136463E+03   -0.379762E+02    0.376092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.402626E+02    0.380775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.402449E+02    0.400153E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136338E+03   -0.378585E+02    0.407538E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136719E+03   -0.358909E+02    0.418731E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137138E+03   -0.346865E+02    0.405335E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137196E+03   -0.345569E+02    0.388295E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.352953E+02    0.373164E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.371571E+02    0.361421E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136214E+03   -0.393401E+02    0.358014E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.412900E+02    0.363941E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135389E+03   -0.425547E+02    0.377273E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135104E+03   -0.428040E+02    0.394339E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.418225E+02    0.411077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135646E+03   -0.399951E+02    0.422333E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136233E+03   -0.377974E+02    0.425142E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136508E+03   -0.358397E+02    0.447493E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137596E+03   -0.328368E+02    0.431242E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138193E+03   -0.314350E+02    0.404707E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138105E+03   -0.319524E+02    0.374950E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137768E+03   -0.341156E+02    0.349810E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136675E+03   -0.376814E+02    0.334205E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135875E+03   -0.414211E+02    0.334831E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.448460E+02    0.349434E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133752E+03   -0.465257E+02    0.376587E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133755E+03   -0.459574E+02    0.408442E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134383E+03   -0.433848E+02    0.435615E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.395436E+02    0.449845E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136428E+03   -0.395543E+02    0.307591E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.375217E+02    0.309150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136631E+03   -0.389934E+02    0.292509E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.413009E+02    0.296477E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136031E+03   -0.411874E+02    0.315974E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136610E+03   -0.387977E+02    0.323929E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136929E+03   -0.368300E+02    0.335333E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137598E+03   -0.355121E+02    0.323423E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137717E+03   -0.353699E+02    0.306801E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137583E+03   -0.362940E+02    0.290547E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.382597E+02    0.277512E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136256E+03   -0.404566E+02    0.273529E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.424249E+02    0.278927E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.437079E+02    0.291780E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135266E+03   -0.438612E+02    0.308941E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135576E+03   -0.427800E+02    0.325989E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.409556E+02    0.337395E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.387508E+02    0.340912E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136836E+03   -0.367023E+02    0.363951E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137945E+03   -0.336743E+02    0.349254E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138162E+03   -0.324287E+02    0.322717E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138201E+03   -0.329269E+02    0.293131E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137556E+03   -0.352790E+02    0.266110E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136790E+03   -0.387690E+02    0.250342E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135817E+03   -0.426430E+02    0.249467E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134850E+03   -0.458756E+02    0.264040E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134238E+03   -0.474637E+02    0.290721E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.470405E+02    0.321155E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.443689E+02    0.348708E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.404181E+02    0.364899E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.89 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.385062E+02    0.446234E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136449E+03   -0.364828E+02    0.446705E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136102E+03   -0.379685E+02    0.430346E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.402599E+02    0.435775E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.402290E+02    0.455411E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.378347E+02    0.461992E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.358605E+02    0.472421E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136862E+03   -0.346619E+02    0.458913E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136875E+03   -0.345395E+02    0.441958E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136856E+03   -0.353833E+02    0.426063E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.371563E+02    0.414916E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136037E+03   -0.392393E+02    0.412374E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135375E+03   -0.412955E+02    0.418549E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.425540E+02    0.432764E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.427954E+02    0.450357E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134982E+03   -0.418047E+02    0.466678E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135403E+03   -0.399687E+02    0.477184E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136007E+03   -0.377668E+02    0.479261E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136348E+03   -0.357952E+02    0.501375E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137407E+03   -0.327996E+02    0.483819E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137929E+03   -0.314098E+02    0.457298E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137994E+03   -0.318495E+02    0.427962E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137595E+03   -0.340230E+02    0.402666E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.375944E+02    0.387851E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135634E+03   -0.413338E+02    0.389252E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134493E+03   -0.446395E+02    0.405540E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133377E+03   -0.465307E+02    0.433540E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133230E+03   -0.460684E+02    0.465378E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133944E+03   -0.434728E+02    0.491429E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135246E+03   -0.396075E+02    0.504701E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.14 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136627E+03   -0.397391E+02    0.248228E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.377018E+02    0.250094E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136650E+03   -0.392694E+02    0.232666E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136304E+03   -0.414839E+02    0.236962E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.136212E+03   -0.413789E+02    0.256310E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136757E+03   -0.389889E+02    0.264701E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137462E+03   -0.368273E+02    0.277794E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137733E+03   -0.356961E+02    0.264855E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137901E+03   -0.355453E+02    0.248255E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137377E+03   -0.366552E+02    0.230493E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.383288E+02    0.219550E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.406259E+02    0.214566E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135874E+03   -0.427048E+02    0.218851E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.438897E+02    0.231936E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.440512E+02    0.248792E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.429782E+02    0.266005E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.410505E+02    0.278346E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136760E+03   -0.388476E+02    0.282276E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137081E+03   -0.368090E+02    0.305434E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137993E+03   -0.338638E+02    0.290991E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138289E+03   -0.325971E+02    0.264610E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138412E+03   -0.330863E+02    0.234995E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.138057E+03   -0.353406E+02    0.208806E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136904E+03   -0.390219E+02    0.191224E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135932E+03   -0.429135E+02    0.189883E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.461534E+02    0.203815E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134502E+03   -0.476432E+02    0.230237E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134523E+03   -0.470018E+02    0.261441E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.442417E+02    0.289877E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136263E+03   -0.405287E+02    0.305612E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    667862.916258123     
  ps_ts2 prof sum =   667493.116168747     
  trcom prof sum =    667493.116168748     
  ps_ts2 cur sum  =   9087.53714909798     
  trcom cur sum  =    9087.53714909799     
  
  antenna # iant =            2
  powecha_use(iant) =    667149.958055009     
  ps_ts2 prof sum =   666767.200999915     
  trcom prof sum =    666767.200999914     
  ps_ts2 cur sum  =   11367.8090905330     
  trcom cur sum  =    11367.8090905330     
  
  antenna # iant =            3
  powecha_use(iant) =    518183.188169130     
  ps_ts2 prof sum =   517865.351431020     
  trcom prof sum =    517865.351431020     
  ps_ts2 cur sum  =   5944.76710755528     
  trcom cur sum  =    5944.76710755529     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553045.546989598     
  ps_ts2 prof sum =   552711.215513350     
  trcom prof sum =    552711.215513349     
  ps_ts2 cur sum  =   10623.1811300903     
  trcom cur sum  =    10623.1811300903     
  
  Total ECH heating:      2404836.88411303     
  Total Current Drive:    37023.2944772765     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4526
 TA= 4.76000E+00 CPU TIME= 1.57834E-01 SECONDS.  DT= 2.28163E-04
  
 TEC1=    4.75999999999992     
 TEC2=    4.76499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6859602777774     
  %check_save_state: izleft hours =    67.3055555555556     
 --> plasma_hash("gframe"): TA= 4.760000E+00 NSTEP=  4526 Hash code:    9477869
 ->PRGCHK: bdy curvature ratio at t= 4.7650E+00 seconds is:  5.6330E-02
% MHDEQ: TG1=     4.760000 ; TG2=     4.765000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7676E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6330E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.760000 TO TG2=    4.765000 @ NSTEP     4526
   GFRAME TG2 MOMENTS CHECKSUM:  2.4534638957843D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7650E+00  4.7700E+00 total power(Watts):  2.3987E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.76500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136074E+03   -0.386165E+02    0.390930E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.365894E+02    0.391937E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136456E+03   -0.379647E+02    0.375970E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135898E+03   -0.402488E+02    0.380661E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135698E+03   -0.402324E+02    0.400025E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136332E+03   -0.378463E+02    0.407418E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136713E+03   -0.358789E+02    0.418613E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.345792E+02    0.405669E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137416E+03   -0.344505E+02    0.388666E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136983E+03   -0.354787E+02    0.372011E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.372470E+02    0.360767E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136206E+03   -0.393286E+02    0.357898E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.413868E+02    0.363311E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135162E+03   -0.426532E+02    0.376678E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.427910E+02    0.394209E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135259E+03   -0.418092E+02    0.410955E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135639E+03   -0.399820E+02    0.422210E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136227E+03   -0.377850E+02    0.425021E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.358267E+02    0.447381E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137593E+03   -0.328244E+02    0.431133E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137959E+03   -0.315138E+02    0.404127E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138099E+03   -0.319427E+02    0.374831E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137762E+03   -0.341055E+02    0.349698E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136667E+03   -0.376707E+02    0.334104E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.415175E+02    0.334164E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134701E+03   -0.447193E+02    0.349825E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133743E+03   -0.465121E+02    0.376454E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133529E+03   -0.460604E+02    0.407927E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134596E+03   -0.432573E+02    0.435823E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135632E+03   -0.395300E+02    0.449714E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136418E+03   -0.395435E+02    0.307533E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136844E+03   -0.375113E+02    0.309091E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.389827E+02    0.292487E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.412899E+02    0.296444E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135803E+03   -0.412831E+02    0.315302E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.388896E+02    0.323244E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136921E+03   -0.368194E+02    0.335231E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137146E+03   -0.356944E+02    0.322109E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137264E+03   -0.355508E+02    0.305447E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137131E+03   -0.364776E+02    0.289179E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.382495E+02    0.277516E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.404459E+02    0.273538E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.424138E+02    0.278930E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.436965E+02    0.291754E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135255E+03   -0.438495E+02    0.308880E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135350E+03   -0.428785E+02    0.325326E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135889E+03   -0.409441E+02    0.337285E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136438E+03   -0.387398E+02    0.340797E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136829E+03   -0.366914E+02    0.363831E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137714E+03   -0.337577E+02    0.348573E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138160E+03   -0.324173E+02    0.322650E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138191E+03   -0.329178E+02    0.293108E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137764E+03   -0.351761E+02    0.266853E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136775E+03   -0.387594E+02    0.250396E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.426326E+02    0.249531E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134834E+03   -0.458641E+02    0.264081E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133799E+03   -0.476849E+02    0.289510E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133905E+03   -0.470253E+02    0.321070E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134842E+03   -0.442431E+02    0.349111E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135776E+03   -0.405134E+02    0.364269E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.385978E+02    0.445769E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136443E+03   -0.364698E+02    0.446586E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136096E+03   -0.379553E+02    0.430230E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.402464E+02    0.435650E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.402149E+02    0.455280E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.379255E+02    0.461549E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136246E+03   -0.359466E+02    0.472013E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136629E+03   -0.347460E+02    0.458470E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136869E+03   -0.345279E+02    0.441830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136623E+03   -0.354694E+02    0.425550E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136402E+03   -0.371439E+02    0.414794E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135807E+03   -0.393321E+02    0.411851E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.412823E+02    0.418430E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134788E+03   -0.426520E+02    0.432291E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.430060E+02    0.449619E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134753E+03   -0.419009E+02    0.466276E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.399544E+02    0.477049E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.378561E+02    0.478875E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136114E+03   -0.358805E+02    0.501045E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137403E+03   -0.327876E+02    0.483683E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137693E+03   -0.314875E+02    0.456849E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137759E+03   -0.319292E+02    0.427442E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137135E+03   -0.342015E+02    0.401631E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136440E+03   -0.375831E+02    0.387723E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135407E+03   -0.414305E+02    0.388672E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134049E+03   -0.448563E+02    0.404613E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133137E+03   -0.466398E+02    0.433088E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133222E+03   -0.460524E+02    0.465234E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134160E+03   -0.433423E+02    0.491490E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135240E+03   -0.395925E+02    0.504565E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136395E+03   -0.398312E+02    0.247568E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.376929E+02    0.250143E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136635E+03   -0.392608E+02    0.232736E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.415785E+02    0.236314E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.414735E+02    0.255659E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136526E+03   -0.390793E+02    0.264028E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137018E+03   -0.370106E+02    0.276427E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.356868E+02    0.264880E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137448E+03   -0.357243E+02    0.246807E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137580E+03   -0.365522E+02    0.231321E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136828E+03   -0.385161E+02    0.218084E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136305E+03   -0.407183E+02    0.213892E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.426957E+02    0.218934E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.439882E+02    0.231296E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.440406E+02    0.248856E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135720E+03   -0.429672E+02    0.266036E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.411450E+02    0.277688E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.389385E+02    0.281602E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.137292E+03   -0.367006E+02    0.306027E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137982E+03   -0.338542E+02    0.290968E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138277E+03   -0.325888E+02    0.264640E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138177E+03   -0.331663E+02    0.234266E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137823E+03   -0.354245E+02    0.208069E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.137104E+03   -0.389175E+02    0.192092E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135923E+03   -0.429018E+02    0.189986E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.461442E+02    0.203918E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.478610E+02    0.228958E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134083E+03   -0.472196E+02    0.260195E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135153E+03   -0.443417E+02    0.289241E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.406226E+02    0.304935E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.94 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    662139.900703198     
  ps_ts2 prof sum =   661726.689627753     
  trcom prof sum =    661726.689627753     
  ps_ts2 cur sum  =   8995.23205619726     
  trcom cur sum  =    8995.23205619726     
  
  antenna # iant =            2
  powecha_use(iant) =    667826.414313955     
  ps_ts2 prof sum =   667450.112416796     
  trcom prof sum =    667450.112416795     
  ps_ts2 cur sum  =   11361.6077894789     
  trcom cur sum  =    11361.6077894789     
  
  antenna # iant =            3
  powecha_use(iant) =    516366.435229205     
  ps_ts2 prof sum =   516084.322156199     
  trcom prof sum =    516084.322156199     
  ps_ts2 cur sum  =   5915.33088181596     
  trcom cur sum  =    5915.33088181596     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552354.323453205     
  ps_ts2 prof sum =   552052.567945950     
  trcom prof sum =    552052.567945950     
  ps_ts2 cur sum  =   10587.4320028809     
  trcom cur sum  =    10587.4320028809     
  
  Total ECH heating:      2397313.69214670     
  Total Current Drive:    36859.6027303731     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4535
 TA= 4.76500E+00 CPU TIME= 1.64383E-01 SECONDS.  DT= 5.91035E-04
  
 TEC1=    4.76499999999992     
 TEC2=    4.76999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.6996063888885     
  %check_save_state: izleft hours =    67.2916666666667     
 --> plasma_hash("gframe"): TA= 4.765000E+00 NSTEP=  4535 Hash code:   97724547
 ->PRGCHK: bdy curvature ratio at t= 4.7700E+00 seconds is:  5.6325E-02
% MHDEQ: TG1=     4.765000 ; TG2=     4.770000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2950E-03 SECONDS
   DATA R*BT AT EDGE:  2.7661E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6325E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.765000 TO TG2=    4.770000 @ NSTEP     4535
   GFRAME TG2 MOMENTS CHECKSUM:  2.4533348568936D+04
 %MFRCHK - LABEL "RMS11", #       1= -3.40250E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS12", #       1= -4.40765E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.16024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.34037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.37739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.99468E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -5.50772E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.62022E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -3.91654E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -5.34589E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.12975E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.45062E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.78385E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      18=  1.25223E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.35438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.59745E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.21356E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.45438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.45438E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7700E+00  4.7750E+00 total power(Watts):  2.4027E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.77000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136071E+03   -0.386019E+02    0.390798E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136530E+03   -0.365765E+02    0.391807E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136226E+03   -0.380539E+02    0.375353E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135655E+03   -0.403483E+02    0.380033E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135690E+03   -0.402184E+02    0.399896E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136101E+03   -0.379351E+02    0.406857E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136481E+03   -0.359646E+02    0.418070E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136900E+03   -0.347588E+02    0.404640E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136958E+03   -0.346294E+02    0.387563E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137200E+03   -0.353695E+02    0.372409E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136558E+03   -0.372347E+02    0.360648E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135978E+03   -0.394202E+02    0.357253E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135534E+03   -0.413733E+02    0.363187E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135154E+03   -0.426393E+02    0.376546E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134869E+03   -0.428883E+02    0.393640E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135030E+03   -0.419050E+02    0.410407E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135409E+03   -0.400747E+02    0.421685E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135996E+03   -0.378739E+02    0.424496E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136724E+03   -0.357147E+02    0.447577E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137133E+03   -0.329957E+02    0.430228E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137954E+03   -0.315028E+02    0.403996E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137867E+03   -0.320214E+02    0.374182E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137530E+03   -0.341882E+02    0.349027E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136437E+03   -0.377591E+02    0.333437E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135638E+03   -0.415041E+02    0.334076E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134258E+03   -0.449335E+02    0.348686E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133518E+03   -0.466145E+02    0.375863E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133521E+03   -0.460449E+02    0.407769E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134147E+03   -0.434680E+02    0.435008E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.396207E+02    0.449266E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.23 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.396348E+02    0.306864E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136613E+03   -0.375990E+02    0.308409E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136390E+03   -0.390731E+02    0.291811E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.413839E+02    0.295787E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.412704E+02    0.315240E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.388774E+02    0.323171E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136691E+03   -0.369065E+02    0.334559E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.355868E+02    0.322658E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.354444E+02    0.306057E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137341E+03   -0.363699E+02    0.289835E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136551E+03   -0.383381E+02    0.276825E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136230E+03   -0.404342E+02    0.273541E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.425095E+02    0.278273E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.437938E+02    0.291113E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135027E+03   -0.439476E+02    0.308239E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135339E+03   -0.428651E+02    0.325250E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135660E+03   -0.410378E+02    0.336635E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136209E+03   -0.388302E+02    0.340137E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136599E+03   -0.367784E+02    0.363190E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.337463E+02    0.348470E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138157E+03   -0.324048E+02    0.322596E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137958E+03   -0.329969E+02    0.292393E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137752E+03   -0.351659E+02    0.266850E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136544E+03   -0.388484E+02    0.249698E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135571E+03   -0.427277E+02    0.248864E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134606E+03   -0.459643E+02    0.263444E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133997E+03   -0.475542E+02    0.290096E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133684E+03   -0.471250E+02    0.320463E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.444556E+02    0.347961E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135768E+03   -0.404999E+02    0.364149E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.385835E+02    0.445625E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.365567E+02    0.446100E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136089E+03   -0.379415E+02    0.430092E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135295E+03   -0.403394E+02    0.435160E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135157E+03   -0.403076E+02    0.454829E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135820E+03   -0.379111E+02    0.461403E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136241E+03   -0.359325E+02    0.471870E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136624E+03   -0.347328E+02    0.458327E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137092E+03   -0.344185E+02    0.442061E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136617E+03   -0.354563E+02    0.425414E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136171E+03   -0.372323E+02    0.414243E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135800E+03   -0.393182E+02    0.411711E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135139E+03   -0.413772E+02    0.417898E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.426369E+02    0.432145E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134533E+03   -0.428778E+02    0.449771E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134746E+03   -0.418852E+02    0.466121E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135166E+03   -0.400462E+02    0.476652E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135769E+03   -0.378415E+02    0.478727E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136109E+03   -0.358654E+02    0.500903E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137167E+03   -0.328670E+02    0.483292E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137689E+03   -0.314751E+02    0.456715E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137755E+03   -0.319174E+02    0.427313E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137356E+03   -0.340947E+02    0.401962E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136210E+03   -0.376716E+02    0.387122E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135399E+03   -0.414166E+02    0.388534E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134259E+03   -0.447261E+02    0.404855E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133128E+03   -0.466233E+02    0.432935E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132994E+03   -0.461534E+02    0.464812E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134154E+03   -0.433248E+02    0.491336E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135234E+03   -0.395765E+02    0.504406E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.398202E+02    0.247590E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136794E+03   -0.377801E+02    0.249436E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136620E+03   -0.392508E+02    0.232780E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.415674E+02    0.236355E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.414620E+02    0.255681E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136513E+03   -0.390682E+02    0.264036E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.368998E+02    0.277121E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137268E+03   -0.358655E+02    0.263439E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137654E+03   -0.356211E+02    0.247577E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137129E+03   -0.367328E+02    0.229831E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136812E+03   -0.385060E+02    0.218142E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.407085E+02    0.213954E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135625E+03   -0.427906E+02    0.218264E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.439765E+02    0.231358E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135231E+03   -0.441378E+02    0.248208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135490E+03   -0.430633E+02    0.265382E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135987E+03   -0.411330E+02    0.277681E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136518E+03   -0.389269E+02    0.281591E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136840E+03   -0.368854E+02    0.304699E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137972E+03   -0.338437E+02    0.290948E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138265E+03   -0.325795E+02    0.264635E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138163E+03   -0.331572E+02    0.234309E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137808E+03   -0.354157E+02    0.208130E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136655E+03   -0.391026E+02    0.190566E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135700E+03   -0.429925E+02    0.189321E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.461334E+02    0.204004E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134247E+03   -0.477369E+02    0.229701E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134280E+03   -0.470920E+02    0.260859E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.443287E+02    0.289225E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.136023E+03   -0.406102E+02    0.304892E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.12 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    663405.977736391     
  ps_ts2 prof sum =   663042.639847487     
  trcom prof sum =    663042.639810308     
  ps_ts2 cur sum  =   8991.89289048412     
  trcom cur sum  =    8991.89289048412     
  
  antenna # iant =            2
  powecha_use(iant) =    666924.133205242     
  ps_ts2 prof sum =   666523.052779055     
  trcom prof sum =    666523.052779054     
  ps_ts2 cur sum  =   11321.7874906854     
  trcom cur sum  =    11321.7874906854     
  
  antenna # iant =            3
  powecha_use(iant) =    518816.293751223     
  ps_ts2 prof sum =   518483.344191448     
  trcom prof sum =    518483.344191448     
  ps_ts2 cur sum  =   5930.74441324472     
  trcom cur sum  =    5930.74441324472     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553513.249037491     
  ps_ts2 prof sum =   553186.235350174     
  trcom prof sum =    553186.235350174     
  ps_ts2 cur sum  =   10587.5745459732     
  trcom cur sum  =    10587.5745459732     
  
  Total ECH heating:      2401235.27213098     
  Total Current Drive:    36831.9993403874     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4541
 TA= 4.77000E+00 CPU TIME= 1.59327E-01 SECONDS.  DT= 1.86697E-04
  
 TEC1=    4.76999999999992     
 TEC2=    4.77499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7148033333333     
  %check_save_state: izleft hours =    67.2766666666667     
 --> plasma_hash("gframe"): TA= 4.770000E+00 NSTEP=  4541 Hash code:   79485917
 ->PRGCHK: bdy curvature ratio at t= 4.7750E+00 seconds is:  5.6322E-02
% MHDEQ: TG1=     4.770000 ; TG2=     4.775000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4580E-03 SECONDS
   DATA R*BT AT EDGE:  2.7645E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6322E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.770000 TO TG2=    4.775000 @ NSTEP     4541
   GFRAME TG2 MOMENTS CHECKSUM:  2.4532058180029D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7750E+00  4.7800E+00 total power(Watts):  2.4018E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.77500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135846E+03   -0.386922E+02    0.390229E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136524E+03   -0.365653E+02    0.391696E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136219E+03   -0.380428E+02    0.375241E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135648E+03   -0.403366E+02    0.379916E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135461E+03   -0.403132E+02    0.399343E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136095E+03   -0.379237E+02    0.406740E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136475E+03   -0.359528E+02    0.417964E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137120E+03   -0.346518E+02    0.404979E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136953E+03   -0.346187E+02    0.387452E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136745E+03   -0.355528E+02    0.371269E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136328E+03   -0.373238E+02    0.360017E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135970E+03   -0.394089E+02    0.357149E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.414700E+02    0.362572E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.427381E+02    0.375955E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134861E+03   -0.428758E+02    0.393518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135023E+03   -0.418921E+02    0.410290E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.400618E+02    0.421576E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135990E+03   -0.378615E+02    0.424388E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136264E+03   -0.358997E+02    0.446790E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137359E+03   -0.328909E+02    0.430519E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137720E+03   -0.315816E+02    0.403425E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137860E+03   -0.320113E+02    0.374087E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137524E+03   -0.341782E+02    0.348932E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136429E+03   -0.377484E+02    0.333349E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135630E+03   -0.414937E+02    0.333978E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.448074E+02    0.349089E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133509E+03   -0.466014E+02    0.375750E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133295E+03   -0.461480E+02    0.407259E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134360E+03   -0.433409E+02    0.435224E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.396072E+02    0.449154E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136178E+03   -0.396246E+02    0.306817E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136604E+03   -0.375892E+02    0.308361E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.390632E+02    0.291801E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135818E+03   -0.413734E+02    0.295767E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135783E+03   -0.412598E+02    0.315180E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.389696E+02    0.322499E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136683E+03   -0.368959E+02    0.334474E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137351E+03   -0.355774E+02    0.322584E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137023E+03   -0.356257E+02    0.304716E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136889E+03   -0.365539E+02    0.288474E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136539E+03   -0.383283E+02    0.276840E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136000E+03   -0.405280E+02    0.272885E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.424992E+02    0.278287E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135142E+03   -0.437830E+02    0.291103E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135016E+03   -0.439363E+02    0.308196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.429637E+02    0.324603E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.410274E+02    0.336539E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136201E+03   -0.388193E+02    0.340042E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.367673E+02    0.363085E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.339224E+02    0.347223E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137930E+03   -0.324832E+02    0.321908E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137948E+03   -0.329885E+02    0.292373E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.352501E+02    0.266152E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136522E+03   -0.388408E+02    0.249729E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135556E+03   -0.427182E+02    0.248924E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134591E+03   -0.459537E+02    0.263482E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.477756E+02    0.288904E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133665E+03   -0.471176E+02    0.320380E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134608E+03   -0.443306E+02    0.348366E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135540E+03   -0.405954E+02    0.363528E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135740E+03   -0.385704E+02    0.445513E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136205E+03   -0.365441E+02    0.445989E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.380322E+02    0.429608E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135288E+03   -0.403261E+02    0.435049E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135150E+03   -0.402936E+02    0.454717E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.378975E+02    0.461290E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136236E+03   -0.359195E+02    0.471755E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.346238E+02    0.458535E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136630E+03   -0.345982E+02    0.441242E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.353467E+02    0.425706E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136165E+03   -0.372210E+02    0.414124E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135570E+03   -0.394112E+02    0.411187E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135131E+03   -0.413640E+02    0.417789E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134552E+03   -0.427354E+02    0.431674E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134082E+03   -0.430880E+02    0.449054E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134738E+03   -0.418705E+02    0.466000E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135159E+03   -0.400319E+02    0.476530E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135537E+03   -0.379303E+02    0.478365E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136104E+03   -0.358513E+02    0.500784E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137163E+03   -0.328543E+02    0.483181E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137453E+03   -0.315532E+02    0.456275E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137520E+03   -0.319963E+02    0.426808E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136897E+03   -0.342734E+02    0.400936E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136203E+03   -0.376603E+02    0.387009E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.415134E+02    0.387966E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.449429E+02    0.403939E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132902E+03   -0.467274E+02    0.432482E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132986E+03   -0.461373E+02    0.464694E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133704E+03   -0.435351E+02    0.490812E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135002E+03   -0.396679E+02    0.504099E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.77 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.398108E+02    0.247648E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136780E+03   -0.377714E+02    0.249482E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136388E+03   -0.393424E+02    0.232107E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135826E+03   -0.416623E+02    0.235712E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.414526E+02    0.255727E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136499E+03   -0.390589E+02    0.264068E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136788E+03   -0.370826E+02    0.275766E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137475E+03   -0.357619E+02    0.264188E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137202E+03   -0.358002E+02    0.246130E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137333E+03   -0.366297E+02    0.230660E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136579E+03   -0.385961E+02    0.217453E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136057E+03   -0.408023E+02    0.213277E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135609E+03   -0.427826E+02    0.218358E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135170E+03   -0.440754E+02    0.230730E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.135216E+03   -0.441280E+02    0.248271E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135477E+03   -0.430531E+02    0.265410E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.412284E+02    0.277035E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136288E+03   -0.390188E+02    0.280925E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136831E+03   -0.368757E+02    0.304659E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137740E+03   -0.339264E+02    0.290249E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138032E+03   -0.326594E+02    0.263916E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.138150E+03   -0.331510E+02    0.234357E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137574E+03   -0.355004E+02    0.207388E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136639E+03   -0.390954E+02    0.190639E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135678E+03   -0.429875E+02    0.189389E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.462353E+02    0.203374E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133814E+03   -0.479522E+02    0.228443E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134264E+03   -0.470812E+02    0.260911E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134912E+03   -0.444292E+02    0.288601E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135795E+03   -0.407050E+02    0.304233E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       8.17 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665684.600530058     
  ps_ts2 prof sum =   665289.527919439     
  trcom prof sum =    665289.527876838     
  ps_ts2 cur sum  =   9011.04426854846     
  trcom cur sum  =    9011.04426854846     
  
  antenna # iant =            2
  powecha_use(iant) =    664413.561320844     
  ps_ts2 prof sum =   664043.019525704     
  trcom prof sum =    664043.019525703     
  ps_ts2 cur sum  =   11261.5070993073     
  trcom cur sum  =    11261.5070993073     
  
  antenna # iant =            3
  powecha_use(iant) =    518655.256656559     
  ps_ts2 prof sum =   518346.147047074     
  trcom prof sum =    518346.147047074     
  ps_ts2 cur sum  =   5918.52371593117     
  trcom cur sum  =    5918.52371593117     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553065.500474633     
  ps_ts2 prof sum =   552772.222175463     
  trcom prof sum =    552772.222175463     
  ps_ts2 cur sum  =   10560.4584623150     
  trcom cur sum  =    10560.4584623150     
  
  Total ECH heating:      2400450.91662508     
  Total Current Drive:    36751.5335461019     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4551
 TA= 4.77500E+00 CPU TIME= 1.61565E-01 SECONDS.  DT= 2.28466E-04
  
 TEC1=    4.77499999999992     
 TEC2=    4.77999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7293761111109     
  %check_save_state: izleft hours =    67.2622222222222     
 --> plasma_hash("gframe"): TA= 4.775000E+00 NSTEP=  4551 Hash code:   36404284
 ->PRGCHK: bdy curvature ratio at t= 4.7800E+00 seconds is:  5.6321E-02
% MHDEQ: TG1=     4.775000 ; TG2=     4.780000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1350E-03 SECONDS
   DATA R*BT AT EDGE:  2.7629E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6321E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.775000 TO TG2=    4.780000 @ NSTEP     4551
   GFRAME TG2 MOMENTS CHECKSUM:  2.4530767791122D+04
 %MFRCHK - LABEL "RMS12", #       1= -4.10263E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.18284E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.18257E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC13", #       2=  1.23445E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.49749E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.88992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -3.77981E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -1.94128E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.20319E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       7= -6.19786E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.16245E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.62906E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.79115E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -3.94189E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  1.68724E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  1.91766E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.32112E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.44536E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.44536E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7800E+00  4.7850E+00 total power(Watts):  2.3989E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.78000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135843E+03   -0.386793E+02    0.390123E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136293E+03   -0.366541E+02    0.391114E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135989E+03   -0.381338E+02    0.374644E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135419E+03   -0.404318E+02    0.379329E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135454E+03   -0.403014E+02    0.399227E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135864E+03   -0.380146E+02    0.406197E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136243E+03   -0.360401E+02    0.417438E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136661E+03   -0.348329E+02    0.403972E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137172E+03   -0.345137E+02    0.387830E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136738E+03   -0.355427E+02    0.371170E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136321E+03   -0.373135E+02    0.359915E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135741E+03   -0.395026E+02    0.356525E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135298E+03   -0.414589E+02    0.362469E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134919E+03   -0.427264E+02    0.375844E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.429751E+02    0.392971E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134795E+03   -0.419905E+02    0.409758E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.400494E+02    0.421454E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135758E+03   -0.379520E+02    0.423888E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136259E+03   -0.358883E+02    0.446657E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137358E+03   -0.328804E+02    0.430396E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137715E+03   -0.315718E+02    0.403318E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137855E+03   -0.320020E+02    0.373980E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137068E+03   -0.343565E+02    0.347691E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136421E+03   -0.377386E+02    0.333262E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.415910E+02    0.333330E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134023E+03   -0.450235E+02    0.347965E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133284E+03   -0.467061E+02    0.375186E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133286E+03   -0.461342E+02    0.407144E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133910E+03   -0.435523E+02    0.434442E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135164E+03   -0.397017E+02    0.448687E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.397183E+02    0.306143E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.375799E+02    0.308307E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136149E+03   -0.391557E+02    0.291118E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135590E+03   -0.414699E+02    0.295103E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135555E+03   -0.413560E+02    0.314528E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136134E+03   -0.389598E+02    0.322425E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136453E+03   -0.369851E+02    0.333801E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136898E+03   -0.357604E+02    0.321277E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137014E+03   -0.356168E+02    0.304668E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136879E+03   -0.365452E+02    0.288446E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136528E+03   -0.383197E+02    0.276824E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135988E+03   -0.405193E+02    0.272872E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135329E+03   -0.425973E+02    0.277624E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134915E+03   -0.438832E+02    0.290457E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134790E+03   -0.440370E+02    0.307554E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.429532E+02    0.324522E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135643E+03   -0.410169E+02    0.336450E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135972E+03   -0.389115E+02    0.339387E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.368563E+02    0.362460E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137468E+03   -0.338203E+02    0.347706E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137911E+03   -0.324790E+02    0.321813E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137939E+03   -0.329804E+02    0.292340E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137509E+03   -0.352423E+02    0.266143E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.389303E+02    0.249038E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135542E+03   -0.427095E+02    0.248938E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134151E+03   -0.461695E+02    0.262184E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133545E+03   -0.477645E+02    0.288885E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133440E+03   -0.472226E+02    0.319753E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134599E+03   -0.443191E+02    0.348266E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.405843E+02    0.363427E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       4.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.386621E+02    0.445054E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135973E+03   -0.366326E+02    0.445519E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.380199E+02    0.429489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.404208E+02    0.434574E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135143E+03   -0.402803E+02    0.454584E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.379876E+02    0.460863E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136003E+03   -0.360060E+02    0.471342E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136385E+03   -0.348049E+02    0.457771E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136853E+03   -0.344910E+02    0.441476E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.355307E+02    0.424798E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136159E+03   -0.372102E+02    0.414000E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135563E+03   -0.393993E+02    0.411069E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134903E+03   -0.414607E+02    0.417280E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134545E+03   -0.427223E+02    0.431543E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134296E+03   -0.429618E+02    0.449222E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134509E+03   -0.419673E+02    0.465593E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134929E+03   -0.401256E+02    0.476132E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.379170E+02    0.478226E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135871E+03   -0.359371E+02    0.500438E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136697E+03   -0.330280E+02    0.482529E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137449E+03   -0.315423E+02    0.456152E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137515E+03   -0.319862E+02    0.426695E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137118E+03   -0.341682E+02    0.401285E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136196E+03   -0.376494E+02    0.386898E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.415016E+02    0.387853E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.448150E+02    0.404207E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132894E+03   -0.467130E+02    0.432347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132759E+03   -0.462398E+02    0.464295E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133921E+03   -0.434059E+02    0.490860E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134996E+03   -0.396536E+02    0.503951E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       3.78 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136136E+03   -0.399039E+02    0.246944E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136986E+03   -0.376656E+02    0.250218E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.393346E+02    0.232137E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135812E+03   -0.416542E+02    0.235741E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135724E+03   -0.415485E+02    0.255047E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136269E+03   -0.391510E+02    0.263367E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136765E+03   -0.370787E+02    0.275728E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137024E+03   -0.359426E+02    0.262745E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137409E+03   -0.356994E+02    0.246887E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.366226E+02    0.230685E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136565E+03   -0.385888E+02    0.217491E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136042E+03   -0.407951E+02    0.213320E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135593E+03   -0.427748E+02    0.218403E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.440669E+02    0.230768E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134987E+03   -0.442281E+02    0.247602E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135248E+03   -0.431521E+02    0.264746E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135746E+03   -0.412193E+02    0.277019E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136276E+03   -0.390097E+02    0.280905E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.369645E+02    0.303971E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137730E+03   -0.339185E+02    0.290216E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138021E+03   -0.326520E+02    0.263906E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137917E+03   -0.332323E+02    0.233596E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137560E+03   -0.354936E+02    0.207430E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136408E+03   -0.391875E+02    0.189879E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135449E+03   -0.430848E+02    0.188666E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.462275E+02    0.203425E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.134018E+03   -0.478252E+02    0.229197E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133825E+03   -0.473003E+02    0.259627E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134900E+03   -0.444190E+02    0.288578E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135784E+03   -0.406952E+02    0.304188E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    665621.777412258     
  ps_ts2 prof sum =   665254.417493083     
  trcom prof sum =    665254.417493083     
  ps_ts2 cur sum  =   8999.25334437541     
  trcom cur sum  =    8999.25334437541     
  
  antenna # iant =            2
  powecha_use(iant) =    664049.829592993     
  ps_ts2 prof sum =   663686.246617118     
  trcom prof sum =    663686.246617117     
  ps_ts2 cur sum  =   11243.2896483635     
  trcom cur sum  =    11243.2896483635     
  
  antenna # iant =            3
  powecha_use(iant) =    516762.980282897     
  ps_ts2 prof sum =   516442.026840375     
  trcom prof sum =    516442.026840375     
  ps_ts2 cur sum  =   5887.86646118638     
  trcom cur sum  =    5887.86646118638     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552434.597649114     
  ps_ts2 prof sum =   552123.824606173     
  trcom prof sum =    552123.824606173     
  ps_ts2 cur sum  =   10536.5574571729     
  trcom cur sum  =    10536.5574571729     
  
  Total ECH heating:      2397506.51555675     
  Total Current Drive:    36666.9669110982     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4560
 TA= 4.78000E+00 CPU TIME= 1.61420E-01 SECONDS.  DT= 5.83508E-04
  
 TEC1=    4.77999999999992     
 TEC2=    4.78499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7445269444438     
  %check_save_state: izleft hours =    67.2469444444444     
 --> plasma_hash("gframe"): TA= 4.780000E+00 NSTEP=  4560 Hash code:   64374883
 ->PRGCHK: bdy curvature ratio at t= 4.7850E+00 seconds is:  5.6323E-02
% MHDEQ: TG1=     4.780000 ; TG2=     4.785000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.3050E-03 SECONDS
   DATA R*BT AT EDGE:  2.7614E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6323E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.780000 TO TG2=    4.785000 @ NSTEP     4560
   GFRAME TG2 MOMENTS CHECKSUM:  2.4529477402215D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7850E+00  4.7900E+00 total power(Watts):  2.4046E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.78500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135841E+03   -0.386665E+02    0.389986E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136287E+03   -0.366435E+02    0.390973E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.381241E+02    0.374489E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135413E+03   -0.404210E+02    0.379177E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135226E+03   -0.403969E+02    0.398641E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135858E+03   -0.380032E+02    0.406045E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136238E+03   -0.360294E+02    0.417291E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.348226E+02    0.403828E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136715E+03   -0.346941E+02    0.386715E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136957E+03   -0.354358E+02    0.371548E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136314E+03   -0.373032E+02    0.359784E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135734E+03   -0.394919E+02    0.356388E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135291E+03   -0.414479E+02    0.362326E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.428256E+02    0.375217E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134627E+03   -0.429633E+02    0.392813E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134789E+03   -0.419786E+02    0.409601E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.401443E+02    0.420917E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.379405E+02    0.423739E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.359759E+02    0.446167E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137128E+03   -0.329615E+02    0.429867E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137710E+03   -0.315622E+02    0.403183E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137622E+03   -0.320825E+02    0.373317E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137286E+03   -0.342529E+02    0.348139E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136192E+03   -0.378286E+02    0.332563E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.415802E+02    0.333200E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134232E+03   -0.448980E+02    0.348332E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133276E+03   -0.466935E+02    0.375028E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133061E+03   -0.462382E+02    0.406598E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.434266E+02    0.434618E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135158E+03   -0.396896E+02    0.448533E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135940E+03   -0.397078E+02    0.306059E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136366E+03   -0.376691E+02    0.307585E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136139E+03   -0.391457E+02    0.291053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135580E+03   -0.414594E+02    0.295034E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.413453E+02    0.314421E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136126E+03   -0.389490E+02    0.322323E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136446E+03   -0.369748E+02    0.333684E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.356547E+02    0.321794E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137228E+03   -0.355120E+02    0.305232E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136649E+03   -0.366325E+02    0.287722E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136299E+03   -0.384101E+02    0.276092E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135760E+03   -0.406130E+02    0.272155E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.425869E+02    0.277573E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134904E+03   -0.438723E+02    0.290390E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134780E+03   -0.440258E+02    0.307454E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135095E+03   -0.429429E+02    0.324395E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135417E+03   -0.411130E+02    0.335760E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135965E+03   -0.389022E+02    0.339255E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.368461E+02    0.362321E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.338111E+02    0.347582E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137680E+03   -0.325594E+02    0.321076E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137707E+03   -0.330610E+02    0.291598E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137057E+03   -0.354200E+02    0.264669E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136294E+03   -0.389179E+02    0.249037E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.428062E+02    0.248226E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134352E+03   -0.460459E+02    0.262797E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133320E+03   -0.478690E+02    0.288225E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133430E+03   -0.472107E+02    0.319636E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134374E+03   -0.444206E+02    0.347607E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135525E+03   -0.405736E+02    0.363281E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.64 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135504E+03   -0.386503E+02    0.444899E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135968E+03   -0.366212E+02    0.445370E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135621E+03   -0.381112E+02    0.428969E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135053E+03   -0.404095E+02    0.434406E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134914E+03   -0.403753E+02    0.454128E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135577E+03   -0.379756E+02    0.460711E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135998E+03   -0.359942E+02    0.471194E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.347922E+02    0.457642E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136392E+03   -0.346718E+02    0.440615E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136374E+03   -0.355200E+02    0.424653E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135928E+03   -0.372995E+02    0.413448E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.393880E+02    0.410917E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.414491E+02    0.417116E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134317E+03   -0.428215E+02    0.431040E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134290E+03   -0.429492E+02    0.449057E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.419543E+02    0.465429E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.401127E+02    0.475977E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135526E+03   -0.379052E+02    0.478064E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135866E+03   -0.359248E+02    0.500290E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.329246E+02    0.482643E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137445E+03   -0.315331E+02    0.455998E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137510E+03   -0.319764E+02    0.426557E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137113E+03   -0.341580E+02    0.401142E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135967E+03   -0.377403E+02    0.386280E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.415989E+02    0.387253E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133580E+03   -0.450324E+02    0.403252E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132886E+03   -0.466994E+02    0.432181E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132751E+03   -0.462256E+02    0.464127E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133472E+03   -0.436177E+02    0.490302E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134765E+03   -0.397466E+02    0.503617E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.398947E+02    0.246929E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.378513E+02    0.248745E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136143E+03   -0.394251E+02    0.231399E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135582E+03   -0.417483E+02    0.235025E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135712E+03   -0.415389E+02    0.255004E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136258E+03   -0.391413E+02    0.263330E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.369723E+02    0.276368E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137233E+03   -0.358394E+02    0.263424E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137398E+03   -0.356908E+02    0.246867E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136870E+03   -0.368036E+02    0.229160E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136769E+03   -0.384840E+02    0.218269E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.136027E+03   -0.407855E+02    0.213346E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135364E+03   -0.428702E+02    0.217687E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.135140E+03   -0.440568E+02    0.230779E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134974E+03   -0.442182E+02    0.247583E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135236E+03   -0.431417E+02    0.264707E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135735E+03   -0.412092E+02    0.276969E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.389999E+02    0.280851E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136592E+03   -0.369548E+02    0.303892E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.340922E+02    0.288790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.138011E+03   -0.326432E+02    0.263865E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137905E+03   -0.332238E+02    0.233592E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137546E+03   -0.354858E+02    0.207445E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136393E+03   -0.391794E+02    0.189907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135433E+03   -0.430766E+02    0.188690E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.463277E+02    0.202731E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133569E+03   -0.480466E+02    0.227828E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.134024E+03   -0.471748E+02    0.260244E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134674E+03   -0.445192E+02    0.287895E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135775E+03   -0.406847E+02    0.304111E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    668807.222336455     
  ps_ts2 prof sum =   668401.838466644     
  trcom prof sum =    668401.838466645     
  ps_ts2 cur sum  =   9029.27693472466     
  trcom cur sum  =    9029.27693472466     
  
  antenna # iant =            2
  powecha_use(iant) =    667104.985618799     
  ps_ts2 prof sum =   666713.393581374     
  trcom prof sum =    666713.393581373     
  ps_ts2 cur sum  =   11272.2455942962     
  trcom cur sum  =    11272.2455942962     
  
  antenna # iant =            3
  powecha_use(iant) =    516594.089436001     
  ps_ts2 prof sum =   516271.929723146     
  trcom prof sum =    516271.929723146     
  ps_ts2 cur sum  =   5877.36059160083     
  trcom cur sum  =    5877.36059160083     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    552067.440353454     
  ps_ts2 prof sum =   551735.405791085     
  trcom prof sum =    551735.405791085     
  ps_ts2 cur sum  =   10507.0664463559     
  trcom cur sum  =    10507.0664463559     
  
  Total ECH heating:      2403122.56756225     
  Total Current Drive:    36685.9495669776     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4566
 TA= 4.78500E+00 CPU TIME= 1.59629E-01 SECONDS.  DT= 2.63912E-04
  
 TEC1=    4.78499999999992     
 TEC2=    4.78999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7597000000001     
  %check_save_state: izleft hours =    67.2319444444445     
 --> plasma_hash("gframe"): TA= 4.785000E+00 NSTEP=  4566 Hash code:   18084273
 ->PRGCHK: bdy curvature ratio at t= 4.7900E+00 seconds is:  5.6328E-02
% MHDEQ: TG1=     4.785000 ; TG2=     4.790000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.4240E-03 SECONDS
   DATA R*BT AT EDGE:  2.7598E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6328E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.785000 TO TG2=    4.790000 @ NSTEP     4566
   GFRAME TG2 MOMENTS CHECKSUM:  2.4528187013309D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.77290E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.20727E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.24710E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.62731E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.77667E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       6= -1.91194E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.28834E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.51306E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.22353E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.19779E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -1.82195E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.79903E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      19= -2.38341E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.04706E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.26380E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.43739E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.52790E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.52790E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7900E+00  4.7950E+00 total power(Watts):  2.4078E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.79000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.387603E+02    0.389350E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136059E+03   -0.367352E+02    0.390330E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135979E+03   -0.381165E+02    0.374317E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135187E+03   -0.405194E+02    0.378525E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135222E+03   -0.403886E+02    0.398455E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135631E+03   -0.380975E+02    0.405440E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136234E+03   -0.360216E+02    0.417119E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.349108E+02    0.403209E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136938E+03   -0.345918E+02    0.387035E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136504E+03   -0.356219E+02    0.370337E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136087E+03   -0.373957E+02    0.359078E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135730E+03   -0.394842E+02    0.356205E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135067E+03   -0.415481E+02    0.361637E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.428174E+02    0.375035E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134403E+03   -0.430661E+02    0.392191E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134563E+03   -0.420798E+02    0.409012E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135163E+03   -0.401363E+02    0.420725E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.379322E+02    0.423562E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136024E+03   -0.359679E+02    0.445984E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137111E+03   -0.329583E+02    0.429692E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137479E+03   -0.316443E+02    0.402549E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137619E+03   -0.320759E+02    0.373157E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137282E+03   -0.342460E+02    0.347976E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.378212E+02    0.332387E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135171E+03   -0.416798E+02    0.332458E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133793E+03   -0.451170E+02    0.347119E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133054E+03   -0.468016E+02    0.374381E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133056E+03   -0.462289E+02    0.406390E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134120E+03   -0.434176E+02    0.434421E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135155E+03   -0.396809E+02    0.448339E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135716E+03   -0.398033E+02    0.305278E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136360E+03   -0.376617E+02    0.307429E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135914E+03   -0.392397E+02    0.290258E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135356E+03   -0.415575E+02    0.294251E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.414439E+02    0.313656E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135901E+03   -0.390437E+02    0.321558E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136663E+03   -0.368689E+02    0.334100E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136664E+03   -0.358393E+02    0.320398E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136779E+03   -0.356952E+02    0.303785E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136643E+03   -0.366253E+02    0.287582E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136292E+03   -0.384027E+02    0.275956E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.406053E+02    0.272018E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.426862E+02    0.276783E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134897E+03   -0.438640E+02    0.290243E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.440175E+02    0.307285E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134873E+03   -0.430445E+02    0.323646E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135412E+03   -0.411053E+02    0.335577E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135961E+03   -0.388945E+02    0.339075E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.369378E+02    0.361622E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137234E+03   -0.338965E+02    0.346839E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137675E+03   -0.325531E+02    0.320918E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137702E+03   -0.330547E+02    0.291453E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137271E+03   -0.353199E+02    0.265259E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136279E+03   -0.389139E+02    0.248899E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135306E+03   -0.427986E+02    0.248104E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133916E+03   -0.462627E+02    0.261376E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133312E+03   -0.478601E+02    0.288067E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133210E+03   -0.473184E+02    0.318897E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134369E+03   -0.444121E+02    0.347414E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135300E+03   -0.406719E+02    0.362592E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.387459E+02    0.444379E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135738E+03   -0.367130E+02    0.444848E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135618E+03   -0.381030E+02    0.428786E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135049E+03   -0.404007E+02    0.434218E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.403666E+02    0.453930E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135348E+03   -0.380702E+02    0.460216E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135767E+03   -0.360847E+02    0.470730E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136148E+03   -0.348805E+02    0.457142E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136389E+03   -0.346641E+02    0.440437E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136144E+03   -0.356097E+02    0.424081E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135925E+03   -0.372915E+02    0.413269E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.394850E+02    0.410320E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134880E+03   -0.414455E+02    0.416925E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134313E+03   -0.428124E+02    0.430847E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134065E+03   -0.430521E+02    0.448552E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134277E+03   -0.420557E+02    0.464954E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.402107E+02    0.475527E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135297E+03   -0.379992E+02    0.477616E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135635E+03   -0.360151E+02    0.499899E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136461E+03   -0.331020E+02    0.481939E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137212E+03   -0.316148E+02    0.455496E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137278E+03   -0.320590E+02    0.425983E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136656E+03   -0.343399E+02    0.400055E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135963E+03   -0.377325E+02    0.386104E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134932E+03   -0.415905E+02    0.387068E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133794E+03   -0.449083E+02    0.403452E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132663E+03   -0.468077E+02    0.431654E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132528E+03   -0.463330E+02    0.463659E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133691E+03   -0.434938E+02    0.490294E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134762E+03   -0.397373E+02    0.503418E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.399883E+02    0.246095E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.378441E+02    0.248628E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.394177E+02    0.231299E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135574E+03   -0.417409E+02    0.234912E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135488E+03   -0.416358E+02    0.254188E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136034E+03   -0.392347E+02    0.262496E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136529E+03   -0.371596E+02    0.274855E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.137227E+03   -0.358325E+02    0.263298E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136951E+03   -0.358703E+02    0.245265E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.137080E+03   -0.367025E+02    0.229823E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136325E+03   -0.386717E+02    0.216647E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135802E+03   -0.408797E+02    0.212502E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135354E+03   -0.428626E+02    0.217594E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134916E+03   -0.441567E+02    0.229969E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134751E+03   -0.443190E+02    0.246780E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135014E+03   -0.432417E+02    0.263895E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135511E+03   -0.413063E+02    0.276171E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136041E+03   -0.390934E+02    0.280045E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136807E+03   -0.368498E+02    0.304380E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137493E+03   -0.339944E+02    0.289333E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137783E+03   -0.327249E+02    0.263003E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137677E+03   -0.333050E+02    0.232713E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137319E+03   -0.355706E+02    0.206556E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136600E+03   -0.390761E+02    0.190601E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135209E+03   -0.431726E+02    0.187824E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134428E+03   -0.463196E+02    0.202646E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133771E+03   -0.479244E+02    0.228404E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133590E+03   -0.473948E+02    0.258823E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134667E+03   -0.445108E+02    0.287747E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135551E+03   -0.407819E+02    0.303333E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670521.281554741     
  ps_ts2 prof sum =   670120.886463568     
  trcom prof sum =    670120.886463569     
  ps_ts2 cur sum  =   9044.11310629715     
  trcom cur sum  =    9044.11310629716     
  
  antenna # iant =            2
  powecha_use(iant) =    666201.335345701     
  ps_ts2 prof sum =   665818.333937149     
  trcom prof sum =    665818.333937148     
  ps_ts2 cur sum  =   11247.4107572745     
  trcom cur sum  =    11247.4107572745     
  
  antenna # iant =            3
  powecha_use(iant) =    517986.906279359     
  ps_ts2 prof sum =   517690.427029465     
  trcom prof sum =    517690.427029465     
  ps_ts2 cur sum  =   5889.86758852739     
  trcom cur sum  =    5889.86758852740     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553045.146547732     
  ps_ts2 prof sum =   552728.380469602     
  trcom prof sum =    552728.380469602     
  ps_ts2 cur sum  =   10512.1493816950     
  trcom cur sum  =    10512.1493816950     
  
  Total ECH heating:      2406358.02789978     
  Total Current Drive:    36693.5408337940     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4574
 TA= 4.79000E+00 CPU TIME= 1.60265E-01 SECONDS.  DT= 1.27741E-03
  
 TEC1=    4.78999999999992     
 TEC2=    4.79499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7748227777777     
  %check_save_state: izleft hours =    67.2166666666667     
 --> plasma_hash("gframe"): TA= 4.790000E+00 NSTEP=  4574 Hash code:   88877936
 ->PRGCHK: bdy curvature ratio at t= 4.7950E+00 seconds is:  5.6335E-02
% MHDEQ: TG1=     4.790000 ; TG2=     4.795000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1430E-03 SECONDS
   DATA R*BT AT EDGE:  2.7582E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6335E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.790000 TO TG2=    4.795000 @ NSTEP     4574
   GFRAME TG2 MOMENTS CHECKSUM:  2.4526896624402D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.7950E+00  4.8000E+00 total power(Watts):  2.4049E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.79500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135603E+03   -0.387587E+02    0.389144E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.367286E+02    0.390150E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135753E+03   -0.382116E+02    0.373636E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.405123E+02    0.378335E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134997E+03   -0.404882E+02    0.397834E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135628E+03   -0.380907E+02    0.405256E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136005E+03   -0.361126E+02    0.416535E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.349045E+02    0.403030E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136483E+03   -0.347757E+02    0.385885E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136726E+03   -0.355191E+02    0.370682E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136084E+03   -0.373895E+02    0.358894E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.395816E+02    0.355496E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.415406E+02    0.361452E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134466E+03   -0.429208E+02    0.374367E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134399E+03   -0.430587E+02    0.391993E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134560E+03   -0.420717E+02    0.408826E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.402348E+02    0.420172E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.380275E+02    0.422996E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135794E+03   -0.360591E+02    0.445476E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137108E+03   -0.329522E+02    0.429524E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137476E+03   -0.316381E+02    0.402388E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137389E+03   -0.321594E+02    0.372454E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.344272E+02    0.346654E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135962E+03   -0.379150E+02    0.331623E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135167E+03   -0.416728E+02    0.332272E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134006E+03   -0.449958E+02    0.347432E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133050E+03   -0.467937E+02    0.374177E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133269E+03   -0.461040E+02    0.406570E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133896E+03   -0.435223E+02    0.433894E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134927E+03   -0.397781E+02    0.447858E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.88 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135711E+03   -0.397967E+02    0.305102E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136135E+03   -0.377546E+02    0.306633E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.392332E+02    0.290086E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135351E+03   -0.415506E+02    0.294071E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135318E+03   -0.414369E+02    0.313482E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135897E+03   -0.390371E+02    0.321376E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136216E+03   -0.370599E+02    0.332744E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136882E+03   -0.357373E+02    0.320839E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.355940E+02    0.304264E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136859E+03   -0.365227E+02    0.288085E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136068E+03   -0.384958E+02    0.275102E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135748E+03   -0.405986E+02    0.271838E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135089E+03   -0.426793E+02    0.276601E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.439669E+02    0.289434E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134553E+03   -0.441214E+02    0.306518E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134868E+03   -0.430375E+02    0.323455E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135189E+03   -0.412049E+02    0.334831E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.389906E+02    0.338326E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136124E+03   -0.369313E+02    0.361443E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137230E+03   -0.338905E+02    0.346670E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137672E+03   -0.325472E+02    0.320755E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137698E+03   -0.330490E+02    0.291292E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137267E+03   -0.353140E+02    0.265082E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136056E+03   -0.390068E+02    0.248009E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.428980E+02    0.247231E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134124E+03   -0.461428E+02    0.261829E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133093E+03   -0.479688E+02    0.287283E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133205E+03   -0.473108E+02    0.318702E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133930E+03   -0.446306E+02    0.346189E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135296E+03   -0.406650E+02    0.362411E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.94 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.387383E+02    0.444205E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.367058E+02    0.444677E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135390E+03   -0.381985E+02    0.428236E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134822E+03   -0.405003E+02    0.433690E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134684E+03   -0.404663E+02    0.453442E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135345E+03   -0.380628E+02    0.460042E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135765E+03   -0.360773E+02    0.470558E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136146E+03   -0.348735E+02    0.456974E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136615E+03   -0.345620E+02    0.440621E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136141E+03   -0.356029E+02    0.423910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135696E+03   -0.373850E+02    0.412682E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135327E+03   -0.394781E+02    0.410133E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134658E+03   -0.415457E+02    0.416355E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133867E+03   -0.430276E+02    0.429967E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134061E+03   -0.430439E+02    0.448367E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134273E+03   -0.420474E+02    0.464770E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.402025E+02    0.475347E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135294E+03   -0.379914E+02    0.477442E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135633E+03   -0.360074E+02    0.499728E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136690E+03   -0.330024E+02    0.482036E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137210E+03   -0.316085E+02    0.455331E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137276E+03   -0.320536E+02    0.425816E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136880E+03   -0.342389E+02    0.400342E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135736E+03   -0.378271E+02    0.385447E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.415833E+02    0.386875E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133353E+03   -0.451302E+02    0.402455E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132659E+03   -0.467993E+02    0.431453E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132524E+03   -0.463239E+02    0.463462E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133245E+03   -0.437109E+02    0.489699E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134534E+03   -0.398352E+02    0.503054E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.16 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135893E+03   -0.399819E+02    0.245919E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136306E+03   -0.379355E+02    0.247726E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.136128E+03   -0.394111E+02    0.231136E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135568E+03   -0.417343E+02    0.234739E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135483E+03   -0.416290E+02    0.254006E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136029E+03   -0.392282E+02    0.262317E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136525E+03   -0.371531E+02    0.274681E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136782E+03   -0.360147E+02    0.261692E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.137166E+03   -0.357711E+02    0.245843E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136637E+03   -0.368849E+02    0.228144E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136319E+03   -0.386650E+02    0.216494E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135789E+03   -0.408738E+02    0.212328E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135132E+03   -0.429603E+02    0.216699E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134910E+03   -0.441501E+02    0.229791E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134745E+03   -0.443119E+02    0.246596E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135008E+03   -0.432347E+02    0.263717E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135506E+03   -0.412996E+02    0.275991E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.136036E+03   -0.390867E+02    0.279871E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136361E+03   -0.370390E+02    0.302926E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137489E+03   -0.339886E+02    0.289171E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137779E+03   -0.327192E+02    0.262837E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137671E+03   -0.332992E+02    0.232558E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137312E+03   -0.355644E+02    0.206409E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136161E+03   -0.392631E+02    0.188842E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135202E+03   -0.431656E+02    0.187650E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134208E+03   -0.464218E+02    0.201753E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133340E+03   -0.481444E+02    0.226860E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133797E+03   -0.472730E+02    0.259267E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.446146E+02    0.286939E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135546E+03   -0.407751E+02    0.303155E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.09 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    670835.891225270     
  ps_ts2 prof sum =   670446.438068764     
  trcom prof sum =    670446.438068765     
  ps_ts2 cur sum  =   9046.12056971772     
  trcom cur sum  =    9046.12056971772     
  
  antenna # iant =            2
  powecha_use(iant) =    664287.458467323     
  ps_ts2 prof sum =   663874.305921656     
  trcom prof sum =    663874.305921655     
  ps_ts2 cur sum  =   11206.5822425069     
  trcom cur sum  =    11206.5822425069     
  
  antenna # iant =            3
  powecha_use(iant) =    516192.279058748     
  ps_ts2 prof sum =   515878.603532784     
  trcom prof sum =    515878.603532784     
  ps_ts2 cur sum  =   5867.49442113975     
  trcom cur sum  =    5867.49442113975     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553598.584222977     
  ps_ts2 prof sum =   553296.520099939     
  trcom prof sum =    553296.520099939     
  ps_ts2 cur sum  =   10508.1624474667     
  trcom cur sum  =    10508.1624474667     
  
  Total ECH heating:      2403495.86762314     
  Total Current Drive:    36628.3596808311     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4578
 TA= 4.79500E+00 CPU TIME= 1.58959E-01 SECONDS.  DT= 1.62319E-04
  
 TEC1=    4.79499999999992     
 TEC2=    4.79999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.7874719444442     
  %check_save_state: izleft hours =    67.2041666666667     
 --> plasma_hash("gframe"): TA= 4.795000E+00 NSTEP=  4578 Hash code:  102226446
 ->PRGCHK: bdy curvature ratio at t= 4.8000E+00 seconds is:  5.6344E-02
% MHDEQ: TG1=     4.795000 ; TG2=     4.800000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0990E-03 SECONDS
   DATA R*BT AT EDGE:  2.7567E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6344E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.795000 TO TG2=    4.800000 @ NSTEP     4578
   GFRAME TG2 MOMENTS CHECKSUM:  2.4525606257646D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.45788E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.94912E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.23061E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.30876E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.75135E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.66848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       8= -4.05318E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.61992E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.80910E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.37476E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.23155E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.00624E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.80657E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      20=  3.81267E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.39084E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.59450E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.54848E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.97785E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.97785E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.8000E+00  4.8050E+00 total power(Watts):  1.8951E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.80000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135376E+03   -0.388546E+02    0.388512E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.367215E+02    0.389983E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135749E+03   -0.382044E+02    0.373467E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135179E+03   -0.405047E+02    0.378163E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134993E+03   -0.404804E+02    0.397655E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135624E+03   -0.380833E+02    0.405079E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136002E+03   -0.361060E+02    0.416359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.348017E+02    0.403319E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136480E+03   -0.347690E+02    0.385722E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136272E+03   -0.357056E+02    0.369485E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135857E+03   -0.374825E+02    0.358203E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135501E+03   -0.395743E+02    0.355332E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134838E+03   -0.416411E+02    0.360780E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.429129E+02    0.374189E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133955E+03   -0.432734E+02    0.390947E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134555E+03   -0.420637E+02    0.408639E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134933E+03   -0.402268E+02    0.419985E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135518E+03   -0.380206E+02    0.422806E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135791E+03   -0.360515E+02    0.445296E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136877E+03   -0.330374E+02    0.428961E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137244E+03   -0.317209E+02    0.401753E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137386E+03   -0.321533E+02    0.372304E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137050E+03   -0.343272E+02    0.347077E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135957E+03   -0.379082E+02    0.331473E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134943E+03   -0.417730E+02    0.331552E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134000E+03   -0.449879E+02    0.347261E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132828E+03   -0.469024E+02    0.373541E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132829E+03   -0.463288E+02    0.405610E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133892E+03   -0.435138E+02    0.433698E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134923E+03   -0.397699E+02    0.447672E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135705E+03   -0.397898E+02    0.304967E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136130E+03   -0.377479E+02    0.306500E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.392264E+02    0.289968E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135127E+03   -0.416495E+02    0.293316E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.415366E+02    0.312736E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135671E+03   -0.391326E+02    0.320631E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136211E+03   -0.370531E+02    0.332596E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136432E+03   -0.359226E+02    0.319465E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136547E+03   -0.357781E+02    0.302844E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136411E+03   -0.367092E+02    0.286627E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136061E+03   -0.384893E+02    0.274991E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135523E+03   -0.406953E+02    0.271055E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135082E+03   -0.426723E+02    0.276483E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134669E+03   -0.439596E+02    0.289309E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134546E+03   -0.441140E+02    0.306366E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134644E+03   -0.431390E+02    0.322746E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135184E+03   -0.411977E+02    0.334672E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135731E+03   -0.389827E+02    0.338177E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136120E+03   -0.369244E+02    0.361285E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136776E+03   -0.340696E+02    0.345365E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137443E+03   -0.326302E+02    0.319976E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137469E+03   -0.331325E+02    0.290491E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136819E+03   -0.354942E+02    0.263548E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136048E+03   -0.390006E+02    0.247907E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135076E+03   -0.428914E+02    0.247134E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134116E+03   -0.461355E+02    0.261716E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133085E+03   -0.479608E+02    0.287157E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132984E+03   -0.474192E+02    0.317988E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134142E+03   -0.445098E+02    0.346536E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135071E+03   -0.407640E+02    0.361737E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.387304E+02    0.444019E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135733E+03   -0.366981E+02    0.444495E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135387E+03   -0.381911E+02    0.428053E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134819E+03   -0.404920E+02    0.433506E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134680E+03   -0.404579E+02    0.453249E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135342E+03   -0.380547E+02    0.459856E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135763E+03   -0.360707E+02    0.470359E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136372E+03   -0.347699E+02    0.457112E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136156E+03   -0.347459E+02    0.439735E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136365E+03   -0.354984E+02    0.424136E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135693E+03   -0.373780E+02    0.412502E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135100E+03   -0.395755E+02    0.409540E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134657E+03   -0.415364E+02    0.416164E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134084E+03   -0.429076E+02    0.430122E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133836E+03   -0.431473E+02    0.447868E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134047E+03   -0.421492E+02    0.464298E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134689E+03   -0.401942E+02    0.475148E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.380861E+02    0.476993E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135402E+03   -0.360979E+02    0.499339E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136687E+03   -0.329948E+02    0.481865E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137208E+03   -0.316017E+02    0.455163E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137044E+03   -0.321370E+02    0.425242E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136423E+03   -0.344211E+02    0.399261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135732E+03   -0.378199E+02    0.385277E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.416842E+02    0.386245E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133567E+03   -0.450070E+02    0.402661E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132436E+03   -0.469073E+02    0.430941E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132519E+03   -0.463146E+02    0.463248E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133465E+03   -0.435878E+02    0.489692E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134531E+03   -0.398263E+02    0.502859E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135885E+03   -0.399756E+02    0.245825E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.379292E+02    0.247635E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135902E+03   -0.395043E+02    0.230310E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135343E+03   -0.418317E+02    0.233939E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135258E+03   -0.417269E+02    0.253212E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.136021E+03   -0.392217E+02    0.262213E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136298E+03   -0.372437E+02    0.273881E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.359147E+02    0.262302E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136718E+03   -0.359517E+02    0.244264E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136847E+03   -0.367850E+02    0.228829E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136092E+03   -0.387562E+02    0.215663E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135572E+03   -0.409665E+02    0.211526E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135122E+03   -0.429544E+02    0.216630E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134686E+03   -0.442512E+02    0.229006E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134737E+03   -0.443051E+02    0.246501E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.135000E+03   -0.432278E+02    0.263607E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135282E+03   -0.413975E+02    0.275217E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135810E+03   -0.391812E+02    0.279094E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136355E+03   -0.370323E+02    0.302793E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137261E+03   -0.340739E+02    0.288372E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137550E+03   -0.328017E+02    0.261997E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137663E+03   -0.332939E+02    0.232479E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136866E+03   -0.357412E+02    0.204736E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.136151E+03   -0.392579E+02    0.188775E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135191E+03   -0.431600E+02    0.187585E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134196E+03   -0.464155E+02    0.201692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133542E+03   -0.480236E+02    0.227465E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133363E+03   -0.474939E+02    0.257874E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134439E+03   -0.446072E+02    0.286815E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135321E+03   -0.408729E+02    0.302406E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.91 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    159212.704398740     
  ps_ts2 prof sum =   159118.328903431     
  trcom prof sum =    159118.328903431     
  ps_ts2 cur sum  =   2145.18648294264     
  trcom cur sum  =    2145.18648294264     
  
  antenna # iant =            2
  powecha_use(iant) =    664800.913386469     
  ps_ts2 prof sum =   664449.949553695     
  trcom prof sum =    664449.949553694     
  ps_ts2 cur sum  =   11205.8914720488     
  trcom cur sum  =    11205.8914720488     
  
  antenna # iant =            3
  powecha_use(iant) =    516385.012554978     
  ps_ts2 prof sum =   516044.249862986     
  trcom prof sum =    516044.249847655     
  ps_ts2 cur sum  =   5866.11995924791     
  trcom cur sum  =    5866.11995924792     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554743.590228638     
  ps_ts2 prof sum =   554453.434457960     
  trcom prof sum =    554453.434457960     
  ps_ts2 cur sum  =   10520.7519774074     
  trcom cur sum  =    10520.7519774074     
  
  Total ECH heating:      1894065.96276274     
  Total Current Drive:    29737.9498916468     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4588
 TA= 4.80000E+00 CPU TIME= 1.47544E-01 SECONDS.  DT= 1.01473E-03
  
 TEC1=    4.79999999999992     
 TEC2=    4.80499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.8027649999995     
  %check_save_state: izleft hours =    67.1888888888889     
 --> plasma_hash("gframe"): TA= 4.800000E+00 NSTEP=  4588 Hash code:   38262046
 ->PRGCHK: bdy curvature ratio at t= 4.8050E+00 seconds is:  5.6298E-02
% MHDEQ: TG1=     4.800000 ; TG2=     4.805000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.0710E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6298E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.800000 TO TG2=    4.805000 @ NSTEP     4588
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524315890890D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.8050E+00  4.8100E+00 total power(Watts):  1.7554E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.80500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135372E+03   -0.388468E+02    0.388336E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135824E+03   -0.368131E+02    0.389342E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135522E+03   -0.382984E+02    0.372800E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134954E+03   -0.406030E+02    0.377507E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134989E+03   -0.404722E+02    0.397472E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.381774E+02    0.404477E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135773E+03   -0.361965E+02    0.415774E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136191E+03   -0.349857E+02    0.402242E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136702E+03   -0.346667E+02    0.386042E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.356983E+02    0.369321E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135852E+03   -0.374747E+02    0.358038E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135275E+03   -0.396706E+02    0.354634E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134833E+03   -0.416330E+02    0.360605E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134456E+03   -0.429045E+02    0.374009E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134171E+03   -0.431534E+02    0.391190E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134330E+03   -0.421649E+02    0.408051E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134706E+03   -0.403249E+02    0.419418E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135290E+03   -0.381144E+02    0.422245E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.360432E+02    0.445124E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136874E+03   -0.330302E+02    0.428792E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137242E+03   -0.317140E+02    0.401590E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137382E+03   -0.321462E+02    0.372151E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136597E+03   -0.345075E+02    0.345774E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135953E+03   -0.379008E+02    0.331314E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134938E+03   -0.417651E+02    0.331384E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133561E+03   -0.452067E+02    0.346053E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132823E+03   -0.468933E+02    0.373347E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132824E+03   -0.463195E+02    0.405403E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133446E+03   -0.437297E+02    0.432832E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.398670E+02    0.447165E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.52 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135480E+03   -0.398854E+02    0.304202E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135903E+03   -0.378398E+02    0.305727E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135677E+03   -0.393202E+02    0.289181E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135120E+03   -0.416416E+02    0.293188E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135088E+03   -0.415287E+02    0.312585E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135666E+03   -0.391251E+02    0.320481E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135984E+03   -0.371444E+02    0.331851E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136427E+03   -0.359156E+02    0.319317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.357706E+02    0.302709E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136405E+03   -0.367022E+02    0.286502E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136055E+03   -0.384822E+02    0.274868E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135516E+03   -0.406880E+02    0.270931E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134858E+03   -0.427715E+02    0.275710E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134446E+03   -0.440615E+02    0.288555E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134324E+03   -0.442169E+02    0.305625E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134638E+03   -0.431310E+02    0.322583E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134959E+03   -0.412964E+02    0.333943E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135505E+03   -0.390776E+02    0.337446E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.370159E+02    0.360590E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136997E+03   -0.339703E+02    0.345782E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137438E+03   -0.326239E+02    0.319832E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137463E+03   -0.331261E+02    0.290368E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137033E+03   -0.353946E+02    0.264149E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.390929E+02    0.247085E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.429902E+02    0.246337E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133894E+03   -0.462398E+02    0.260945E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132864E+03   -0.480684E+02    0.286417E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132977E+03   -0.474105E+02    0.317820E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133702E+03   -0.447270E+02    0.345320E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135066E+03   -0.407560E+02    0.361562E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135041E+03   -0.388258E+02    0.443501E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.367896E+02    0.443974E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135383E+03   -0.381829E+02    0.427871E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134592E+03   -0.405905E+02    0.432968E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.405563E+02    0.452755E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135113E+03   -0.381488E+02    0.459368E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135532E+03   -0.361598E+02    0.469913E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135913E+03   -0.349557E+02    0.456280E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136381E+03   -0.346426E+02    0.439920E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135908E+03   -0.356853E+02    0.423169E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135465E+03   -0.374716E+02    0.411903E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135097E+03   -0.395673E+02    0.409358E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134435E+03   -0.416352E+02    0.415593E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133638E+03   -0.431214E+02    0.429236E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133832E+03   -0.431381E+02    0.447666E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134043E+03   -0.421397E+02    0.464108E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134461E+03   -0.402916E+02    0.474703E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135062E+03   -0.380770E+02    0.476814E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135400E+03   -0.360892E+02    0.499161E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136224E+03   -0.331719E+02    0.481169E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136975E+03   -0.316834E+02    0.454657E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137041E+03   -0.321297E+02    0.425076E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136647E+03   -0.343197E+02    0.399544E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135728E+03   -0.378122E+02    0.385106E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134699E+03   -0.416759E+02    0.386061E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133125E+03   -0.452270E+02    0.401672E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132431E+03   -0.468976E+02    0.430733E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132295E+03   -0.464215E+02    0.462792E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133018E+03   -0.438031E+02    0.489090E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134528E+03   -0.398167E+02    0.502673E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135659E+03   -0.400696E+02    0.245008E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136509E+03   -0.378253E+02    0.248257E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135887E+03   -0.394989E+02    0.230215E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135333E+03   -0.418247E+02    0.233852E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135250E+03   -0.417196E+02    0.253100E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135796E+03   -0.393150E+02    0.261394E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136291E+03   -0.372368E+02    0.273762E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136548E+03   -0.360962E+02    0.260754E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136930E+03   -0.358523E+02    0.244909E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136838E+03   -0.367782E+02    0.228748E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136081E+03   -0.387491E+02    0.215597E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135569E+03   -0.409564E+02    0.211489E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.429473E+02    0.216565E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134676E+03   -0.442437E+02    0.228922E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134513E+03   -0.444063E+02    0.245712E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134777E+03   -0.433279E+02    0.262820E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.413898E+02    0.275090E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135804E+03   -0.391741E+02    0.278968E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136129E+03   -0.371227E+02    0.302017E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137255E+03   -0.340673E+02    0.288249E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137544E+03   -0.327955E+02    0.261885E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137434E+03   -0.333755E+02    0.231616E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137074E+03   -0.356436E+02    0.205479E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135924E+03   -0.393483E+02    0.187917E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134965E+03   -0.432568E+02    0.186754E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133972E+03   -0.465177E+02    0.200900E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133106E+03   -0.482427E+02    0.226026E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133567E+03   -0.473714E+02    0.258396E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134001E+03   -0.448211E+02    0.285444E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135315E+03   -0.408653E+02    0.302255E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.08 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    17053.2146298486     
  ps_ts2 prof sum =   17043.4755792362     
  trcom prof sum =    17043.4755792362     
  ps_ts2 cur sum  =   229.613725197778     
  trcom cur sum  =    229.613725197778     
  
  antenna # iant =            2
  powecha_use(iant) =    667141.863531928     
  ps_ts2 prof sum =   666780.914575036     
  trcom prof sum =    666780.914575035     
  ps_ts2 cur sum  =   11234.7320140584     
  trcom cur sum  =    11234.7320140584     
  
  antenna # iant =            3
  powecha_use(iant) =    516728.979747718     
  ps_ts2 prof sum =   516426.755451454     
  trcom prof sum =    516426.755451455     
  ps_ts2 cur sum  =   5868.05043662790     
  trcom cur sum  =    5868.05043662790     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554468.484758224     
  ps_ts2 prof sum =   554160.606974525     
  trcom prof sum =    554160.606974525     
  ps_ts2 cur sum  =   10503.7982699975     
  trcom cur sum  =    10503.7982699975     
  
  Total ECH heating:      1754411.75258025     
  Total Current Drive:    27836.1944458816     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4592
 TA= 4.80500E+00 CPU TIME= 1.63937E-01 SECONDS.  DT= 1.41416E-03
  
 TEC1=    4.80499999999992     
 TEC2=    4.80999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.8155788888885     
  %check_save_state: izleft hours =    67.1761111111111     
 --> plasma_hash("gframe"): TA= 4.805000E+00 NSTEP=  4592 Hash code:  105188569
 ->PRGCHK: bdy curvature ratio at t= 4.8100E+00 seconds is:  5.6298E-02
% MHDEQ: TG1=     4.805000 ; TG2=     4.810000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2790E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6298E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.805000 TO TG2=    4.810000 @ NSTEP     4592
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524315890890D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.30037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.84431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.24229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.81337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.61438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.45024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.78571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.95713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.45038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.24843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.09838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      21= -2.70392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.56272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.75984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.65807E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.65807E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   2.000000677071512E-006
 EC call, timestep(sec):  4.8100E+00  4.8150E+00 total power(Watts):  2.3592E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.81000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135371E+03   -0.388457E+02    0.388362E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135823E+03   -0.368120E+02    0.389368E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135521E+03   -0.382975E+02    0.372826E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.406019E+02    0.377539E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134988E+03   -0.404712E+02    0.397492E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135395E+03   -0.381760E+02    0.404500E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135772E+03   -0.361952E+02    0.415795E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136190E+03   -0.349846E+02    0.402266E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136701E+03   -0.346658E+02    0.386069E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136268E+03   -0.356975E+02    0.369346E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135851E+03   -0.374741E+02    0.358064E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135274E+03   -0.396698E+02    0.354664E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134832E+03   -0.416321E+02    0.360632E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134455E+03   -0.429035E+02    0.374037E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134170E+03   -0.431522E+02    0.391215E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134329E+03   -0.421633E+02    0.408077E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134928E+03   -0.402171E+02    0.419826E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135289E+03   -0.381134E+02    0.422263E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135787E+03   -0.360421E+02    0.445151E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136873E+03   -0.330290E+02    0.428819E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137241E+03   -0.317131E+02    0.401613E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137381E+03   -0.321453E+02    0.372169E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136596E+03   -0.345068E+02    0.345802E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135951E+03   -0.379002E+02    0.331361E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134936E+03   -0.417642E+02    0.331435E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133560E+03   -0.452057E+02    0.346093E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132822E+03   -0.468921E+02    0.373377E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132823E+03   -0.463180E+02    0.405438E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133444E+03   -0.437279E+02    0.432865E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134694E+03   -0.398654E+02    0.447200E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.11 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135478E+03   -0.398848E+02    0.304254E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136122E+03   -0.377402E+02    0.306407E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135675E+03   -0.393198E+02    0.289247E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135118E+03   -0.416411E+02    0.293248E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135086E+03   -0.415281E+02    0.312637E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135664E+03   -0.391245E+02    0.320528E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135982E+03   -0.371438E+02    0.331896E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136426E+03   -0.359150E+02    0.319362E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136540E+03   -0.357702E+02    0.302758E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136403E+03   -0.367018E+02    0.286561E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136052E+03   -0.384820E+02    0.274944E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135513E+03   -0.406877E+02    0.271007E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134855E+03   -0.427711E+02    0.275783E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134444E+03   -0.440610E+02    0.288622E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134321E+03   -0.442162E+02    0.305686E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134637E+03   -0.431303E+02    0.322637E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134958E+03   -0.412957E+02    0.333986E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135503E+03   -0.390768E+02    0.337490E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135892E+03   -0.370153E+02    0.360612E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136996E+03   -0.339695E+02    0.345816E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137437E+03   -0.326234E+02    0.319874E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137461E+03   -0.331259E+02    0.290430E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137030E+03   -0.353946E+02    0.264220E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135819E+03   -0.390928E+02    0.247172E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.428839E+02    0.247121E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133890E+03   -0.462393E+02    0.261039E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132862E+03   -0.480679E+02    0.286489E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132975E+03   -0.474096E+02    0.317877E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133701E+03   -0.447260E+02    0.345360E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135065E+03   -0.407551E+02    0.361591E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135039E+03   -0.388243E+02    0.443535E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.367883E+02    0.444009E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135382E+03   -0.381815E+02    0.427897E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134590E+03   -0.405890E+02    0.433002E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.405548E+02    0.452792E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135112E+03   -0.381474E+02    0.459404E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135531E+03   -0.361583E+02    0.469952E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.349543E+02    0.456317E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136380E+03   -0.346414E+02    0.439953E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135907E+03   -0.356841E+02    0.423190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135689E+03   -0.373695E+02    0.412336E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135096E+03   -0.395661E+02    0.409382E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134434E+03   -0.416338E+02    0.415619E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134079E+03   -0.428971E+02    0.429956E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133830E+03   -0.431364E+02    0.447706E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134042E+03   -0.421379E+02    0.464145E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134460E+03   -0.402898E+02    0.474749E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135061E+03   -0.380752E+02    0.476854E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135398E+03   -0.360873E+02    0.499199E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136223E+03   -0.331705E+02    0.481207E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136974E+03   -0.316821E+02    0.454690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137040E+03   -0.321288E+02    0.425096E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136419E+03   -0.344130E+02    0.399110E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135727E+03   -0.378111E+02    0.385132E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134698E+03   -0.416748E+02    0.386087E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133124E+03   -0.452254E+02    0.401708E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132430E+03   -0.468959E+02    0.430770E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132294E+03   -0.464196E+02    0.462833E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133017E+03   -0.438010E+02    0.489140E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134527E+03   -0.398147E+02    0.502714E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.98 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135656E+03   -0.400695E+02    0.245098E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136506E+03   -0.378252E+02    0.248341E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135883E+03   -0.394990E+02    0.230314E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135330E+03   -0.418247E+02    0.233950E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135247E+03   -0.417193E+02    0.253187E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135793E+03   -0.393148E+02    0.261474E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136289E+03   -0.372365E+02    0.273829E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136545E+03   -0.360963E+02    0.260824E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136928E+03   -0.358524E+02    0.244990E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136834E+03   -0.367785E+02    0.228840E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136078E+03   -0.387492E+02    0.215698E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135566E+03   -0.409569E+02    0.211595E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135107E+03   -0.429476E+02    0.216673E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134673E+03   -0.442438E+02    0.229027E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134510E+03   -0.444061E+02    0.245807E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134774E+03   -0.433276E+02    0.262904E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.413897E+02    0.275167E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135801E+03   -0.391737E+02    0.279036E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136127E+03   -0.371220E+02    0.302068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137253E+03   -0.340673E+02    0.288313E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137541E+03   -0.327949E+02    0.261962E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137431E+03   -0.333756E+02    0.231703E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137071E+03   -0.356444E+02    0.205575E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135920E+03   -0.393492E+02    0.188012E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134962E+03   -0.432576E+02    0.186852E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134181E+03   -0.464088E+02    0.201742E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133527E+03   -0.480157E+02    0.227499E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133564E+03   -0.473712E+02    0.258492E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134429E+03   -0.445988E+02    0.286751E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135314E+03   -0.408648E+02    0.302308E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.02 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    625219.793539824     
  ps_ts2 prof sum =   624866.083485152     
  trcom prof sum =    624866.083485152     
  ps_ts2 cur sum  =   8418.38848787234     
  trcom cur sum  =    8418.38848787234     
  
  antenna # iant =            2
  powecha_use(iant) =    664760.989946747     
  ps_ts2 prof sum =   664403.109082311     
  trcom prof sum =    664403.109082311     
  ps_ts2 cur sum  =   11195.6977802118     
  trcom cur sum  =    11195.6977802118     
  
  antenna # iant =            3
  powecha_use(iant) =    515739.797145068     
  ps_ts2 prof sum =   515439.943526809     
  trcom prof sum =    515439.943526809     
  ps_ts2 cur sum  =   5855.45508654684     
  trcom cur sum  =    5855.45508654684     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553461.237685154     
  ps_ts2 prof sum =   553141.164567567     
  trcom prof sum =    553141.164567567     
  ps_ts2 cur sum  =   10486.8206982351     
  trcom cur sum  =    10486.8206982351     
  
  Total ECH heating:      2357850.30066184     
  Total Current Drive:    35956.3620528661     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4595
 TA= 4.81000E+00 CPU TIME= 1.58909E-01 SECONDS.  DT= 2.27269E-03
  
 TEC1=    4.80999999999992     
 TEC2=    4.81499999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.8285808333330     
  %check_save_state: izleft hours =    67.1630555555556     
 --> plasma_hash("gframe"): TA= 4.810000E+00 NSTEP=  4595 Hash code:   73096298
 ->PRGCHK: bdy curvature ratio at t= 4.8150E+00 seconds is:  5.6298E-02
% MHDEQ: TG1=     4.810000 ; TG2=     4.815000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.1160E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6298E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.810000 TO TG2=    4.815000 @ NSTEP     4595
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524315890890D+04
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.8150E+00  4.8200E+00 total power(Watts):  2.3908E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.81500
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135369E+03   -0.388421E+02    0.388355E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135822E+03   -0.368087E+02    0.389362E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135520E+03   -0.382941E+02    0.372814E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134951E+03   -0.405982E+02    0.377524E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134986E+03   -0.404675E+02    0.397492E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135394E+03   -0.381727E+02    0.404493E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135771E+03   -0.361919E+02    0.415791E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136189E+03   -0.349814E+02    0.402263E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136700E+03   -0.346626E+02    0.386062E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.356942E+02    0.369336E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.374707E+02    0.358051E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135273E+03   -0.396662E+02    0.354651E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134831E+03   -0.416283E+02    0.360614E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134453E+03   -0.428997E+02    0.374025E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134168E+03   -0.431484E+02    0.391208E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134327E+03   -0.421597E+02    0.408073E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134703E+03   -0.403198E+02    0.419441E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135287E+03   -0.381093E+02    0.422270E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.360387E+02    0.445154E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136872E+03   -0.330259E+02    0.428820E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137240E+03   -0.317102E+02    0.401611E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.321423E+02    0.372160E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136595E+03   -0.345036E+02    0.345792E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135950E+03   -0.378966E+02    0.331354E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.417605E+02    0.331425E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.452016E+02    0.346078E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132820E+03   -0.468880E+02    0.373357E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132821E+03   -0.463139E+02    0.405431E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133443E+03   -0.437240E+02    0.432870E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134693E+03   -0.398618E+02    0.447201E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135476E+03   -0.398811E+02    0.304263E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135900E+03   -0.378356E+02    0.305778E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135673E+03   -0.393160E+02    0.289261E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135116E+03   -0.416371E+02    0.293258E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135085E+03   -0.415243E+02    0.312631E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135663E+03   -0.391208E+02    0.320524E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.371403E+02    0.331890E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136425E+03   -0.359116E+02    0.319357E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136538E+03   -0.357671E+02    0.302762E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136401E+03   -0.366982E+02    0.286576E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136049E+03   -0.384781E+02    0.274973E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135510E+03   -0.406836E+02    0.271042E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134852E+03   -0.427669E+02    0.275812E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134441E+03   -0.440568E+02    0.288637E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134320E+03   -0.442122E+02    0.305677E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134635E+03   -0.431263E+02    0.322631E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.412919E+02    0.333982E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.390732E+02    0.337477E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.370119E+02    0.360603E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.339664E+02    0.345809E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.326203E+02    0.319877E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.331226E+02    0.290443E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137027E+03   -0.353911E+02    0.264260E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135816E+03   -0.390893E+02    0.247228E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134845E+03   -0.429857E+02    0.246491E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133887E+03   -0.462347E+02    0.261088E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132859E+03   -0.480633E+02    0.286507E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.474053E+02    0.317869E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133699E+03   -0.447220E+02    0.345346E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135064E+03   -0.407514E+02    0.361576E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.03 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135038E+03   -0.388207E+02    0.443540E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135500E+03   -0.367848E+02    0.444011E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135381E+03   -0.381779E+02    0.427899E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134589E+03   -0.405852E+02    0.433006E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134450E+03   -0.405511E+02    0.452798E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135111E+03   -0.381438E+02    0.459405E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135529E+03   -0.361549E+02    0.469958E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.349509E+02    0.456320E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136379E+03   -0.346379E+02    0.439956E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135906E+03   -0.356807E+02    0.423190E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135463E+03   -0.374668E+02    0.411918E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135094E+03   -0.395625E+02    0.409379E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134432E+03   -0.416300E+02    0.415616E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133635E+03   -0.431160E+02    0.429265E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133828E+03   -0.431325E+02    0.447711E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134040E+03   -0.421340E+02    0.464150E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134458E+03   -0.402860E+02    0.474755E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135059E+03   -0.380717E+02    0.476861E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135397E+03   -0.360838E+02    0.499208E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.331672E+02    0.481216E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.316791E+02    0.454696E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.321258E+02    0.425098E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136645E+03   -0.343154E+02    0.399565E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135726E+03   -0.378077E+02    0.385124E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134696E+03   -0.416711E+02    0.386079E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133122E+03   -0.452215E+02    0.401699E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132428E+03   -0.468916E+02    0.430769E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132292E+03   -0.464153E+02    0.462835E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133015E+03   -0.437969E+02    0.489155E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134525E+03   -0.398109E+02    0.502724E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.91 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135652E+03   -0.400654E+02    0.245157E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136502E+03   -0.378215E+02    0.248392E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135879E+03   -0.394951E+02    0.230385E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135325E+03   -0.418205E+02    0.234021E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135243E+03   -0.417151E+02    0.253241E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135790E+03   -0.393107E+02    0.261522E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136286E+03   -0.372323E+02    0.273861E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136542E+03   -0.360926E+02    0.260867E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136924E+03   -0.358486E+02    0.245049E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136830E+03   -0.367748E+02    0.228910E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136073E+03   -0.387461E+02    0.215772E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135561E+03   -0.409530E+02    0.211672E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135103E+03   -0.429433E+02    0.216753E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134668E+03   -0.442392E+02    0.229106E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134506E+03   -0.444017E+02    0.245870E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134770E+03   -0.433231E+02    0.262947E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135269E+03   -0.413855E+02    0.275197E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135799E+03   -0.391698E+02    0.279062E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.371187E+02    0.302068E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137251E+03   -0.340638E+02    0.288328E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137538E+03   -0.327916E+02    0.262002E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137427E+03   -0.333722E+02    0.231769E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137066E+03   -0.356410E+02    0.205650E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135916E+03   -0.393455E+02    0.188081E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134957E+03   -0.432537E+02    0.186931E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.134176E+03   -0.464046E+02    0.201826E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133097E+03   -0.482379E+02    0.226224E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133560E+03   -0.473664E+02    0.258544E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133996E+03   -0.448163E+02    0.285530E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135312E+03   -0.408610E+02    0.302310E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.31 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    655474.944191376     
  ps_ts2 prof sum =   655098.975206991     
  trcom prof sum =    655098.975206991     
  ps_ts2 cur sum  =   8818.72517099687     
  trcom cur sum  =    8818.72517099687     
  
  antenna # iant =            2
  powecha_use(iant) =    665799.654289908     
  ps_ts2 prof sum =   665437.684158640     
  trcom prof sum =    665437.684158640     
  ps_ts2 cur sum  =   11203.6909594485     
  trcom cur sum  =    11203.6909594485     
  
  antenna # iant =            3
  powecha_use(iant) =    514918.873869737     
  ps_ts2 prof sum =   514617.208458209     
  trcom prof sum =    514617.208458209     
  ps_ts2 cur sum  =   5841.16216682645     
  trcom cur sum  =    5841.16216682645     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    554639.166017007     
  ps_ts2 prof sum =   554326.537966626     
  trcom prof sum =    554326.537966626     
  ps_ts2 cur sum  =   10498.2301954206     
  trcom cur sum  =    10498.2301954206     
  
  Total ECH heating:      2389480.40579047     
  Total Current Drive:    36361.8084926925     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4597
 TA= 4.81500E+00 CPU TIME= 1.60960E-01 SECONDS.  DT= 3.40914E-03
  
 TEC1=    4.81499999999992     
 TEC2=    4.81999999999992     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.8413455555551     
  %check_save_state: izleft hours =    67.1502777777778     
 --> plasma_hash("gframe"): TA= 4.815000E+00 NSTEP=  4597 Hash code:   17886353
 ->PRGCHK: bdy curvature ratio at t= 4.8200E+00 seconds is:  5.6298E-02
% MHDEQ: TG1=     4.815000 ; TG2=     4.820000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  9.2330E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6298E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.815000 TO TG2=    4.820000 @ NSTEP     4597
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524315890890D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.30037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.84431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.24229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.81337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.61438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.45024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.78571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.95713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.45038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.24843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.09838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      21= -2.70392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.56272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.75984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.71317E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.71317E-38 RESET TO ZERO 
  %get_lh_powers: total power < 10 mW: set to zero.
  ADAS310_INIT: /p/pshare/transp/adas                                           
                                                                                
                                                                                
                                                                                
                                                                                
                                                                                
                                                      
  %trackr(xstraln): too many re-entries, track truncated.
  %trackr(xstraln): too many re-entries, track truncated.
  %fi_finish: enter
  %fimain: eflux cpu time =   3.000001015607268E-006
 EC call, timestep(sec):  4.8200E+00  4.8250E+00 total power(Watts):  2.3870E+06
 TORAYMAIN Top: Directory changed to= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05_ecrf
 toraymain: Warning: nproftor less than nzones!
   nproftor=          41  nzones=         100
  %psiin_write: apply Psi(0) correction to Psi(R,Z)
 -------------------------------------------------
TORAY calculations for TA=         4.82000
 -------------------------------------------------
 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135368E+03   -0.388396E+02    0.388347E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135821E+03   -0.368061E+02    0.389348E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135519E+03   -0.382915E+02    0.372803E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134950E+03   -0.405956E+02    0.377515E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134985E+03   -0.404648E+02    0.397484E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135393E+03   -0.381703E+02    0.404485E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135770E+03   -0.361892E+02    0.415790E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136188E+03   -0.349791E+02    0.402257E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136699E+03   -0.346602E+02    0.386055E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136266E+03   -0.356917E+02    0.369325E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135850E+03   -0.374680E+02    0.358037E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135272E+03   -0.396635E+02    0.354634E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134830E+03   -0.416259E+02    0.360598E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134452E+03   -0.428968E+02    0.374011E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134167E+03   -0.431456E+02    0.391196E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134326E+03   -0.421570E+02    0.408064E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134702E+03   -0.403173E+02    0.419434E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135286E+03   -0.381068E+02    0.422257E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135785E+03   -0.360363E+02    0.445147E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136871E+03   -0.330238E+02    0.428810E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137239E+03   -0.317080E+02    0.401604E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137380E+03   -0.321403E+02    0.372150E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136594E+03   -0.345010E+02    0.345776E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135949E+03   -0.378940E+02    0.331328E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134934E+03   -0.417575E+02    0.331398E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.451986E+02    0.346054E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132819E+03   -0.468850E+02    0.373346E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132820E+03   -0.463110E+02    0.405420E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133441E+03   -0.437212E+02    0.432862E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134692E+03   -0.398591E+02    0.447190E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       2.28 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135475E+03   -0.398780E+02    0.304240E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135899E+03   -0.378327E+02    0.305764E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135672E+03   -0.393129E+02    0.289252E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135114E+03   -0.416338E+02    0.293245E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135084E+03   -0.415213E+02    0.312607E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135662E+03   -0.391179E+02    0.320502E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135981E+03   -0.371377E+02    0.331865E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136424E+03   -0.359089E+02    0.319338E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136537E+03   -0.357640E+02    0.302749E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136400E+03   -0.366952E+02    0.286568E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135829E+03   -0.385743E+02    0.274286E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135509E+03   -0.406802E+02    0.271033E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134851E+03   -0.427634E+02    0.275802E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134440E+03   -0.440533E+02    0.288623E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134319E+03   -0.442087E+02    0.305657E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134634E+03   -0.431233E+02    0.322603E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134956E+03   -0.412889E+02    0.333956E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135502E+03   -0.390712E+02    0.337451E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135890E+03   -0.370093E+02    0.360587E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136995E+03   -0.339638E+02    0.345790E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137435E+03   -0.326178E+02    0.319861E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137459E+03   -0.331199E+02    0.290435E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137026E+03   -0.353878E+02    0.264261E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135814E+03   -0.390854E+02    0.247241E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134843E+03   -0.429819E+02    0.246505E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133885E+03   -0.462310E+02    0.261080E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132858E+03   -0.480595E+02    0.286491E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132973E+03   -0.474020E+02    0.317840E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133699E+03   -0.447190E+02    0.345322E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135063E+03   -0.407486E+02    0.361561E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       1.00 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135037E+03   -0.388181E+02    0.443531E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.135499E+03   -0.367823E+02    0.444004E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135380E+03   -0.381755E+02    0.427889E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.134588E+03   -0.405826E+02    0.432995E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.134449E+03   -0.405484E+02    0.452786E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135109E+03   -0.381413E+02    0.459403E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.135528E+03   -0.361524E+02    0.469948E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.135910E+03   -0.349484E+02    0.456314E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136378E+03   -0.346357E+02    0.439944E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.135905E+03   -0.356781E+02    0.423191E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.135462E+03   -0.374643E+02    0.411915E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135093E+03   -0.395599E+02    0.409375E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.134431E+03   -0.416273E+02    0.415615E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.133633E+03   -0.431131E+02    0.429261E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.133827E+03   -0.431296E+02    0.447700E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134039E+03   -0.421313E+02    0.464145E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.134457E+03   -0.402834E+02    0.474742E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135058E+03   -0.380692E+02    0.476847E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.135396E+03   -0.360814E+02    0.499203E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.136221E+03   -0.331650E+02    0.481204E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.136972E+03   -0.316768E+02    0.454690E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137039E+03   -0.321236E+02    0.425093E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.136644E+03   -0.343131E+02    0.399559E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135725E+03   -0.378051E+02    0.385110E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134695E+03   -0.416683E+02    0.386068E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133121E+03   -0.452184E+02    0.401692E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.132426E+03   -0.468887E+02    0.430760E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.132290E+03   -0.464124E+02    0.462831E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.133014E+03   -0.437941E+02    0.489139E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.134524E+03   -0.398084E+02    0.502709E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.92 sec

 Running TORAY 1.95 (30 June 2016)
  resetting kj=          42  (          52 )
 Reading in namelist from toray.in ... 

 LinLiu ECCD / <B>
 
 Ray pattern = .gauss.   Number of rays =           30

 running GAFIT version 4.0 (12 July 2012)

 reading user-provided GAFIT namelist file

  TorGA_read_psiin:: nr =          129  (          65 )
  TorGA_read_psiin:: nz =          129  (          65 )
 Ray=   1  ISTOP= 7   IFLAG= 2  AT     0.135650E+03   -0.400619E+02    0.245172E+02
 Ray=   2  ISTOP= 7   IFLAG= 2  AT     0.136500E+03   -0.378180E+02    0.248406E+02
 Ray=   3  ISTOP= 7   IFLAG= 2  AT     0.135876E+03   -0.394913E+02    0.230415E+02
 Ray=   4  ISTOP= 7   IFLAG= 2  AT     0.135323E+03   -0.418166E+02    0.234049E+02
 Ray=   5  ISTOP= 7   IFLAG= 2  AT     0.135241E+03   -0.417116E+02    0.253253E+02
 Ray=   6  ISTOP= 7   IFLAG= 2  AT     0.135788E+03   -0.393075E+02    0.261516E+02
 Ray=   7  ISTOP= 7   IFLAG= 2  AT     0.136285E+03   -0.372292E+02    0.273854E+02
 Ray=   8  ISTOP= 7   IFLAG= 2  AT     0.136541E+03   -0.360893E+02    0.260872E+02
 Ray=   9  ISTOP= 7   IFLAG= 2  AT     0.136922E+03   -0.358453E+02    0.245065E+02
 Ray=  10  ISTOP= 7   IFLAG= 2  AT     0.136827E+03   -0.367713E+02    0.228944E+02
 Ray=  11  ISTOP= 7   IFLAG= 2  AT     0.136070E+03   -0.387422E+02    0.215817E+02
 Ray=  12  ISTOP= 7   IFLAG= 2  AT     0.135557E+03   -0.409489E+02    0.211720E+02
 Ray=  13  ISTOP= 7   IFLAG= 2  AT     0.135099E+03   -0.429392E+02    0.216797E+02
 Ray=  14  ISTOP= 7   IFLAG= 2  AT     0.134664E+03   -0.442353E+02    0.229139E+02
 Ray=  15  ISTOP= 7   IFLAG= 2  AT     0.134503E+03   -0.443977E+02    0.245885E+02
 Ray=  16  ISTOP= 7   IFLAG= 2  AT     0.134769E+03   -0.433195E+02    0.262942E+02
 Ray=  17  ISTOP= 7   IFLAG= 2  AT     0.135268E+03   -0.413818E+02    0.275186E+02
 Ray=  18  ISTOP= 7   IFLAG= 2  AT     0.135798E+03   -0.391666E+02    0.279051E+02
 Ray=  19  ISTOP= 7   IFLAG= 2  AT     0.136125E+03   -0.371158E+02    0.302058E+02
 Ray=  20  ISTOP= 7   IFLAG= 2  AT     0.137250E+03   -0.340611E+02    0.288319E+02
 Ray=  21  ISTOP= 7   IFLAG= 2  AT     0.137537E+03   -0.327888E+02    0.262003E+02
 Ray=  22  ISTOP= 7   IFLAG= 2  AT     0.137425E+03   -0.333691E+02    0.231799E+02
 Ray=  23  ISTOP= 7   IFLAG= 2  AT     0.137063E+03   -0.356374E+02    0.205693E+02
 Ray=  24  ISTOP= 7   IFLAG= 2  AT     0.135912E+03   -0.393412E+02    0.188141E+02
 Ray=  25  ISTOP= 7   IFLAG= 2  AT     0.134953E+03   -0.432496E+02    0.186987E+02
 Ray=  26  ISTOP= 7   IFLAG= 2  AT     0.133958E+03   -0.465096E+02    0.201161E+02
 Ray=  27  ISTOP= 7   IFLAG= 2  AT     0.133094E+03   -0.482335E+02    0.226254E+02
 Ray=  28  ISTOP= 7   IFLAG= 2  AT     0.133558E+03   -0.473624E+02    0.258542E+02
 Ray=  29  ISTOP= 7   IFLAG= 2  AT     0.134210E+03   -0.447018E+02    0.286134E+02
 Ray=  30  ISTOP= 7   IFLAG= 2  AT     0.135311E+03   -0.408579E+02    0.302297E+02
 TorGa_wrtnetcdf,  kopt=           1

 TORAY-GA         total CPU time       0.95 sec

  Generic ECH post-processing: ps2trcom_ech... 
  
  antenna # iant =            1
  powecha_use(iant) =    653207.349258241     
  ps_ts2 prof sum =   652832.566925243     
  trcom prof sum =    652832.566925243     
  ps_ts2 cur sum  =   8781.63625103519     
  trcom cur sum  =    8781.63625103519     
  
  antenna # iant =            2
  powecha_use(iant) =    664777.901564404     
  ps_ts2 prof sum =   664417.604808397     
  trcom prof sum =    664417.604808397     
  ps_ts2 cur sum  =   11176.4642196395     
  trcom cur sum  =    11176.4642196395     
  
  antenna # iant =            3
  powecha_use(iant) =    515173.435457961     
  ps_ts2 prof sum =   514872.469358263     
  trcom prof sum =    514872.469358263     
  ps_ts2 cur sum  =   5840.51070202265     
  trcom cur sum  =    5840.51070202265     
  
  antenna # iant =            4
  powecha_use(iant) =   0.000000000000000E+000
  ps_ts2 prof sum =  0.000000000000000E+000
  trcom prof sum =   0.000000000000000E+000
  ps_ts2 cur sum  =  0.000000000000000E+000
  trcom cur sum  =   0.000000000000000E+000
  
  antenna # iant =            5
  powecha_use(iant) =    553823.431945977     
  ps_ts2 prof sum =   553506.842086548     
  trcom prof sum =    553506.842086548     
  ps_ts2 cur sum  =   10470.9775576969     
  trcom cur sum  =    10470.9775576969     
  
  Total ECH heating:      2385629.48317845     
  Total Current Drive:    36269.5887303942     
 TORAYMAIN Bottom: Current directory= 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED ***         NSTEP=   4599
 TA= 4.82000E+00 CPU TIME= 1.45996E-01 SECONDS.  DT= 1.98858E-03
  
 TEC1=    4.81999999999992     
 TEC2=    4.82500000000000     
 TECON=    1.00049996376038     
 TECOFF=    5.00489997863770     
 fe_outtim(1)=   9.999999999999999E+033
 fe_outtim(2)=   9.999999999999999E+033
  
  %check_save_state: nbflag              =  T
  %check_save_state: iwrite_now          =  F
  %check_save_state: check at wall_hours =    12.8542624999995     
  %check_save_state: izleft hours =    67.1372222222222     
 --> plasma_hash("gframe"): TA= 4.820000E+00 NSTEP=  4599 Hash code:   70738044
 ->PRGCHK: bdy curvature ratio at t= 4.8250E+00 seconds is:  5.6298E-02
% MHDEQ: TG1=     4.820000 ; TG2=     4.825000 ; DTG=  5.000E-03

 * MHD EQUILIBRIUM CALCULATED, CPU TIME =  8.8260E-03 SECONDS
   DATA R*BT AT EDGE:  2.7551E+02
 ->EQBDY_CHECK: last flux surface curvature ratio is:  5.6298E-02
  %get_rygrid: no grids for Psi(R,Y)
 % GFRAME - GEOMETRY TIMESTEP TG1=    4.820000 TO TG2=    4.825000 @ NSTEP     4599
   GFRAME TG2 MOMENTS CHECKSUM:  2.4524315890890D+04
 %MFRCHK - LABEL "RMS12", #       1= -3.30037E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC12", #       1=  9.84431E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC13", #       2= -2.24229E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS13", #       2= -1.33958E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS13", #       2= -4.81337E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC14", #       4=  2.61438E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS14", #       7= -4.45024E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC14", #       4= -2.78571E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS14", #       4= -4.95713E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC15", #       6=  1.45038E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS15", #       6=  2.24843E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC15", #       5= -2.09838E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS15", #       5= -1.81033E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMC16", #      21= -2.70392E-38 RESET TO ZERO 
 %MFRCHK - LABEL "RMS16", #       8=  2.56272E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMC16", #       7=  2.75984E-38 RESET TO ZERO 
 %MFRCHK - LABEL "YMS16", #       7=  5.60403E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_SGF", #       9=  6.89685E-38 RESET TO ZERO 
 %MFRCHK - LABEL "BALE0_GF_D", #       9=  6.89685E-38 RESET TO ZERO 
 ual_close_pulse: [UALLowlevelException = Cannot find context -1 in store]
  tr_ids_eq_close: can not close IMAS output files
  
    4.2 Call trmpi_end (NORMAL EXIT) 
  
 trmpi_end2 -I- __MPI undefined 
  
    4.2 TERMINATE THE RUN (NORMAL EXIT) 
  
     CPU TIME USED (hours):  9.08665E+00
 %kill_nubeam_server: no server READY file found. 
 ------------ stderr ---------------- 
  (mpi_share_env) process myid=           0  cwd: 
 /local/tr_gdegrand/transp_compute/D3D/198927D05
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
  %depall depall_mpi_split initinal done
  %depall nuse(isb)=            0
 %depall specie #1  ->         0 -        0 (killed) +      110 (dep) =      110 ptcls.
  depall exited            0
  orball... 
  orball need           28  cx tracks
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9802565E-01 -2.6465405E+00  1.7117279E+08  9.1967778E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            1
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->        81 -        0 (killed) +      226 (dep) =      307 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3502026E-01  8.3692221E-01  1.8959483E+08  8.6170773E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            2
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       201 -        0 (killed) +      227 (dep) =      428 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.789426E+08  2.787297E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3106986E-01 -1.8558650E+00  2.7826343E+08  7.4011787E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            3
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       290 -        0 (killed) +      226 (dep) =      516 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5017213E-01  6.5497735E-01  2.7335759E+08  8.4248842E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            4
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       326 -        0 (killed) +      226 (dep) =      552 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.968962E+08  1.968689E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6903857E-01 -2.0453968E-01  1.9346024E+08  6.2429434E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            5
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       323 -        0 (killed) +      226 (dep) =      549 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1562990E-01 -1.9914759E+00  1.9347791E+08  7.7468223E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            6
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       347 -        0 (killed) +      227 (dep) =      574 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3890084E-01  3.8858922E-01  1.6865762E+08  1.3345049E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            7
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       353 -        0 (killed) +      225 (dep) =      578 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       445 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9376008E-01 -1.0783103E+00  1.9207842E+08  8.8696474E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            8
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       347 -        0 (killed) +      226 (dep) =      573 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2790786E-01 -2.9542799E+00  2.6096723E+08  6.6636273E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps            9
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       348 -        0 (killed) +      227 (dep) =      575 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0390074E-01  2.8316089E+00  1.9419733E+08  5.4315943E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           10
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       352 -        0 (killed) +      227 (dep) =      579 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0198926E-01  1.1494395E+00  2.4099721E+08  3.4738814E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           11
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       358 -        0 (killed) +      224 (dep) =      582 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6630119E-01 -2.1687958E+00  1.9606310E+08  5.6265264E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           12
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       330 -        0 (killed) +      224 (dep) =      554 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2431427E-01  2.8707225E+00  1.3782553E+08  6.4412381E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           13
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       320 -        0 (killed) +      225 (dep) =      545 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2604634E-02 -1.3716074E+00  2.6269175E+08  4.3721239E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           14
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       316 -        0 (killed) +      224 (dep) =      540 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.783433E+08  2.783227E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0455877E-01  1.3445574E+00  1.8420251E+08  9.9625754E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           15
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       325 -        0 (killed) +      225 (dep) =      550 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0200685E-01  1.5536376E+00  1.8544524E+08  9.1496286E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           16
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       328 -        0 (killed) +      226 (dep) =      554 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7277554E-01 -1.2441792E+00  2.6060926E+08  9.4075153E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           17
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       353 -        0 (killed) +      227 (dep) =      580 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4797001E-02  2.1104843E+00  1.8339460E+08  4.0477926E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           18
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       362 -        0 (killed) +      227 (dep) =      589 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9660395E-01  2.8409335E+00  1.5438450E+08 -9.1079937E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           19
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       345 -        0 (killed) +      227 (dep) =      572 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7572026E-01 -7.4005275E-01  1.5449912E+08  4.4638851E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           20
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       334 -        0 (killed) +      227 (dep) =      561 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.795964E+08  2.784606E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1599214E-01  2.5602578E-01  1.7545308E+08  9.3277608E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           21
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       334 -        0 (killed) +      226 (dep) =      560 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       518 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3157896E-01 -2.8133429E+00  2.5111617E+08  9.4454241E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           22
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       338 -        0 (killed) +      229 (dep) =      567 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8083213E-01  2.3764520E+00  1.4699909E+08  9.1362794E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           23
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       333 -        0 (killed) +      227 (dep) =      560 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.781699E+08  2.781356E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9166800E-01  1.0928125E+00  2.7159553E+08  9.7737521E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           24
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       316 -        0 (killed) +      225 (dep) =      541 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0626369E-01 -5.0968041E-01  2.6117564E+08  8.3923138E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           25
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       320 -        0 (killed) +      225 (dep) =      545 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0179165E-01  3.7685927E-01  1.6900208E+08  6.2323449E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           26
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       317 -        0 (killed) +      232 (dep) =      549 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       262 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7028128E-02 -7.2273198E-01  2.5434126E+08  9.9924624E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           27
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       341 -        0 (killed) +      230 (dep) =      571 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5623199E-01  2.0085739E+00  1.3138247E+08  6.9121079E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           28
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       347 -        0 (killed) +      228 (dep) =      575 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1625009E-01  2.7893953E+00  2.6603411E+08  7.9677725E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           29
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       358 -        0 (killed) +      228 (dep) =      586 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       545 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5591837E-01  1.5390891E+00  2.7841998E+08  9.3126958E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           30
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       327 -        0 (killed) +      224 (dep) =      551 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       397 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2146695E-01  2.1387951E+00  2.6815849E+08  9.2200332E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           31
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       317 -        0 (killed) +      222 (dep) =      539 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.786527E+08  2.786302E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8168519E-01 -2.7552425E+00  1.7508145E+08  8.1060344E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           32
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       324 -        0 (killed) +      229 (dep) =      553 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4751274E-01 -1.4815123E+00  1.4854018E+08  4.7314923E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           33
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       363 -        0 (killed) +      230 (dep) =      593 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       299 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       354 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2266637E-01  5.5559377E-01  2.4834165E+08  8.3091586E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           34
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2216E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       359 -        0 (killed) +      229 (dep) =      588 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7586296E-01  1.6000241E+00  1.5123342E+08  7.1197901E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           35
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2218E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2218E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       359 -        0 (killed) +      226 (dep) =      585 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8974463E-01  2.8188185E-01  1.5505804E+08  9.2111329E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           36
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2220E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2220E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       349 -        0 (killed) +      226 (dep) =      575 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9194855E-01 -1.3659753E+00  2.5080021E+08  5.4577458E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           37
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2226E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2226E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       364 -        0 (killed) +      227 (dep) =      591 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       297 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5533399E-01  2.1179076E-01  2.5353137E+08  8.4497614E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           38
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2232E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2232E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       366 -        0 (killed) +      232 (dep) =      598 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       342 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7862195E-01 -2.9306498E+00  1.9675896E+08  9.1376384E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           39
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2239E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2239E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       367 -        0 (killed) +      231 (dep) =      598 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       332 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4952995E-01  7.1262448E-01  2.6216023E+08  7.9817497E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           40
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2245E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2245E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       380 -        0 (killed) +      227 (dep) =      607 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2341971E-01 -2.4713867E-01  2.6872419E+08  9.4406324E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           41
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2324E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2324E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       369 -        0 (killed) +      226 (dep) =      595 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0899134E-01  2.2320047E+00  2.5541612E+08  1.4915468E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           42
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2403E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2403E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       366 -        0 (killed) +      223 (dep) =      589 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8002658E-01 -1.1791292E-01  1.8467015E+08  9.3909365E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           43
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2482E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2482E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       356 -        0 (killed) +      221 (dep) =      577 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1559350E-01 -2.5167171E+00  2.5100729E+08  9.9839354E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           44
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2560E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2560E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       337 -        0 (killed) +      227 (dep) =      564 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1815662E-01  3.1243420E+00  2.5788524E+08  5.4170164E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           45
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2642E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2642E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       363 -        0 (killed) +      227 (dep) =      590 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       605 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0614045E-01 -1.2721798E+00  1.9036745E+08  9.7229613E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           46
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2723E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2723E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       353 -        0 (killed) +      228 (dep) =      581 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9512428E-01 -1.6785990E-01  1.8725133E+08  7.7044227E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           47
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2814E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2814E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       373 -        0 (killed) +      226 (dep) =      599 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2089578E-01 -2.5469032E-01  1.8785882E+08 -1.2081780E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           48
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2905E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2905E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       349 -        0 (killed) +      227 (dep) =      576 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4683633E-01 -2.2158151E+00  1.4575616E+08  5.6715610E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           49
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.2995E+20
    nbi_getprofiles ne*dvol sum (ions):  3.2995E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       333 -        0 (killed) +      227 (dep) =      560 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5898915E-01 -2.5787878E-01  1.8471059E+08  3.0551088E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           50
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3086E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3086E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       324 -        0 (killed) +      227 (dep) =      551 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2904225E-01 -2.1844703E+00  2.7075062E+08  1.8379218E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           51
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3115E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3115E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       344 -        0 (killed) +      226 (dep) =      570 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3302976E-01  1.5187617E+00  1.5375298E+08  8.3570198E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           52
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3143E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3143E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       363 -        0 (killed) +      227 (dep) =      590 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7372308E-01  2.7712867E+00  2.7543032E+08  8.8308548E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           53
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3171E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3171E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       360 -        0 (killed) +      222 (dep) =      582 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9130244E-01 -2.2686229E+00  2.6238128E+08  6.8293680E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           54
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3199E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3199E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       354 -        0 (killed) +      222 (dep) =      576 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3820976E-01  7.6059499E-02  1.9165894E+08  8.1829276E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           55
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3236E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3236E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       370 -        0 (killed) +      224 (dep) =      594 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       399 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6460760E-02  1.2084140E+00  1.5973499E+08  1.6114621E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           56
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3273E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3273E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       352 -        0 (killed) +      226 (dep) =      578 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0761491E-01  1.5504218E+00  2.7036433E+08  8.1889921E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           57
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3337E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3337E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       375 -        0 (killed) +      226 (dep) =      601 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0285484E-01  2.7423559E+00  2.8262467E+08  9.7198163E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           58
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3400E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       383 -        0 (killed) +      226 (dep) =      609 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4078351E-01  1.6937372E+00  2.6129719E+08  6.2295472E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           59
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3464E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3464E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       377 -        0 (killed) +      225 (dep) =      602 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3331873E-01 -2.8635265E+00  1.9008729E+08  3.4317568E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           60
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3527E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3527E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       359 -        0 (killed) +      222 (dep) =      581 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       400 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       401 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       425 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1875714E-01 -1.0500106E+00  1.4165995E+08  5.5371651E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           61
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3561E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3561E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       370 -        0 (killed) +      219 (dep) =      589 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       520 never inside plasma.
 %cxline - vtor.gt.vion; vtor,vion =   2.795747E+08  2.788787E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3837200E-01  9.1103560E-01  1.9535579E+08  5.3952995E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           62
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3595E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3595E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       362 -        0 (killed) +      228 (dep) =      590 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6516075E-01  6.6813822E-01  1.4062841E+08  8.1609754E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           63
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3629E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3629E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       372 -        0 (killed) +      225 (dep) =      597 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3754274E-01  4.0722600E-01  1.7853753E+08  5.8872735E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           64
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3663E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3663E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       373 -        0 (killed) +      222 (dep) =      595 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5641844E-01 -2.8234906E-01  1.7712639E+08  6.8813651E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           65
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3712E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3712E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       374 -        0 (killed) +      224 (dep) =      598 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9234180E-01 -2.2043806E+00  1.9020579E+08  8.7869016E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           66
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3761E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3761E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       375 -        0 (killed) +      228 (dep) =      603 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5856534E-01 -2.0387210E+00  2.5517956E+08  7.0655096E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           67
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3856E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3856E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       371 -        0 (killed) +      227 (dep) =      598 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0587715E-01 -9.8896540E-01  1.9381059E+08  2.8339353E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           68
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.3950E+20
    nbi_getprofiles ne*dvol sum (ions):  3.3950E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       350 -        0 (killed) +      231 (dep) =      581 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.613182E+08  1.611297E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.612090E+08  1.611297E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3969731E-01  2.2396671E+00  1.2422952E+08  3.4845106E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           69
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4045E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4045E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       381 -        0 (killed) +      228 (dep) =      609 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.784834E+08  2.784015E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.968369E+08  1.968047E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9311444E-01 -5.8161405E-01  1.8822079E+08  9.2715775E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           70
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4139E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4139E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       378 -        0 (killed) +      225 (dep) =      603 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       270 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1187175E-01  2.3017413E+00  2.6134731E+08  5.5317129E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           71
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4230E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4230E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       378 -        0 (killed) +      223 (dep) =      601 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3660666E-01  8.9062691E-01  1.8596561E+08  8.1111960E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           72
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4321E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4321E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       373 -        0 (killed) +      224 (dep) =      597 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.783687E+08  2.782896E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7012302E-01  2.0211341E+00  1.8512181E+08  5.8301117E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           73
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4412E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4412E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       367 -        0 (killed) +      225 (dep) =      592 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        16 never inside plasma.
 %cxline - vtor.gt.vion; vtor,vion =   2.787690E+08  2.786909E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8967290E-01  5.3189511E-01  1.7887795E+08  8.6166850E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           74
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4502E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4502E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       361 -        0 (killed) +      227 (dep) =      588 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.792837E+08  2.788692E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3616706E-01 -3.0457127E+00  1.7714676E+08  7.2539856E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           75
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4605E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4605E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       375 -        0 (killed) +      229 (dep) =      604 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       558 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1422129E-01 -1.8869493E+00  2.0050080E+08  4.8821431E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           76
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4707E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4707E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       369 -        0 (killed) +      233 (dep) =      602 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6611723E-01 -2.9361501E+00  1.8278598E+08  6.6901309E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           77
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4846E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4846E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       389 -        0 (killed) +      233 (dep) =      622 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1399149E-01  8.2184367E-01  1.4239750E+08  4.5208321E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           78
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.4984E+20
    nbi_getprofiles ne*dvol sum (ions):  3.4984E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       387 -        0 (killed) +      234 (dep) =      621 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0211875E-01  2.8198591E+00  2.6085656E+08  7.4426774E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           79
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5122E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5122E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       378 -        0 (killed) +      235 (dep) =      613 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5533100E-01  2.2536646E-01  1.9166812E+08  6.0505373E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           80
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5260E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5260E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       386 -        0 (killed) +      237 (dep) =      623 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1609423E-01  2.9072878E+00  1.2682875E+08  5.1860426E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           81
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5421E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5421E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       397 -        0 (killed) +      231 (dep) =      628 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7168185E-01  2.1854600E+00  1.6104234E+08  9.4286991E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           82
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5581E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5581E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       403 -        0 (killed) +      233 (dep) =      636 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       481 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9702507E-01  1.4179393E+00  2.7064266E+08  8.8494773E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           83
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5742E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5742E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       428 -        0 (killed) +      234 (dep) =      662 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2201900E-01  1.2371055E+00  1.8287947E+08  1.2787468E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           84
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.5903E+20
    nbi_getprofiles ne*dvol sum (ions):  3.5903E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       424 -        0 (killed) +      237 (dep) =      661 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8042029E-01  2.1216478E+00  2.7507705E+08  5.8370688E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           85
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6070E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6070E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       411 -        0 (killed) +      240 (dep) =      651 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7780354E-01 -7.8907772E-01  2.8057209E+08  7.8538801E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           86
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6238E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6238E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       446 -        0 (killed) +      243 (dep) =      689 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.6165624E-01 -4.7133146E-02  1.4866759E+08  1.9025144E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           87
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6427E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6427E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       437 -        0 (killed) +      244 (dep) =      681 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5354099E-01  8.1561547E-01  1.4738674E+08  3.6146770E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           88
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6616E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6616E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       427 -        0 (killed) +      246 (dep) =      673 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6308999E-01  1.8547780E+00  1.9922660E+08  8.4737756E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           89
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6805E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6805E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       446 -        0 (killed) +      246 (dep) =      692 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3174827E-01  2.6169138E+00  1.4362192E+08 -2.9214199E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           90
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.6994E+20
    nbi_getprofiles ne*dvol sum (ions):  3.6994E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       443 -        0 (killed) +      245 (dep) =      688 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       666 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9164914E-01  5.6015515E-01  2.7307101E+08  8.5908980E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           91
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.7186E+20
    nbi_getprofiles ne*dvol sum (ions):  3.7186E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       459 -        0 (killed) +      242 (dep) =      701 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5964600E-01 -2.1791686E+00  2.0401419E+08  8.3793213E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           92
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.7378E+20
    nbi_getprofiles ne*dvol sum (ions):  3.7378E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       477 -        0 (killed) +      252 (dep) =      729 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2349118E-01 -1.1911488E+00  1.7652707E+08  3.1847593E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           93
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.7570E+20
    nbi_getprofiles ne*dvol sum (ions):  3.7570E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       486 -        0 (killed) +      247 (dep) =      733 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9855133E-01 -1.7181812E-01  1.9435711E+08  1.4913508E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           94
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.7763E+20
    nbi_getprofiles ne*dvol sum (ions):  3.7763E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       504 -        0 (killed) +      249 (dep) =      753 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5839388E-01 -2.8273944E+00  1.3673360E+08  3.0753978E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           95
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.7956E+20
    nbi_getprofiles ne*dvol sum (ions):  3.7956E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       492 -        0 (killed) +      253 (dep) =      745 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5016834E-01 -6.6447571E-01  2.6555247E+08  9.3155724E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           96
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.8150E+20
    nbi_getprofiles ne*dvol sum (ions):  3.8150E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      257 (dep) =      723 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5597547E-01 -2.2067153E+00  2.0250793E+08  9.8105174E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           97
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.8347E+20
    nbi_getprofiles ne*dvol sum (ions):  3.8347E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      258 (dep) =      724 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.973517E+08  1.971639E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4098361E-01  1.3714798E+00  2.6410022E+08  4.0266803E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           98
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.8544E+20
    nbi_getprofiles ne*dvol sum (ions):  3.8544E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      263 (dep) =      729 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       446 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       500 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9247945E-01  2.2143275E+00  1.6861266E+08  7.8131046E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps           99
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.8741E+20
    nbi_getprofiles ne*dvol sum (ions):  3.8741E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       477 -        0 (killed) +      261 (dep) =      738 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8633346E-01  1.1761407E-01  1.8292504E+08  8.9602200E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          100
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.8938E+20
    nbi_getprofiles ne*dvol sum (ions):  3.8938E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       473 -        0 (killed) +      258 (dep) =      731 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7017270E-01 -1.1752942E-01  2.7349508E+08  9.2021872E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          101
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.9153E+20
    nbi_getprofiles ne*dvol sum (ions):  3.9153E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       470 -        0 (killed) +      256 (dep) =      726 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9953941E-01 -2.8653380E+00  1.7748403E+08  4.7016546E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          102
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.9368E+20
    nbi_getprofiles ne*dvol sum (ions):  3.9368E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       486 -        0 (killed) +      257 (dep) =      743 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.974887E+08  1.971655E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.975603E+08  1.971650E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.611348E+08  1.609537E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.610702E+08  1.609537E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.610222E+08  1.609537E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8612952E-01  9.1180626E-01  1.8239967E+08  6.5124828E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          103
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.9584E+20
    nbi_getprofiles ne*dvol sum (ions):  3.9584E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       487 -        0 (killed) +      258 (dep) =      745 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       603 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8634544E-01  1.0751838E+00  2.6398861E+08  9.0437593E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          104
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 3.9799E+20
    nbi_getprofiles ne*dvol sum (ions):  3.9799E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       473 -        0 (killed) +      261 (dep) =      734 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2012350E-01 -4.9843697E-01  1.8740896E+08  8.7975777E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          105
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0006E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0006E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       478 -        0 (killed) +      264 (dep) =      742 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.970953E+08  1.970749E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6883411E-01  1.2363207E-01  1.8544380E+08  4.9184916E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          106
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0213E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0213E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      268 (dep) =      732 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       484 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0256633E-02 -1.1264036E+00  2.7412860E+08  9.7715122E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          107
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0392E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0392E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       516 -        0 (killed) +      269 (dep) =      785 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       117 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3051440E-01 -3.8609706E-01  1.5433352E+08  6.2047356E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          108
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0571E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0571E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       496 -        0 (killed) +      268 (dep) =      764 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2478752E-01 -1.8641615E+00  2.5722612E+08  7.2545954E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          109
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0751E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0751E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       502 -        0 (killed) +      271 (dep) =      773 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5818100E-01  1.2740641E+00  2.6181451E+08  4.4079690E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          110
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.0931E+20
    nbi_getprofiles ne*dvol sum (ions):  4.0931E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       483 -        0 (killed) +      270 (dep) =      753 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3241877E-01 -8.9169110E-01  2.6804776E+08  9.6372440E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          111
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1077E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1077E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       486 -        0 (killed) +      266 (dep) =      752 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8924799E-01 -2.1318842E+00  2.5813465E+08  4.2946106E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          112
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1223E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1223E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       494 -        0 (killed) +      263 (dep) =      757 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1000926E-01  1.1257104E+00  2.6054961E+08  7.6908131E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          113
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1369E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1369E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       516 -        0 (killed) +      264 (dep) =      780 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4499609E-01 -7.2560488E-01  1.6222207E+08  4.2618680E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          114
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1515E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1515E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       506 -        0 (killed) +      265 (dep) =      771 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       785 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8145612E-01  1.0086895E+00  2.5375849E+08  4.9470003E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          115
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1647E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1647E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       513 -        0 (killed) +      268 (dep) =      781 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2838472E-01 -1.1099081E+00  1.5430020E+08  3.7538233E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          116
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1778E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1778E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       494 -        0 (killed) +      271 (dep) =      765 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       670 never inside plasma.
 %cxline - vtor.gt.vion; vtor,vion =   1.971298E+08  1.970904E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7497544E-01  1.1489583E+00  1.6899029E+08  7.3275155E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          117
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1867E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1867E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       504 -        0 (killed) +      272 (dep) =      776 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.787593E+08  2.786253E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.787291E+08  2.786253E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.788410E+08  2.786253E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5911762E-01  2.9541833E-01  1.8060319E+08  8.3516108E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          118
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.1955E+20
    nbi_getprofiles ne*dvol sum (ions):  4.1955E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       503 -        0 (killed) +      270 (dep) =      773 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8973455E-01  9.6218174E-03  2.5018514E+08  4.6980399E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          119
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2043E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2043E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       520 -        0 (killed) +      270 (dep) =      790 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5331201E-01 -2.7226905E+00  2.7853578E+08  9.8962229E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          120
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2131E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2131E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       522 -        0 (killed) +      264 (dep) =      786 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.789241E+08  2.789121E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2164856E-01  2.5207273E+00  2.7435189E+08  9.3949754E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          121
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2201E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2201E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       515 -        0 (killed) +      260 (dep) =      775 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.788329E+08  2.788110E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7765215E-02  6.7887123E-03  2.7755163E+08  9.8072872E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          122
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2271E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2271E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       485 -        0 (killed) +      262 (dep) =      747 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.970822E+08  1.968518E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.968948E+08  1.968541E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0721516E-01 -1.5678324E+00  1.9758766E+08  5.8533762E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          123
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2341E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2341E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       494 -        0 (killed) +      262 (dep) =      756 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2643050E-01 -1.6248076E+00  1.6465672E+08 -1.6400316E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          124
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2411E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2411E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       512 -        0 (killed) +      261 (dep) =      773 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8244438E-01 -2.5941961E+00  2.5975672E+08  8.4042436E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          125
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2471E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2471E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       523 -        0 (killed) +      264 (dep) =      787 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.2721139E-01 -2.8294389E+00  1.7079519E+08  5.4766050E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          126
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2530E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2530E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       507 -        0 (killed) +      265 (dep) =      772 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4302907E-01 -1.6617097E+00  2.0064954E+08  5.2690075E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          127
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2559E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2559E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       490 -        0 (killed) +      265 (dep) =      755 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       647 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5485604E-01 -6.1585560E-01  2.5480704E+08 -1.1326351E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          128
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2587E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2587E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       485 -        0 (killed) +      265 (dep) =      750 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9829411E-01 -7.6986369E-01  2.0425846E+08  6.5434357E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          129
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2616E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2616E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       522 -        0 (killed) +      263 (dep) =      785 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.786247E+08  2.785080E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8335211E-01  2.2335010E+00  2.7256290E+08  9.7702220E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          130
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2644E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2644E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       489 -        0 (killed) +      257 (dep) =      746 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.973460E+08  1.969653E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.969734E+08  1.969653E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7102943E-01  1.1361456E+00  1.8476521E+08  7.1366965E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          131
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.2843E+20
    nbi_getprofiles ne*dvol sum (ions):  4.2843E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       497 -        0 (killed) +      251 (dep) =      748 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       703 never inside plasma.
 %cxline - vtor.gt.vion; vtor,vion =   2.786958E+08  2.786442E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9153388E-01  2.4300233E-01  2.6308916E+08  8.1561119E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          132
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3041E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3041E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       499 -        0 (killed) +      252 (dep) =      751 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.787137E+08  2.783846E+08
 %orball:  in processor     0: orbit # iorb=       559 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9380107E-01  3.0201868E+00  1.5025296E+08  3.7528352E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          133
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3240E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3240E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       492 -        0 (killed) +      251 (dep) =      743 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0954923E-01  6.5693780E-01  1.3829317E+08  2.8396765E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          134
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3438E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3438E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       493 -        0 (killed) +      249 (dep) =      742 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9773275E-01 -3.2123624E-01  1.5163676E+08  3.7678074E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          135
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3624E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3624E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       503 -        0 (killed) +      252 (dep) =      755 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0714996E-01  1.6628913E+00  1.4900451E+08  8.1595444E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          136
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3810E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3810E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       482 -        0 (killed) +      254 (dep) =      736 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7617224E-01  2.7615710E-02  2.5559695E+08  3.5969519E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          137
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.3958E+20
    nbi_getprofiles ne*dvol sum (ions):  4.3958E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       495 -        0 (killed) +      252 (dep) =      747 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3406384E-01 -2.5472072E-01  1.8128154E+08  8.2759469E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          138
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4105E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4105E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       502 -        0 (killed) +      249 (dep) =      751 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0062359E-01  7.4604738E-01  2.6123495E+08  9.5564999E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          139
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4253E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4253E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       507 -        0 (killed) +      247 (dep) =      754 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0684160E-01  4.6119476E-01  1.3457188E+08  1.4658051E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          140
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4400E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       508 -        0 (killed) +      241 (dep) =      749 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6553501E-01 -2.7200937E+00  2.7505318E+08  5.4571459E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          141
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4388E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4388E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       535 -        0 (killed) +      237 (dep) =      772 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.983005E+08  1.973865E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.984952E+08  1.973887E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0510663E-01  5.1757194E-01  1.8206586E+08  8.4471552E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          142
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4376E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4376E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       499 -        0 (killed) +      236 (dep) =      735 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        60 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7527131E-01 -2.0997185E+00  2.7793713E+08  7.6751418E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          143
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4364E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4364E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       487 -        0 (killed) +      230 (dep) =      717 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.783190E+08  2.781577E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7817513E-01  3.4577079E-01  2.7989883E+08  9.6118464E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          144
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4352E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4352E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       474 -        0 (killed) +      229 (dep) =      703 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.626670E+08  1.617962E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.626135E+08  1.617962E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0616420E-01 -6.3855124E-01  1.6148870E+08  8.9148594E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          145
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4338E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4338E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       455 -        0 (killed) +      235 (dep) =      690 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7695528E-01 -2.0204911E-01  2.7248633E+08  9.4414326E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          146
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4325E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4325E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       453 -        0 (killed) +      236 (dep) =      689 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7838815E-01  1.2298647E+00  1.8803715E+08  8.9530884E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          147
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4305E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4305E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       495 -        0 (killed) +      234 (dep) =      729 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7343500E-01  1.0123925E+00  2.5858650E+08  8.6280535E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          148
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4286E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4286E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       505 -        0 (killed) +      234 (dep) =      739 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1923863E-01 -2.4345577E+00  1.9099365E+08  7.0496982E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          149
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4267E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4267E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       495 -        0 (killed) +      231 (dep) =      726 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1579724E-01  4.9657534E-01  1.8825735E+08 -2.7268775E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          150
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4248E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4248E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       500 -        0 (killed) +      223 (dep) =      723 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6610160E-01  1.9341332E+00  2.8158856E+08  7.9437295E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          151
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4311E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4311E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      221 (dep) =      687 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0080318E-01  1.1607604E+00  2.7534562E+08  6.3470742E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          152
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4374E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4374E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       477 -        0 (killed) +      223 (dep) =      700 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9265883E-01  1.2296807E+00  1.3976441E+08  3.8213197E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          153
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4438E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4438E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       485 -        0 (killed) +      222 (dep) =      707 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        14 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       180 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1372049E-01  5.7971288E-01  1.4804714E+08  7.8303933E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          154
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4501E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4501E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       477 -        0 (killed) +      224 (dep) =      701 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.785131E+08  2.785092E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0434055E-01 -1.6166377E+00  2.5208425E+08  8.9641170E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          155
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4586E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4586E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       486 -        0 (killed) +      225 (dep) =      711 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0980831E-01 -1.3379580E+00  2.5897005E+08  7.8174178E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          156
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4672E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4672E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       471 -        0 (killed) +      224 (dep) =      695 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2830842E-01 -5.0403678E-01  1.5140685E+08  9.6760934E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          157
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4823E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4823E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       481 -        0 (killed) +      222 (dep) =      703 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.5846611E-02 -2.6955749E+00  2.7592422E+08  5.9429498E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          158
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.4975E+20
    nbi_getprofiles ne*dvol sum (ions):  4.4975E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       481 -        0 (killed) +      222 (dep) =      703 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.790386E+08  2.787163E+08
 %orball:  in processor     0: orbit # iorb=       681 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4144452E-01 -1.0518878E+00  1.4666651E+08  9.3447936E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          159
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5127E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5127E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      219 (dep) =      683 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.794553E+08  2.784991E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5768287E-01  2.5053073E+00  1.8384869E+08  7.7816595E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          160
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5280E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5280E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       471 -        0 (killed) +      214 (dep) =      685 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6516552E-01  2.6379968E+00  1.5325916E+08  8.0623526E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          161
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5280E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5280E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       471 -        0 (killed) +      213 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6497302E-01  1.0036313E+00  1.5553391E+08  5.9322121E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          162
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5279E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5279E+20
  %note: constrained curt @ bdy to:    594207.389621477       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      214 (dep) =      680 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5197007E-01 -5.9795534E-01  2.7194054E+08  9.4474838E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          163
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5277E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5277E+20
  %note: constrained curt @ bdy to:    596141.775590583       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      215 (dep) =      679 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7329740E-01  4.8743653E-01  2.6024935E+08  7.4555757E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          164
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5276E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5276E+20
  %note: constrained curt @ bdy to:    598136.519419029       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       471 -        0 (killed) +      220 (dep) =      691 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2875394E-01  1.1795711E+00  1.4140559E+08  4.6943542E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          165
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5292E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5292E+20
  %note: constrained curt @ bdy to:    600191.104265337       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       476 -        0 (killed) +      220 (dep) =      696 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2709691E-01 -7.2097836E-01  1.7709159E+08  2.8683909E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          166
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5308E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5308E+20
  %note: constrained curt @ bdy to:    602283.019805241       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       457 -        0 (killed) +      219 (dep) =      676 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0884727E-01  7.4462313E-01  1.4824026E+08  6.5338211E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          167
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5378E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5378E+20
  %note: constrained curt @ bdy to:    604434.805192358       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       439 -        0 (killed) +      219 (dep) =      658 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5133892E-01 -1.6200869E+00  1.4005591E+08  7.8727606E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          168
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5448E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5448E+20
  %note: constrained curt @ bdy to:    606502.522194325       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       449 -        0 (killed) +      220 (dep) =      669 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       547 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4157713E-01  1.7482387E+00  1.8671510E+08 -1.2627558E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          169
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5516E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5516E+20
  %note: constrained curt @ bdy to:    608441.723630885       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       461 -        0 (killed) +      216 (dep) =      677 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.785681E+08  2.785639E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6172684E-01  1.6953011E+00  2.7442721E+08  6.6044677E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          170
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5584E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5584E+20
  %note: constrained curt @ bdy to:    610391.792952320       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      212 (dep) =      678 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.979323E+08  1.968940E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.994106E+08  1.968940E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.977102E+08  1.968815E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.970969E+08  1.968815E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.969437E+08  1.968815E+08
 %orball:  in processor     0: orbit # iorb=       610 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1307171E-01  1.4569299E-02  2.7638216E+08  7.6654093E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          171
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5661E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5661E+20
  %note: constrained curt @ bdy to:    614971.340826669       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       462 -        0 (killed) +      211 (dep) =      673 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6474590E-01  1.8781009E+00  2.6682771E+08  7.1168925E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          172
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5737E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5737E+20
  %note: constrained curt @ bdy to:    616556.474257088       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      214 (dep) =      680 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       546 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       684 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6162522E-01 -6.2146394E-01  2.8261425E+08  9.2698519E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          173
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5812E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5812E+20
  %note: constrained curt @ bdy to:    617606.863363208       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       478 -        0 (killed) +      213 (dep) =      691 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9330810E-01  6.5727717E-01  2.5904633E+08  7.2344752E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          174
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5886E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5886E+20
  %note: constrained curt @ bdy to:    618485.501871424       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       443 -        0 (killed) +      219 (dep) =      662 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6535798E-01  1.4553903E+00  1.4433952E+08  6.3217743E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          175
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.5963E+20
    nbi_getprofiles ne*dvol sum (ions):  4.5963E+20
  %note: constrained curt @ bdy to:    619308.057194648       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       439 -        0 (killed) +      221 (dep) =      660 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4810591E-01 -2.4089196E+00  1.8583282E+08  3.4098597E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          176
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6038E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6038E+20
  %note: constrained curt @ bdy to:    620081.892888241       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       453 -        0 (killed) +      219 (dep) =      672 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7884431E-01  1.3485251E+00  2.7876721E+08  8.7284744E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          177
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6121E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6121E+20
  %note: constrained curt @ bdy to:    620785.890597329       a.
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      219 (dep) =      669 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3112323E-01  3.5470570E-02  1.8426900E+08  8.3188834E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          178
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6202E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6202E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      220 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5965011E-01  1.4865317E+00  1.8457635E+08  8.8745847E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          179
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6283E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6283E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       472 -        0 (killed) +      217 (dep) =      689 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        98 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0367762E-01 -8.6953471E-01  1.5169532E+08  5.9907837E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          180
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6363E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6363E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       489 -        0 (killed) +      212 (dep) =      701 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       355 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2626105E-01 -1.4607853E+00  1.9467988E+08  6.9517106E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          181
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6591E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6591E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       479 -        0 (killed) +      198 (dep) =      677 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       490 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8756701E-01  1.3989225E+00  2.4981345E+08  4.1070748E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          182
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.6819E+20
    nbi_getprofiles ne*dvol sum (ions):  4.6819E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       456 -        0 (killed) +      228 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.3006763E-01 -1.2404914E-01  2.5121717E+08  6.9538528E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          183
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.7048E+20
    nbi_getprofiles ne*dvol sum (ions):  4.7048E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      228 (dep) =      694 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6247486E-01 -3.1301858E-01  1.8456717E+08  1.9315751E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          184
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.7277E+20
    nbi_getprofiles ne*dvol sum (ions):  4.7277E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       435 -        0 (killed) +      230 (dep) =      665 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4940154E-01 -2.2870181E+00  1.4211873E+08 -9.5420359E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          185
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.7498E+20
    nbi_getprofiles ne*dvol sum (ions):  4.7498E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       446 -        0 (killed) +      223 (dep) =      669 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8601289E-01 -1.3104013E-01  1.5322322E+08  8.7145139E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          186
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.7719E+20
    nbi_getprofiles ne*dvol sum (ions):  4.7719E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       440 -        0 (killed) +      226 (dep) =      666 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2362716E-01 -1.9529610E-01  1.6146558E+08  5.9214637E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          187
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.7913E+20
    nbi_getprofiles ne*dvol sum (ions):  4.7913E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       449 -        0 (killed) +      226 (dep) =      675 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3946834E-01  7.9670598E-01  1.4568736E+08  4.0485055E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          188
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8108E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8108E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       459 -        0 (killed) +      227 (dep) =      686 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0724611E-01 -7.7393309E-01  2.4601258E+08  9.3008082E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          189
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8303E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8303E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       461 -        0 (killed) +      227 (dep) =      688 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8665462E-01  2.6861893E+00  1.8437038E+08 -1.2393246E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          190
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8499E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8499E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       454 -        0 (killed) +      211 (dep) =      665 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.615514E+08  1.614896E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.615250E+08  1.614896E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3401793E-01 -9.2306793E-01  1.8752256E+08  7.5018609E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          191
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8660E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8660E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       470 -        0 (killed) +      211 (dep) =      681 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2561668E-01  1.8809565E+00  1.4699706E+08  2.0081717E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          192
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8821E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8821E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       461 -        0 (killed) +      227 (dep) =      688 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.1209533E-01 -5.5634363E-01  2.6311785E+08  6.8778118E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          193
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.8982E+20
    nbi_getprofiles ne*dvol sum (ions):  4.8982E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       474 -        0 (killed) +      227 (dep) =      701 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1205788E-01 -2.2249703E+00  1.3202425E+08 -1.6680933E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          194
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9143E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9143E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       461 -        0 (killed) +      229 (dep) =      690 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3571641E-01  1.2150452E+00  2.6746730E+08  8.0332646E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          195
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9276E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9276E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       427 -        0 (killed) +      226 (dep) =      653 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5553152E-01 -4.3314679E-01  2.5007065E+08  7.1201248E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          196
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9408E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9408E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       455 -        0 (killed) +      225 (dep) =      680 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3427564E-01  2.5358974E-02  2.5501196E+08  5.4213426E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          197
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9455E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9455E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       458 -        0 (killed) +      225 (dep) =      683 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0896166E-01  2.7724086E+00  1.4230810E+08  3.7305057E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          198
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9502E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9502E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       472 -        0 (killed) +      225 (dep) =      697 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       287 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       708 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3188131E-01  3.9085629E-02  2.5521069E+08 -5.8863815E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          199
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9549E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9549E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       477 -        0 (killed) +      222 (dep) =      699 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3548248E-01  1.1759249E+00  2.8346158E+08  9.8327418E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          200
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9595E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9595E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      210 (dep) =      674 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.973966E+08  1.968352E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2343162E-01 -1.9384584E-01  1.8794972E+08  7.4659707E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          201
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9687E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9687E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       448 -        0 (killed) +      210 (dep) =      658 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1289112E-01  5.7328311E-01  2.5861769E+08  9.3668492E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          202
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9780E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9780E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      225 (dep) =      675 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8691512E-01  1.7233003E+00  2.5163183E+08  5.9242975E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          203
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9874E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9874E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      225 (dep) =      676 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2636687E-01 -1.5735724E+00  1.7473963E+08  5.6945950E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          204
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 4.9969E+20
    nbi_getprofiles ne*dvol sum (ions):  4.9969E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       470 -        0 (killed) +      227 (dep) =      697 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.298493E+08  2.296305E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8627600E-01 -2.9466793E+00  2.4733707E+08 -2.6578453E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          205
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0053E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0053E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       455 -        0 (killed) +      223 (dep) =      678 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2489399E-01  7.5670378E-01  1.4590643E+08 -2.0123612E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          206
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0137E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0137E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       458 -        0 (killed) +      223 (dep) =      681 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2408721E-01  2.6009344E+00  1.6082740E+08  5.6880136E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          207
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0188E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0188E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       462 -        0 (killed) +      223 (dep) =      685 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3365348E-01  2.0377423E+00  2.6678318E+08  6.3700403E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          208
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0240E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0240E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       479 -        0 (killed) +      222 (dep) =      701 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8678678E-01 -1.8131405E+00  1.7635275E+08 -2.8889307E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          209
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0292E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0292E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       498 -        0 (killed) +      219 (dep) =      717 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.977213E+08  1.977085E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6462641E-01 -1.4437350E+00  1.4614759E+08  4.4257081E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          210
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0345E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0345E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       493 -        0 (killed) +      207 (dep) =      700 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.790750E+08  2.782910E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6905000E-01 -3.0091778E+00  2.7313800E+08  7.3121778E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          211
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0288E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0288E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       466 -        0 (killed) +      206 (dep) =      672 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9620327E-01  3.0178596E+00  1.7275550E+08  5.5407300E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          212
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0231E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0231E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       472 -        0 (killed) +      223 (dep) =      695 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8322091E-01  7.5051205E-01  2.5502115E+08 -4.3688021E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          213
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0174E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0174E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       491 -        0 (killed) +      222 (dep) =      713 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2540430E-01  3.1352616E-01  2.5384009E+08  5.8998030E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          214
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0116E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0116E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       468 -        0 (killed) +      224 (dep) =      692 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1443529E-01 -1.7479215E+00  2.6537498E+08  5.4086004E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          215
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0077E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0077E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      220 (dep) =      671 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1627403E-01  1.2476749E+00  1.7316224E+08  1.6207723E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          216
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0038E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0038E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       464 -        0 (killed) +      220 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9673933E-01 -9.5794222E-02  1.4995485E+08  8.5479355E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          217
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0053E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0053E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       465 -        0 (killed) +      219 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6020014E-01 -1.5597124E-01  1.5472963E+08 -4.3882526E-04
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          218
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0067E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0067E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       467 -        0 (killed) +      219 (dep) =      686 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6447541E-01 -2.1248616E+00  1.5159845E+08 -3.9989961E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          219
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0082E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0082E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       490 -        0 (killed) +      216 (dep) =      706 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4531141E-01 -1.6395640E-02  2.5233660E+08 -2.0641060E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          220
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0096E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0096E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      203 (dep) =      654 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9190910E-01  1.5872434E+00  2.6894662E+08 -2.9519038E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          221
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0182E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0182E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       437 -        0 (killed) +      201 (dep) =      638 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0690514E-01  5.0290397E-01  2.5416520E+08  2.1102778E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          222
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0268E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0268E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       439 -        0 (killed) +      219 (dep) =      658 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       602 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3478861E-01 -4.9235670E-01  1.5343498E+08 -1.6785772E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          223
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0354E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0354E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       455 -        0 (killed) +      219 (dep) =      674 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8613911E-01  1.1286902E+00  1.8218035E+08  2.4592555E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          224
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0440E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0440E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       437 -        0 (killed) +      220 (dep) =      657 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5941161E-01  5.8463826E-01  1.8169205E+08 -1.5881357E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          225
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0532E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0532E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       449 -        0 (killed) +      217 (dep) =      666 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8948809E-01  2.3072478E+00  2.5833453E+08  4.4110659E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          226
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0624E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0624E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       444 -        0 (killed) +      216 (dep) =      660 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2912426E-01  4.2921054E-01  1.5426380E+08  7.6648166E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          227
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0734E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0734E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       462 -        0 (killed) +      215 (dep) =      677 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       117 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       669 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1109569E-01  1.6727488E+00  1.6336328E+08  8.8893609E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          228
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0843E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0843E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       436 -        0 (killed) +      215 (dep) =      651 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4254247E-01  2.1253773E+00  1.4941908E+08 -2.1096814E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          229
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.0953E+20
    nbi_getprofiles ne*dvol sum (ions):  5.0953E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       432 -        0 (killed) +      213 (dep) =      645 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3868768E-01 -2.3958773E+00  2.5901553E+08  3.0071462E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          230
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1063E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1063E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       432 -        0 (killed) +      200 (dep) =      632 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9772004E-01  8.8453169E-01  1.5457621E+08 -2.3589495E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          231
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1088E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1088E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       415 -        0 (killed) +      199 (dep) =      614 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2634129E-01  4.1985146E-01  1.8832167E+08  9.4845327E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          232
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1113E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1113E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       433 -        0 (killed) +      217 (dep) =      650 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       286 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5430905E-01  4.8284079E-01  2.6798100E+08  7.5411146E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          233
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1138E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1138E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       463 -        0 (killed) +      216 (dep) =      679 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8740084E-01 -2.1864435E+00  1.4919448E+08  9.8663267E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          234
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1163E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1163E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       456 -        0 (killed) +      218 (dep) =      674 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        76 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7757509E-01  2.5158143E+00  1.3750801E+08  4.9564344E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          235
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1190E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1190E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       454 -        0 (killed) +      214 (dep) =      668 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9056340E-01  2.9199126E+00  1.7342953E+08  2.4188669E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          236
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1216E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       454 -        0 (killed) +      213 (dep) =      667 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0876413E-01  3.2552676E-01  2.6621181E+08  5.9457193E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          237
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1248E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1248E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       437 -        0 (killed) +      213 (dep) =      650 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9470346E-01  5.5502065E-01  2.0226454E+08  9.4742404E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          238
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1280E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1280E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       432 -        0 (killed) +      212 (dep) =      644 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.9319720E-01 -8.2281769E-01  2.6243483E+08  9.7587151E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          239
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1311E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1311E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       447 -        0 (killed) +      211 (dep) =      658 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4913174E-01 -1.7836554E+00  1.8078524E+08  4.3155277E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          240
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1343E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1343E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       441 -        0 (killed) +      199 (dep) =      640 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       164 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       268 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1335783E-01  2.6761140E+00  2.6779543E+08  7.7183854E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          241
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1400E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       427 -        0 (killed) +      198 (dep) =      625 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1897628E-01  2.4784811E+00  2.5640978E+08 -1.1948447E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          242
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1457E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1457E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       418 -        0 (killed) +      215 (dep) =      633 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8418296E-01  3.0444415E+00  1.5007140E+08  6.1802465E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          243
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1514E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1514E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       441 -        0 (killed) +      215 (dep) =      656 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0035348E-01 -1.5477180E+00  1.7348966E+08  3.2070367E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          244
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1571E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1571E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       424 -        0 (killed) +      217 (dep) =      641 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5835787E-01 -1.6080495E+00  1.6218522E+08 -3.3781507E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          245
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1633E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1633E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       418 -        0 (killed) +      214 (dep) =      632 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5491232E-01  3.1666387E-01  2.7044862E+08  5.7632053E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          246
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1694E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1694E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       405 -        0 (killed) +      214 (dep) =      619 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4094630E-01  2.8501292E+00  2.5946655E+08  4.9711634E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          247
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1770E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1770E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       421 -        0 (killed) +      213 (dep) =      634 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9421044E-01  2.5797687E+00  1.8761680E+08  7.8919422E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          248
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1846E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1846E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       421 -        0 (killed) +      213 (dep) =      634 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.9662555E-01 -3.6346469E-01  2.6993674E+08  7.2315453E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          249
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1921E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1921E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       422 -        0 (killed) +      211 (dep) =      633 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0630679E-01 -2.7320217E+00  1.5818377E+08  5.5129862E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          250
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.1996E+20
    nbi_getprofiles ne*dvol sum (ions):  5.1996E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       409 -        0 (killed) +      198 (dep) =      607 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5040144E-01 -2.8533468E+00  1.3537398E+08 -2.1237142E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          251
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2101E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2101E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       424 -        0 (killed) +      199 (dep) =      623 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0754358E-01 -8.5803273E-01  2.6707152E+08  7.0955092E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          252
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2206E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2206E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       420 -        0 (killed) +      215 (dep) =      635 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0088443E-01  3.4644640E-01  2.6840428E+08  7.8589446E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          253
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2311E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2311E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       436 -        0 (killed) +      216 (dep) =      652 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4895954E-01 -1.6018648E+00  1.3582881E+08  4.8492472E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          254
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2415E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2415E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       428 -        0 (killed) +      218 (dep) =      646 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9710104E-01 -2.1812955E+00  2.5923381E+08  1.4092531E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          255
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2517E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2517E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       428 -        0 (killed) +      214 (dep) =      642 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6616085E-01 -5.3384919E-01  1.8330477E+08  4.6039406E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          256
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2620E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2620E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       436 -        0 (killed) +      214 (dep) =      650 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       436 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2930760E-01 -8.9024300E-01  1.5989834E+08  9.3622194E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          257
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2715E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2715E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       444 -        0 (killed) +      214 (dep) =      658 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5441617E-01 -8.4108780E-04  1.3081563E+08 -2.8990305E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          258
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2811E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2811E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      214 (dep) =      664 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       359 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9129053E-01  2.4568712E+00  1.7710551E+08  8.5021796E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          259
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.2906E+20
    nbi_getprofiles ne*dvol sum (ions):  5.2906E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       472 -        0 (killed) +      212 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1225850E-01  2.4445420E+00  2.8158301E+08  8.5375985E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          260
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3002E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3002E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       475 -        0 (killed) +      199 (dep) =      674 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0547774E-01 -2.7646459E+00  1.5378510E+08  2.6352852E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          261
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3130E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3130E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       438 -        0 (killed) +      200 (dep) =      638 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6941026E-01  1.7606035E+00  2.4915765E+08  7.9656324E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          262
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3259E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3259E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       434 -        0 (killed) +      218 (dep) =      652 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8809580E-01 -2.1536414E-01  1.8770797E+08  5.2373971E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          263
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3388E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3388E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       438 -        0 (killed) +      218 (dep) =      656 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4238160E-01 -3.8876631E-01  2.6790069E+08  8.9051555E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          264
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3517E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3517E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       436 -        0 (killed) +      220 (dep) =      656 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7092593E-01 -3.3950867E-01  2.5840187E+08  7.8595300E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          265
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3642E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3642E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       435 -        0 (killed) +      217 (dep) =      652 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1523252E-01  4.9597032E-01  1.5422220E+08 -1.5866707E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          266
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3768E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3768E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       433 -        0 (killed) +      217 (dep) =      650 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3008405E-01 -1.8156984E+00  2.7546499E+08  8.0957306E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          267
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.3884E+20
    nbi_getprofiles ne*dvol sum (ions):  5.3884E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       446 -        0 (killed) +      217 (dep) =      663 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.8989744E-01 -3.6741527E-01  2.6352226E+08  8.9553301E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          268
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4000E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4000E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       459 -        0 (killed) +      216 (dep) =      675 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5134544E-01  1.1434775E-01  2.6681575E+08  4.4402225E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          269
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4116E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4116E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      214 (dep) =      665 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0560345E-01  6.8123117E-01  1.5949730E+08  5.8851523E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          270
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4233E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4233E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      202 (dep) =      653 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3088465E-01  1.9343891E+00  2.7228641E+08  8.7341056E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          271
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4280E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4280E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      201 (dep) =      651 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9070761E-01  1.9192517E+00  2.7219218E+08  7.8154282E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          272
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4328E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4328E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       469 -        0 (killed) +      219 (dep) =      688 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5863962E-01 -9.0877649E-01  2.4270938E+08  5.1784646E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          273
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4375E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4375E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       469 -        0 (killed) +      219 (dep) =      688 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8336458E-01 -8.2720091E-01  2.6492048E+08  6.0184019E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          274
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4423E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4423E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       462 -        0 (killed) +      222 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0321890E-01 -9.9913172E-02  2.5961070E+08  3.2389393E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          275
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4471E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4471E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       429 -        0 (killed) +      219 (dep) =      648 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0945603E-01  2.5206780E+00  2.4775547E+08  2.9330753E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          276
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4520E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4520E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       435 -        0 (killed) +      218 (dep) =      653 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.9567704E-01  2.8165074E-01  1.4750550E+08  8.4544343E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          277
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4572E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4572E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       435 -        0 (killed) +      218 (dep) =      653 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1480995E-01  2.2265412E+00  2.5814636E+08  1.5930069E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          278
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4623E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4623E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      219 (dep) =      669 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2606099E-01 -1.2544706E+00  1.8423088E+08  5.4923110E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          279
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4675E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4675E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       448 -        0 (killed) +      217 (dep) =      665 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.973020E+08  1.971192E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7356463E-01  6.5125761E-01  1.8265230E+08  6.1829093E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          280
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4726E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4726E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       445 -        0 (killed) +      204 (dep) =      649 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.608497E+08  1.608060E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2009148E-01  2.9027279E+00  1.5205976E+08  1.8954747E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          281
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4805E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4805E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       432 -        0 (killed) +      205 (dep) =      637 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8461357E-01  2.8340283E+00  2.5276213E+08  5.7086490E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          282
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4883E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4883E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      223 (dep) =      674 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4102247E-01  2.6503676E-01  1.3804497E+08 -2.7189504E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          283
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.4962E+20
    nbi_getprofiles ne*dvol sum (ions):  5.4962E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       483 -        0 (killed) +      222 (dep) =      705 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8371044E-01  1.2325703E+00  2.5762003E+08  8.8036747E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          284
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5040E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5040E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       465 -        0 (killed) +      225 (dep) =      690 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5344227E-01  2.6091210E+00  1.8010115E+08  8.5597119E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          285
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5116E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5116E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       443 -        0 (killed) +      221 (dep) =      664 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7504893E-01 -7.1575462E-01  2.0165965E+08  7.9767257E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          286
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5193E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5193E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       425 -        0 (killed) +      222 (dep) =      647 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1385988E-01 -3.1202740E+00  1.6301708E+08  6.7427654E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          287
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5263E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5263E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       433 -        0 (killed) +      221 (dep) =      654 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1292379E-01  7.5106547E-01  1.6255007E+08  7.4327628E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          288
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5333E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5333E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       434 -        0 (killed) +      222 (dep) =      656 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3637148E-01  1.6589625E+00  1.6558129E+08  1.6991773E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          289
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5404E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5404E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       456 -        0 (killed) +      220 (dep) =      676 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0895044E-01  2.3447771E+00  2.8189925E+08  8.3939184E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          290
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5474E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5474E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       442 -        0 (killed) +      207 (dep) =      649 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7682501E-01 -2.0829736E+00  2.8074696E+08  5.8548785E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          291
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5533E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5533E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       441 -        0 (killed) +      207 (dep) =      648 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0248979E-01  2.6765255E+00  2.6002428E+08  7.5332728E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          292
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5592E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5592E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       442 -        0 (killed) +      225 (dep) =      667 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2109035E-01  2.8139768E+00  2.6333063E+08  7.2153699E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          293
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5651E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5651E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       441 -        0 (killed) +      226 (dep) =      667 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5578970E-01  2.2339918E+00  1.6991869E+08  4.2664685E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          294
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5710E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5710E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      228 (dep) =      679 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5291921E-01 -1.7828541E+00  1.4648622E+08 -3.9041589E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          295
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5766E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5766E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       456 -        0 (killed) +      225 (dep) =      681 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3655516E-01 -2.4573379E+00  1.5399838E+08  3.2456858E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          296
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5823E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5823E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       438 -        0 (killed) +      225 (dep) =      663 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1015329E-01  6.6427291E-01  1.7111891E+08  8.0931564E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          297
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5874E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5874E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       437 -        0 (killed) +      225 (dep) =      662 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5062015E-01 -3.0450097E+00  1.5082565E+08  9.2796649E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          298
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5924E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5924E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       448 -        0 (killed) +      225 (dep) =      673 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       439 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6258065E-01  4.1383073E-01  1.9329006E+08  7.3625685E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          299
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.5974E+20
    nbi_getprofiles ne*dvol sum (ions):  5.5974E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       442 -        0 (killed) +      224 (dep) =      666 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8552689E-01  9.9127160E-01  2.0607736E+08  7.4706555E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          300
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6025E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6025E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       452 -        0 (killed) +      212 (dep) =      664 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5072433E-01  1.8378028E+00  2.7753338E+08  4.3864300E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          301
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6072E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6072E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       447 -        0 (killed) +      211 (dep) =      658 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9424132E-01  2.6763450E+00  2.7095274E+08  5.4955559E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          302
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6119E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6119E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       465 -        0 (killed) +      229 (dep) =      694 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4790351E-01  2.6892137E+00  1.5666092E+08  1.9608845E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          303
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6167E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6167E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       453 -        0 (killed) +      229 (dep) =      682 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6940836E-01  2.6304739E+00  2.5934805E+08  7.0715484E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          304
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6214E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6214E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       452 -        0 (killed) +      232 (dep) =      684 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0970135E-01  1.6711537E-01  1.4753294E+08  4.1647529E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          305
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6256E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6256E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      229 (dep) =      680 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7595687E-01 -5.8658353E-01  1.8925888E+08  1.9483749E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          306
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6299E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6299E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       458 -        0 (killed) +      229 (dep) =      687 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2073627E-01 -4.2971240E-01  1.3201070E+08  1.3858277E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          307
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6330E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6330E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       450 -        0 (killed) +      230 (dep) =      680 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1489484E-01  1.9977052E+00  2.5098782E+08  7.0694318E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          308
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6360E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6360E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       453 -        0 (killed) +      229 (dep) =      682 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9116201E-01 -2.7121626E+00  2.7329402E+08  5.2043993E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          309
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6390E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6390E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       479 -        0 (killed) +      228 (dep) =      707 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.788098E+08  2.783392E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6257246E-01  6.2248852E-01  2.7485263E+08  6.9325114E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          310
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6420E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6420E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       459 -        0 (killed) +      215 (dep) =      674 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.791698E+08  2.788212E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1209467E-01 -1.0548129E+00  2.7770377E+08  9.5379482E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          311
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6533E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6533E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       451 -        0 (killed) +      215 (dep) =      666 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1085165E-01 -1.6405428E+00  2.6861473E+08  7.2991298E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          312
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6645E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6645E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       463 -        0 (killed) +      235 (dep) =      698 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8742891E-01 -2.5466326E+00  1.8705940E+08  7.6221358E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          313
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6757E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6757E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       488 -        0 (killed) +      235 (dep) =      723 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6554862E-01 -5.9704095E-01  2.6401744E+08  6.3837517E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          314
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6869E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6869E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       461 -        0 (killed) +      238 (dep) =      699 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5757663E-01  4.3656561E-01  1.5460032E+08  2.1702422E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          315
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.6983E+20
    nbi_getprofiles ne*dvol sum (ions):  5.6983E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       476 -        0 (killed) +      235 (dep) =      711 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8405989E-01  5.4499125E-01  2.6318718E+08  2.9720844E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          316
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7097E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7097E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       491 -        0 (killed) +      235 (dep) =      726 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4079348E-02 -1.4148463E+00  2.6129366E+08  9.3040557E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          317
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7219E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7219E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       501 -        0 (killed) +      236 (dep) =      737 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9228946E-01 -1.3695016E+00  2.6611398E+08  6.0980105E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          318
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7340E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7340E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       512 -        0 (killed) +      237 (dep) =      749 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9434004E-01 -1.2142523E+00  2.5679208E+08  6.3112350E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          319
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7462E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7462E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       512 -        0 (killed) +      234 (dep) =      746 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.2277518E-01  1.4266789E+00  1.8885673E+08  9.1213557E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          320
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7584E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7584E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       510 -        0 (killed) +      222 (dep) =      732 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8559318E-01  1.4362849E+00  2.5452535E+08  6.3098006E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          321
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7687E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7687E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       506 -        0 (killed) +      206 (dep) =      712 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0302370E-01 -9.4476751E-01  1.4987433E+08  3.0433150E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          322
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7791E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7791E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       494 -        0 (killed) +      241 (dep) =      735 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9690180E-01  2.6497335E-02  2.6379099E+08  6.9964937E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          323
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7895E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7895E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       511 -        0 (killed) +      242 (dep) =      753 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6412577E-02 -1.4835484E+00  1.7880049E+08  1.9651951E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          324
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7999E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7999E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       529 -        0 (killed) +      245 (dep) =      774 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8449648E-01  7.1143900E-01  1.3977392E+08 -5.7287225E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          325
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8093E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8093E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       506 -        0 (killed) +      242 (dep) =      748 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8614844E-01 -1.4128476E+00  1.4350326E+08  1.4854339E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          326
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8186E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8186E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       518 -        0 (killed) +      243 (dep) =      761 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4170012E-01  3.0514529E+00  1.5147069E+08  7.9412530E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          327
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8246E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8246E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       507 -        0 (killed) +      243 (dep) =      750 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3015573E-01  2.8138760E+00  1.5860376E+08  5.5584922E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          328
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8306E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8306E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       549 -        0 (killed) +      244 (dep) =      793 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5408881E-01 -2.9266191E+00  1.4314974E+08  8.7828809E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          329
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8366E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8366E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       530 -        0 (killed) +      238 (dep) =      768 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3542831E-01 -1.9353287E+00  1.8512188E+08 -3.0379118E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          330
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8427E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8427E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       522 -        0 (killed) +      229 (dep) =      751 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7772942E-01 -7.1862890E-01  2.7739627E+08  9.9468879E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          331
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8421E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8421E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       538 -        0 (killed) +      194 (dep) =      732 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1594515E-01  1.9220080E+00  1.7496749E+08 -7.3766448E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          332
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8414E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8414E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       509 -        0 (killed) +      250 (dep) =      759 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4321300E-01 -4.7976965E-01  1.1007355E+08 -8.0478564E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          333
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8407E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8407E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       553 -        0 (killed) +      250 (dep) =      803 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0919441E-01 -3.7151643E-01  2.5984087E+08  1.6138924E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          334
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8400E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       545 -        0 (killed) +      253 (dep) =      798 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1938437E-01  9.0300642E-01  1.6275002E+08  4.9751730E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          335
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8391E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8391E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       535 -        0 (killed) +      250 (dep) =      785 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9597204E-01 -2.1472407E-01  1.2783205E+08  7.6891148E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          336
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8381E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8381E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       542 -        0 (killed) +      250 (dep) =      792 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9935050E-02  3.0236447E-01  1.8615875E+08 -3.6275953E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          337
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8367E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8367E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       561 -        0 (killed) +      251 (dep) =      812 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.1059150E-01  5.4485107E-01  1.5751892E+08  8.9844409E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          338
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8353E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8353E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       547 -        0 (killed) +      253 (dep) =      800 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0818116E-01  7.8989034E-01  1.5189006E+08  5.8957186E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          339
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8339E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8339E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       594 -        0 (killed) +      254 (dep) =      848 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.7630471E-01  3.5020975E-02  2.4606955E+08  3.9323585E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          340
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8325E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8325E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      236 (dep) =      838 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       358 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5273791E-01 -2.1814937E+00  2.7057558E+08  8.6624978E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          341
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8347E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8347E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      174 (dep) =      769 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.9880020E-01  9.7178979E-01  2.6668680E+08  9.1025395E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          342
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8370E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8370E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       526 -        0 (killed) +      230 (dep) =      756 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2768397E-01 -2.5940508E+00  1.5092625E+08  4.5480515E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          343
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8393E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8393E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       537 -        0 (killed) +      256 (dep) =      793 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0208261E-01  2.6242473E+00  2.5497999E+08  2.3643922E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          344
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8416E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8416E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       549 -        0 (killed) +      259 (dep) =      808 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4523868E-01 -2.4983405E+00  2.6015690E+08  8.9077649E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          345
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8432E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8432E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       566 -        0 (killed) +      255 (dep) =      821 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8444434E-01 -2.5059094E+00  2.5185098E+08 -5.8583864E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          346
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8447E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8447E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       564 -        0 (killed) +      256 (dep) =      820 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9288334E-01  4.1682866E-01  2.7098511E+08  2.2840605E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          347
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8444E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8444E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       567 -        0 (killed) +      253 (dep) =      820 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7092000E-01  1.2816458E+00  1.4559599E+08  4.2822798E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          348
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8440E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8440E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       574 -        0 (killed) +      257 (dep) =      831 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3950702E-01 -1.1646913E+00  2.7149792E+08  7.2732592E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          349
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8436E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8436E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       588 -        0 (killed) +      255 (dep) =      843 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.788764E+08  2.784335E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6176035E-01  2.2250969E+00  2.7882155E+08  7.4045390E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          350
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8432E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8432E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       571 -        0 (killed) +      240 (dep) =      811 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.786419E+08  2.786006E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.791939E+08  2.786006E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8752652E-01  1.6567559E+00  2.7500028E+08  9.9646092E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          351
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8416E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8416E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       559 -        0 (killed) +      200 (dep) =      759 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1740763E-01 -3.4949730E-01  2.6695687E+08  3.1796352E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          352
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8400E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       538 -        0 (killed) +      256 (dep) =      794 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7724942E-01  7.0021116E-01  1.7520726E+08  7.9602017E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          353
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8384E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8384E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       583 -        0 (killed) +      261 (dep) =      844 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1490876E-01  1.0582210E+00  1.4205306E+08  4.6650751E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          354
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8368E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8368E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       590 -        0 (killed) +      264 (dep) =      854 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       653 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4013387E-01  3.9943716E-01  1.4346848E+08 -1.2907567E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          355
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8348E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8348E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       585 -        0 (killed) +      260 (dep) =      845 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7046159E-01 -9.3113938E-02  1.2361548E+08 -1.8378444E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          356
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8327E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8327E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      259 (dep) =      861 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6787531E-01 -8.4454870E-01  2.5717175E+08  1.0086627E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          357
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8294E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8294E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       592 -        0 (killed) +      260 (dep) =      852 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7547134E-01 -1.9446285E+00  2.5552165E+08  6.8901997E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          358
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8260E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8260E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      260 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4354105E-01 -1.0011753E+00  2.7102973E+08  9.7734972E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          359
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8227E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8227E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      257 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5638362E-01  1.3170374E+00  1.5046669E+08  3.1806989E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          360
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8193E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8193E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       621 -        0 (killed) +      242 (dep) =      863 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        72 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0541606E-01  1.2511233E+00  1.8772410E+08  6.7793489E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          361
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8125E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8125E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       589 -        0 (killed) +      200 (dep) =      789 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3833222E-01  1.1105528E-02  2.6622475E+08  4.9460202E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          362
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8057E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8057E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       537 -        0 (killed) +      261 (dep) =      798 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6943787E-01 -1.6550469E+00  2.6109960E+08  5.7916364E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          363
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7990E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7990E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       590 -        0 (killed) +      261 (dep) =      851 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0655133E-01 -1.5317166E+00  1.5146558E+08  4.3944826E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          364
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7922E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7922E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       586 -        0 (killed) +      263 (dep) =      849 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6100011E-01  1.2508890E+00  1.8988451E+08  2.9409710E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          365
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7859E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7859E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       575 -        0 (killed) +      259 (dep) =      834 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3895573E-01  1.2400823E-01  1.9843116E+08  3.6997433E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          366
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7795E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7795E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       594 -        0 (killed) +      258 (dep) =      852 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7388804E-01 -2.1996862E+00  2.4766080E+08  6.6736237E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          367
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7742E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7742E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       599 -        0 (killed) +      257 (dep) =      856 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9491606E-01  1.3534815E+00  2.4912158E+08  2.6878397E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          368
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7689E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7689E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       605 -        0 (killed) +      257 (dep) =      862 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9364644E-01  1.0068504E+00  2.6564533E+08  6.7451126E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          369
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7637E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7637E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      253 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5648861E-01 -1.9568314E+00  2.7949799E+08  5.9951467E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          370
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7584E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7584E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       605 -        0 (killed) +      238 (dep) =      843 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4248846E-01  2.0791306E+00  1.3991432E+08  7.2981658E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          371
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7600E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7600E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       596 -        0 (killed) +      196 (dep) =      792 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6273274E-01  2.5021069E+00  2.6198530E+08  7.2314767E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          372
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7616E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7616E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       535 -        0 (killed) +      257 (dep) =      792 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5659257E-01 -5.9032713E-02  1.2640265E+08 -9.5093627E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          373
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7631E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7631E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       580 -        0 (killed) +      256 (dep) =      836 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1259376E-01 -2.3755600E+00  1.7509645E+08  3.7821882E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          374
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7647E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7647E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       587 -        0 (killed) +      257 (dep) =      844 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3717108E-01 -1.9955363E+00  1.8935371E+08 -3.5001853E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          375
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7674E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7674E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       574 -        0 (killed) +      253 (dep) =      827 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3027571E-01  1.6381490E+00  1.6876634E+08 -4.1450760E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          376
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7702E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7702E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       584 -        0 (killed) +      252 (dep) =      836 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0840328E-01  2.8909774E+00  2.2892432E+08  1.0237847E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          377
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7763E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7763E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       597 -        0 (killed) +      251 (dep) =      848 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       322 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       467 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3224086E-01  1.1715692E+00  1.8172571E+08  7.9628861E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          378
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7825E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7825E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       600 -        0 (killed) +      251 (dep) =      851 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7930929E-01 -6.9180608E-01  1.4913701E+08  2.7889993E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          379
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7887E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7887E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       609 -        0 (killed) +      248 (dep) =      857 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7083382E-01  9.9228587E-01  1.4728204E+08 -2.8379105E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          380
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7949E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7949E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       603 -        0 (killed) +      233 (dep) =      836 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0774183E-01  2.2599540E+00  2.8970414E+08  7.4940224E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          381
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7955E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7955E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       589 -        0 (killed) +      196 (dep) =      785 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7262068E-01 -2.9463931E+00  2.5596380E+08  8.1146800E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          382
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7961E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7961E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       559 -        0 (killed) +      248 (dep) =      807 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3709449E-01 -2.4217760E-01  1.7031806E+08  4.8327255E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          383
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7967E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7967E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       561 -        0 (killed) +      249 (dep) =      810 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9555002E-01 -2.3530986E-01  1.6067037E+08  8.0017833E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          384
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7973E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7973E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       547 -        0 (killed) +      251 (dep) =      798 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        89 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3287330E-01  2.0629289E+00  1.4446797E+08 -4.2615527E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          385
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.7990E+20
    nbi_getprofiles ne*dvol sum (ions):  5.7990E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       542 -        0 (killed) +      247 (dep) =      789 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       476 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1747640E-01 -4.2395485E-01  1.3957149E+08  5.9548318E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          386
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8007E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8007E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       542 -        0 (killed) +      245 (dep) =      787 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3831731E-01 -1.4188903E+00  1.5609049E+08 -1.2566805E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          387
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8056E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8056E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       549 -        0 (killed) +      245 (dep) =      794 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7190674E-01  2.0693838E-01  1.6585956E+08  4.8899989E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          388
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8105E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8105E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       582 -        0 (killed) +      245 (dep) =      827 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8291894E-01 -1.1398830E-01  2.6565030E+08  5.8584407E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          389
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8153E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8153E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       581 -        0 (killed) +      242 (dep) =      823 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4200253E-01 -1.6314758E+00  1.8164709E+08  9.5110183E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          390
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8202E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8202E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       534 -        0 (killed) +      227 (dep) =      761 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5132235E-01 -3.0773411E+00  1.6212721E+08  6.5842182E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          391
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8260E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8260E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       539 -        0 (killed) +      204 (dep) =      743 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9634436E-01  2.2245098E+00  1.3692454E+08 -1.3143729E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          392
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8318E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8318E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       520 -        0 (killed) +      245 (dep) =      765 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2014589E-01 -6.2494029E-01  2.6321437E+08  4.8857879E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          393
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8377E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8377E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       568 -        0 (killed) +      245 (dep) =      813 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7564879E-01 -2.3078820E+00  2.5414777E+08  8.7594153E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          394
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8434E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8434E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       563 -        0 (killed) +      247 (dep) =      810 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0189266E-01 -2.6199604E+00  1.5110077E+08  6.7441352E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          395
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8491E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8491E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       548 -        0 (killed) +      242 (dep) =      790 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1466476E-01  7.5011369E-01  2.6790344E+08  5.4880395E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          396
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8547E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8547E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       558 -        0 (killed) +      242 (dep) =      800 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5464927E-01  9.7994761E-01  2.6845245E+08  9.8422395E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          397
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8599E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8599E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       544 -        0 (killed) +      242 (dep) =      786 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8526738E-01  2.6744566E+00  1.5735198E+08  5.5899278E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          398
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8651E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8651E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       571 -        0 (killed) +      241 (dep) =      812 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6124165E-01  1.3675584E+00  2.7030202E+08  4.3209765E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          399
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8702E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8702E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       585 -        0 (killed) +      240 (dep) =      825 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9376083E-01 -8.6733006E-01  2.5357731E+08  7.1186775E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          400
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8754E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8754E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       558 -        0 (killed) +      226 (dep) =      784 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5558655E-01  2.2485894E+00  1.4566896E+08 -5.2199098E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          401
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8793E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8793E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       582 -        0 (killed) +      182 (dep) =      764 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.9813143E-01  2.4467147E+00  1.8563643E+08  7.2488077E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          402
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8831E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8831E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       508 -        0 (killed) +      244 (dep) =      752 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5519048E-01 -7.3215966E-01  1.8248460E+08 -5.2121913E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          403
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8870E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8870E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       540 -        0 (killed) +      244 (dep) =      784 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       767 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     9.7688658E-02 -8.4409034E-01  1.8384366E+08  7.7893402E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          404
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8909E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8909E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       533 -        0 (killed) +      247 (dep) =      780 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0729527E-01 -4.1767402E-02  1.3046591E+08  1.8057677E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          405
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8950E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8950E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       540 -        0 (killed) +      243 (dep) =      783 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9626091E-01  2.9701833E+00  2.6328695E+08  4.2290791E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          406
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.8990E+20
    nbi_getprofiles ne*dvol sum (ions):  5.8990E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       547 -        0 (killed) +      243 (dep) =      790 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2874574E-01 -1.3023338E-01  1.7082776E+08  4.7318026E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          407
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9036E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9036E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       558 -        0 (killed) +      244 (dep) =      802 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2843688E-01  1.6813368E-02  2.5976421E+08 -1.6906653E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          408
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9082E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9082E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       544 -        0 (killed) +      244 (dep) =      788 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8767477E-01 -8.1715862E-02  1.9607664E+08  6.1188664E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          409
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9128E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9128E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       546 -        0 (killed) +      241 (dep) =      787 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0538644E-01 -3.3454613E-01  1.5095160E+08  2.4738693E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          410
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9174E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9174E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       561 -        0 (killed) +      224 (dep) =      785 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.1505837E-01  4.3920575E-02  2.7715997E+08  6.4935976E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          411
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9251E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9251E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       544 -        0 (killed) +      208 (dep) =      752 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7985440E-01  8.7349014E-02  2.6216031E+08  1.1961759E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          412
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9327E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9327E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       517 -        0 (killed) +      248 (dep) =      765 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.0707845E-02 -3.1247381E+00  2.5141340E+08  1.2173787E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          413
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9404E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9404E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       542 -        0 (killed) +      248 (dep) =      790 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7530904E-01  6.9034274E-01  2.6085928E+08  2.0092949E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          414
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9479E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9479E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       546 -        0 (killed) +      250 (dep) =      796 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2091278E-01 -1.9241679E+00  1.5401476E+08  2.9036765E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          415
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9561E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9561E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       552 -        0 (killed) +      247 (dep) =      799 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       710 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7442748E-01  1.9460062E+00  2.5846513E+08  5.2280751E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          416
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9642E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9642E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       550 -        0 (killed) +      246 (dep) =      796 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1558200E-01  2.7257952E+00  1.3681399E+08  4.2251066E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          417
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9741E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9741E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       565 -        0 (killed) +      247 (dep) =      812 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0545530E-01 -6.8888221E-01  2.5509426E+08 -4.5586541E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          418
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9840E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9840E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       567 -        0 (killed) +      247 (dep) =      814 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5854316E-01  1.3782254E+00  1.6976038E+08  2.8442403E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          419
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 5.9938E+20
    nbi_getprofiles ne*dvol sum (ions):  5.9938E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       577 -        0 (killed) +      245 (dep) =      822 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5646957E-01 -1.4964140E+00  2.7362594E+08  9.0312281E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          420
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0036E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0036E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       576 -        0 (killed) +      232 (dep) =      808 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5904226E-01  3.9517782E-01  2.6616512E+08 -1.1292595E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          421
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0115E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0115E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       576 -        0 (killed) +      231 (dep) =      807 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2103844E-01 -1.3421093E-01  1.9315094E+08 -4.0296143E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          422
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0193E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0193E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       565 -        0 (killed) +      233 (dep) =      798 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6196843E-01 -9.4694060E-01  2.7353341E+08  6.6053538E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          423
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0270E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0270E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       576 -        0 (killed) +      235 (dep) =      811 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4203417E-01 -2.8813123E+00  1.8578927E+08  6.6013182E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          424
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0348E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0348E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       581 -        0 (killed) +      240 (dep) =      821 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6830398E-01 -1.1891827E+00  1.6149014E+08  2.2755222E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          425
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0428E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0428E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       588 -        0 (killed) +      242 (dep) =      830 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5046821E-01  1.2706301E+00  2.4561200E+08  2.7875353E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          426
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0507E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0507E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       577 -        0 (killed) +      241 (dep) =      818 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1206291E-01 -2.7346321E-01  2.6221068E+08  7.9422637E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          427
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0593E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0593E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      243 (dep) =      838 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3791795E-01 -1.2157966E+00  2.6810027E+08  4.4124569E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          428
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0679E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0679E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       573 -        0 (killed) +      244 (dep) =      817 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3704100E-01 -2.0093136E+00  1.8617345E+08  9.3616994E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          429
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0765E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0765E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       596 -        0 (killed) +      239 (dep) =      835 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       870 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4107285E-01 -4.6369215E-01  1.5329471E+08  1.7374283E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          430
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0851E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0851E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       581 -        0 (killed) +      232 (dep) =      813 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1637904E-01 -2.5034005E-01  1.6050612E+08  1.4797506E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          431
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.0976E+20
    nbi_getprofiles ne*dvol sum (ions):  6.0976E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       560 -        0 (killed) +      232 (dep) =      792 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4300525E-01  6.3549499E-01  1.8925373E+08  4.3806236E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          432
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1102E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1102E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       575 -        0 (killed) +      230 (dep) =      805 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2785124E-01  1.1280719E+00  1.5871193E+08  7.3335829E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          433
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1228E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1228E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       582 -        0 (killed) +      230 (dep) =      812 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4803850E-01 -2.2443279E+00  1.9909290E+08  7.8709974E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          434
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1354E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1354E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       586 -        0 (killed) +      244 (dep) =      830 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6565623E-01  1.7283206E+00  1.5396597E+08  2.2253933E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          435
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1483E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1483E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       599 -        0 (killed) +      245 (dep) =      844 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3438429E-01 -1.4436395E+00  2.4974859E+08  6.6224890E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          436
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1613E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1613E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       580 -        0 (killed) +      245 (dep) =      825 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       379 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0048043E-01  3.0125789E-01  1.9147486E+08  2.2912641E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          437
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1753E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1753E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       592 -        0 (killed) +      245 (dep) =      837 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5852082E-01  2.8943912E+00  2.8079685E+08  7.9686257E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          438
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.1893E+20
    nbi_getprofiles ne*dvol sum (ions):  6.1893E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       610 -        0 (killed) +      245 (dep) =      855 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       565 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5334609E-01  1.4704088E+00  2.6735499E+08  7.5093487E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          439
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2033E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2033E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       580 -        0 (killed) +      241 (dep) =      821 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6605037E-02  4.3819106E-01  2.9080171E+08  9.9247795E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          440
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2174E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2174E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       558 -        0 (killed) +      236 (dep) =      794 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5438492E-01 -8.2037329E-01  1.4435914E+08  6.0041278E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          441
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2256E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2256E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       559 -        0 (killed) +      236 (dep) =      795 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3670314E-01  3.4332717E-01  2.5684416E+08 -5.9599897E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          442
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2339E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2339E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       562 -        0 (killed) +      239 (dep) =      801 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.978431E+08  1.974089E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2000184E-01  1.3239889E+00  2.8529801E+08  9.7217510E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          443
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2421E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2421E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       579 -        0 (killed) +      240 (dep) =      819 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9690074E-01 -2.4910898E+00  1.3891531E+08 -2.9026893E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          444
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2503E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2503E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      246 (dep) =      841 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3029306E-01 -1.3012108E+00  1.4413225E+08 -2.7116234E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          445
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2596E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2596E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       594 -        0 (killed) +      248 (dep) =      842 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.6040201E-01 -5.5287932E-01  2.6169961E+08  8.2503052E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          446
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2688E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2688E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       574 -        0 (killed) +      247 (dep) =      821 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.4631726E-02  2.1711030E+00  2.5618020E+08  9.6594760E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          447
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2811E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2811E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       537 -        0 (killed) +      247 (dep) =      784 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0669600E-01  7.2741870E-03  1.8491862E+08  6.7566933E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          448
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.2934E+20
    nbi_getprofiles ne*dvol sum (ions):  6.2934E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       555 -        0 (killed) +      248 (dep) =      803 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6018548E-01 -5.6590532E-01  2.6008633E+08  5.7612779E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          449
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.3057E+20
    nbi_getprofiles ne*dvol sum (ions):  6.3057E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       566 -        0 (killed) +      244 (dep) =      810 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       686 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7454130E-01  2.7230187E+00  1.8850755E+08  1.6876728E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          450
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.3179E+20
    nbi_getprofiles ne*dvol sum (ions):  6.3179E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       539 -        0 (killed) +      239 (dep) =      778 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       148 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4825754E-01 -4.8850865E-01  2.8473182E+08  9.5100675E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          451
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.3388E+20
    nbi_getprofiles ne*dvol sum (ions):  6.3388E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       541 -        0 (killed) +      239 (dep) =      780 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9524382E-01 -6.2667069E-01  1.8649760E+08  6.4483403E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          452
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.3596E+20
    nbi_getprofiles ne*dvol sum (ions):  6.3596E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       553 -        0 (killed) +      242 (dep) =      795 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5452056E-01 -2.8601456E+00  1.9778809E+08  5.7036714E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          453
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.3805E+20
    nbi_getprofiles ne*dvol sum (ions):  6.3805E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       566 -        0 (killed) +      242 (dep) =      808 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7789137E-01  1.0474861E+00  2.7008710E+08  9.0377043E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          454
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.4013E+20
    nbi_getprofiles ne*dvol sum (ions):  6.4013E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       534 -        0 (killed) +      250 (dep) =      784 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2134870E-01  3.0974952E+00  2.9055281E+08  8.2277191E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          455
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.4230E+20
    nbi_getprofiles ne*dvol sum (ions):  6.4230E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       555 -        0 (killed) +      249 (dep) =      804 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2805977E-01 -2.0739967E+00  2.5234773E+08  6.9400604E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          456
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.4446E+20
    nbi_getprofiles ne*dvol sum (ions):  6.4446E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       540 -        0 (killed) +      251 (dep) =      791 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0783855E-01  2.2850168E+00  2.5697238E+08  8.6924782E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          457
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.4685E+20
    nbi_getprofiles ne*dvol sum (ions):  6.4685E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       544 -        0 (killed) +      249 (dep) =      793 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1481151E-01 -5.6116734E-01  1.4910487E+08  1.6384066E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          458
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.4924E+20
    nbi_getprofiles ne*dvol sum (ions):  6.4924E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       542 -        0 (killed) +      252 (dep) =      794 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1157713E-01  5.7679209E-01  2.8123270E+08  5.2515471E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          459
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5164E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5164E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       549 -        0 (killed) +      251 (dep) =      800 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2737838E-01  1.2203686E+00  2.0527275E+08  6.4104781E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          460
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5403E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5403E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       546 -        0 (killed) +      248 (dep) =      794 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1070823E-01 -5.8861535E-01  1.4144809E+08  5.3167162E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          461
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5480E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5480E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       540 -        0 (killed) +      249 (dep) =      789 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0820002E-01 -1.2790851E+00  1.7602314E+08 -2.8602318E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          462
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5556E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5556E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       555 -        0 (killed) +      252 (dep) =      807 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1876309E-01 -5.1499043E-02  2.1262228E+08  9.2559387E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          463
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5631E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5631E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       559 -        0 (killed) +      253 (dep) =      812 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7124687E-01  6.6093504E-01  1.3491263E+08 -1.3472763E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          464
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5706E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5706E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       589 -        0 (killed) +      252 (dep) =      841 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6061791E-01  1.3038513E+00  1.6546051E+08  5.2420175E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          465
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5766E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5766E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       560 -        0 (killed) +      254 (dep) =      814 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.8866289E-01 -5.5049977E-01  2.7619830E+08  9.3078533E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          466
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5825E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5825E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       553 -        0 (killed) +      254 (dep) =      807 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7502212E-01 -5.2603773E-01  1.3615759E+08 -6.1361796E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          467
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5838E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5838E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       574 -        0 (killed) +      254 (dep) =      828 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9218523E-01 -2.4049188E+00  2.5492866E+08  9.2986580E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          468
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5852E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5852E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       575 -        0 (killed) +      255 (dep) =      830 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5221998E-01  4.5358789E-01  2.8835946E+08  7.4096415E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          469
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5864E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5864E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       568 -        0 (killed) +      255 (dep) =      823 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1744861E-01 -8.7001801E-01  2.1241980E+08  4.4433695E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          470
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.5877E+20
    nbi_getprofiles ne*dvol sum (ions):  6.5877E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       564 -        0 (killed) +      250 (dep) =      814 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9498520E-01  1.8832262E+00  2.6081948E+08  8.2909441E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          471
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6063E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6063E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       591 -        0 (killed) +      250 (dep) =      841 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4933244E-01 -2.3249074E+00  1.8912377E+08 -7.5196087E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          472
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6250E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6250E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       581 -        0 (killed) +      254 (dep) =      835 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1097048E-01 -2.3150097E+00  1.6761972E+08  4.8429673E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          473
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6437E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6437E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       590 -        0 (killed) +      257 (dep) =      847 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8793222E-01  3.1163222E+00  2.7295650E+08  2.8563190E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          474
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6624E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6624E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      256 (dep) =      871 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       143 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0589607E-01 -4.1682730E-01  2.0183279E+08  6.4802475E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          475
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6793E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6793E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       583 -        0 (killed) +      256 (dep) =      839 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2541526E-01 -1.1260635E-02  2.6404903E+08  3.2331987E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          476
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6963E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6963E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       593 -        0 (killed) +      259 (dep) =      852 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9052354E-01  2.1426164E+00  2.7542273E+08  7.5301661E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          477
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7079E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7079E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       570 -        0 (killed) +      259 (dep) =      829 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3611374E-01  2.5009015E+00  1.4640008E+08 -1.1372995E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          478
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7195E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7195E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       556 -        0 (killed) +      257 (dep) =      813 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6469545E-01 -2.5466133E+00  1.5626020E+08  6.0825099E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          479
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7311E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7311E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       554 -        0 (killed) +      259 (dep) =      813 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9040799E-01 -1.4291211E+00  2.7582135E+08  4.2062322E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          480
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7428E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7428E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       555 -        0 (killed) +      253 (dep) =      808 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        95 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5360488E-01 -2.7069657E+00  1.6970598E+08  4.7301598E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          481
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7490E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7490E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       550 -        0 (killed) +      253 (dep) =      803 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.3725575E-02  2.5850068E+00  2.7837768E+08  9.9402251E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          482
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7552E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7552E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       559 -        0 (killed) +      257 (dep) =      816 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8099116E-02  2.6948440E+00  2.8713150E+08  6.7454558E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          483
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7614E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7614E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       566 -        0 (killed) +      259 (dep) =      825 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5483958E-01  1.0557047E+00  1.9600991E+08  6.3050214E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          484
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7676E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7676E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       568 -        0 (killed) +      260 (dep) =      828 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6078869E-01 -5.9914334E-01  1.7327441E+08  4.6130167E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          485
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7728E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7728E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       556 -        0 (killed) +      261 (dep) =      817 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0308444E-01 -1.9107922E+00  1.4421286E+08 -2.8592940E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          486
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7780E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7780E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       589 -        0 (killed) +      261 (dep) =      850 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5609880E-01 -3.0662767E+00  1.8782729E+08  3.6944079E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          487
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7803E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7803E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       610 -        0 (killed) +      260 (dep) =      870 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3234711E-01 -3.0885621E+00  2.5401449E+08 -5.4044481E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          488
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7826E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7826E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      260 (dep) =      855 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7944252E-01  5.0720607E-01  1.8116519E+08 -3.2056215E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          489
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7849E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7849E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       607 -        0 (killed) +      259 (dep) =      866 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       260 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4156925E-01  2.4638576E+00  1.9401238E+08  2.2942549E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          490
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7872E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7872E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      255 (dep) =      853 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1955495E-01 -1.1452264E+00  2.6038545E+08  3.0736349E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          491
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7909E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7909E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       591 -        0 (killed) +      255 (dep) =      846 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3779501E-01 -1.1993004E+00  1.5657348E+08 -7.2582483E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          492
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7946E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7946E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       585 -        0 (killed) +      260 (dep) =      845 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0125422E-01 -3.1198760E+00  1.9428406E+08  4.6401643E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          493
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7983E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7983E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       604 -        0 (killed) +      260 (dep) =      864 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2770216E-01  2.9837581E+00  1.6500495E+08 -2.2972508E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          494
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8020E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8020E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       633 -        0 (killed) +      261 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9742530E-01 -3.7118007E-01  2.6886295E+08  5.4752718E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          495
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8060E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8060E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      262 (dep) =      882 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       132 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9368301E-01 -1.4762151E+00  2.6603273E+08  4.3808053E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          496
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8099E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8099E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      264 (dep) =      862 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.613170E+08  1.607507E+08
 %cxline - vtor.gt.vion; vtor,vion =   1.613809E+08  1.607507E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2413613E-01 -3.0402337E+00  1.8224755E+08  3.7587143E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          497
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8147E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8147E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       599 -        0 (killed) +      262 (dep) =      861 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7679617E-01 -1.0602086E+00  2.5635586E+08  8.6397413E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          498
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8195E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8195E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      263 (dep) =      876 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0998617E-02  1.3676456E+00  1.3281472E+08  3.3040470E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          499
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8242E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8242E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      262 (dep) =      877 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.801902E+08  2.786221E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.789177E+08  2.786221E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.788191E+08  2.786221E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6654546E-01  7.2232795E-01  1.7449884E+08  8.8530294E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          500
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8290E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8290E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       611 -        0 (killed) +      258 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0560855E-01  1.3252489E+00  1.8218923E+08  4.1218405E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          501
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8299E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8299E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       603 -        0 (killed) +      258 (dep) =      861 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5513753E-01  2.3337615E+00  2.6619333E+08 -6.1016537E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          502
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8309E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8309E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      259 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.6348268E-01 -1.5168400E+00  1.9269955E+08  9.0852017E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          503
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8318E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8318E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      258 (dep) =      893 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0255898E-01  2.4406310E+00  2.7200470E+08  6.4797366E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          504
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8327E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8327E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      259 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4137559E-01  8.0085403E-02  2.6975877E+08 -1.4090674E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          505
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8343E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8343E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       604 -        0 (killed) +      261 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2957837E-01  4.2701675E-01  2.7299319E+08  8.3498193E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          506
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8359E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8359E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      261 (dep) =      880 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2085881E-01 -2.9861482E+00  2.9565963E+08  9.1620659E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          507
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8395E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8395E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      261 (dep) =      863 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.701174E+08  1.700545E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5654178E-01 -2.6631763E+00  2.6176180E+08  7.7392147E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          508
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8430E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8430E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      264 (dep) =      879 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7328268E-01 -4.3697704E-01  2.5771423E+08  3.7980492E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          509
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8466E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8466E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       648 -        0 (killed) +      264 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1934011E-01  2.3740866E+00  1.9239052E+08  1.2089884E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          510
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8501E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8501E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       608 -        0 (killed) +      261 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3904803E-01  2.7243661E+00  2.7278454E+08  6.1004432E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          511
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8609E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8609E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      263 (dep) =      861 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3925907E-01 -7.8163725E-01  1.4027456E+08 -1.4087486E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          512
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8717E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8717E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       603 -        0 (killed) +      263 (dep) =      866 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1394988E-01 -2.8575483E+00  2.5473958E+08  2.3655298E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          513
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8825E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8825E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       588 -        0 (killed) +      261 (dep) =      849 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0568788E-01 -1.8441394E+00  2.8298163E+08  9.5166791E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          514
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8932E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8932E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      261 (dep) =      880 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7394399E-01  1.2579884E+00  1.5029663E+08  7.4162598E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          515
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9038E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9038E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      264 (dep) =      862 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0445688E-01 -2.8272350E+00  1.9305789E+08 -2.2387324E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          516
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9144E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9144E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      263 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8440990E-01  2.8824710E-01  2.7932317E+08  8.4652149E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          517
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9244E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9244E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       606 -        0 (killed) +      262 (dep) =      868 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8778833E-01  1.9509157E+00  2.4665883E+08  4.3094175E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          518
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9343E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9343E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      268 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0415319E-01  2.6493416E+00  1.7365243E+08  3.1072485E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          519
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9443E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9443E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      267 (dep) =      908 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6346020E-01 -8.7746251E-01  2.5432432E+08 -2.8407554E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          520
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9543E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9543E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      263 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2948633E-01  2.8703141E+00  2.8665565E+08  7.8807693E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          521
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9534E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9534E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      264 (dep) =      889 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8285439E-01  2.1415607E+00  2.6844921E+08  5.1391443E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          522
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9525E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9525E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      263 (dep) =      888 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7157784E-01 -3.7264852E-01  1.0701685E+08  7.1868937E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          523
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9515E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9515E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       633 -        0 (killed) +      260 (dep) =      893 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0559991E-01  2.2547482E+00  2.6911364E+08  2.0131805E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          524
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9506E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9506E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      261 (dep) =      879 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0981251E-01  2.9983484E+00  1.9392793E+08  2.2640949E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          525
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9484E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9484E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      264 (dep) =      876 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1776777E-01 -1.1972955E+00  1.6979138E+08  2.2953532E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          526
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9461E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9461E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      264 (dep) =      882 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7650613E-01  9.6436867E-01  2.4730794E+08  9.2319148E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          527
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9400E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       631 -        0 (killed) +      263 (dep) =      894 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       580 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6260630E-01  3.4355503E-01  1.5548874E+08  7.3043934E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          528
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9339E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9339E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      269 (dep) =      915 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7587683E-01  2.7888334E+00  1.5078765E+08  3.8221866E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          529
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9278E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9278E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       654 -        0 (killed) +      269 (dep) =      923 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       268 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9958609E-01 -1.1829503E+00  2.5252534E+08  8.9505951E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          530
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9217E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9217E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       606 -        0 (killed) +      264 (dep) =      870 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       261 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6403463E-01  4.9939664E-03  1.6924796E+08  5.5153327E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          531
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9212E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9212E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      266 (dep) =      868 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1936608E-01 -1.1762312E+00  2.0182497E+08  7.2184967E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          532
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9207E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9207E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       611 -        0 (killed) +      270 (dep) =      881 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3539501E-01  2.4886337E+00  2.6543043E+08 -2.1715237E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          533
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9201E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9201E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      268 (dep) =      906 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6132656E-01  1.8682431E+00  1.4404874E+08  6.9016985E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          534
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9196E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9196E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       603 -        0 (killed) +      269 (dep) =      872 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5312563E-01 -1.7129414E+00  1.8669413E+08  3.5612448E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          535
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9192E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9192E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       581 -        0 (killed) +      271 (dep) =      852 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4689722E-01  1.5522691E+00  2.6160144E+08  6.4459840E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          536
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9189E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9189E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       591 -        0 (killed) +      272 (dep) =      863 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2201940E-01  4.5904034E-01  2.5405758E+08  2.8924308E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          537
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9191E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9191E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      272 (dep) =      885 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       166 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5735589E-01  2.7923824E+00  2.5011456E+08  4.9301493E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          538
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9194E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9194E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      279 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.9685614E-01  2.7784141E-01  2.6614394E+08  5.9922283E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          539
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9197E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9197E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      279 (dep) =      903 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4750625E-01  4.9189755E-01  2.4473756E+08  8.0925914E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          540
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9200E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9200E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       617 -        0 (killed) +      269 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8936499E-01  1.2895621E+00  2.4547138E+08  2.3652425E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          541
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9260E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9260E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       592 -        0 (killed) +      268 (dep) =      860 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6696148E-01 -9.2229967E-01  1.7562520E+08 -3.2497449E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          542
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9321E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9321E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       591 -        0 (killed) +      269 (dep) =      860 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       265 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7086338E-01 -2.8053066E+00  1.8157740E+08  4.4439535E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          543
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9381E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9381E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       629 -        0 (killed) +      268 (dep) =      897 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6627810E-01 -2.8305356E+00  2.5960889E+08  8.3374767E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          544
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9442E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9442E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      266 (dep) =      885 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7220168E-01  7.3018030E-01  2.8864541E+08  7.7570439E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          545
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9512E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9512E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      267 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7391763E-01 -5.5528479E-02  2.7346797E+08  8.9485414E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          546
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9582E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9582E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       587 -        0 (killed) +      266 (dep) =      853 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       745 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4333721E-01  1.8454273E+00  1.1666642E+08  6.1245508E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          547
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9682E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9682E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       576 -        0 (killed) +      268 (dep) =      844 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3356251E-01  2.4899223E+00  1.5106057E+08  1.9417453E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          548
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9781E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9781E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       587 -        0 (killed) +      273 (dep) =      860 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7994822E-01  1.4522241E+00  1.4091292E+08  2.3665275E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          549
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9880E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9880E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       583 -        0 (killed) +      272 (dep) =      855 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8295941E-01 -1.6952825E+00  1.8200712E+08  3.9168272E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          550
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9980E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9980E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       573 -        0 (killed) +      269 (dep) =      842 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       113 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0975796E-01 -1.1027550E+00  1.1123524E+08  5.2484137E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          551
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0039E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0039E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       591 -        0 (killed) +      268 (dep) =      859 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3082668E-01  2.0850824E+00  2.5885559E+08  4.8005776E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          552
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0098E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0098E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       596 -        0 (killed) +      267 (dep) =      863 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8704897E-01  2.2243527E+00  2.4866186E+08  7.2455993E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          553
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0157E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0157E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      266 (dep) =      881 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5339956E-01 -2.6398975E+00  1.4030963E+08 -2.0529970E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          554
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0216E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      268 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5155672E-01 -2.7316939E+00  2.3863272E+08  2.1028735E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          555
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0282E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0282E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      268 (dep) =      870 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1989730E-01  1.4180806E+00  1.8622432E+08  8.1859746E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          556
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0348E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0348E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       621 -        0 (killed) +      268 (dep) =      889 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1662212E-01  2.4577863E-01  2.7039437E+08  6.4296203E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          557
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0437E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0437E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       632 -        0 (killed) +      268 (dep) =      900 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.0684173E-01  2.0096970E+00  2.7920104E+08  8.2101201E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          558
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0525E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0525E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      272 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4450772E-01  1.6038336E+00  2.3444326E+08  2.4312604E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          559
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0614E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0614E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      271 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8485192E-01  2.7621128E+00  2.6843058E+08 -1.8301912E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          560
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0702E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0702E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       578 -        0 (killed) +      268 (dep) =      846 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9271864E-01  2.9414921E+00  1.9500695E+08  2.6898389E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          561
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0747E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0747E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       586 -        0 (killed) +      269 (dep) =      855 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8444265E-01  1.0616356E+00  1.5724032E+08  1.7702646E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          562
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0791E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0791E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       597 -        0 (killed) +      268 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2549313E-01 -2.7352703E+00  2.6852006E+08  7.3832920E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          563
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0835E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0835E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      267 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5074501E-01 -2.1315175E+00  2.5800261E+08  9.8339806E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          564
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0880E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0880E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      268 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3896295E-01 -1.6662789E+00  1.5389256E+08 -3.0863022E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          565
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0919E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0919E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      269 (dep) =      888 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3126772E-01  2.7857537E+00  2.5412589E+08 -2.5680529E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          566
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0958E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0958E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      270 (dep) =      890 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4641130E-01 -2.7821371E+00  2.6682025E+08  6.5653718E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          567
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0982E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0982E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      268 (dep) =      905 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       427 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6584802E-01 -2.6388089E+00  2.6915503E+08  2.0950669E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          568
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1005E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1005E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      275 (dep) =      903 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.1253239E-02  1.8267386E+00  8.1577959E+07 -5.5272284E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          569
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1029E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1029E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       627 -        0 (killed) +      275 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2360553E-01  1.2818054E+00  1.4461883E+08  4.4003346E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          570
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1053E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1053E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       607 -        0 (killed) +      270 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6430700E-01  1.1441648E+00  1.6568233E+08  6.7730108E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          571
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1092E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1092E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      270 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9243835E-01 -2.6390582E+00  2.5902078E+08  1.4258836E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          572
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1130E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1130E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       580 -        0 (killed) +      272 (dep) =      852 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6726212E-01 -9.3226414E-01  2.5904488E+08 -7.6170573E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          573
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1169E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1169E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       605 -        0 (killed) +      272 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3239089E-01 -2.4283594E+00  2.8713090E+08  6.7574243E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          574
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1208E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1208E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      274 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1159440E-01  1.0489410E+00  2.6927155E+08  2.6236169E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          575
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1235E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1235E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      274 (dep) =      896 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5748632E-01  2.7393379E+00  2.6436665E+08  3.0636205E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          576
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1263E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1263E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      272 (dep) =      892 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2204293E-01 -1.8127610E+00  1.7215104E+08 -5.3982060E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          577
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1259E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1259E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      273 (dep) =      901 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8768378E-01  2.8206879E+00  2.3206722E+08  1.0737297E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          578
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1255E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1255E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      278 (dep) =      919 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4589863E-01  2.4071880E+00  1.5351054E+08  1.4843002E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          579
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1250E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1250E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       663 -        0 (killed) +      278 (dep) =      941 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0529782E-01  3.0791665E-01  1.5858458E+08  4.6089987E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          580
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1246E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1246E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       636 -        0 (killed) +      276 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3110128E-01 -1.3853961E+00  1.9938506E+08  7.2511772E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          581
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1324E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1324E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       600 -        0 (killed) +      273 (dep) =      873 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.789462E+08  2.784875E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.784949E+08  2.784875E+08
 %cxline - vtor.gt.vion; vtor,vion =   2.790896E+08  2.784875E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4869566E-01 -3.0680387E+00  2.6861870E+08  3.0377983E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          582
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1402E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1402E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      276 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0749777E-01 -5.4338977E-02  2.8348088E+08  5.4224196E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          583
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1479E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1479E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      274 (dep) =      892 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.789409E+08  2.789170E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7840065E-01  1.8988998E+00  1.8065924E+08  5.6006534E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          584
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1557E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1557E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      274 (dep) =      896 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6598287E-01  4.6103776E-01  2.4599867E+08  2.6512038E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          585
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1622E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1622E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       595 -        0 (killed) +      276 (dep) =      871 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.7502890E-02 -2.8982926E+00  2.6133913E+08  3.9092031E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          586
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1687E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1687E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       584 -        0 (killed) +      277 (dep) =      861 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4292476E-01  1.0710883E+00  2.8882267E+08  7.7123589E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          587
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1713E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1713E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      277 (dep) =      892 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       241 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5525204E-01 -9.2550019E-01  2.6060303E+08  9.3207124E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          588
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1739E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1739E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      282 (dep) =      901 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0933799E-01  1.6691872E+00  1.6233389E+08 -4.0268943E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          589
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1766E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1766E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       627 -        0 (killed) +      282 (dep) =      909 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       710 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9728756E-01  6.0992647E-01  1.8965080E+08  6.5234470E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          590
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1792E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1792E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      277 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.2243935E-01  1.8528715E+00  1.5070109E+08  4.9429614E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          591
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1738E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1738E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       653 -        0 (killed) +      277 (dep) =      930 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0844129E-01  7.7708445E-01  1.8662668E+08  7.3319168E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          592
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1685E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1685E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       674 -        0 (killed) +      276 (dep) =      950 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       698 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       795 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2979428E-01 -6.8009659E-01  2.0172053E+08  7.2290483E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          593
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1632E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1632E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       668 -        0 (killed) +      276 (dep) =      944 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2696837E-01  2.7969962E+00  2.5840728E+08  3.6806912E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          594
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1579E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1579E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       670 -        0 (killed) +      277 (dep) =      947 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8668194E-01 -1.0468707E+00  2.7088836E+08  9.0071235E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          595
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1521E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1521E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       681 -        0 (killed) +      276 (dep) =      957 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7345036E-01 -2.5309806E+00  1.3807454E+08  5.1039576E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          596
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1462E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1462E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       671 -        0 (killed) +      276 (dep) =      947 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3482312E-01  2.9125775E+00  2.7658643E+08  4.4192226E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          597
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1389E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1389E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       651 -        0 (killed) +      275 (dep) =      926 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.3110622E-01  1.6398634E+00  1.4645563E+08  2.1343035E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          598
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1315E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1315E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      281 (dep) =      927 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4271324E-01 -8.1357826E-01  2.7307455E+08  9.5164214E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          599
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1241E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1241E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      281 (dep) =      925 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9880187E-01 -1.5566561E+00  1.8299320E+08  4.8585723E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          600
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1168E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1168E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      276 (dep) =      899 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       814 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5727267E-01  9.5142680E-04  2.7422291E+08  7.8236947E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          601
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1089E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1089E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       600 -        0 (killed) +      277 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.0684123E-02 -1.8561687E+00  1.2884299E+08  4.0948237E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          602
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.1010E+20
    nbi_getprofiles ne*dvol sum (ions):  7.1010E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       597 -        0 (killed) +      275 (dep) =      872 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2444930E-01 -3.1008757E-01  2.5975156E+08 -6.6527930E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          603
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0931E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0931E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      273 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9705829E-01  5.0440242E-01  1.4896975E+08 -2.4292128E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          604
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0852E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0852E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      273 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4414516E-01 -3.1006225E+00  2.7106394E+08  4.2863413E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          605
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0771E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0771E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       617 -        0 (killed) +      275 (dep) =      892 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.793785E+08  2.786595E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     7.2396494E-01 -9.5304951E-01  2.5580727E+08  9.4104636E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          606
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0689E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0689E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      275 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0802072E-01 -2.3888516E-01  1.7106011E+08  1.0140000E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          607
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0600E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0600E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       586 -        0 (killed) +      273 (dep) =      859 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7938763E-01 -2.1585352E+00  2.5060637E+08  9.7064451E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          608
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0511E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0511E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      277 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5245202E-01  2.6616347E+00  2.7262620E+08  6.4702438E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          609
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0422E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0422E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       647 -        0 (killed) +      277 (dep) =      924 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6121977E-01  1.7745212E+00  2.6968047E+08  4.6301030E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          610
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0333E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0333E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       599 -        0 (killed) +      272 (dep) =      871 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4757994E-01 -2.0034793E+00  2.6233507E+08  8.5969050E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          611
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0272E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0272E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      271 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3543077E-01  5.8717875E-01  2.5875215E+08  3.3007054E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          612
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0210E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0210E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       608 -        0 (killed) +      273 (dep) =      881 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2342579E-01  2.6638733E-01  1.8933920E+08  7.3183514E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          613
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0149E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0149E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      272 (dep) =      892 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5327242E-01  2.9251342E+00  1.8156893E+08  6.0006057E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          614
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0088E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0088E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       614 -        0 (killed) +      272 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2485417E-01  3.0217767E+00  1.8087010E+08  5.7387367E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          615
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 7.0026E+20
    nbi_getprofiles ne*dvol sum (ions):  7.0026E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      273 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4147241E-01 -2.1205742E+00  1.3830295E+08  1.0416966E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          616
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9964E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9964E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       611 -        0 (killed) +      271 (dep) =      882 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.651319E+08  1.650482E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7378590E-01 -3.1220167E+00  1.5150894E+08  7.5885887E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          617
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9900E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9900E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      271 (dep) =      893 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        29 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0963857E-01  5.9414883E-01  2.7276395E+08 -6.6620340E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          618
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9836E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9836E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      277 (dep) =      915 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4251395E-01  8.7604607E-01  1.0411535E+08  9.3850838E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          619
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9772E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9772E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       662 -        0 (killed) +      277 (dep) =      939 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       222 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1488345E-01  2.1602671E+00  1.8189063E+08  4.3503509E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          620
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9709E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9709E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      273 (dep) =      896 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8967665E-01 -1.7182864E+00  2.7611323E+08  5.2305824E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          621
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9633E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9633E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      271 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2126897E-01  2.0637264E+00  1.8346758E+08  1.1240272E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          622
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9557E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9557E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      272 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9327499E-01  1.8100393E+00  1.7362672E+08 -4.6304481E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          623
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9482E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9482E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      272 (dep) =      914 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2883375E-02 -2.0084473E+00  1.0460729E+08 -1.1084212E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          624
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9406E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9406E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      268 (dep) =      907 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6281965E-01 -1.5789927E-02  2.5281563E+08  7.9770055E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          625
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9326E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9326E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      271 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0114493E-01 -1.9373541E+00  1.5312563E+08 -5.8375338E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          626
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9245E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9245E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      271 (dep) =      913 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1684783E-01  2.5646589E+00  1.7473003E+08  4.3954321E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          627
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9150E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9150E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      270 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.1355890E-01  1.2780316E+00  1.7770508E+08  4.4759855E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          628
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9055E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9055E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      276 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8435170E-01  3.0349934E+00  1.7299776E+08  2.3557776E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          629
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8960E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8960E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      275 (dep) =      919 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       985 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3340580E-01 -1.6565595E+00  1.3994321E+08  2.9110755E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          630
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8865E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8865E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       630 -        0 (killed) +      270 (dep) =      900 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7982071E-01  8.1300864E-01  1.3080851E+08  3.0506532E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          631
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8784E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8784E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       609 -        0 (killed) +      271 (dep) =      880 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8894301E-01  7.0908912E-01  1.6207088E+08  7.3539195E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          632
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8704E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8704E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      270 (dep) =      888 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4798116E-01 -5.2930888E-01  1.8533553E+08  4.0948343E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          633
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8623E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8623E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      269 (dep) =      867 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.3269366E-01 -1.1088782E+00  1.1863227E+08  3.6509086E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          634
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8542E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8542E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      270 (dep) =      892 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0205122E-01  1.6704828E-02  1.4798219E+08  4.6501456E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          635
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8472E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8472E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      270 (dep) =      896 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3709292E-01  2.3983812E-01  2.6085163E+08  9.9997335E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          636
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8402E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8402E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      271 (dep) =      884 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5993161E-01  2.9430818E+00  2.8283840E+08  5.1956979E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          637
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8365E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8365E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      270 (dep) =      882 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9599791E-01 -2.1475102E+00  2.4862136E+08  3.1363122E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          638
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8328E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8328E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       603 -        0 (killed) +      276 (dep) =      879 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8486054E-01  5.3169099E-01  1.7299966E+08  7.7888375E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          639
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8291E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8291E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      273 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3007006E-01 -1.8917883E-01  2.6406600E+08  1.8029023E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          640
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8254E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8254E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       630 -        0 (killed) +      269 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9977642E-01  1.3916707E+00  1.6884029E+08  8.3339784E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          641
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8240E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8240E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       609 -        0 (killed) +      268 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4030949E-01 -2.0941320E+00  1.8523228E+08 -1.5738266E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          642
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8226E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8226E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       629 -        0 (killed) +      269 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6288921E-01  1.2721142E+00  2.8348040E+08  6.6046169E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          643
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8212E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8212E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      266 (dep) =      901 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4737687E-01 -1.7036362E+00  1.4096501E+08  4.0301354E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          644
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8199E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8199E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       632 -        0 (killed) +      270 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2777085E-02 -2.0283401E+00  8.9669973E+07 -1.4458271E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          645
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8187E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8187E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      272 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0096441E-01  6.2833524E-02  2.0062313E+08  5.1602027E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          646
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8176E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8176E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       654 -        0 (killed) +      270 (dep) =      924 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       137 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7359707E-01 -3.0040184E+00  2.5516297E+08  7.3245283E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          647
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8171E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8171E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      269 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5791936E-01 -9.1753027E-01  1.6974507E+08  3.8155020E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          648
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8167E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8167E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      274 (dep) =      918 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3331693E-01 -1.5055899E+00  1.2594789E+08  9.8952696E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          649
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8163E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8163E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      274 (dep) =      929 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7380335E-01  3.9675266E-02  1.9327437E+08  3.7909301E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          650
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8159E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8159E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       677 -        0 (killed) +      270 (dep) =      947 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       880 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5735500E-01 -1.4292400E+00  1.9394618E+08  2.5344870E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          651
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8164E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8164E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       675 -        0 (killed) +      270 (dep) =      945 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8445927E-02 -9.8368327E-01  1.9173499E+08  3.3118142E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          652
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8169E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8169E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      269 (dep) =      910 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4699588E-01 -1.4180863E+00  1.9208687E+08  8.3100895E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          653
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8174E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8174E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       633 -        0 (killed) +      266 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7552733E-01  2.2454282E+00  1.8024834E+08  3.3486862E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          654
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8179E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8179E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      265 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1033569E-01  2.3827705E+00  2.7640308E+08  8.0796334E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          655
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8187E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8187E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      265 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3946460E-01  1.9773487E+00  1.6709117E+08  1.1278714E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          656
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8195E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8195E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       654 -        0 (killed) +      269 (dep) =      923 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2291076E-01  2.8901913E+00  1.7430768E+08  3.9753539E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          657
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8213E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8213E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       648 -        0 (killed) +      269 (dep) =      917 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2647808E-01  3.0193113E+00  1.7037865E+08 -2.2297945E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          658
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8231E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8231E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      272 (dep) =      944 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2764389E-01 -1.5803942E+00  2.0148874E+08  8.9294289E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          659
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8248E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8248E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       685 -        0 (killed) +      272 (dep) =      957 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4356585E-01 -2.6293462E+00  1.7222442E+08  2.3405499E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          660
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8266E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8266E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       662 -        0 (killed) +      266 (dep) =      928 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5355541E-01 -4.8532416E-01  2.7822255E+08  3.8245294E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          661
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8181E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8181E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       649 -        0 (killed) +      266 (dep) =      915 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       541 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8975334E-01 -2.9359283E+00  1.2863546E+08  2.5441790E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          662
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8096E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8096E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      268 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8277081E-01 -1.7256822E-01  1.7338978E+08 -2.2870849E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          663
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8012E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8012E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       636 -        0 (killed) +      266 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6433145E-01 -1.2060800E+00  1.2512629E+08 -3.4363168E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          664
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7927E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7927E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      265 (dep) =      906 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2445258E-01  1.5489868E+00  1.3605665E+08  1.5173374E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          665
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7844E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7844E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      267 (dep) =      908 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0713874E-01  2.6529305E+00  1.9198798E+08  7.3983564E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          666
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7761E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7761E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      265 (dep) =      909 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0401553E-01 -2.7037903E+00  2.5552555E+08  1.8111207E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          667
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7683E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7683E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      267 (dep) =      904 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0771606E-01  3.0943525E+00  2.6051466E+08  7.5102715E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          668
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7605E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7605E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      269 (dep) =      910 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.493530E+08  2.490133E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     6.6848008E-01  2.6955004E+00  1.3897319E+08  3.2777923E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          669
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7527E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7527E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       664 -        0 (killed) +      270 (dep) =      934 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3434714E-01  2.9589675E+00  2.7844113E+08  6.1321071E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          670
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7449E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7449E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       653 -        0 (killed) +      264 (dep) =      917 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9162297E-01  6.9813126E-01  1.9055711E+08  2.1474531E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          671
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7413E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7413E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      266 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0418444E-01  2.4089651E+00  1.8544976E+08 -6.5390795E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          672
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7377E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7377E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      262 (dep) =      885 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2361816E-01 -1.3775017E+00  2.7260986E+08  4.8040699E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          673
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7341E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7341E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       629 -        0 (killed) +      261 (dep) =      890 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5536390E-01  4.1328811E-01  1.6164934E+08  1.5039164E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          674
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7305E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7305E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       590 -        0 (killed) +      266 (dep) =      856 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8226995E-01  3.6618930E-01  2.3525961E+08  4.0599251E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          675
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7267E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7267E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      264 (dep) =      876 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1846634E-01  5.8957921E-01  2.7090746E+08  3.5362430E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          676
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7230E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7230E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      267 (dep) =      909 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       237 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.5855017E-01 -8.5283538E-01  1.5376745E+08  1.0174709E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          677
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7187E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7187E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       673 -        0 (killed) +      265 (dep) =      938 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       183 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3204396E-01 -2.5974424E+00  2.4207145E+08  5.6312035E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          678
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7145E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7145E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       683 -        0 (killed) +      266 (dep) =      949 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       698 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     8.2991889E-01 -3.1687291E-01  2.6124083E+08  7.3274055E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          679
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7103E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7103E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       663 -        0 (killed) +      266 (dep) =      929 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=        83 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1906160E-01  6.1469156E-01  2.6406097E+08  7.4722405E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          680
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7061E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7061E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      265 (dep) =      900 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5062787E-01  7.4731410E-01  1.9698958E+08  4.9118717E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          681
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7091E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7091E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       621 -        0 (killed) +      263 (dep) =      884 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7320556E-01 -2.2347528E-01  1.9888552E+08 -7.1485813E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          682
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7122E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7122E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       645 -        0 (killed) +      266 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9914123E-01 -2.9867301E+00  1.0797586E+08  5.8966914E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          683
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7152E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7152E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       648 -        0 (killed) +      263 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9948733E-01  1.5692574E+00  2.5343372E+08  3.7471618E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          684
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7183E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7183E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       656 -        0 (killed) +      260 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9989725E-01  2.5685211E+00  2.1415848E+08  7.5666080E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          685
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7220E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7220E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      261 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0644883E-01 -2.8690389E+00  1.8403238E+08  6.3406475E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          686
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7256E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7256E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       614 -        0 (killed) +      266 (dep) =      880 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       787 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3157919E-01 -4.2222838E-01  1.8287140E+08  1.7888297E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          687
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7310E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7310E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      266 (dep) =      864 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7301405E-01 -7.2189706E-01  1.8907338E+08  8.1042761E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          688
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7365E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7365E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      271 (dep) =      897 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5242500E-01  8.9842012E-01  2.5962297E+08  2.5612683E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          689
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7419E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7419E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      271 (dep) =      910 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1826235E-01 -1.2724983E+00  2.4451646E+08 -8.8700051E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          690
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7473E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7473E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       654 -        0 (killed) +      265 (dep) =      919 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8154153E-01 -2.1853431E+00  2.5574540E+08 -4.9859442E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          691
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7418E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7418E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       656 -        0 (killed) +      265 (dep) =      921 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.3282764E-01  5.1501848E-01  1.4534438E+08 -3.6589693E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          692
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7362E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7362E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      265 (dep) =      889 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2753258E-01  2.9967727E+00  2.6212173E+08  2.9557128E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          693
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7307E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7307E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      264 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0156109E-01 -1.5027602E+00  2.5059685E+08  7.4367590E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          694
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7251E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7251E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       613 -        0 (killed) +      266 (dep) =      879 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6549112E-01  1.1074060E+00  1.6201693E+08  1.5415717E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          695
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7199E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7199E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      261 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0290878E-01 -7.2365170E-01  2.5804779E+08  5.1552025E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          696
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7147E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7147E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       652 -        0 (killed) +      261 (dep) =      913 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9934909E-01 -2.1912336E+00  2.7149799E+08  3.0483474E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          697
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7104E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7104E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       632 -        0 (killed) +      261 (dep) =      893 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7104529E-01  1.7737011E+00  1.6918117E+08  4.5933216E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          698
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7061E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7061E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       627 -        0 (killed) +      275 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.1645673E-01 -3.9243017E-01  1.9140620E+08  7.3103047E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          699
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7018E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7018E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      275 (dep) =      930 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.6304264E-01  3.9274036E-01  1.4468428E+08  2.4134788E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          700
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6975E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6975E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       652 -        0 (killed) +      267 (dep) =      919 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       963 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1612949E-01 -1.5906225E+00  1.8139364E+08  7.8344855E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          701
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7022E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7022E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      265 (dep) =      890 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8718511E-01  2.1453433E-01  2.4889798E+08  1.5642762E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          702
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7069E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7069E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       621 -        0 (killed) +      265 (dep) =      886 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.6791325E-01  1.2259230E+00  1.0580858E+08 -4.5607117E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          703
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7116E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7116E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      262 (dep) =      900 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6933602E-01  7.9941873E-01  2.6061832E+08 -3.3198895E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          704
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7163E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7163E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       661 -        0 (killed) +      263 (dep) =      924 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1433459E-01  1.6406113E+00  2.7725438E+08  6.9232208E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          705
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7207E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7207E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      264 (dep) =      919 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1423608E-01 -1.9191158E+00  1.8116448E+08 -8.6657162E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          706
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7252E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7252E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       650 -        0 (killed) +      264 (dep) =      914 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3578858E-01  2.7644408E-01  1.4050129E+08 -3.5167961E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          707
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7289E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7289E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      263 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2955365E-01  4.1405269E-01  2.6007173E+08 -1.1214944E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          708
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7326E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7326E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      269 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1021063E-01  2.4622007E+00  2.5532658E+08  9.6362085E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          709
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7363E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7363E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       633 -        0 (killed) +      269 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1116077E-01 -2.1189716E+00  2.5765336E+08 -7.0401744E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          710
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7400E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7400E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      265 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2623958E-01 -2.5078523E+00  1.3589208E+08  7.2228952E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          711
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7413E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7413E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       649 -        0 (killed) +      263 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4354928E-01  3.3320260E-01  2.4184247E+08  5.8730860E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          712
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7426E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7426E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      261 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7657167E-01  1.2272755E+00  1.3339329E+08  2.3409330E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          713
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7439E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7439E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       617 -        0 (killed) +      259 (dep) =      876 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1764283E-01 -9.5610601E-01  1.8864439E+08  1.6086931E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          714
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7452E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7452E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       608 -        0 (killed) +      261 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4745647E-01 -2.8040778E+00  1.7266010E+08  9.0994367E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          715
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7460E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7460E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       610 -        0 (killed) +      259 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1176039E-01 -2.5292647E+00  1.6708345E+08  6.3503208E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          716
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7467E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7467E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      264 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.2034021E-01 -7.7415493E-01  1.6435648E+08  4.1046854E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          717
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7458E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7458E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       657 -        0 (killed) +      263 (dep) =      920 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4299190E-01 -6.7605012E-01  1.7169294E+08  3.2651109E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          718
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7449E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7449E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       654 -        0 (killed) +      268 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5086788E-01  2.7702088E+00  1.5361940E+08  4.2722450E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          719
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7440E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7440E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      266 (dep) =      904 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7095315E-01 -1.3857132E+00  2.5603317E+08  1.7437818E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          720
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7430E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7430E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       594 -        0 (killed) +      259 (dep) =      853 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3814186E-01  1.5348586E+00  2.4753403E+08  8.2976242E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          721
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7410E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7410E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      259 (dep) =      874 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3960023E-01 -2.2380225E+00  1.9321244E+08  3.9032334E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          722
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7389E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7389E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       606 -        0 (killed) +      263 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.7259680E-02  2.2150867E+00  1.7934966E+08  4.9504211E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          723
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7368E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7368E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       611 -        0 (killed) +      264 (dep) =      875 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.787741E+08  2.787515E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     9.1851386E-02  9.7124142E-01  2.3676726E+08  8.9947839E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          724
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7347E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7347E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       614 -        0 (killed) +      261 (dep) =      875 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0620533E-01 -2.8542484E+00  2.6717798E+08  4.9523825E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          725
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7328E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7328E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       648 -        0 (killed) +      258 (dep) =      906 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7435435E-01 -2.0933332E-01  2.5287452E+08  4.4826597E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          726
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7308E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7308E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       636 -        0 (killed) +      258 (dep) =      894 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.791495E+08  2.785068E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1447371E-01  8.8862184E-02  1.4218541E+08 -4.1507223E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          727
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7293E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7293E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       620 -        0 (killed) +      258 (dep) =      878 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.4248369E-01  3.2848626E-01  2.7697418E+08  6.7708373E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          728
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7277E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7277E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      267 (dep) =      889 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6464113E-01  2.1467225E+00  1.4374664E+08  3.4625942E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          729
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7262E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7262E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       602 -        0 (killed) +      267 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0347752E-01  2.3861019E+00  1.9076765E+08  4.5105625E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          730
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7246E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7246E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       597 -        0 (killed) +      262 (dep) =      859 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6060342E-01  1.6813964E+00  2.5536725E+08  1.1086918E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          731
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7262E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7262E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       607 -        0 (killed) +      262 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7867658E-01  9.5044431E-02  2.6885820E+08  8.4722697E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          732
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7277E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7277E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       616 -        0 (killed) +      259 (dep) =      875 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0140162E-01  1.7951533E+00  2.5593054E+08 -1.0393299E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          733
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7293E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7293E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      257 (dep) =      903 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7991846E-01  1.4196216E+00  1.9529494E+08 -3.4543625E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          734
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7308E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7308E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       645 -        0 (killed) +      261 (dep) =      906 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       942 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5377495E-01 -1.8245470E+00  2.5545981E+08  4.4288864E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          735
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7328E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7328E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       640 -        0 (killed) +      263 (dep) =      903 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5560295E-01 -2.2823608E+00  2.5622972E+08  6.7656049E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          736
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7348E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7348E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       631 -        0 (killed) +      263 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.1774007E-01 -2.7061658E-01  1.5335050E+08  1.1971134E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          737
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7381E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7381E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       647 -        0 (killed) +      261 (dep) =      908 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3454369E-01 -2.0946826E+00  1.5062795E+08  7.1732373E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          738
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7415E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7415E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       640 -        0 (killed) +      265 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7856411E-01  2.8159147E+00  1.8783677E+08  3.8917752E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          739
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7448E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7448E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       660 -        0 (killed) +      266 (dep) =      926 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5074374E-01 -1.0306401E+00  2.6293277E+08  4.4953052E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          740
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7482E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7482E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       656 -        0 (killed) +      262 (dep) =      918 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4274554E-01  1.9725655E+00  1.8533002E+08 -2.0045691E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          741
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7450E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7450E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      262 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8495587E-01 -1.8461279E+00  2.8462103E+08  6.8793533E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          742
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7419E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7419E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      262 (dep) =      884 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1255465E-01 -2.1291261E+00  2.4581887E+08 -5.8625850E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          743
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7387E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7387E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      257 (dep) =      900 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8026859E-01  1.0256521E+00  1.8824582E+08  8.8934957E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          744
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7356E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7356E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       662 -        0 (killed) +      257 (dep) =      919 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1458651E-01 -2.1465040E+00  2.4924332E+08 -1.5723684E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          745
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7321E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7321E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      258 (dep) =      883 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.1491989E-01  6.4432880E-01  2.6449066E+08  4.7507320E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          746
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7286E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7286E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      261 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2110514E-01 -5.0077414E-01  1.3425794E+08  3.3315594E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          747
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7241E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7241E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       653 -        0 (killed) +      263 (dep) =      916 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.5422292E-01 -2.8366029E+00  1.6058030E+08  1.4885497E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          748
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7197E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7197E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       662 -        0 (killed) +      263 (dep) =      925 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7761991E-01  8.7954407E-01  1.7107198E+08 -3.9925802E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          749
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7152E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7152E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       657 -        0 (killed) +      262 (dep) =      919 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       124 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7559241E-01 -6.6743709E-01  1.5254903E+08  2.0488001E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          750
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7108E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7108E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      258 (dep) =      893 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3928377E-01 -2.6928103E+00  2.8808319E+08  9.7125113E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          751
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7088E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7088E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       612 -        0 (killed) +      257 (dep) =      869 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6145402E-01 -3.4190893E-01  2.5064116E+08  8.6813189E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          752
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7068E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7068E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       609 -        0 (killed) +      262 (dep) =      871 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9398691E-01 -8.6364077E-01  2.7171910E+08  5.1304367E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          753
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7049E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7049E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      259 (dep) =      893 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       751 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6387440E-01 -1.0800100E+00  1.9180762E+08  4.7151009E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          754
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7029E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7029E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      258 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8128176E-01  3.0505588E+00  2.5395065E+08 -1.7126771E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          755
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7014E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7014E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       647 -        0 (killed) +      257 (dep) =      904 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1369209E-01 -6.5254179E-01  2.5330958E+08 -5.4615620E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          756
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6998E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6998E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       632 -        0 (killed) +      259 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0455568E-01 -3.3482046E-01  1.6292683E+08  1.6093318E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          757
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6996E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6996E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       617 -        0 (killed) +      260 (dep) =      877 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4039518E-01 -2.1263773E+00  2.8297883E+08  8.4504676E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          758
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6994E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6994E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      267 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9645656E-01  2.3114000E+00  1.8256402E+08  5.1058118E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          759
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6992E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6992E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      268 (dep) =      907 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3199224E-01 -2.8898302E+00  1.8711877E+08  5.2753919E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          760
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.6990E+20
    nbi_getprofiles ne*dvol sum (ions):  6.6990E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      263 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4162976E-01 -2.6720337E+00  2.2610904E+08  8.9966652E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          761
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7011E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7011E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       627 -        0 (killed) +      262 (dep) =      889 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0440910E-01 -5.3278162E-01  1.8358514E+08  4.9591752E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          762
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7031E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7031E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      259 (dep) =      887 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0033144E-01  3.1349789E+00  2.5787807E+08  3.1186058E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          763
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7052E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7052E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      257 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9516844E-01  6.0079308E-01  2.4761464E+08  6.6135477E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          764
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7073E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7073E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      262 (dep) =      903 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.9682290E-01  9.6705715E-01  1.8845961E+08  4.5561627E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          765
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7092E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7092E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       600 -        0 (killed) +      263 (dep) =      863 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7552779E-01 -1.8441704E+00  2.8809123E+08  9.9007587E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          766
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7111E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7111E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       596 -        0 (killed) +      264 (dep) =      860 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.9759841E-01  9.6605254E-01  2.5802349E+08  9.7538603E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          767
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7126E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7126E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       632 -        0 (killed) +      263 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7337164E-01 -2.5191250E-02  1.4530423E+08  4.9266257E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          768
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7141E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7141E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       645 -        0 (killed) +      267 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5758409E-01  8.9749154E-02  2.1201432E+08  7.8158250E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          769
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7156E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7156E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      269 (dep) =      894 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3453015E-01  7.4873618E-01  2.2834173E+08  4.4318159E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          770
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7171E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7171E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       600 -        0 (killed) +      265 (dep) =      865 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2613882E-01  2.7506741E+00  2.5189832E+08  7.2182995E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          771
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7185E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7185E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       618 -        0 (killed) +      264 (dep) =      882 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7399950E-01  1.5653464E+00  2.7174623E+08  8.5220195E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          772
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7200E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7200E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       621 -        0 (killed) +      261 (dep) =      882 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1782353E-01 -9.0805704E-01  1.5508152E+08  6.2622072E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          773
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7214E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7214E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       644 -        0 (killed) +      261 (dep) =      905 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       428 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.5041251E-01 -3.2917690E-01  2.6162892E+08  2.2017704E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          774
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7228E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7228E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      261 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8407260E-01  1.0039160E+00  1.9621031E+08  5.6138454E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          775
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7239E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7239E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      259 (dep) =      914 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.0009824E-01  9.8842654E-01  1.8819985E+08  7.2556713E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          776
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7249E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7249E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       658 -        0 (killed) +      264 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.0943410E-02 -2.6727015E+00  2.4727178E+08  7.6401464E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          777
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7247E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7247E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       624 -        0 (killed) +      264 (dep) =      888 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3920496E-01  2.7592668E+00  2.6726111E+08  6.8433486E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          778
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7246E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7246E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       630 -        0 (killed) +      269 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4098262E-01  1.9523172E-03  2.5993052E+08  1.4494259E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          779
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7244E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7244E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       622 -        0 (killed) +      270 (dep) =      892 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1450752E-01 -6.3768712E-02  2.6861771E+08  4.5576711E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          780
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7242E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7242E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       598 -        0 (killed) +      265 (dep) =      863 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7301443E-01  1.1450696E+00  2.5608658E+08  6.3169018E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          781
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7279E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7279E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       617 -        0 (killed) +      264 (dep) =      881 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       635 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.1266548E-01  9.2617346E-01  2.8350263E+08  9.0681917E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          782
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7315E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7315E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       614 -        0 (killed) +      266 (dep) =      880 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5958002E-01  4.1771060E-01  1.9405945E+08 -4.5252560E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          783
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7351E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7351E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       626 -        0 (killed) +      265 (dep) =      891 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4799240E-01 -3.0001354E+00  1.9496811E+08  4.3283566E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          784
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7387E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7387E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      266 (dep) =      907 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       399 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4386354E-01  1.6443357E+00  2.5263346E+08 -1.6112266E-04
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          785
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7433E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7433E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       633 -        0 (killed) +      265 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0675212E-01  1.3372795E+00  2.4363747E+08 -4.5050710E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          786
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7479E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7479E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       649 -        0 (killed) +      262 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8791800E-01 -1.5543111E+00  1.4935458E+08  1.2350294E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          787
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7554E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7554E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      264 (dep) =      898 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.8348191E-01 -6.2682542E-02  1.4319662E+08 -2.9892038E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          788
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7629E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7629E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      272 (dep) =      907 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.3188649E-01 -7.0823722E-01  2.5138005E+08 -4.4893363E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          789
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7704E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7704E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       659 -        0 (killed) +      271 (dep) =      930 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6130995E-01 -2.0903840E+00  1.9308099E+08 -4.0422125E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          790
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7779E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7779E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      267 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8220895E-01 -2.8224195E+00  2.6949598E+08  9.1633075E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          791
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7740E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7740E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       628 -        0 (killed) +      267 (dep) =      895 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8620453E-01 -2.9190913E+00  2.7564744E+08  5.5777809E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          792
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7701E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7701E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       651 -        0 (killed) +      263 (dep) =      914 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7355131E-01 -2.5316643E+00  1.7192889E+08  4.1407781E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          793
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7661E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7661E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       660 -        0 (killed) +      262 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3598696E-01 -2.8092870E+00  1.6197676E+08  2.4568032E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          794
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7622E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7622E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       635 -        0 (killed) +      267 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8107885E-01 -1.9978091E+00  1.7249110E+08  3.3197280E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          795
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7586E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7586E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       664 -        0 (killed) +      266 (dep) =      930 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9341616E-01  1.1018774E+00  2.0571679E+08  9.9871856E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          796
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7549E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7549E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       661 -        0 (killed) +      267 (dep) =      928 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.9670314E-01  9.4433845E-01  2.5844842E+08  6.4221413E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          797
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7523E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7523E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      266 (dep) =      885 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       121 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     8.1837815E-01  5.0034716E-01  1.8088557E+08  4.5790597E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          798
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7496E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7496E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       663 -        0 (killed) +      268 (dep) =      931 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4677833E-01  6.8392907E-01  1.7124555E+08 -8.0250406E-03
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          799
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7469E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7469E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      268 (dep) =      923 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0785149E-01 -4.7320590E-01  2.5741213E+08  7.7513270E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          800
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7442E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7442E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       657 -        0 (killed) +      268 (dep) =      925 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6161857E-01 -3.0409679E+00  2.6859234E+08  6.4701025E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          801
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7449E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7449E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      267 (dep) =      909 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9193685E-01  2.3965983E+00  1.6825675E+08  4.4895869E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          802
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7456E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7456E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       634 -        0 (killed) +      265 (dep) =      899 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1218337E-01 -3.1182404E+00  1.4389268E+08 -4.1409839E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          803
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7463E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7463E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       661 -        0 (killed) +      261 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6319561E-01 -2.6204549E+00  1.4147568E+08 -2.6188627E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          804
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7470E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7470E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       647 -        0 (killed) +      260 (dep) =      907 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4565990E-01 -1.3205806E+00  2.7551642E+08  7.7929911E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          805
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7474E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7474E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       638 -        0 (killed) +      262 (dep) =      900 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       776 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3652083E-01 -1.1611617E+00  1.4808767E+08 -1.0697593E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          806
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7478E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7478E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       637 -        0 (killed) +      264 (dep) =      901 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1254116E-01  2.2194504E+00  2.1543100E+08  6.0471895E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          807
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7473E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7473E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       623 -        0 (killed) +      265 (dep) =      888 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3239542E-01 -1.0547653E+00  2.7165134E+08  4.3492684E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          808
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7468E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7468E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       641 -        0 (killed) +      272 (dep) =      913 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.8207098E-01 -1.1556661E+00  2.6830906E+08  9.4941257E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          809
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7463E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7463E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       663 -        0 (killed) +      270 (dep) =      933 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.3548955E-01  1.1641200E-02  2.6855232E+08  3.5038906E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          810
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7458E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7458E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       682 -        0 (killed) +      261 (dep) =      943 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9516518E-01 -2.0877445E+00  2.7140824E+08  6.8472967E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          811
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7538E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7538E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       673 -        0 (killed) +      263 (dep) =      936 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.6110898E-01  8.1416506E-01  1.6652085E+08 -1.6276184E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          812
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7617E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7617E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       678 -        0 (killed) +      261 (dep) =      939 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.9382069E-01 -3.5743378E-01  2.6590207E+08  4.3772174E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          813
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7696E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7696E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       691 -        0 (killed) +      261 (dep) =      952 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.0307105E-01  1.3726249E+00  2.6002530E+08  8.8779392E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          814
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7776E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7776E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       678 -        0 (killed) +      262 (dep) =      940 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8391756E-01 -2.5541325E+00  1.5917039E+08  2.6311709E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          815
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7860E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7860E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       687 -        0 (killed) +      263 (dep) =      950 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.785801E+08  2.785657E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     1.8732836E-01 -2.6541483E+00  2.5923838E+08  3.9730265E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          816
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.7944E+20
    nbi_getprofiles ne*dvol sum (ions):  6.7944E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      261 (dep) =      907 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       102 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5519898E-01  3.0050712E-01  1.6495010E+08  7.7347840E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          817
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8040E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8040E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       615 -        0 (killed) +      262 (dep) =      877 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       266 never inside plasma.
 %orball:  in processor     0: orbit # iorb=       271 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0641555E-01 -3.0896117E+00  1.8500735E+08  1.1632298E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          818
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8137E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8137E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       625 -        0 (killed) +      272 (dep) =      897 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.5513358E-01  1.1268418E+00  1.5536434E+08  6.8995132E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          819
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8233E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8233E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      272 (dep) =      891 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       571 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4174672E-01 -1.4159076E-01  1.8109874E+08  8.5243678E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          820
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8330E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8330E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       616 -        0 (killed) +      267 (dep) =      883 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.1133446E-01  1.4388223E+00  2.6813530E+08  8.4441591E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          821
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8348E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8348E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       640 -        0 (killed) +      265 (dep) =      905 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4027670E-01 -1.2698268E+00  2.7282917E+08  6.0090911E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          822
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8366E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8366E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      267 (dep) =      910 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.4074583E-01  8.8157781E-01  2.5593082E+08  6.9321107E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          823
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8384E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8384E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       649 -        0 (killed) +      264 (dep) =      913 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3328244E-01 -3.1147534E+00  1.7345478E+08 -4.4844056E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          824
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8402E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8402E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       653 -        0 (killed) +      265 (dep) =      918 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.2306134E-01 -5.6249030E-01  1.4872649E+08  2.2806835E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          825
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8412E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8412E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       649 -        0 (killed) +      266 (dep) =      915 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.1094471E-01 -7.8305060E-01  2.5808379E+08  8.7204210E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          826
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8421E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8421E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       636 -        0 (killed) +      266 (dep) =      902 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6989486E-01  8.7520362E-01  1.4822275E+08  3.9977512E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          827
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8405E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8405E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       656 -        0 (killed) +      267 (dep) =      923 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.7203993E-01 -2.7588686E+00  1.9951501E+08  6.9810042E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          828
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8389E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8389E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       676 -        0 (killed) +      270 (dep) =      946 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.9802232E-01  2.1567409E+00  2.4464643E+08  6.5653631E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          829
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8373E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8373E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      274 (dep) =      946 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4830322E-01  2.9075421E+00  2.5284233E+08  4.6563994E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          830
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8357E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8357E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       680 -        0 (killed) +      270 (dep) =      950 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.8710433E-01 -1.4987515E-01  2.5706418E+08  2.2222326E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          831
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8386E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8386E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       639 -        0 (killed) +      268 (dep) =      907 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.2110311E-01  1.5009768E+00  2.5881363E+08  5.2106288E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          832
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8415E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8415E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       642 -        0 (killed) +      269 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6383742E-01 -1.7028207E-01  2.7686246E+08  9.9434417E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          833
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8444E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8444E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      268 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.1598370E-02  1.6019090E+00  2.6282790E+08  1.1517569E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          834
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8473E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8473E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       655 -        0 (killed) +      266 (dep) =      921 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       695 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4960087E-01  7.6766938E-01  1.6819980E+08  3.4246246E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          835
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8498E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8498E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       671 -        0 (killed) +      264 (dep) =      935 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9604093E-01  1.4136388E+00  1.1412019E+08  3.8729444E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          836
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8524E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8524E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      265 (dep) =      937 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.2681991E-01 -5.9309923E-02  1.7897065E+08  6.2922420E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          837
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8537E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8537E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       685 -        0 (killed) +      264 (dep) =      949 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       660 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0148897E-01  7.7798153E-01  1.5060218E+08  1.2585409E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          838
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8551E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8551E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       690 -        0 (killed) +      270 (dep) =      960 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.7272851E-01  1.5769679E+00  2.6689884E+08  9.5136874E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          839
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8565E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8565E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       687 -        0 (killed) +      270 (dep) =      957 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       834 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0228052E-01  1.4705670E-01  1.2764728E+08  8.5034114E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          840
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8579E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8579E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       678 -        0 (killed) +      267 (dep) =      945 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7736492E-01 -6.1450646E-01  2.5205925E+08 -1.7595108E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          841
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8635E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8635E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       669 -        0 (killed) +      267 (dep) =      936 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4711745E-01  5.1373210E-01  2.4198501E+08  6.2466271E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          842
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8691E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8691E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       643 -        0 (killed) +      270 (dep) =      913 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5274688E-01 -7.0130351E-01  2.8716638E+08  9.3529730E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          843
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8746E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8746E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       671 -        0 (killed) +      270 (dep) =      941 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1224636E-01 -1.9219318E+00  1.8546320E+08  3.8613646E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          844
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8802E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8802E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       652 -        0 (killed) +      270 (dep) =      922 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4575368E-01 -1.4720072E+00  1.6459522E+08  3.5608276E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          845
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8865E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8865E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       640 -        0 (killed) +      271 (dep) =      911 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0811323E-01 -2.2950892E+00  1.5386688E+08 -2.8148796E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          846
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8928E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8928E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       656 -        0 (killed) +      272 (dep) =      928 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7780444E-01  1.0761639E+00  1.7706896E+08  1.2720119E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          847
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9012E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9012E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       674 -        0 (killed) +      273 (dep) =      947 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.0826025E-02  2.7659421E-01  2.6935481E+08  8.2862607E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          848
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9096E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9096E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       697 -        0 (killed) +      277 (dep) =      974 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.0486377E-01  1.6854040E+00  1.9527542E+08  8.1648944E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          849
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9180E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9180E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       712 -        0 (killed) +      277 (dep) =      989 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3544569E-01  2.6231732E+00  1.4022687E+08  7.1194413E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          850
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9264E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9264E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       679 -        0 (killed) +      273 (dep) =      952 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.3304516E-01  3.9280034E-01  1.7294507E+08  4.5851187E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          851
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9278E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9278E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       673 -        0 (killed) +      272 (dep) =      945 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.2036660E-01 -9.1115660E-02  1.8065681E+08  3.0140294E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          852
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9291E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9291E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       619 -        0 (killed) +      274 (dep) =      893 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7081789E-01  1.0489290E+00  1.6054970E+08  1.0542166E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          853
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9305E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9305E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       660 -        0 (killed) +      272 (dep) =      932 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1717069E-01  2.1033873E+00  1.7820350E+08  8.7238160E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          854
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9318E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9318E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       683 -        0 (killed) +      271 (dep) =      954 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.5949595E-01 -2.7194969E+00  1.4301416E+08  4.4121967E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          855
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9327E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9327E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       675 -        0 (killed) +      272 (dep) =      947 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9818516E-01 -3.0150247E+00  2.5885236E+08  8.6807835E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          856
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9336E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9336E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       676 -        0 (killed) +      270 (dep) =      946 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4799335E-01 -7.6218385E-01  1.4778139E+08  6.5772011E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          857
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9333E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9333E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       669 -        0 (killed) +      272 (dep) =      941 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.7341913E-01 -2.7425027E+00  2.3366544E+08  1.5101224E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          858
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9330E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9330E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       666 -        0 (killed) +      276 (dep) =      942 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.3052572E-01  2.5751974E+00  2.7149947E+08 -2.4330211E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          859
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9327E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9327E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       683 -        0 (killed) +      277 (dep) =      960 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     7.1443031E-01  9.4973615E-01  1.5635414E+08 -7.7924780E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          860
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9323E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9323E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       680 -        0 (killed) +      272 (dep) =      952 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1641491E-01  2.9481912E+00  1.6555670E+08  9.2882043E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          861
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9306E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9306E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       646 -        0 (killed) +      274 (dep) =      920 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0427204E-01 -1.2040933E+00  2.8388134E+08  4.1330111E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          862
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9289E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9289E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       673 -        0 (killed) +      272 (dep) =      945 ptcls.
  depall exited            0
  orball... 
 %orball:  in processor     0: orbit # iorb=       265 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     6.4676043E-01  1.3526899E+00  1.5096499E+08  2.0635665E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          863
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9272E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9272E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       690 -        0 (killed) +      272 (dep) =      962 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.0663156E-01 -8.6556174E-01  1.7712795E+08  5.6564842E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          864
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9255E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9255E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       709 -        0 (killed) +      271 (dep) =      980 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.980710E+08  1.972977E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     3.3631619E-01 -1.7363482E+00  2.1231968E+08  6.3100562E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          865
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9235E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9235E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       696 -        0 (killed) +      274 (dep) =      970 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   1.613160E+08  1.610881E+08
  specie  xi             th             v              vpll/v     "last ion":
   1     4.8501029E-01  1.5421640E+00  2.6488868E+08  6.7548894E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          866
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9216E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9216E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       666 -        0 (killed) +      272 (dep) =      938 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3793965E-01  1.3078360E+00  1.3384192E+08 -1.8575467E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          867
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9190E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9190E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       659 -        0 (killed) +      275 (dep) =      934 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.1137127E-01  1.1631299E+00  2.7351084E+08  7.2970105E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          868
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9164E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9164E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       662 -        0 (killed) +      278 (dep) =      940 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7497537E-01 -5.7593922E-01  2.6596657E+08  1.7624927E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          869
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9137E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9137E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       657 -        0 (killed) +      276 (dep) =      933 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.6975904E-01  2.6976660E+00  1.9668921E+08  7.8935595E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          870
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9111E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9111E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       665 -        0 (killed) +      271 (dep) =      936 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4745417E-01  3.0014449E+00  2.7306140E+08  8.4465736E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          871
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9102E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9102E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       681 -        0 (killed) +      269 (dep) =      950 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.8865665E-01 -1.0478863E+00  2.6876158E+08  6.4403655E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          872
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9093E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9093E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       640 -        0 (killed) +      272 (dep) =      912 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.6589353E-01 -5.3893302E-01  2.5248694E+08  4.5592545E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          873
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9083E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9083E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       660 -        0 (killed) +      268 (dep) =      928 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.6496535E-01  2.8317840E+00  1.5398578E+08  7.9393652E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          874
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9074E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9074E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      268 (dep) =      940 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5694315E-01 -7.9138708E-01  1.6823468E+08  3.4100529E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          875
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9064E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9064E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       677 -        0 (killed) +      267 (dep) =      944 ptcls.
  depall exited            0
  orball... 
 %cxline - vtor.gt.vion; vtor,vion =   2.791998E+08  2.789751E+08
 %orball:  in processor     0: orbit # iorb=       998 never inside plasma.
  specie  xi             th             v              vpll/v     "last ion":
   1     3.0772269E-01  1.9971103E+00  1.5430040E+08  7.7301903E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          876
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9054E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9054E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      267 (dep) =      939 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.4214652E-01  2.1723908E-01  1.8800094E+08  7.3934834E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          877
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9043E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9043E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       664 -        0 (killed) +      268 (dep) =      932 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.5625225E-01  2.3766994E-01  1.4993187E+08  7.0613946E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          878
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9032E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9032E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       680 -        0 (killed) +      278 (dep) =      958 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4308096E-01  2.2095619E-02  2.7160969E+08  6.5046396E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_nbi_fld_
 state.cdf
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          879
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9020E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9020E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       694 -        0 (killed) +      278 (dep) =      972 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8879609E-01 -2.7259463E-01  2.5485852E+08  4.5687704E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          880
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9009E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9009E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       695 -        0 (killed) +      273 (dep) =      968 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.8210623E-01 -3.1243892E-01  1.4449384E+08 -2.3775930E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          881
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9042E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9042E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       685 -        0 (killed) +      269 (dep) =      954 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.9541719E-01  1.3203972E+00  2.6931787E+08 -3.3906181E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          882
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9076E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9076E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       659 -        0 (killed) +      268 (dep) =      927 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7020999E-01 -3.8152171E-01  1.8279901E+08  1.1393355E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          883
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9109E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9109E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       682 -        0 (killed) +      268 (dep) =      950 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9804773E-01  2.6053355E+00  2.7791109E+08  9.3697465E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          884
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9142E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9142E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       672 -        0 (killed) +      268 (dep) =      940 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.8392629E-01  2.0061257E+00  1.5183593E+08 -1.1962109E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          885
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9164E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9164E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       665 -        0 (killed) +      270 (dep) =      935 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.9056267E-02 -1.0316660E+00  2.3430646E+08  6.3661574E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          886
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9187E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9187E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       686 -        0 (killed) +      270 (dep) =      956 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.7753042E-01 -1.0435888E+00  1.8898544E+08 -2.2007467E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          887
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9178E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9178E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       669 -        0 (killed) +      269 (dep) =      938 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.4632290E-01  1.7027370E+00  1.8994524E+08  2.0137079E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          888
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9169E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9169E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       670 -        0 (killed) +      274 (dep) =      944 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.2168344E-01  3.5064882E-02  2.6673444E+08  5.7658015E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          889
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9159E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9159E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       692 -        0 (killed) +      274 (dep) =      966 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.4305160E-01  2.8357878E+00  1.7655794E+08  5.0425710E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          890
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9150E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9150E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       678 -        0 (killed) +      270 (dep) =      948 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.5503420E-01 -3.0587164E+00  1.6602689E+08  4.8018895E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          891
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9077E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9077E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       684 -        0 (killed) +      270 (dep) =      954 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.7840586E-01  3.2533781E-01  1.4873500E+08 -1.8142986E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          892
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.9004E+20
    nbi_getprofiles ne*dvol sum (ions):  6.9004E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       661 -        0 (killed) +      268 (dep) =      929 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3627728E-01 -5.3161690E-01  2.6636553E+08  9.8910304E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          893
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8931E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8931E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       689 -        0 (killed) +      269 (dep) =      958 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.3661600E-01  8.8205802E-01  1.5674913E+08  3.5966671E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          894
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8858E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8858E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       670 -        0 (killed) +      271 (dep) =      941 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.0335883E-01  2.7188978E+00  2.4992620E+08  2.9461617E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          895
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8792E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8792E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       688 -        0 (killed) +      271 (dep) =      959 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     2.3633738E-01 -2.1602862E+00  1.2426172E+08 -7.0830748E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          896
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8726E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8726E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       666 -        0 (killed) +      269 (dep) =      935 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     9.6716923E-01 -6.9803842E-02  1.8505022E+08  1.0252552E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          897
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8682E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8682E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       686 -        0 (killed) +      271 (dep) =      957 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     4.9096826E-01 -2.5114114E-01  2.8261932E+08  6.2113873E-02
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          898
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8638E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8638E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       701 -        0 (killed) +      275 (dep) =      976 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     5.6043362E-01 -2.2577980E+00  1.7795965E+08 -3.1601015E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          899
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8594E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8594E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       695 -        0 (killed) +      275 (dep) =      970 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.2766668E-01 -1.9163869E+00  2.3527089E+08  3.4600655E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          900
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8550E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8550E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       682 -        0 (killed) +      271 (dep) =      953 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     8.5220906E-01 -5.3564481E-01  2.6912362E+08  4.4140580E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          901
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8536E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8536E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       685 -        0 (killed) +      270 (dep) =      955 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     3.4817900E-01  1.9329031E+00  1.2333876E+08 -2.3580280E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          902
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8521E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8521E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       705 -        0 (killed) +      271 (dep) =      976 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     6.1090007E-01  2.8551319E+00  1.3627183E+08  5.7769896E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
  %nubeam_step ++++++++ nltrk_dep0 F
  %nubeam_step ++++++++ nlbout (lost ptcl.) F
  %nubeam_step ++++++++ nbsteps          903
  ==> entering nubeam_step_child, mpi myidd =            0
  nbi_interp_profiles... 
    nbi_getprofiles ne*dvol sum (input): 6.8506E+20
    nbi_getprofiles ne*dvol sum (ions):  6.8506E+20
  nbstart... 
  % nbi_states: fld_states write OK to filename: 198927D05_fi/198927D05_debug_nb
 i_fld_state.cdf
  %nbatom deposition model: lev_nbidep=           2
  %nbatom deposition model: nsigexc=           3
  depall... 
 %depall specie #1  ->       700 -        0 (killed) +      269 (dep) =      969 ptcls.
  depall exited            0
  orball... 
  specie  xi             th             v              vpll/v     "last ion":
   1     1.7283399E-01 -2.3910001E+00  2.8916091E+08  5.5108963E-01
  orball exited            0
  nbfinish... 
 entering outptb2
 exited outptb2
 entering nbo_load
 exit nbo_load
  exit nbfinish... 
  ==> exiting nubeam_step_child, mpi myidd =            0
  nubeam_load_state... 
  nubeam_step: levmod_halo=            0
==>runtrx:  TRANSP run successful
==========(runtrx)======================
==========TRANSP output conversion======
date:  Thu Jun 19 14:14:35 EDT 2025 ( mccune019.pppl.gov )
==========(runtrx)======================
 srart tr_finish_mpi.pl false pppl.gov 198927D05 D3D 
---------------> starting:  plotcon 198927D05 2025/06/19:14:14:35
 %PoPlot -- reading .PLN files

 %POPLT2-- PROCESSING RUN 198927D05  SHOT NO. 198927
  EXPECT   705 SCALAR FCNS,  1523 PROFILE FCNS OF TIME
  "MF" FILE RECORD SIZE = 100 WORDS (FLOATING PT)
  dmg_datbuf_expand call from dmgini_sized: isize=           0
198927D05MF.PLN size = 1.2G
setenv NF_64BIT
 [mds_cache_disable:  MDS+ cache disabled.]
  dmg_datbuf_expand call from dmgini_sized: isize=           0
 (retry folding filename to lowercase)
  ...reading TF.PLN header data...
cdfcon: NETcdf file datestamp : Thu Jun 19 14:17:21 2025
 build_date: call getenv
 build_date: call ufopen xshare_build.dat
cdfcon: Transp common build date : Fri May  3 15:19:16 EDT 
  
 Define Dimensions          11
  
 define Scalar Fct         705
  
 Define Multi Graphs         664
  
 Write Profiles        1523
 X                               1           1         100
 XB                              2           2         100
 THETA                           3           7          80
 RMJSYM                          4          20         405
 RMAJM                           5          22         201
 MCINDX                          6          23         220
 ILIM                            7          25          82
 RGRID                           8         889          51
 ZGRID                           9         890          51
 PSIRZ                          10         891        2601
 %dmgxot_spredm:  non-monotonic X axis:
  #increasing steps:  230511 avg & max steps:   5.6816E-03  1.7386E-02
  #decreasing steps:  341472 avg & max steps:   3.8354E-03  8.8264E-03
  #zero steps:        605817
 B_FIELD                        11         892        7803
 %dmgxot_spredm:  non-monotonic X axis:
  #increasing steps:  386419 avg & max steps:   1.1392E-01  2.7391E+00
  #decreasing steps: 1949273 avg & max steps:   2.2584E-02  1.1852E+00
  #zero steps:       1198614
  
 read NF File :         706         705
  
 Write Multigraph:         664
  ...readback test of .CDF file...
        2894  variables,          13  dimensions          15  att
  ...header check SUCCESSFUL; now check data.
  ...check profile data...
plotcon:  CDF files in  /local/tr_gdegrand/transp_compute/D3D/198927D05 
/local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05.CDF
/local/tr_gdegrand/transp_compute/D3D/198927D05/198927D05PH.CDF
 %targz_pseq: no directory: 198927D05_replay (normal exit) 
 %targz_solv: in /local/tr_gdegrand/transp_compute/D3D/198927D05 on host mccune019
 %targz_solv: no TGLF debug info found (normal exit) 
 %targz_solv: no TGLF debug info found (normal exit) 
--------------->plotcon:  normal exit. 2025/06/19:14:17:43
==>runtrx:  TRANSP postprocessing OK
==========(runtrx)======================
==========TRANSP add to MDSplus ========
date:  Thu Jun 19 14:17:43 EDT 2025 ( mccune019.pppl.gov )
==========(runtrx)======================
 %mdsplot: call INITPL
 %mdsplot: call getenv
 %mdsplot: call ufopen xshare_build.dat
 %mdsplot:  MDSplus controls cleared, server set to local.
 mds_conopn: option =           4  1989270405  TRANSP
  ...connecting to server:  ATLAS.GAT.COM
 ...tcl("EDIT TRANSP/SHOT=1989270405")
  dmg_datbuf_expand call from dmgini_sized: isize=           0
  ... reading NetCDF header data ...
  cdfhrd: size(time) =         2048
  cdfhrd: size(time3) =         2048
 %mdsplot:  no tok.yy label: D3D 198927D05                 
 %mdsplot:  tokamak taken as:  D3D 
  MDS 1D Put OK
  MDS 2D Put OK
  MDS MG Put OK
 open 
 198927D05_nubeam_init.dat                                                      
                                                                                
                                                                                
    
  add_file:          128  lines -          80
 tcl("write")
 ...mdsplot:  normal exit.
==========(runtrx)======================
==========TRANSP finish and cleanup=====
date:  Thu Jun 19 14:33:26 EDT 2025 ( mccune019.pppl.gov )
==========(runtrx)======================
%finishup -I- pppl.gov production run
%finishup:  copying TRANSP permanent output files to /u/tr_gdegrand/transp/result/D3D.20
acsort.py: No match.
tar 198927D05CC.TMP
mv 198927D05CC.TMP /u/tr_gdegrand/transp/result/D3D.20/198927D05CC.TMP
tar 198927D05.CDF
mv 198927D05.CDF /u/tr_gdegrand/transp/result/D3D.20/198927D05.CDF
tar 198927D05_D3D.REQUEST
mv 198927D05_D3D.REQUEST /u/tr_gdegrand/transp/result/D3D.20/198927D05_D3D.REQUEST
tar 198927D05ex.for
mv 198927D05ex.for /u/tr_gdegrand/transp/result/D3D.20/198927D05ex.for
tar 198927D05_genray_lhh.in
mv 198927D05_genray_lhh.in /u/tr_gdegrand/transp/result/D3D.20/198927D05_genray_lhh.in
tar 198927D05_nubeam_init.dat
mv 198927D05_nubeam_init.dat /u/tr_gdegrand/transp/result/D3D.20/198927D05_nubeam_init.dat
tar 198927D05PH.CDF
mv 198927D05PH.CDF /u/tr_gdegrand/transp/result/D3D.20/198927D05PH.CDF
tar 198927D05TR.DAT
mv 198927D05TR.DAT /u/tr_gdegrand/transp/result/D3D.20/198927D05TR.DAT
tar 198927D05TR.INF
mv 198927D05TR.INF /u/tr_gdegrand/transp/result/D3D.20/198927D05TR.INF
%finishup:  retaining 198927D05tr.log
tar 198927D05TR.MSG
mv 198927D05TR.MSG /u/tr_gdegrand/transp/result/D3D.20/198927D05TR.MSG
tar 198927D05.yml
mv 198927D05.yml /u/tr_gdegrand/transp/result/D3D.20/198927D05.yml
rm: No match.
%finishup: cp -f /local/tr_gdegrand/transp_tmp/D3D.20_198927D05.tar.gz /u/tr_gdegrand/transp/result/D3D.20/D3D.20_198927D05.tar.gz
%finishup: wrote /u/tr_gdegrand/transp/result/D3D.20/D3D.20_198927D05.FILESREADY
==========(runtrx)======================
==========>runtrx normal exit<==========
date:  Thu Jun 19 14:34:59 EDT 2025 ( mccune019.pppl.gov )
==========>runtrx runsite = pppl.gov<======